Difference between revisions of "Timeline of endocrinology"

Latest revision as of 09:00, 5 June 2021

This is a timeline of endocrinology, the branch of biology and medicine concerned with endocrine glands and hormones.

Big picture

Time period	Development summary
19th century	The field of endocrinology begins to be studied late in the century, when the concept of chemical messengers that exert systemic effects throughout the entire body is initially introduced.^[1]
20th century	The 1910s and 1920s are considered the era of purification of hormones. The 1930s is the era of steroid hormone discovery, the 1940s is the era of endocrine disease, description and therapeutic advances, the 1950s is the era of synthetic hormone production, the 1960s and 1970s is the era of releasing hormones and hormone receptor signaling pathways, 1980s is the era of peptide hormone gene cloning and advent of recombinant hormone therapy, the 1990s is the era of hormone and soluble factor production by many tissues.^[2]
21st century	The 2000s is the era of genetics and endocrine physiology and disease, the 2010s is the era of integration of endocrine physiology and pathophysiology.^[2]

Numerical and visual data

Google Scholar

The following table summarizes per-year mentions on Google Scholar as of May 27, 2021.

Year	endocrinology	clinical endocrinology	reproductive endocrinology	pediatric endocrinology	endocrinology diabetes
1980	19,800	9,060	2,680	735	5,060
1985	23,900	11,600	3,560	1,380	6,030
1990	30,700	13,500	4,420	1,530	6,710
1995	43,200	18,900	5,640	2,130	10,100
2000	86,600	42,900	9,240	4,510	19,100
2002	91,800	51,100	10,700	5,290	22,300
2004	105,000	64,400	12,300	6,880	29,600
2006	118,000	69,200	13,700	8,100	32,100
2008	123,000	75,500	15,500	9,570	40,100
2010	130,000	80,000	17,000	10,900	47,900
2012	165,000	106,000	21,800	14,500	69,100
2014	142,000	97,900	23,100	14,100	70,000
2016	117,000	77,500	23,100	16,800	58,500
2017	93,700	68,100	23,600	16,900	58,100
2018	78,800	63,000	25,000	18,400	53,800
2019	70,500	54,100	24,400	19,400	47,200
2020	57,900	47,500	26,200	19,400	37,700

Google Trends

The comparative chart below shows Google Trends data for Endocrinology (Branch of medicine) and Endocrinology (Search term), from January 2004 to February 2021, when the screenshot was taken. Interest is also ranked by country and displayed on world map.^[3]

Google Ngram Viewer

The chart below shows Google Ngram Viewer data for Endocrinology, from 1800 to 2019.^[4]

Wikipedia Views

The chart below shows pageviews of the English Wikipedia article Endocrinology, on desktop, mobile-web, desktop-spider, mobile-web-spider and mobile app, from July 2015 to January 2021.^[5]

Full timeline

Year	Event type	Details	Location
4th century BC	Scientific development	The Ayur Veda of Susruta describes "sugarcream" urine which attracts ants.^[6]	India
30 BC–50 AD	Scientific development	Greek philosopher Celsus describes polyuria.^[6]
1563	Scientific development	Italian anatomist Bartolomeo Eustachi publishes his Opuscula Anatomica, which contains the first description of the adrenal glands, labeled “glandulae quae renibus incumbent”.^[7]	Italy
1567	Medical development	Dutch physician Johannes Wier publishes the first attempt at a medical description of the pituitary disorder.^[8]
1586–1588	Scientific development	Piccolomineus and Bauhin mention the suprarenal glands.^[6]
1621–1675	Scientific development	English doctor Thomas Willis observes the sweetness of diabetic urine which has a honied taste.^[6]^[9]^[10]	United Kingdom
1627	Scientific development	Flemish anatomist Adriaan van den Spiegel talks of the capsulae renales.^[6]
1651	Scientific development	Highmore suggests that the suprarenals have an absorbent function of exudates from the large vessels.^[6]
1742	Scientific development	French doctor Joseph Lieutaud discovers the pituitary-portal blood system, known today as the hypothalamo-hypophysial axis.^[8]
1805	Scientific development	French naturalist Georges Cuvier defines medulla and cortex of the adrenal gland.^[6]	France
1838	Scientific development	German anatomist Martin Rathke becomes the first to describe the formation of the pituitary gland itself.^[8] Rathke describes the human hypophysis cerebri as being derived from two parts: an ectodermal dorsal invagination of the oral epithelium, which becomes the adenohypophysis, and a ventral process arising from the floor of the diencephalon, constituting the neurohypophysis or posterior pituitary gland.^[11]	Germany
1838	Scientific development	Scottish physician Robert Willis describes several forms of DI ("hydruria", "anazoturia", and "azoturia") according to associated excretion of urea.
1855	Scientific development	English physician Thomas Addison talks "On the constitutional and local effects of disease of the suprarenal capsules".^[6]^[12]	United Kingdom
1856	Scientific development	Mauritian physiologist Charles-Édouard Brown-Séquard proves in animal experiments that the adrenals are essential for the maintenance of life.^[6]
1856	Scientific development	French physician Alfred Vulpian introduces the staining method for adrenaline.^[6]	France
1865	Scientific development	French physiologist Claude Bernard publishes An Introduction to the Study of Experimental Medicine, which introduces the concept of milieu interieur (internal milieu) and the importance of endocrine systems in keeping this constant.^[2]	France
1885	Scientific development	Claude Bernard coins the term ‘internal secretion’, showing that the body can both break down and build up, complex chemical substances.^[13]	France
1894	Scientific development	English physiologist Edward Albert Sharpey-Schafer discovers and demonstrates the existence of adrenaline together with George Oliver, and he also coins the term "endocrine" for the secretions of the ductless glands. Schafer's method of artificial respiration is named after him.^[14]	United Kingdom
1895	Scientific development	Adrenaline becomes the first hormone to be isolated.^[13]
1896	Scientific development	Osler finds orally given adrenal extract temporarily effecive in the case of Addison's disease.^[6]
1901 – 1908	Scientific development	Schaefer and his team study the action of pituitary extract on the kidneys.^[6]
1901	Scientific development	Japanese chemist Takamine Jōkichi isolates adrenaline in crystalline form from the adrenal medulla.^[13]^[15]^[16]	Japan
1902	Scientific development	British physiologists Ernest Starling and William Bayliss isolate secretin, the first substance to be called a hormone.^[13]	United Kingdom
1902	Scientific development	Bayliss and Starling report on their discovery of "secretin" in the duodenum.^[6]
1902	Scientific development	Russian physiologist Ivan Pavlov develops a theory of nerve regulation of salivary and alimentary glands, and includes the regulation of the pancreas in his theory.^[13]	Russia
1904	Scientific development	Ernest Starling and William Bayliss develop the theory of hormonal control of internal secretion.^[13]	United Kingdom
1905	Medical development	William Bulloch and JH Sequeira describe patients with adrenogenital syndrome.^[6]
1905–1906	Scientific development	Edkin describes gastric secretin.^[6]
1906	Scientific development	Dale describes the oxytocic action of posterior pituitary extract.
1910	Scientific development	Hungarian pathologist Arthur Biedl shows that the adrenal cortex is essential for life. His classic work Innere Sekretion (Internal Secretions) shows the rapid development of the knowledge of endocrinology.^[13]
1912	Literature	Harvey Cushing publishes The Pituitary Body and its Disorders, showcasing the innovative operative techniques that would lead to odern surgical procedures to remove pituitary tumors.^[8]
1914	Scientific development	American biochemist Edward Calvin Kendall isolates thyroxine in crystalline form.^[2]	United States
1914	Scientific development	German physician Morris Simmonds describes pituitary cachexia (Simmonds' disease) due to infraction of the gland.^[17]^[18]	Germany
1915	Scientific development	American physiologist Walter Bradford Cannon shows the close connection between the endocrine glands and the emotions.^[13]
1915	Scientific development	Gaines demonstrates pituitary function in lactation.^[6]
1915	Scientific development	Keeton and Koch confirm the specific nature of gastrin.^[6]
1916	Scientific development	Erdheim describes pituitary dwarfism ("Nanosomia pituitaria").^[6]
1916	Organization	The Endocrine Society is founded. It is a professional, international medical organization in the field of endocrinology and metabolism.^[19]	United States
1917	Literature (journal)	Scientific journal Endocrinology is launched by the Endocrine Society.^[20]	United States
1919	Scientific development	Edward Calvin Kendall obtains pure thyroxine.^[21]
1920	Scientific development	American anatomist Herbert McLean Evans and Professor Joseph Long discover the human growth hormone.^[22]^[23]^[24]	United States
1921	Scientific development	Evans and Long show the effect of anterior lobe extract on the growth rate of rats.^[6]
1921	Scientific development	Frederick Banting and John Mcleod and Charles Best succeed in lowering the level of blood-sugar when using insulin to control the carbohydrate metabolism.^[13]
1923	Award	Canadian medical scientist Frederick Banting and John Mcleod are awarded the Nobel Prize in Physiology or Medicine "for the discovery of insulin.^[25]
1923	Organization	The American Thyroid Association is founded.^[26] It is a non-profit, all-volunteer professional organization with over 1,700 members from 43 countries around the world.^[27]	United States
1923	Medical development	American pharmaceutical Eli Lilly and Company introduces the first commercial insulin.^[28]	United States
1925	Scientific development	Canadian biochemist James Collip isolates parathyroid hormone and uses it in the treatment of tetany.^[2]
1926	Scientific development	British chemist Charles Harington successfully synthesizes thyroxine.^[2]^[29]^[30]	United Kingdom
1926	Scientific development	Foster and P.E. Smith find that atrophy of the thyroid and lowered BMR in hypophysectomized animals could be restored by using pituitary homoplastic implants.^[6] In the same year, Smith shows that hypophysectomy causes atrophy of the adrenals, which Evans prevents by administration of pituitary extracts.^[6]
1927	Scientific development	P.E. Smith and Engle demonstrate that gonadal activity is maintained by the anterior lobe of the pituitary.^[6]
1928	Scientific development	Israeli gynecologist Bernhard Zondek and German gynecologist Selmar Aschheim isolate the gonadotrophic hormones (prolan A and B) of the anterior pituitary.^[6]
1929	Scientific development	Walter Bradford Cannon coins the term "homeostasis" for "same" and "steady". This important concept highlights the critical role of negative feedback in governing endocrine physiology.^[2]
1929	Scientific development	Putnam, Benedict and Teel produce experimental acromegaly in dogs by anterior lobe extract injection.^[6]
1929	Scientific development	Stricker and Grueter discover prolactin.^[6]
1929	Scientific development	Carl Ferdinand Cori and Gerty Cori propose the theory of the Cori Cycle, which refers to the phases in the metabolism of carbohydrates in which muscles convert glycogen to lactic acid.^[2]
1929	Scientific development	Adolf Butenandt and American biochemist Edward Adelbert Doisy isolate estrone simultaneously but independently.^[31]^[32]^[33]^[34]	Germany, United States
1929	Scientific development	Aron and, independently, Loeb and Basset describe the action of thyroid-stimulating hormone of the anterior pituitary.^[6]
1930	Scientific development	Argentine physiologist Bernardo Houssay proves the diabetogenic effect of extracts from the anterior lobe of the pituitary gland.^[2] Houssay and Biasotti succeed in removing the pancreas in the hypophysectomized dog.^[6]	Argentina
1930	Medical development	Rowntree and Greene successfully treat a patient with Addison's disease with Swingle and Pfiffner's extract.^[6]
1931	Scientific development	German biochemist Adolf Butenandt isolates the androgenic steroid androsterone.^[35]	Germany
1932	Scientific development	Cushing connects the "polyglandular syndrome" of pituitary basophilism with pituitary-adrenal hyperactivity.^[6]
1932	Scientific development	Anderson and Collip describe the thyrotrophic hormone (TSH) of the anterior pituitary.^[6]
1933	Medical development	Loeb treats the abnormal serum electrolytes in Addison's disease with sodium chloride.^[6]
1933	Scientific development	American biologist Oscar Riddle and colleagues identify and isolate the pituitary hormone prolactin.^[36]^[37]^[38]	United States
1933	Scientific development	Collip and his team isolate an impure "adrenotropic hormone".^[6]
1934	Scientific development	American endocrinologist Fuller Albright suggests a relationship between chronic renal disease and hyperparathyroidism (PHPT), in which an intrinsic abnormality of the parathyroid glands leads to overproduction of parathyroid hormone (PTH).^[39] In the following years, Albright would describe the biochemistry of primary hyperparathyroidism and kidney stones as one of the important diagnostic features.^[6]^[40]	United States
1934	Scientific development	Butenandt isolates progesterone from the corpus luteum.^[2]
1935	Scientific development	Dutch biochemist Ernst Laqueur in Amsterdam isolates testosterone, and determines its chemical structure.^[41]^[42]^[43]^[35]	Netherlands
1935	Scientific development	American chemist Edward Calvin Kendall first isolates Compound E (later renamed cortisone) from bovine adrenal glands along with a series of structurally related steroids (including cortisol, then named compound F) capable of improving muscular strength when administered to adrenalectomised rats or dogs.^[2]	United States
1935–1953	Scientific development	Austrian pathologist Friedrich Feyrter in Danzig describes the pheriferal paracrine endocrine glands in man. Feyrter is often described as the "Father of Neuroendocrinology".^[44]
1936	Scientific development	Hungarian-Canadian endocrinologist Hans Selye introduces the concept of stress.^[6]
1936	Scientific development	Evans and his group isolate the interstitial cell stimulating hormone (ICSH).^[6]
1937	Scientific development	Croatian-Swiss scientist Leopold Ružička, German biochemist Adolf Butenandt and Gunicr Hanisch synthesize testosterone from cholesterol.^[41]^[45]
1937	Scientific development	F.G. Young describes the diabetogenic hormone.^[6]
1937	Scientific development	Lambie and Trikojus obtain purified thyroid-stimulating hormone.^[46]^[47]^[48]^[49]
1939	Award	The Nobel Prize in Chemistry is divided equally between Adolf Butenandt "for his work on sex hormones" and Leopold Ružička "for his work on polymethylenes and higher terpenes.
1939	Scientific development	Sheehan in Liverpool describes panhypopituitarism caused by pituitary necrosis after post-partum hemorrhage.^[6]
1940	Scientific development	Choh Hao Li isolates luteinizing hormone (LH).^[6]
1941	Literature (journal)	The Journal of Clinical Endocrinology is launched.^[50]
1942	Scientific development	American endocrinologist Harry Klinefelter, Fuller Albright and Edward C. Reifenstein describe the later called Klinefelter syndrome in their article, Syndrome Characterized by Gynecomastia, Aspermatogenesis without A-Leydigism, and Increased Excretion of Follicle- Stimulating Hormone.^[51]^[52]^[53]	United States
1942	Scientific development	Li and Sayers isolate the adrenocorticotropic hormone (ACTH).^[6]
1943	Scientific development	Choh Hao Li and Evans isolate pure adrenocorticotrophic hormone (ACTH) from sheep pituitaries.^[6]
1943	Medical development	Bermudian-American endocrinologist Edwin B. Astwood uses thiourea and thiouracil in the medical treatment of Grave's disease.^[2]
1943	Scientific development	Sayers isolate ACTH from swine pituitaries.^[6]
1946	Scientific development	Hans Selye describes the general adaptation syndrome.^[6]
1946	Organization	The Society for Endocrinology is founded. It is an international membership organization, supporting scientists, clinicians and nurses who work with hormones throughout their careers.^[54]	United Kingdom
1947	Award	The Nobel Prize in Physiology or Medicine is awarded to American biochemists Carl and Gerty Cori "for their discovery of the course of the catalytic conversion of glycogen", and to Argentine biochemist Bernardo Houssay "for his discovery of the part played by the hormone of the anterior pituitary lobe in the metabolism of sugar."^[55]
1948	Scientific development	Hench and his colleagues discover the antiinflamatory effect of cortisone (Kendall's compound-E).^[6]
1949	Scientific development	Choh Hao Li and Evans isolate follicle stimulating hormone (FSH).^[6]
1949	Scientific development	Edward Calvin Kendall discovers that cortisone could relieve symptoms of rheumatoid arthritis.^[13]
1950	Award	Edward Calvin Kendall, Polish-Swiss chemist Tadeus Reichstein and American physician Philip Showalter Hench are awarded the Nobel Prize in Physiology or Medicine "for their discoveries relating to the hormones of the adrenal cortex, their structure and biological effects."^[56]	Sweden
1950	Scientific development	American pediatric endocrinologist Lawson Wilkins reports the first documented demonstration of the pathophysiology of androgen insensitivity syndrome by administration of methyltestosterone to a 46, XY female patient, who shows no signs of virilization.^[2]	United States
1951	Scientific development	Bulgarian-American chemist Carl Djerassi develops the first oral progestin, norethindrone, at Syntex, SA Laboratories located in Mexico City. The synthesis of norenindrone is a factor leading to the development of oral contraceptives.^[2]	Mexico
1951	Literature	L'Hermite publishes Le Cerveau et la Pensée, stressing the regulation of mental life by the hormones.^[6]
1953	Scientific development	American biochemist Vincent du Vigneaud synthesizes the first peptide hormone (oxytocin).^[57]^[58]^[59]	United States
1955	Award	Vincent du Vigneaud is awarded the Nobel Prize in Chemistry "for his work on biochemically important sulphur compounds, especially for the first synthesis of a polypeptide hormone"."^[2]	Sweden
1955	Scientific development	E. Knobil and Roy O. Greep show that growth hormone extracts from monkeys are active in man and are species-specific.^[60]^[61]
1955	Scientific development	American surgeon Robert Milton Zollinger and E. H. Ellison describe the later called Zollinger–Ellison syndrome.^[62]
1956	Scientific development	Swiss clinical immunologist Deborah Doniach and British immunologist Ivan Roitt find that patients with Hashimoto's thyroiditiss have circulating autoantibodies reacting to thyroid self antigens.^[2]
1956	Scientific development	Adams and Purves recognize that patients with Graves’ disease have a serum factor defined as long-acting thyroid stimulator (LATS), later found to be an immunoglobulin G binding to the thyroid-stimulating hormone receptor.^[2]
1956	Scientific development	Noel R. Rose and Ernst Witebsky demonstrate that a lymphocytic thyroiditis similar to the spontaneous human disease can be induced in animals by immunization with autologous thyroid extracts in Freund adjuvant. This would lead to the general concept of autoimmune gland failure.^[63]^[64]^[65]^[66]
1956	Scientific development	Cohn describes primary aldosteronism.^[6]
1957	Scientific development	Maurice S. Raben develops a method for the extraction of human growth hormone grom the pituitaries of cadavers.^[6]
1958	Medical development	American medical researcher Elwood V. Jensen discovers the estrogen receptor, the first receptor found for any hormone. Using a radioactive marker, Jensen shows that only the tissues that respond to estrogen, such as those of the female reproductive tract, are able to concentrate injected estrogen from the blood. This specific uptake suggests that these cells must contain binding proteins, which Jensen calls “estrogen receptors.”^[2]
1958	Award	Frederick Sanger recieves the Nobel Prize in Chemistry "for his work on the structure of proteins, especially that of insulin".	Sweden
1958	Scientific development	John V. Verner and Ashton B. Morrison describe the watery diarrhoea hypokalaemic achlorhydric syndrome.^[67]^[68]^[69]^[70]
1958	Medical development	Gross suggests angiotensin to control aldosterone secretion.^[6]
1959	Scientific development	Liddle and his group develop the metyrapone test for pituitary reserve.^[6]
1959	Scientific development	Rasmussen and Craig isolate the parathyroid hormone and define its structure as a polypeptide hormone.^[6]
1961	Scientific development	Choh Hao Li, Dixon and Chung describe the amino acid sequence of bovine adrenocorticopin.^[6]
1963	Scientific development	Glick, Roth, Berson and Yallow describe a radioimmunological assay (RIA) method for the measurement of human GH.^[6]
1963	Scientific development	Hirsch finds calcitonin in the mammal thyroid.^[6]
1964	Award	British chemist Dorothy Hodgkin is awarded the Nobel Prize in Chemistry "for her determinations by X-ray techniques of the structures of important biochemical substances". Hodgkin's most significant scientific contributions are the determination of the structures of penicillin, insulin, and vitamin B12.^[2]	Sweden
1965	Organization	The European Society for Paediatric Endocrinology (ESPE) is founded in Copenhagen.^[71]	Denmark
1965	Scientific development	Tenenhouse finds that the hypocalcaemic factor (calcitonin) is a polypeptide hormone.^[6]
1966	Scientific development	Schwyzer and Sieber synthesize beta-corticotrophim.^[6]
1966	Scientific development	British physiologist Roderic Alfred Gregory isolates gastrin and defines its structure.^[6]
1966	Award	Canadian-American physician Charles Brenton Huggins is awarded the Nobel Prize in Physiology or Medicine "for his discoveries concerning hormonal treatment of prostatic cancer".^[2]	Sweden
1967	Scientific development	Immunological methods are introduced for the estimation of serum calcitonin.^[6]
1969	Scientific development	Group led by French-born American neuroscientist Roger Guillemin and another by American endocrinologist Andrew Schally announce that the hypothalamic substance that causes the anterior pituitary gland to release thyrotropin (thyroid-stimulating hormone, TSH) is L-pyroglutamyL-L-histidyl-L-prolineamide (L-pGlu-L-His-L-ProNH2). This tripeptide is now called thyrotropin-releasing hormone.^[2]
1969	Scientific development	A. G. Everson Pearse introduces the amine uptake and peptide hormone secretion (APUD) concept.^[6]
1970	Scientific development	Lewis E. Braverman, Sidney H. Ingbar, and Kenneth Sterling demonstrate T4 to T3 conversion in periphery.^[2]
1970	Award	Argentine physician Luis Federico Leloir is awarded the Nobel Prize in Chemistry "for his discovery of sugar nucleotides and their role in the biosynthesis of carbohydrates."^[2]	Sweden
1970	Scientific development	Mitchell and colleagues introduce the glucagon stimulation test to detect Growth hormone deficiency.^[6]
1971	Award	American pharmacologist Earl Wilbur Sutherland Jr. is awarded the Nobel Prize n Physiology or Medicine for his discoveries concerning "the mechanisms of the action of hormones".	Sweden
1971	Scientific development	Hughes, Kosterlitz and colleagues determine the structure of the thyroid-stimulating hormone.^[6]
1971–1975	Scientific development	Hughes, Kosterlitz and colleagues identify the pentapeptides from the brain to posses potent opiate agonist activity.^[6]
1971–1979	Scientific development	Present day ideas on the mechanism of hormonal action are formulated.^[6]
1972-1978	Medical development	Screening begins for neonatal congenital hypothyroidism in the United States, Canada, England, Japan and some other countries. In most cases of congenital hypothyroidism, problems with the thyroid start in the womb.^[2]	United States, Canada, England, Japan
1975	Scientific development	A.F. Bradbury, D.G. Smyth and C.R. Snell isolate beta-endorphin and describe its structure.^[6]
1977	Award	Roger Guillemin and Andrew V. Schally share half of the Nobel Prize in Physiology or Medicine "for their discoveries concerning the peptide hormone production of the brain" with the other half awarded to Rosalyn Yalow "for the development of radioimmunoassays of peptide hormones."^[72]	Sweden
1978	Medical development	Louise Brown becomes the world’s first test tube baby. After numerous attempts to impregnate her mother, British medical researcher Robert Edwards and British gynecologist Patrick Steptoe tried fertilizing her eggs in a Petri dish before implanting a two-and-a-half-day-old embryo.^[73]	United Kingdom
1978	Scientific development	German neuropharmacologist Wilhelm Siegmund Feldberg reports on the pharmacology of the central actions of endorphins.^[6]
1979	Organization	The Max Planck Institute of Experimental Endocrinology is founded.
1980	Literature (book)	"First published in 1980, Endocrine Reviews is an enduring and high impact factor resource. Comprehensive reviews cover clinical and research topics, including thyroid disorders, pediatric endocrinology, growth factors, and reproductive medicine. Each issue provides translational and basic research articles with knowledge, understanding, and perspective in diabetes, endocrinology, and metabolism."^[2]
1982	Award	Sune Bergström, Bengt I. Samuelsson and John Vane share the Nobel Prize in Physiology or Medicine "for their discoveries concerning prostaglandins and related biologically active substances".^[74]	Sweden
1986	Award	American biochemist Stanley Cohen and Italian neurobiologist Rita Levi-Montalcini are awarded the Nobel Prize in Physiology or Medicine "for their discoveries of growth factors". The nerve growth factor and epidermal growth factor are the first of many growth-regulating signal substances to be discovered and characterized.^[2]	Sweden
1987	Literature (journal)	Peer-reviewed journal Molecular Endocrinology is first issued.^[75]
1987	Scientific development	William I. Wood clones the growth hormone receptor.^[2]
1988	Scientific development	Theo Colborn's research on the state of the environment of the Great Lakes reveals that top predator female birds, fish, mammals, and reptiles transfer persistent, man-made chemicals to their offspring, which undermines the development and programming of their youngsters’ organs before they are born or hatched.^[2]
1990	Scientific development	English physician David Barker proposes the concept later called Barker Hypothesis, suggesting that in utero environmental conditions, such as undernutrition, can permanently alter metabolism and other functions in ways that dramatically affect health later in life and cause e.g., heart disease. This concept would be expanded to include chemical exposures such as EDCs and is called the Developmental Origins of Adult Health and Disease (DOHaD).^[2]
1991	Scientific development	The term “Endocrine Disruption” is first used.^[2]
1992	Scientific development	Polychlorinated Biphenyls (PCBs) are shown to affect cognitive function in children. Jacobson et. al., link PCB exposure to impairment in cognitive functioning and show that impairments are predominantly due to developmental, intrauterine exposure, rather than postnatal effects.^[2]
1994	Scientific development	American molecular geneticist Jeffrey M. Friedman discovers leptin.^[76]^[77]^[78]
1996	Literature (book)	Dianne Dumanoski and John Peterson Myers Our Stolen Future, which describes the low-dose and/or ambient exposure effects of endocrine disruptors.^[2]
1997	Organization	The Endocrine Society establishes the Hormone Foundation as a public education affiliate.^[2]
1998	Award	American biochemist Robert F. Furchgott, American pharmacologist Louis J. Ignarro and American physician Ferid Murad are awarded the Nobel Prize in Physiology or Medicine "for their discoveries concerning nitric oxide as a signalling molecule in the cardiovascular system."^[79]	Sweden
2001	Literature	the Endocrine Society first publishes Endocrine News, a monthly news and feature magazine providing information on trends in the field of endocrinology as well as a closer look at recently published research.^[2]
2009	Scientific development	The Endocrine Society creates a task force charged with summarizing current knowledge about endocrine disrupting chemicals, including possible mechanisms of action and potential health risks. The task force’s work results in the landmark Scientific Statement on EDCs published in the same year. In 2015, the Endocrine Society published a second Scientific Statement on EDCs, building on the groundbreaking first statement and summarizing additional research connecting EDC exposures to infertility, hormone-related cancers, neurological issues, and other disorders."^[2]
2010	Literature (journal)	Medical journal Hormones and Cancer is first issued.^[80]
2010	Award	English physiologist Robert Edwards is awarded the Nobel Prize in Physiology or Medicine "for the development of in vitro fertilization.^[81]	Sweden
2012	Award	American physician Robert Lefkowitz and American physiologist Brian Kobilka are awarded the Nobel Prize in Chemistry "for studies of G-protein-coupled receptors.^[82]	Sweden
2015	Scientific development	The Endocrine Society publishes a second Scientific Statement on endocrine disrupting chemicals, summarizing additional research connecting EDC exposures to infertility, hormone-related cancers, neurological issues, and other disorders.^[2]

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References

↑ "Endocrinology History". news-medical.net. Retrieved 1 March 2019.
↑ ^2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 ^2.17 ^2.18 ^2.19 ^2.20 ^2.21 ^2.22 ^2.23 ^2.24 ^2.25 ^2.26 ^2.27 ^2.28 ^2.29 ^2.30 ^2.31 ^2.32 ^2.33 ^2.34 ^2.35 "Century of Endocrinology Timeline". endocrine.org. Retrieved 15 January 2019.
↑ "Endocrinology". Google Trends. Retrieved 15 February 2021.
↑ "Endocrinology". books.google.com. Retrieved 16 February 2021.
↑ "Endocrinology". wikipediaviews.org. Retrieved 21 February 2021.
↑ ^6.00 ^6.01 ^6.02 ^6.03 ^6.04 ^6.05 ^6.06 ^6.07 ^6.08 ^6.09 ^6.10 ^6.11 ^6.12 ^6.13 ^6.14 ^6.15 ^6.16 ^6.17 ^6.18 ^6.19 ^6.20 ^6.21 ^6.22 ^6.23 ^6.24 ^6.25 ^6.26 ^6.27 ^6.28 ^6.29 ^6.30 ^6.31 ^6.32 ^6.33 ^6.34 ^6.35 ^6.36 ^6.37 ^6.38 ^6.39 ^6.40 ^6.41 ^6.42 ^6.43 ^6.44 ^6.45 ^6.46 ^6.47 ^6.48 ^6.49 ^6.50 ^6.51 ^6.52 ^6.53 ^6.54 ^6.55 ^6.56 ^6.57 ^6.58 ^6.59 ^6.60 ^6.61 ^6.62 ^6.63 Medvei, V.C. A History of Endocrinology.
↑ "Landmarks in the history of adrenal surgery". hormones.gr. Retrieved 7 February 2019.
↑ ^8.0 ^8.1 ^8.2 ^8.3 Rio, Linda M. The Hormone Factor in Mental Health: Bridging the Mind-Body Gap.
↑ "Sickening Sweet". sciencehistory.org. Retrieved 27 February 2019.
↑ Ahmed, AM. "History of diabetes mellitus.". PMID 11953758. Retrieved 27 February 2019.
↑ "The Posterior Pituitary Pathway". glowm.com. Retrieved 11 February 2019.
↑ Pearce, J M S. "Thomas Addison (1793-1860)". PMC 1079500. PMID 15173338.
↑ ^13.0 ^13.1 ^13.2 ^13.3 ^13.4 ^13.5 ^13.6 ^13.7 ^13.8 ^13.9 "History of Hormones". media.timetoast.com. Retrieved 5 February 2019.
↑ "The Oxford Dictionary of National Biography". 2004. doi:10.1093/ref:odnb/35967.
↑ Parascandola, John. "Abel, Takamine, and the isolation of epinephrine". doi:10.1016/j.jaci.2009.11.044.
↑ "Adrenalin and cherry trees". pubs.acs.org. Retrieved 27 February 2019.
↑ Companion Encyclopedia of the History of Medicine (W. F. Bynum, Roy Porter ed.).
↑ Cassell, Dana K.; Gleaves, David H. The Encyclopedia of Obesity and Eating Disorders, Third Edition.
↑ "History of the Endocrine Society". endocrine.org. Retrieved 5 February 2019.
↑ "The Endocrine Society The First Forty Years (1917-1957)". academic.oup.com. Retrieved 5 February 2019.
↑ The Encyclopedia Americana, Volume 10.
↑ Bliss, Michael. The Making of Modern Medicine: Turning Points in the Treatment of Disease.
↑ Niazi, Sarfaraz K.; Brown, Justin L. Fundamentals of Modern Bioprocessing.
↑ Pele, Maria; Cimpeanu, Carmen. Biotechnology: An Introduction.
↑ "The Nobel Prize in Physiology or Medicine 1923". nobelprize.org. Retrieved 5 February 2019.
↑ "American Thyroid Association Timeline". thyroid.org. Retrieved 5 February 2019.
↑ "American Thyroid Association". touchendocrinology.com. Retrieved 5 February 2019.
↑ "Eli Lilly and Company". trumanlibrary.org. Retrieved 6 February 2019.
↑ Science News.
↑ Biochemical journal, Volume 129, Issue 3.
↑ Laylin, James K. Nobel Laureates in Chemistry, 1901-1992.
↑ Huggins, Charles. Experimental Leukemia and Mammary Cancer: Induction, Prevention, Cure.
↑ Fox, Daniel M.; Meldrum, Marcia; Rezak, Ira. Nobel Laureates in Medicine or Physiology: A Biographical Dictionary.
↑ Siegel Watkins, Elizabeth. The Estrogen Elixir: A History of Hormone Replacement Therapy in America.
↑ ^35.0 ^35.1 Testosterone: From Basic to Clinical Aspects (Alexandre Hohl ed.).
↑ Office of the Home Secretary, National Academy of Sciences.
↑ Medvei, V.C. A History of Endocrinology.
↑ Die Drüsen mit innerer Sekretion: Ihre physiologische und therapeutische Bedeutung. Council on Pharmacy and Chemistry (American Medical Association).
↑ Cameron, John L.; Cameron, Andrew M. Current Surgical Therapy E-Book.
↑ Pasieka, Janice L.; Lee, James A. Surgical Endocrinopathies: Clinical Management and the Founding Figures.
↑ ^41.0 ^41.1 Taylor, William N. Anabolic Steroids and the Athlete, 2d ed.
↑ Testosterone: Action, Deficiency, Substitution (Eberhard Nieschlag, Hermann M. Behre, Susan Nieschlag ed.).
↑ Wolf, Michael P.; Koons, Jeremy Randel. The Normative and the Natural.
↑ Champaneria, M.C.; Modlin, I.M.; Kidd, M.; Eick, G.N. "Friedrich Feyrter: A Precise Intellect in a Diffuse System". doi:10.1159/000096050.
↑ "ENCYCLOPEDIA OF ANTI-DOPING" (PDF). pilarmartinescudero.es. Retrieved 27 February 2019.
↑ Emmens, C. W. Hormone Assay.
↑ Vitamins and Hormones, Volume 24.
↑ Medvei, V.C. The History of Clinical Endocrinology: A Comprehensive Account of Endocrinology from Earliest Times to the Present Day.
↑ Lucas, John D. Annual survey of research in pharmacy and proceedings of National Conference on Pharmaceutical Research. 1938/39 : 6th.
↑ Medvei, V.C. A History of Endocrinology.
↑ Handbook of Pediatric Neuropsychology (Andrew S. Davis, PhD, Rik Carl D'Amato ed.).
↑ Male Hypogonadism: Basic, Clinical and Therapeutic Principles (Stephen J. Winters, Ilpo T. Huhtaniemi ed.).
↑ Beighton, Peter; Beighton, Greta. The Man Behind the Syndrome.
↑ "Society for Endocrinology". endocrinology.org. Retrieved 5 February 2019.
↑ "The Nobel Prize in Physiology or Medicine 1947". nobelprize.org. Retrieved 5 February 2019.
↑ "The Nobel Prize in Physiology or Medicine 1950". nobelprize.org. Retrieved 5 February 2019.
↑ Istvan, Hargittai; Balazs, Hargittai. Candid Science V: Conversations With Famous Scientists.
↑ Rezende, Lisa. Chronology of Science.
↑ Loriaux, D. Lynn. A Biographical History of Endocrinology.
↑ Human Pituitary Hormones, Volume 13: Colloquia on Endocrinology (G. E. W. Wolstenholme, Cecilia M. O'Connor ed.).
↑ The Hormones: Physiology, Chemistry, and Applications (Gregory Pincus, Kenneth V. Thimann, E. B. Astwood ed.).
↑ "A case of the Zollinger-Ellison syndrome associated with hyperplasia of salivary and Brunner's glands" (PDF). gut.bmj.com. Retrieved 7 February 2019.
↑ The Autoimmune Diseases (Ian R. Mackay, Noel R Rose ed.).
↑ Meurant, Gerard. The Autoimmune Diseases.
↑ Bier, O.G.; Dias Da Silva, W.; Goetze, D.; Mota, I. Fundamentals of Immunology.
↑ Stern, Judith S.; Kazaks, Alexandra. Obesity: A Reference Handbook.
↑ Cruickshank, Alan H.; Benbow, Emyr W. Pathology of the Pancreas.
↑ Hormonal Actions in Non-endocrine Systems (W.B. Essman ed.).
↑ Encyclopedia of Endocrine Diseases.
↑ Kannan, C.R. Essential Endocrinology: A Primer for Nonspecialists.
↑ "The European Society for Paediatric Endocrinology". eurospe.org. Retrieved 5 February 2019.
↑ "The Nobel Prize in Physiology or Medicine 1977". nobelprize.org. Retrieved 28 February 2019.
↑ "Louise Brown". britannica.com. Retrieved 7 February 2019.
↑ "The Nobel Prize in Physiology or Medicine 1982". nobelprize.org. Retrieved 28 February 2019.
↑ Goldberg, Mark A.; Kaiser, Ursula B. "Editorial: The Rise of the Asterisk: One Step to Facilitate Team Science". PMC 4484782. PMID 26132706. doi:10.1210/me.2015-1140.
↑ Leptin: Regulation and Clinical Applications (Sam Dagogo-Jack, MD ed.).
↑ Journal of Reproduction and Fertility: Supplement, Issue 54.
↑ Stern, Judith S.; Kazaks, Alexandra. Obesity: A Reference Handbook.
↑ "The Nobel Prize in Physiology or Medicine 1998". nobelprize.org. Retrieved 28 February 2019.
↑ "Hormones and Cancer". link.springer.com. Retrieved 11 February 2019.
↑ "The Nobel Prize in Physiology or Medicine 2010". nobelprize.org. Retrieved 1 March 2019.
↑ "The Nobel Prize in Chemistry 2012". nobelprize.org. Retrieved 1 March 2019.

[Endocrinology_Historyvvv-1] "Endocrinology History". news-medical.net. Retrieved 1 March 2019.

[Century_of_Endocrinology_Timeline-2] 2.00 ^2.01 ^2.02 ^2.03 ^2.04 ^2.05 ^2.06 ^2.07 ^2.08 ^2.09 ^2.10 ^2.11 ^2.12 ^2.13 ^2.14 ^2.15 ^2.16 ^2.17 ^2.18 ^2.19 ^2.20 ^2.21 ^2.22 ^2.23 ^2.24 ^2.25 ^2.26 ^2.27 ^2.28 ^2.29 ^2.30 ^2.31 ^2.32 ^2.33 ^2.34 ^2.35 "Century of Endocrinology Timeline". endocrine.org. Retrieved 15 January 2019.

[3] "Endocrinology". Google Trends. Retrieved 15 February 2021.

[4] "Endocrinology". books.google.com. Retrieved 16 February 2021.

[5] "Endocrinology". wikipediaviews.org. Retrieved 21 February 2021.

[A_History_of_Endocrinologys-6] 6.00 ^6.01 ^6.02 ^6.03 ^6.04 ^6.05 ^6.06 ^6.07 ^6.08 ^6.09 ^6.10 ^6.11 ^6.12 ^6.13 ^6.14 ^6.15 ^6.16 ^6.17 ^6.18 ^6.19 ^6.20 ^6.21 ^6.22 ^6.23 ^6.24 ^6.25 ^6.26 ^6.27 ^6.28 ^6.29 ^6.30 ^6.31 ^6.32 ^6.33 ^6.34 ^6.35 ^6.36 ^6.37 ^6.38 ^6.39 ^6.40 ^6.41 ^6.42 ^6.43 ^6.44 ^6.45 ^6.46 ^6.47 ^6.48 ^6.49 ^6.50 ^6.51 ^6.52 ^6.53 ^6.54 ^6.55 ^6.56 ^6.57 ^6.58 ^6.59 ^6.60 ^6.61 ^6.62 ^6.63 Medvei, V.C. A History of Endocrinology.

[7] "Landmarks in the history of adrenal surgery". hormones.gr. Retrieved 7 February 2019.

[The_Hormone_Factor_in_Mental_Health:_Bridging_the_Mind-Body_Gap-8] 8.0 ^8.1 ^8.2 ^8.3 Rio, Linda M. The Hormone Factor in Mental Health: Bridging the Mind-Body Gap.

[9] "Sickening Sweet". sciencehistory.org. Retrieved 27 February 2019.

[10] Ahmed, AM. "History of diabetes mellitus.". PMID 11953758. Retrieved 27 February 2019.

[The_Posterior_Pituitary_Pathway-11] "The Posterior Pituitary Pathway". glowm.com. Retrieved 11 February 2019.

[12] Pearce, J M S. "Thomas Addison (1793-1860)". PMC 1079500. PMID 15173338.

[History_of_Hormonesvv-13] 13.0 ^13.1 ^13.2 ^13.3 ^13.4 ^13.5 ^13.6 ^13.7 ^13.8 ^13.9 "History of Hormones". media.timetoast.com. Retrieved 5 February 2019.

[odnb-14] "The Oxford Dictionary of National Biography". 2004. doi:10.1093/ref:odnb/35967.

[15] Parascandola, John. "Abel, Takamine, and the isolation of epinephrine". doi:10.1016/j.jaci.2009.11.044.

[16] "Adrenalin and cherry trees". pubs.acs.org. Retrieved 27 February 2019.

[17] Companion Encyclopedia of the History of Medicine (W. F. Bynum, Roy Porter ed.).

[18] Cassell, Dana K.; Gleaves, David H. The Encyclopedia of Obesity and Eating Disorders, Third Edition.

[19] "History of the Endocrine Society". endocrine.org. Retrieved 5 February 2019.

[20] "The Endocrine Society The First Forty Years (1917-1957)". academic.oup.com. Retrieved 5 February 2019.

[21] The Encyclopedia Americana, Volume 10.

[22] Bliss, Michael. The Making of Modern Medicine: Turning Points in the Treatment of Disease.

[23] Niazi, Sarfaraz K.; Brown, Justin L. Fundamentals of Modern Bioprocessing.

[24] Pele, Maria; Cimpeanu, Carmen. Biotechnology: An Introduction.

[25] "The Nobel Prize in Physiology or Medicine 1923". nobelprize.org. Retrieved 5 February 2019.

[26] "American Thyroid Association Timeline". thyroid.org. Retrieved 5 February 2019.

[27] "American Thyroid Association". touchendocrinology.com. Retrieved 5 February 2019.

[28] "Eli Lilly and Company". trumanlibrary.org. Retrieved 6 February 2019.

[29] Science News.

[30] Biochemical journal, Volume 129, Issue 3.

[31] Laylin, James K. Nobel Laureates in Chemistry, 1901-1992.

[32] Huggins, Charles. Experimental Leukemia and Mammary Cancer: Induction, Prevention, Cure.

[33] Fox, Daniel M.; Meldrum, Marcia; Rezak, Ira. Nobel Laureates in Medicine or Physiology: A Biographical Dictionary.

[34] Siegel Watkins, Elizabeth. The Estrogen Elixir: A History of Hormone Replacement Therapy in America.

[Testosterone:_From_Basic_to_Clinical_Aspects-35] 35.0 ^35.1 Testosterone: From Basic to Clinical Aspects (Alexandre Hohl ed.).

[36] Office of the Home Secretary, National Academy of Sciences.

[37] Medvei, V.C. A History of Endocrinology.

[38] Die Drüsen mit innerer Sekretion: Ihre physiologische und therapeutische Bedeutung. Council on Pharmacy and Chemistry (American Medical Association).

[39] Cameron, John L.; Cameron, Andrew M. Current Surgical Therapy E-Book.

[40] Pasieka, Janice L.; Lee, James A. Surgical Endocrinopathies: Clinical Management and the Founding Figures.

[Anabolic_Steroids_and_the_Athlete.2C_2d_ed.-41] 41.0 ^41.1 Taylor, William N. Anabolic Steroids and the Athlete, 2d ed.

[42] Testosterone: Action, Deficiency, Substitution (Eberhard Nieschlag, Hermann M. Behre, Susan Nieschlag ed.).

[43] Wolf, Michael P.; Koons, Jeremy Randel. The Normative and the Natural.

[44] Champaneria, M.C.; Modlin, I.M.; Kidd, M.; Eick, G.N. "Friedrich Feyrter: A Precise Intellect in a Diffuse System". doi:10.1159/000096050.

[45] "ENCYCLOPEDIA OF ANTI-DOPING" (PDF). pilarmartinescudero.es. Retrieved 27 February 2019.

[46] Emmens, C. W. Hormone Assay.

[47] Vitamins and Hormones, Volume 24.

[48] Medvei, V.C. The History of Clinical Endocrinology: A Comprehensive Account of Endocrinology from Earliest Times to the Present Day.

[49] Lucas, John D. Annual survey of research in pharmacy and proceedings of National Conference on Pharmaceutical Research. 1938/39 : 6th.

[A_History_of_Endocrinologyv-50] Medvei, V.C. A History of Endocrinology.

[51] Handbook of Pediatric Neuropsychology (Andrew S. Davis, PhD, Rik Carl D'Amato ed.).

[52] Male Hypogonadism: Basic, Clinical and Therapeutic Principles (Stephen J. Winters, Ilpo T. Huhtaniemi ed.).

[53] Beighton, Peter; Beighton, Greta. The Man Behind the Syndrome.

[54] "Society for Endocrinology". endocrinology.org. Retrieved 5 February 2019.

[55] "The Nobel Prize in Physiology or Medicine 1947". nobelprize.org. Retrieved 5 February 2019.

[56] "The Nobel Prize in Physiology or Medicine 1950". nobelprize.org. Retrieved 5 February 2019.

[57] Istvan, Hargittai; Balazs, Hargittai. Candid Science V: Conversations With Famous Scientists.

[58] Rezende, Lisa. Chronology of Science.

[59] Loriaux, D. Lynn. A Biographical History of Endocrinology.

[60] Human Pituitary Hormones, Volume 13: Colloquia on Endocrinology (G. E. W. Wolstenholme, Cecilia M. O'Connor ed.).

[61] The Hormones: Physiology, Chemistry, and Applications (Gregory Pincus, Kenneth V. Thimann, E. B. Astwood ed.).

[62] "A case of the Zollinger-Ellison syndrome associated with hyperplasia of salivary and Brunner's glands" (PDF). gut.bmj.com. Retrieved 7 February 2019.

[63] The Autoimmune Diseases (Ian R. Mackay, Noel R Rose ed.).

[64] Meurant, Gerard. The Autoimmune Diseases.

[65] Bier, O.G.; Dias Da Silva, W.; Goetze, D.; Mota, I. Fundamentals of Immunology.

[66] Stern, Judith S.; Kazaks, Alexandra. Obesity: A Reference Handbook.

[67] Cruickshank, Alan H.; Benbow, Emyr W. Pathology of the Pancreas.

[68] Hormonal Actions in Non-endocrine Systems (W.B. Essman ed.).

[69] Encyclopedia of Endocrine Diseases.

[70] Kannan, C.R. Essential Endocrinology: A Primer for Nonspecialists.

[71] "The European Society for Paediatric Endocrinology". eurospe.org. Retrieved 5 February 2019.

[72] "The Nobel Prize in Physiology or Medicine 1977". nobelprize.org. Retrieved 28 February 2019.

[73] "Louise Brown". britannica.com. Retrieved 7 February 2019.

[74] "The Nobel Prize in Physiology or Medicine 1982". nobelprize.org. Retrieved 28 February 2019.

[75] Goldberg, Mark A.; Kaiser, Ursula B. "Editorial: The Rise of the Asterisk: One Step to Facilitate Team Science". PMC 4484782. PMID 26132706. doi:10.1210/me.2015-1140.

[76] Leptin: Regulation and Clinical Applications (Sam Dagogo-Jack, MD ed.).

[77] Journal of Reproduction and Fertility: Supplement, Issue 54.

[78] Stern, Judith S.; Kazaks, Alexandra. Obesity: A Reference Handbook.

[79] "The Nobel Prize in Physiology or Medicine 1998". nobelprize.org. Retrieved 28 February 2019.

[-80] "Hormones and Cancer". link.springer.com. Retrieved 11 February 2019.

[81] "The Nobel Prize in Physiology or Medicine 2010". nobelprize.org. Retrieved 1 March 2019.

[82] "The Nobel Prize in Chemistry 2012". nobelprize.org. Retrieved 1 March 2019.

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Difference between revisions of "Timeline of endocrinology"

Latest revision as of 09:00, 5 June 2021

Contents

Big picture

Numerical and visual data

Google Scholar

Google Trends

Google Ngram Viewer

Wikipedia Views

Full timeline

Meta information on the timeline

How the timeline was built

Feedback and comments

What the timeline is still missing

Timeline update strategy

See also

External links

References

Navigation menu

Personal tools

Namespaces

Variants

Views

More

Search

Navigation

Tools

@@ Line 1: / Line 1: @@
-This is a '''timeline of endocrinology'''.
+This is a '''timeline of endocrinology''', the branch of biology and medicine concerned with {{w|endocrine gland}}s and {{w|hormone}}s.
 ==Big picture==
@@ Line 6: / Line 6: @@
 ! Time period !! Development summary
 |-
-| 20th century || The 1910s and 1920s is considered the era of purification of hormones. The 1930s is the era of steroid hormone discovery, the 1940s is the era of endocrine disease, description and therapeutic advances, the 1950s is the era of synthetic hormone production, the 1960s and 1970s is the era of releasing hormones and hormone receptor signaling pathways, 1980s is the era of peptide hormone gene cloning and advent of recombinant hormone therapy, the 1990s is the era of hormone and soluble factor production by many tissues.<ref name="Century of Endocrinology Timeline"/>
+| 19th century || The field of endocrinology begins to be studied late in the century, when the concept of chemical messengers that exert systemic effects throughout the entire body is initially introduced.<ref name="Endocrinology Historyvvv">{{cite web |title=Endocrinology History |url=https://www.news-medical.net/health/Endocrinology-History.aspx |website=news-medical.net |accessdate=1 March 2019}}</ref>
+|-
+| 20th century || The 1910s and 1920s are considered the era of purification of hormones. The 1930s is the era of steroid hormone discovery, the 1940s is the era of endocrine disease, description and therapeutic advances, the 1950s is the era of synthetic hormone production, the 1960s and 1970s is the era of releasing hormones and hormone receptor signaling pathways, 1980s is the era of peptide hormone gene cloning and advent of recombinant hormone therapy, the 1990s is the era of hormone and soluble factor production by many tissues.<ref name="Century of Endocrinology Timeline"/>
 |-
 | 21st century || The 2000s is the era of genetics and endocrine physiology and disease, the 2010s is the era of integration of endocrine physiology and pathophysiology.<ref name="Century of Endocrinology Timeline"/>
 |-
 |}
+== Numerical and visual data  ==
+=== Google Scholar ===
+The following table summarizes per-year mentions on Google Scholar as of May 27, 2021.
+{| class="sortable wikitable"
+! Year
+! endocrinology
+! clinical endocrinology
+! reproductive endocrinology
+! pediatric endocrinology
+! endocrinology diabetes
+|-
+| 1980 || 19,800 || 9,060 || 2,680 || 735 || 5,060
+|-
+| 1985 || 23,900 || 11,600 || 3,560 || 1,380 || 6,030
+|-
+| 1990 || 30,700 || 13,500 || 4,420 || 1,530 || 6,710
+|-
+| 1995 || 43,200 || 18,900 || 5,640 || 2,130 || 10,100
+|-
+| 2000 || 86,600 || 42,900 || 9,240 || 4,510 || 19,100
+|-
+| 2002 || 91,800 || 51,100 || 10,700 || 5,290 || 22,300
+|-
+| 2004 || 105,000 || 64,400 || 12,300 || 6,880 || 29,600
+|-
+| 2006 || 118,000 || 69,200 || 13,700 || 8,100 || 32,100
+|-
+| 2008 || 123,000 || 75,500 || 15,500 || 9,570 || 40,100
+|-
+| 2010 || 130,000 || 80,000 || 17,000 || 10,900 || 47,900
+|-
+| 2012 || 165,000 || 106,000 || 21,800 || 14,500 || 69,100
+|-
+| 2014 || 142,000 || 97,900 || 23,100 || 14,100 || 70,000
+|-
+| 2016 || 117,000 || 77,500 || 23,100 || 16,800 || 58,500
+|-
+| 2017 || 93,700 || 68,100 || 23,600 || 16,900 || 58,100
+|-
+| 2018 || 78,800 || 63,000 || 25,000 || 18,400 || 53,800
+|-
+| 2019 || 70,500 || 54,100 || 24,400 || 19,400 || 47,200
+|-
+| 2020 || 57,900 || 47,500 || 26,200 || 19,400 || 37,700
+|-
+|}
+[[File:Endocinology tb.png|thumb|center|700px]]
+=== Google Trends ===
+The comparative chart below shows {{w|Google Trends}} data for Endocrinology (Branch of medicine) and Endocrinology (Search term), from January 2004 to February 2021, when the screenshot was taken. Interest is also ranked by country and displayed on world map.<ref>{{cite web |title=Endocrinology |url=https://trends.google.com/trends/explore?date=all&q=%2Fm%2F02jvq,Endocrinology |website=Google Trends |access-date=15 February 2021}}</ref>
+[[File:Endocrinology gt.jpg|thumb|center|600px]]
+=== Google Ngram Viewer ===
+The chart below shows {{w|Google Ngram Viewer}} data for Endocrinology, from 1800 to 2019.<ref>{{cite web |title=Endocrinology |url=https://books.google.com/ngrams/graph?content=Endocrinology&year_start=1800&year_end=2019&corpus=26&smoothing=3&case_insensitive=true |website=books.google.com |access-date=16 February 2021 |language=en}}</ref>
+[[File:Endocrinology ngram.jpg|thumb|center|700px]]
+=== Wikipedia Views ===
+The chart below shows pageviews of the English Wikipedia article {{w|Endocrinology}}, on desktop, mobile-web, desktop-spider, mobile-web-spider and mobile app, from July 2015  to January 2021.<ref>{{cite web |title=Endocrinology |url=https://wikipediaviews.org/displayviewsformultiplemonths.php?page=Endocrinology&allmonths=allmonths-api&language=en&drilldown=all |website=wikipediaviews.org |access-date=21 February 2021}}</ref>
+[[File:HTTPS wv.png|thumb|center|400px]]
 ==Full timeline==
@@ Line 17: / Line 88: @@
 ! Year !! Event type !! Details !! Location
 |-
-| 1865 || || " French physiologist Claude Bernard (1813-1878). In 1865 Bernard published his landmark treatise “An Introduction to the Study of Experimental Medicine” in which he introduced the concept of “milieu interieur” (internal milieu) and the importance of endocrine systems in keeping this constant."<ref name="Century of Endocrinology Timeline"/> ||
+| 4th century BC || Scientific development || The Ayur Veda of Susruta describes "sugarcream" urine which attracts ants.<ref name="A History of Endocrinologys"/> || {{w|India}}
+|-
+| 30 BC–50 AD || Scientific development || Greek philosopher {{w|Celsus}} describes {{w|polyuria}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1563 || Scientific development || Italian anatomist {{w|Bartolomeo Eustachi}} publishes his ''Opuscula Anatomica'', which contains the first description of the adrenal glands, labeled “glandulae quae renibus incumbent”.<ref>{{cite web |title=Landmarks in the history of adrenal surgery |url=http://www.hormones.gr/8586/article/landmarks-in-the-history-of-adrenal%E2%80%A6.html |website=hormones.gr |accessdate=7 February 2019}}</ref> || {{w|Italy}}
+|-
+| 1567 || Medical development || Dutch physician {{w|Johannes Wier}} publishes the first attempt at a medical description of the pituitary disorder.<ref name="The Hormone Factor in Mental Health: Bridging the Mind-Body Gap"/> ||
+|-
+| 1586–1588 || Scientific development || Piccolomineus and Bauhin mention the suprarenal glands.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1621–1675 || Scientific development || English doctor {{w|Thomas Willis}} observes the sweetness of diabetic urine which has a honied taste.<ref name="A History of Endocrinologys"/><ref>{{cite web |title=Sickening Sweet |url=https://www.sciencehistory.org/distillations/magazine/sickening-sweet |website=sciencehistory.org |accessdate=27 February 2019}}</ref><ref>{{cite journal |last1=Ahmed |first1=AM |title=History of diabetes mellitus. |pmid=11953758 |url=https://www.ncbi.nlm.nih.gov/pubmed/11953758 |accessdate=27 February 2019}}</ref> || {{w|United Kingdom}}
+|-
+| 1627 || Scientific development || Flemish anatomist {{w|Adriaan van den Spiegel}} talks of the ''capsulae renales''.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1651 || Scientific development || Highmore suggests that the suprarenals have an absorbent function of exudates from the large vessels.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1742 || Scientific development || French doctor {{w|Joseph Lieutaud}} discovers the pituitary-portal blood system, known today as the hypothalamo-hypophysial axis.<ref name="The Hormone Factor in Mental Health: Bridging the Mind-Body Gap">{{cite book |last1=Rio |first1=Linda M. |title=The Hormone Factor in Mental Health: Bridging the Mind-Body Gap |url=https://books.google.com.ar/books?id=6Vr4AAAAQBAJ&pg=PA42&dq=Joseph+Lieutaud+discovers+the+pituitary-portal+system&hl=en&sa=X&ved=0ahUKEwi4yOvmtKjgAhX9ILkGHaUtAucQ6AEILzAB#v=onepage&q=Joseph%20Lieutaud%20discovers%20the%20pituitary-portal%20system&f=false}}</ref> ||
+|-
+| 1805 || Scientific development || French naturalist {{w|Georges Cuvier}} defines medulla and cortex of the adrenal gland.<ref name="A History of Endocrinologys"/> || {{w|France}}
+|-
+| 1838 || Scientific development || German anatomist {{w|Martin Rathke}} becomes the first to describe the formation of the pituitary gland itself.<ref name="The Hormone Factor in Mental Health: Bridging the Mind-Body Gap"/> Rathke describes the human hypophysis cerebri as being derived from two parts: an ectodermal dorsal invagination of the oral epithelium, which becomes the adenohypophysis, and a ventral process arising from the floor of the diencephalon, constituting the neurohypophysis or posterior pituitary gland.<ref name="The Posterior Pituitary Pathway">{{cite web |title=The Posterior Pituitary Pathway |url=https://www.glowm.com/section_view/heading/The%20Posterior%20Pituitary%20Pathway/item/283 |website=glowm.com |accessdate=11 February 2019}}</ref> || {{w|Germany}}
+|-
+| 1838 || Scientific development || Scottish physician [[w:Robert Willis (physician)|Robert Willis]] describes several forms of DI ("hydruria", "anazoturia", and "azoturia") according to associated excretion of {{w|urea}}.
+|-
+| 1855 || Scientific development || English physician {{w|Thomas Addison}} talks "On the constitutional and local effects of disease of the suprarenal capsules".<ref name="A History of Endocrinologys"/><ref>{{cite journal |last1=Pearce |first1=J M S |title=Thomas Addison (1793-1860) |pmid=15173338 |url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC1079500/ |pmc=1079500}}</ref> || {{w|United Kingdom}}
+|-
+| 1856 || Scientific development || Mauritian physiologist {{w|Charles-Édouard Brown-Séquard}} proves in animal experiments that the adrenals are essential for the maintenance of life.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1856 || Scientific development || French physician {{w|Alfred Vulpian}} introduces the staining method for {{w|adrenaline}}.<ref name="A History of Endocrinologys"/> || {{w|France}}
+|-
+| 1865 || Scientific development || French physiologist {{w|Claude Bernard}} publishes ''An Introduction to the Study of Experimental Medicine'', which introduces the concept of ''{{w|milieu interieur}}'' (internal milieu) and the importance of endocrine systems in keeping this constant.<ref name="Century of Endocrinology Timeline"/> || {{w|France}}
+|-
+| 1885 || Scientific development || {{w|Claude Bernard}} coins the term ‘internal secretion’, showing that the body can both break down and build up, complex chemical substances.<ref name="History of Hormonesvv">{{cite web |title=History of Hormones |url=https://media.timetoast.com/timelines/history-of-hormones--2 |website=media.timetoast.com |accessdate=5 February 2019}}</ref> || {{w|France}}
+|-
+| 1894 || Scientific development || English physiologist {{w|Edward Albert Sharpey-Schafer}} discovers and demonstrates the existence of {{w|adrenaline}} together with [[w:George Oliver (physician)|George Oliver]], and he also coins the term "{{w|endocrine}}" for the secretions of the ductless glands. Schafer's method of {{w|artificial respiration}} is named after him.<ref name="odnb">{{Cite journal | title = The Oxford Dictionary of National Biography | doi = 10.1093/ref:odnb/35967 | year = 2004 | pmid =  | pmc = }}</ref> || {{w|United Kingdom}}
+|-
+| 1895 || Scientific development || {{w|Adrenaline}} becomes the first hormone to be isolated.<ref name="History of Hormonesvv"/> ||
+|-
+| 1896 || Scientific development || Osler finds orally given adrenal extract temporarily effecive in the case of {{w|Addison's disease}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1901 – 1908 || Scientific development || Schaefer and his team study the action of pituitary extract on the kidneys.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1901 || Scientific development || Japanese chemist {{w|Takamine Jōkichi}} isolates {{w|adrenaline}} in crystalline form from the adrenal medulla.<ref name="History of Hormonesvv"/><ref>{{cite journal |last1=Parascandola |first1=John |title=Abel, Takamine, and the isolation of epinephrine |doi=10.1016/j.jaci.2009.11.044 |url=https://www.jacionline.org/article/S0091-6749(09)01814-4/fulltext}}</ref><ref>{{cite web |title=Adrenalin and cherry trees |url=http://pubs.acs.org/subscribe/archive/mdd/v04/i12/html/12timeline.html |website=pubs.acs.org |accessdate=27 February 2019}}</ref> || {{w|Japan}}
+|-
+| 1902 || Scientific development || British physiologists {{w|Ernest Starling}} and {{w|William Bayliss}} isolate {{w|secretin}}, the first substance to be called a {{w|hormone}}.<ref name="History of Hormonesvv"/> || {{w|United Kingdom}}
+|-
+| 1902 || Scientific development || Bayliss and Starling report on their discovery of "secretin" in the {{w|duodenum}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1902 || Scientific development || Russian physiologist {{w|Ivan Pavlov}} develops a theory of nerve regulation of salivary and alimentary glands, and includes the regulation of the pancreas in his theory.<ref name="History of Hormonesvv"/> || {{w|Russia}}
 |-
-| 1885 || || "Bernard, Claude (1813-1878), Claude Bernard invented the term ‘internal secretion’, showing that the body can both break down and build up, complex chemical substances"<ref name="History of Hormonesvv">{{cite web |title=History of Hormones |url=https://media.timetoast.com/timelines/history-of-hormones--2 |website=media.timetoast.com |accessdate=5 February 2019}}</ref> ||
+| 1904 || Scientific development || {{w|Ernest Starling}} and {{w|William Bayliss}} develop the theory of hormonal control of internal secretion.<ref name="History of Hormonesvv"/> || {{w|United Kingdom}}
 |-
-| 1895 || || "Adrenaline was the first hormone to be isolated."<ref name="History of Hormonesvv"/> ||
+| 1905 || Medical development || William Bulloch and JH Sequeira describe patients with {{w|adrenogenital syndrome}}.<ref name="A History of Endocrinologys"/> ||
 |-
-| 1901 || || "Takamine, Jokichi (1854-1922).Isolation of adrenaline in crystalline form from the adrenal medulla.The blood-pressure-raising principle of the suprarenal glands."<ref name="History of Hormonesvv"/> ||
+| 1905–1906 || Scientific development || Edkin describes gastric secretin.<ref name="A History of Endocrinologys"/> ||
 |-
-| 1902 || || "Ernest Starling and William Bayliss isolated secretin, the first substance to be called a hormone."<ref name="History of Hormonesvv"/> ||
+| 1906 || Scientific development || Dale describes the oxytocic action of posterior pituitary extract. ||
 |-
-| 1902 || || "Pavlov developed a theory of nerve regulation of salivary and alimentary glands. He included the regulation of the pancreas in his theory."<ref name="History of Hormonesvv"/> ||
+| 1910 || Scientific development || Hungarian pathologist {{w|Arthur Biedl}} shows that the {{w|adrenal cortex}} is essential for life. His classic work ''Innere Sekretion'' (Internal Secretions) shows the rapid development of the knowledge of endocrinology.<ref name="History of Hormonesvv"/> ||
 |-
-| 1904 || || "Bayliss and Starling developed the theory of hormonal control of internal secretion"<ref name="History of Hormonesvv"/> ||
+| 1912 || Literature || {{w|Harvey Cushing}} publishes ''The Pituitary Body and its Disorders'', showcasing the innovative operative techniques that would lead to odern surgical procedures to remove pituitary tumors.<ref name="The Hormone Factor in Mental Health: Bridging the Mind-Body Gap"/> ||
 |-
-| 1910 || || "Biedl, Artur (1869-1933), Biedl showed that the adrenal cortex is essential for life. His classic work shows the rapid development of the knowledge of endocrinology."<ref name="History of Hormonesvv"/> ||
+| 1914 || Scientific development || American biochemist {{w|Edward Calvin Kendall}} isolates {{w|thyroxine}} in crystalline form.<ref name="Century of Endocrinology Timeline">{{cite web |title=Century of Endocrinology Timeline |url=https://www.endocrine.org/timeline/ |website=endocrine.org |accessdate=15 January 2019}}</ref> || {{w|United States}}
 |-
-| 1914 || || "biochemist Edward C. Kendall isolated thyroxine in crystalline form on Christmas Day, 1914."<ref name="Century of Endocrinology Timeline">{{cite web |title=Century of Endocrinology Timeline |url=https://www.endocrine.org/timeline/ |website=endocrine.org |accessdate=15 January 2019}}</ref> ||
+| 1914 || Scientific development || German physician {{w|Morris Simmonds}} describes pituitary cachexia (Simmonds' disease) due to infraction of the {{w|gland}}.<ref>{{cite book |title=Companion Encyclopedia of the History of Medicine |edition=W. F. Bynum, Roy Porter |url=https://books.google.com.ar/books?id=gyidO-ZLdiYC&pg=PA501&lpg=PA501&dq=%7CMorris+Simmonds%7D%7D+describes+pituitary+cachexia&source=bl&ots=pLw_zOqk7A&sig=ACfU3U37SJMrzreYuR-tQ0hqUrZyA-qNSg&hl=en&sa=X&ved=2ahUKEwiI6-GGvdzgAhUYHLkGHRP9BAAQ6AEwAXoECAgQAQ#v=onepage&q=%7CMorris%20Simmonds%7D%7D%20describes%20pituitary%20cachexia&f=false}}</ref><ref>{{cite book |last1=Cassell |first1=Dana K. |last2=Gleaves |first2=David H. |title=The Encyclopedia of Obesity and Eating Disorders, Third Edition |url=https://books.google.com.ar/books?id=7RXwwXjHiMQC&pg=PR16&lpg=PR16&dq=%7CMorris+Simmonds%7D%7D+describes+pituitary+cachexia&source=bl&ots=B3hXoYYCoD&sig=ACfU3U2r3DObpjo7V90cJLKVCuLNXSRLIQ&hl=en&sa=X&ved=2ahUKEwiI6-GGvdzgAhUYHLkGHRP9BAAQ6AEwAnoECAcQAQ#v=onepage&q=%7CMorris%20Simmonds%7D%7D%20describes%20pituitary%20cachexia&f=false}}</ref> || {{w|Germany}}
 |-
-| 1915 || || "Cannon, Walter Bradford (1871-1945), Cannon showed the close connection between the endocrine glands and the emotions."<ref name="History of Hormonesvv"/> ||
+| 1915 || Scientific development || American physiologist {{w|Walter Bradford Cannon}} shows the close connection between the endocrine glands and the emotions.<ref name="History of Hormonesvv"/> ||
+|-
+| 1915 || Scientific development || Gaines demonstrates pituitary function in lactation.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1915 || Scientific development || Keeton and Koch confirm the specific nature of gastrin.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1916 || Scientific development || Erdheim describes pituitary dwarfism ("Nanosomia pituitaria").<ref name="A History of Endocrinologys"/> ||
 |-
 | 1916 || Organization || The {{w|Endocrine Society}} is founded. It is a professional, international medical organization in the field of endocrinology and {{w|metabolism}}.<ref>{{cite web |title=History of the Endocrine Society |url=https://www.endocrine.org/about-us/history |website=endocrine.org |accessdate=5 February 2019}}</ref> || {{w|United States}}
 |-
-| 1916 || || "1916: Treatment of Diabetes Mellitus by Elliott Joslin First Published" ||
+| 1917 || Literature (journal) || Scientific journal [[w:Endocrinology (journal)|Endocrinology]] is launched by the {{w|Endocrine Society}}.<ref>{{cite web |title=The Endocrine Society The First Forty Years (1917-1957) |url=https://academic.oup.com/endo/article-abstract/80/1/5/2695892 |website=academic.oup.com |accessdate=5 February 2019}}</ref> || {{w|United States}}
+|-
+| 1919 || Scientific development || {{w|Edward Calvin Kendall}} obtains pure {{w|thyroxine}}.<ref>{{cite book |title=The Encyclopedia Americana, Volume 10 |url=https://books.google.com.ar/books?id=TokxAQAAIAAJ&q=Kendall,+Edward+C+isolated+and+crystallized+the+active+principle+of+the+thyroid,+named+thyroxine.+In+1949,+he+discovered+that+cortisone+could+relieve+symptoms+of+rheumatoid+arthritis&dq=Kendall,+Edward+C+isolated+and+crystallized+the+active+principle+of+the+thyroid,+named+thyroxine.+In+1949,+he+discovered+that+cortisone+could+relieve+symptoms+of+rheumatoid+arthritis&hl=en&sa=X&ved=0ahUKEwj45uaAiqfgAhVvD7kGHW5_D3EQ6AEIKTAA}}</ref> ||
 |-
-| 1917 || Literature (journal) || Scientific journal [[w:Endocrinology (journal)|Endocrinology]] is launched by the {{w|Endocrine Society}}.<ref>{{cite web |title=The Endocrine Society The First Forty Years (1917-1957) |url=https://academic.oup.com/endo/article-abstract/80/1/5/2695892 |website=academic.oup.com |accessdate=5 February 2019}}</ref> || {{w|United States}}
+| 1920 || Scientific development || American anatomist {{w|Herbert McLean Evans}} and Professor {{w|Joseph Long}} discover the {{w|human growth hormone}}.<ref>{{cite book |last1=Bliss |first1=Michael |title=The Making of Modern Medicine: Turning Points in the Treatment of Disease |url=https://books.google.com.ar/books?id=stTC53nhLo8C&pg=PT96&dq=1920+%22Human+growth+hormone+is+discovered+by+Evans+and+Long&hl=en&sa=X&ved=0ahUKEwjY1tmigKfgAhXMIbkGHbcUBSoQ6AEIRzAF#v=onepage&q=1920%20%22Human%20growth%20hormone%20is%20discovered%20by%20Evans%20and%20Long&f=false}}</ref><ref>{{cite book |last1=Niazi |first1=Sarfaraz K. |last2=Brown |first2=Justin L. |title=Fundamentals of Modern Bioprocessing |url=https://books.google.com.ar/books?id=wiXSCgAAQBAJ&pg=PA32&dq=1920+%22Human+growth+hormone+is+discovered+by+Evans+and+Long&hl=en&sa=X&ved=0ahUKEwjY1tmigKfgAhXMIbkGHbcUBSoQ6AEIKTAA#v=onepage&q=1920%20%22Human%20growth%20hormone%20is%20discovered%20by%20Evans%20and%20Long&f=false}}</ref><ref>{{cite book |last1=Pele |first1=Maria |last2=Cimpeanu |first2=Carmen |title=Biotechnology: An Introduction |url=https://books.google.com.ar/books?id=TLmPc7oa6ocC&pg=PA300&dq=1920+%22Human+growth+hormone+is+discovered+by+Evans+and+Long&hl=en&sa=X&ved=0ahUKEwjY1tmigKfgAhXMIbkGHbcUBSoQ6AEIMDAB#v=onepage&q=1920%20%22Human%20growth%20hormone%20is%20discovered%20by%20Evans%20and%20Long&f=false}}</ref> || {{w|United States}}
 |-
-| 1920 || || "Human growth hormone is discovered by Evans and Long."<ref name="History of Hormonesvv"/> ||
+| 1921 || Scientific development || Evans and Long show the effect of anterior lobe extract on the growth rate of rats.<ref name="A History of Endocrinologys"/> ||
 |-
-| 1921 || || "Banting, Frederick & Mcleod, JJ & Best, Charles, The Canadians Banting, McLeod and Best succeeded in lowering the level of blood-sugar when they used insulin to control the carbohydrate metabolism."<ref name="History of Hormonesvv"/> ||
+| 1921 || Scientific development || {{w|Frederick Banting}} and [[w:John Macleod (physiologist)|John Mcleod]] and [[w:Charles Best (medical scientist)|Charles Best]] succeed in lowering the level of blood-sugar when using insulin to control the carbohydrate metabolism.<ref name="History of Hormonesvv"/> ||
 |-
-| 1923 || || Canadian medical scientist {{w|Frederick Banting}} and [[w:John Macleod (physiologist)|John Mcleod]] are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for the discovery of {{w|insulin}}.<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1923 |url=https://www.nobelprize.org/prizes/medicine/1923/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> ||
+| 1923 || Award || Canadian medical scientist {{w|Frederick Banting}} and [[w:John Macleod (physiologist)|John Mcleod]] are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for the discovery of {{w|insulin}}.<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1923 |url=https://www.nobelprize.org/prizes/medicine/1923/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> ||
 |-
 | 1923 || Organization || The {{w|American Thyroid Association}} is founded.<ref>{{cite web |title=American Thyroid Association Timeline |url=https://www.thyroid.org/about-american-thyroid-association/clark-t-sawin-history-resource-center/american-association-timeline/ |website=thyroid.org |accessdate=5 February 2019}}</ref> It is a non-profit, all-volunteer professional organization with over 1,700 members from 43 countries around the world.<ref>{{cite web |title=American Thyroid Association |url=https://www.touchendocrinology.com/articles/presidential-reflection |website=touchendocrinology.com |accessdate=5 February 2019}}</ref> || {{w|United States}}
 |-
-| 1923 || || "Eli Lilly and Company and Nordisk Insulinlaboratorium began commercial production of insulin."<ref name="Century of Endocrinology Timeline"/> ||
+| 1923 || Medical development || American pharmaceutical {{w|Eli Lilly and Company}} introduces the first commercial {{w|insulin}}.<ref>{{cite web |title=Eli Lilly and Company |url=https://www.trumanlibrary.org/histday/insulin/eli-lilly-and-company.html |website=trumanlibrary.org |accessdate=6 February 2019}}</ref> || {{w|United States}}
 |-
-| 1925 || || "James B. Collip (Society President, 1925-1926) isolated parathyroid hormone and with Leitch used in the treatment of tetany. Collip JB 1925 The extraction of a parathyroid hormone which will prevent or control parathyroid tetany and which regulates the level of blood calcium. Journal of Biological Chemistry 63 395–438."<ref name="Century of Endocrinology Timeline"/> ||
+| 1925 || Scientific development || Canadian biochemist {{w|James Collip}} isolates parathyroid hormone and uses it in the treatment of {{w|tetany}}.<ref name="Century of Endocrinology Timeline"/> ||
 |-
-| 1926 || || British chemist [[w:Charles Harington (chemist)|Charles Harington]] successfully synthesizes {{w|thyroxine}}.<ref name="Century of Endocrinology Timeline"/><ref>{{cite book |title=Science News |url=https://books.google.com.ar/books?id=Y2UWAQAAIAAJ&q=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&dq=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&hl=en&sa=X&ved=0ahUKEwjftuGf-aTgAhXwJ7kGHR3bBWMQ6AEILzAB}}</ref><ref>{{cite book |title=Biochemical journal, Volume 129, Issue 3 |url=https://books.google.com.ar/books?id=d1Y2AQAAIAAJ&q=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&dq=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&hl=en&sa=X&ved=0ahUKEwjftuGf-aTgAhXwJ7kGHR3bBWMQ6AEIMzAC}}</ref> || {{w|United Kingdom}}
+| 1926 || Scientific development || British chemist [[w:Charles Harington (chemist)|Charles Harington]] successfully synthesizes {{w|thyroxine}}.<ref name="Century of Endocrinology Timeline"/><ref>{{cite book |title=Science News |url=https://books.google.com.ar/books?id=Y2UWAQAAIAAJ&q=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&dq=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&hl=en&sa=X&ved=0ahUKEwjftuGf-aTgAhXwJ7kGHR3bBWMQ6AEILzAB}}</ref><ref>{{cite book |title=Biochemical journal, Volume 129, Issue 3 |url=https://books.google.com.ar/books?id=d1Y2AQAAIAAJ&q=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&dq=In+1926,+Charles+R.+Harington+successfully+synthesized+thyroxine&hl=en&sa=X&ved=0ahUKEwjftuGf-aTgAhXwJ7kGHR3bBWMQ6AEIMzAC}}</ref> || {{w|United Kingdom}}
 |-
-| 1929 || || "Walter B. Cannon (Society President, 1921-1922) coins the term "homeostasis" for "same" and "steady". This important concept highlighted the critical role of negative feedback in governing endocrine physiology. "<ref name="Century of Endocrinology Timeline"/> ||
+| 1926 || Scientific development || Foster and P.E. Smith find that atrophy of the thyroid and lowered BMR in hypophysectomized animals could be restored by using pituitary homoplastic implants.<ref name="A History of Endocrinologys"/> In the same year, Smith shows that hypophysectomy causes atrophy of the adrenals, which Evans prevents by administration of pituitary extracts.<ref name="A History of Endocrinologys"/> ||
 |-
-| 1929 || || "C.F. and G.T. Cori proposed the theory of the Cori Cycle.  The Cori Cycle refers to the phases in the metabolism of carbohydrates in which muscles convert glycogen to lactic acid, which is carried by the blood to the liver where it is converted to glycogen then broken down to glucose that, in turn, is carried by the blood to muscles, where it is converted to glycogen and used as an energy source for muscular activity."<ref name="Century of Endocrinology Timeline"/> ||
+| 1927 || Scientific development || P.E. Smith and Engle demonstrate that gonadal activity is maintained by the anterior lobe of the pituitary.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1928 || Scientific development || Israeli gynecologist {{w|Bernhard Zondek}} and German gynecologist {{w|Selmar Aschheim}} isolate the gonadotrophic hormones (prolan A and B) of the anterior pituitary.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1929 || Scientific development || {{w|Walter Bradford Cannon}} coins the term "{{w|homeostasis}}" for "same" and "steady". This important concept highlights the critical role of negative feedback in governing endocrine physiology.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1929 || Scientific development || Putnam, Benedict and Teel produce experimental {{w|acromegaly}} in dogs by anterior lobe extract injection.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1929 || Scientific development || Stricker and Grueter discover {{w|prolactin}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1929 || Scientific development || {{w|Carl Ferdinand Cori}} and {{w|Gerty Cori}} propose the theory of the {{w|Cori Cycle}}, which refers to the phases in the {{w|metabolism}} of {{w|carbohydrate}}s in which muscles convert glycogen to lactic acid.<ref name="Century of Endocrinology Timeline"/> ||
 |-
 | 1929 || Scientific development || {{w|Adolf Butenandt}} and American biochemist {{w|Edward Adelbert Doisy}} isolate estrone simultaneously but independently.<ref>{{cite book |last1=Laylin |first1=James K. |title=Nobel Laureates in Chemistry, 1901-1992 |url=https://books.google.com.ar/books?id=jEy67gEvIuMC&pg=PA254&dq=In+1929,+Edward+A.+Doisy+isolated+estrone+i&hl=en&sa=X&ved=0ahUKEwjt46m1taXgAhWAGLkGHYs6CT0Q6AEIKTAA#v=onepage&q=In%201929%2C%20Edward%20A.%20Doisy%20isolated%20estrone%20i&f=false}}</ref><ref>{{cite book |last1=Huggins |first1=Charles |title=Experimental Leukemia and Mammary Cancer: Induction, Prevention, Cure |url=https://books.google.com.ar/books?id=0ROPl1EMkiYC&pg=PA35&dq=In+1929,+Edward+A.+Doisy+isolated+estrone+i&hl=en&sa=X&ved=0ahUKEwjt46m1taXgAhWAGLkGHYs6CT0Q6AEILzAB#v=onepage&q=In%201929%2C%20Edward%20A.%20Doisy%20isolated%20estrone%20i&f=false}}</ref><ref>{{cite book |last1=Fox |first1=Daniel M. |last2=Meldrum |first2=Marcia |last3=Rezak |first3=Ira |title=Nobel Laureates in Medicine or Physiology: A Biographical Dictionary |url=https://books.google.com.ar/books?id=x6l-DwAAQBAJ&pg=PT161&dq=In+1929,+Edward+A.+Doisy+isolated+estrone+i&hl=en&sa=X&ved=0ahUKEwjt46m1taXgAhWAGLkGHYs6CT0Q6AEINDAC#v=onepage&q=In%201929%2C%20Edward%20A.%20Doisy%20isolated%20estrone%20i&f=false}}</ref><ref>{{cite book |last1=Siegel Watkins |first1=Elizabeth |title=The Estrogen Elixir: A History of Hormone Replacement Therapy in America |url=https://books.google.com.ar/books?id=-tz4J4_hgdIC&pg=PA21&dq=In+1929,+Edward+A.+Doisy+isolated+estrone+i&hl=en&sa=X&ved=0ahUKEwjt46m1taXgAhWAGLkGHYs6CT0Q6AEIOTAD#v=onepage&q=In%201929%2C%20Edward%20A.%20Doisy%20isolated%20estrone%20i&f=false}}</ref> || {{w|Germany}}, {{w|United States}}
+|-
+| 1929 || Scientific development || Aron and, independently, Loeb and Basset describe the action of {{w|thyroid-stimulating hormone}} of the anterior pituitary.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1930 || Scientific development || Argentine physiologist {{w|Bernardo Houssay}} proves the diabetogenic effect of extracts from the [[w:Anterior pituitary|anterior lobe]] of the pituitary gland.<ref name="Century of Endocrinology Timeline"/> Houssay and Biasotti succeed in removing the pancreas in the hypophysectomized dog.<ref name="A History of Endocrinologys"/> || {{w|Argentina}}
+|-
+| 1930 || Medical development || Rowntree and Greene successfully treat a patient with {{w|Addison's disease}} with Swingle and Pfiffner's extract.<ref name="A History of Endocrinologys"/> ||
 |-
 | 1931 || Scientific development || German biochemist {{w|Adolf Butenandt}} isolates the androgenic steroid {{w|androsterone}}.<ref name="Testosterone: From Basic to Clinical Aspects"/> || {{w|Germany}}
+|-
+| 1932 || Scientific development || Cushing connects the "polyglandular syndrome" of pituitary basophilism with pituitary-adrenal hyperactivity.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1932 || Scientific development || Anderson and Collip describe the thyrotrophic hormone (TSH) of the anterior pituitary.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1933 || Medical development || Loeb treats the abnormal serum electrolytes in Addison's disease with sodium chloride.<ref name="A History of Endocrinologys"/> ||
 |-
 | 1933 || Scientific development || American biologist {{w|Oscar Riddle}} and colleagues identify and isolate the pituitary hormone {{w|prolactin}}.<ref>{{cite book |title=Office of the Home Secretary, National Academy of Sciences |url=https://books.google.com.ar/books?id=Ka_-6A5UPqcC&pg=PA466&dq=1933+Dr.+Oscar+Riddle+assayed+prolactin&hl=en&sa=X&ved=0ahUKEwiHl7Cvr6XgAhU8EbkGHZmTA6kQ6AEILzAB#v=onepage&q=1933%20Dr.%20Oscar%20Riddle%20assayed%20prolactin&f=false}}</ref><ref>{{cite book |last1=Medvei |first1=V.C. |title=A History of Endocrinology |url=https://books.google.com.ar/books?id=1OW9BwAAQBAJ&pg=PA197&dq=1933+Dr.+Oscar+Riddle+assayed+prolactin&hl=en&sa=X&ved=0ahUKEwiHl7Cvr6XgAhU8EbkGHZmTA6kQ6AEIKTAA#v=onepage&q=1933%20Dr.%20Oscar%20Riddle%20assayed%20prolactin&f=false}}</ref><ref>{{cite book |title=Die Drüsen mit innerer Sekretion: Ihre physiologische und therapeutische Bedeutung |publisher=Council on Pharmacy and Chemistry (American Medical Association) |url=https://books.google.com.ar/books?id=oukrAQAAMAAJ&q=1933+Dr.+Oscar+Riddle+assayed+prolactin&dq=1933+Dr.+Oscar+Riddle+assayed+prolactin&hl=en&sa=X&ved=0ahUKEwiHl7Cvr6XgAhU8EbkGHZmTA6kQ6AEINTAC}}</ref> || {{w|United States}}
 |-
-| 1935 || || Dutch biochemist {{w|Ernst Laqueur}} in {{w|Amsterdam}}  isolates {{w|testosterone}}, and determines its chemical structure.<ref name="Anabolic Steroids and the Athlete, 2d ed.">{{cite book |last1=Taylor |first1=William N. |title=Anabolic Steroids and the Athlete, 2d ed. |url=https://books.google.com.ar/books?id=OGcQ0Tp2AFcC&pg=PA180&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEIKTAA#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref>{{cite book |title=Testosterone: Action, Deficiency, Substitution |edition=Eberhard Nieschlag, Hermann M. Behre, Susan Nieschlag |url=https://books.google.com.ar/books?id=MkrAPaQ4wJkC&pg=PA9&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEILzAB#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref>{{cite book |last1=Wolf |first1=Michael P. |last2=Koons |first2=Jeremy Randel |title=The Normative and the Natural |url=https://books.google.com.ar/books?id=myL0DAAAQBAJ&pg=PA291&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEINDAC#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref name="Testosterone: From Basic to Clinical Aspects">{{cite book |title=Testosterone: From Basic to Clinical Aspects |edition=Alexandre Hohl |url=https://books.google.com.ar/books?id=Et6TDgAAQBAJ&pg=PA8&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEIOzAD#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref> || {{w|Netherlands}}
+| 1933 || Scientific development || Collip and his team isolate an impure "adrenotropic hormone".<ref name="A History of Endocrinologys"/> ||
+|-
+| 1934 || Scientific development || American endocrinologist {{w|Fuller Albright}} suggests a relationship between chronic renal disease and {{w|hyperparathyroidism}} (PHPT), in which an intrinsic abnormality of the parathyroid glands leads to overproduction of parathyroid hormone (PTH).<ref>{{cite book |last1=Cameron |first1=John L. |last2=Cameron |first2=Andrew M |title=Current Surgical Therapy E-Book |url=https://books.google.com.ar/books?id=FM6fDQAAQBAJ&pg=PA798&dq=%221934:+Surgical+Correction+of+Primary+Hyperparathyroidism,+Fuller+Albright&hl=en&sa=X&ved=0ahUKEwiHy4fjiqfgAhWVJrkGHcjiDw8Q6AEIKTAA#v=onepage&q=%221934%3A%20Surgical%20Correction%20of%20Primary%20Hyperparathyroidism%2C%20Fuller%20Albright&f=false}}</ref> In the following years, Albright would describe the biochemistry of primary hyperparathyroidism and kidney stones as one of the important diagnostic features.<ref name="A History of Endocrinologys">{{cite book |last1=Medvei |first1=V.C. |title=A History of Endocrinology |url=https://books.google.com.ar/books?id=1OW9BwAAQBAJ&pg=PA842&dq=%221934:+Surgical+Correction+of+Primary+Hyperparathyroidism,+Fuller+Albright&hl=en&sa=X&ved=0ahUKEwiHy4fjiqfgAhWVJrkGHcjiDw8Q6AEINTAC#v=onepage&q=%221934%3A%20Surgical%20Correction%20of%20Primary%20Hyperparathyroidism%2C%20Fuller%20Albright&f=false}}</ref><ref>{{cite book |last1=Pasieka |first1=Janice L. |last2=Lee |first2=James A. |title=Surgical Endocrinopathies: Clinical Management and the Founding Figures |url=https://books.google.com.ar/books?id=-8oGCAAAQBAJ&pg=PA137&dq=%221934:+Surgical+Correction+of+Primary+Hyperparathyroidism,+Fuller+Albright&hl=en&sa=X&ved=0ahUKEwiHy4fjiqfgAhWVJrkGHcjiDw8Q6AEIMDAB#v=onepage&q=%221934%3A%20Surgical%20Correction%20of%20Primary%20Hyperparathyroidism%2C%20Fuller%20Albright&f=false}}</ref> || {{w|United States}}
+|-
+| 1934 || Scientific development || Butenandt isolates {{w|progesterone}} from the {{w|corpus luteum}}.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1935 || Scientific development || Dutch biochemist {{w|Ernst Laqueur}} in {{w|Amsterdam}}  isolates {{w|testosterone}}, and determines its chemical structure.<ref name="Anabolic Steroids and the Athlete, 2d ed.">{{cite book |last1=Taylor |first1=William N. |title=Anabolic Steroids and the Athlete, 2d ed. |url=https://books.google.com.ar/books?id=OGcQ0Tp2AFcC&pg=PA180&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEIKTAA#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref>{{cite book |title=Testosterone: Action, Deficiency, Substitution |edition=Eberhard Nieschlag, Hermann M. Behre, Susan Nieschlag |url=https://books.google.com.ar/books?id=MkrAPaQ4wJkC&pg=PA9&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEILzAB#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref>{{cite book |last1=Wolf |first1=Michael P. |last2=Koons |first2=Jeremy Randel |title=The Normative and the Natural |url=https://books.google.com.ar/books?id=myL0DAAAQBAJ&pg=PA291&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEINDAC#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref><ref name="Testosterone: From Basic to Clinical Aspects">{{cite book |title=Testosterone: From Basic to Clinical Aspects |edition=Alexandre Hohl |url=https://books.google.com.ar/books?id=Et6TDgAAQBAJ&pg=PA8&dq=In+1935,+Ernst+Laqueur+testosterone&hl=en&sa=X&ved=0ahUKEwjN17m4_aTgAhUZH7kGHQWeBwQQ6AEIOzAD#v=onepage&q=In%201935%2C%20Ernst%20Laqueur%20testosterone&f=false}}</ref> || {{w|Netherlands}}
 |-
-| 1937 || Scientific development || Ruzicka, Butendant and Hanisch synthesize {{w|testosterone}} from {{w|cholesterol}}.<ref name="Anabolic Steroids and the Athlete, 2d ed."/> ||
+| 1935 || Scientific development || American chemist {{w|Edward Calvin Kendall}} first isolates Compound E (later renamed {{w|cortisone}}) from bovine adrenal glands along with a series of structurally related steroids (including {{w|cortisol}}, then named compound F) capable of improving muscular strength when administered to adrenalectomised rats or dogs.<ref name="Century of Endocrinology Timeline"/> || {{w|United States}}
+|-
+| 1935–1953 || Scientific development || Austrian pathologist {{w|Friedrich Feyrter}} in {{w|Danzig}} describes the pheriferal paracrine endocrine glands in man. Feyrter is often described as the "Father of Neuroendocrinology".<ref>{{cite journal |last1=Champaneria |first1=M.C. |last2=Modlin |first2=I.M. |last3=Kidd |first3=M. |last4=Eick |first4=G.N. |title=Friedrich Feyrter: A Precise Intellect in a Diffuse System |doi=10.1159/000096050 |url=https://www.karger.com/Article/Abstract/96050?id=pmid:4143745}}</ref> ||
+|-
+| 1936 || Scientific development || Hungarian-Canadian endocrinologist {{w|Hans Selye}} introduces the concept of stress.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1936 || Scientific development || Evans and his group isolate the interstitial cell stimulating hormone (ICSH).<ref name="A History of Endocrinologys"/> ||
+|-
+| 1937 || Scientific development || Croatian-Swiss scientist {{w|Leopold Ružička}}, German biochemist {{w|Adolf Butenandt}} and Gunicr Hanisch synthesize {{w|testosterone}} from {{w|cholesterol}}.<ref name="Anabolic Steroids and the Athlete, 2d ed."/><ref>{{cite web |title=ENCYCLOPEDIA OF ANTI-DOPING |url=http://pilarmartinescudero.es/MayoJunJulio2015/Encyclopedia_of_anti-doping_2006-2013.PDF |website=pilarmartinescudero.es |accessdate=27 February 2019}}</ref> ||
+|-
+| 1937 || Scientific development || F.G. Young describes the diabetogenic hormone.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1937 || Scientific development || Lambie and Trikojus obtain purified {{w|thyroid-stimulating hormone}}.<ref>{{cite book |last1=Emmens |first1=C. W. |title=Hormone Assay |url=https://books.google.com.ar/books?id=cCzgBAAAQBAJ&pg=PA217&lpg=PA217&dq=Lambie+and+Trikojus&source=bl&ots=lZ2cYIWDJC&sig=ACfU3U0l3WRa_LXDpdcMAL95TSrEQIzczQ&hl=en&sa=X&ved=2ahUKEwjQppyDwdzgAhXjCtQKHQCIAdEQ6AEwAnoECAcQAQ#v=onepage&q=Lambie%20and%20Trikojus&f=false}}</ref><ref>{{cite book |title=Vitamins and Hormones, Volume 24 |url=https://books.google.com.ar/books?id=RDUaSslMi_gC&pg=PA181&dq=Lambie+and+Trikojus&hl=en&sa=X&ved=0ahUKEwiXkp2NwdzgAhUJKLkGHRcUB-8Q6AEIKjAA#v=onepage&q=Lambie%20and%20Trikojus&f=false}}</ref><ref>{{cite book |last1=Medvei |first1=V.C. |title=The History of Clinical Endocrinology: A Comprehensive Account of Endocrinology from Earliest Times to the Present Day |url=https://books.google.com.ar/books?id=zRxQImynEsoC&pg=PA488&dq=Lambie+and+Trikojus&hl=en&sa=X&ved=0ahUKEwiXkp2NwdzgAhUJKLkGHRcUB-8Q6AEILjAB#v=onepage&q=Lambie%20and%20Trikojus&f=false}}</ref><ref>{{cite book |last1=Lucas |first1=John D. |title=Annual survey of research in pharmacy and proceedings of National Conference on Pharmaceutical Research. 1938/39 : 6th |url=https://books.google.com.ar/books?id=gKIcui3Sq50C&q=Lambie+and+Trikojus&dq=Lambie+and+Trikojus&hl=en&sa=X&ved=0ahUKEwiXkp2NwdzgAhUJKLkGHRcUB-8Q6AEIPjAE}}</ref> ||
+|-
+| 1939 || Award || The {{w|Nobel Prize in Chemistry}} is divided equally between {{w|Adolf Butenandt}} "for his work on sex hormones" and {{w|Leopold Ružička}} "for his work on {{w|polymethylene}}s and higher {{w|terpene}}s. ||
+|-
+| 1939 || Scientific development || Sheehan in {{w|Liverpool}} describes panhypopituitarism caused by pituitary necrosis after post-partum hemorrhage.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1940 || Scientific development || Choh Hao Li isolates luteinizing hormone (LH).<ref name="A History of Endocrinologys"/> ||
 |-
 | 1941 || Literature (journal) || The ''Journal of Clinical Endocrinology'' is launched.<ref name="A History of Endocrinologyv">{{cite book |last1=Medvei |first1=V.C. |title=A History of Endocrinology |url=https://books.google.com.ar/books?id=1OW9BwAAQBAJ&pg=PA505&dq=%22endocrinology%22+%22in+1930..1939%22&hl=en&sa=X&ved=0ahUKEwicmO3NwaXgAhXHHrkGHUWCC2EQ6AEINDAC#v=onepage&q=%22endocrinology%22%20%22in%201930..1939%22&f=false}}</ref> ||
+|-
+| 1942 || Scientific development || American endocrinologist {{w|Harry Klinefelter}}, {{w|Fuller Albright}} and Edward C. Reifenstein describe the later called {{w|Klinefelter syndrome}} in their article, ''Syndrome Characterized by Gynecomastia, Aspermatogenesis without A-Leydigism, and Increased Excretion of Follicle- Stimulating Hormone''.<ref>{{cite book |title=Handbook of Pediatric Neuropsychology |edition=Andrew S. Davis, PhD, Rik Carl D'Amato |url=https://books.google.com.ar/books?id=SU9-LSh4HgcC&pg=PA806&dq=%22Klinefelter%22+%221942%22+%22Albright%22&hl=en&sa=X&ved=0ahUKEwiUorGYzdzgAhW-LLkGHfU9AlwQ6AEINTAC#v=onepage&q=%22Klinefelter%22%20%221942%22%20%22Albright%22&f=false}}</ref><ref>{{cite book |title=Male Hypogonadism: Basic, Clinical and Therapeutic Principles |edition=Stephen J. Winters, Ilpo T. Huhtaniemi |url=https://books.google.com.ar/books?id=UFi-DgAAQBAJ&pg=PA188&dq=%22Klinefelter%22+%221942%22+%22Albright%22&hl=en&sa=X&ved=0ahUKEwiUorGYzdzgAhW-LLkGHfU9AlwQ6AEIOjAD#v=onepage&q=%22Klinefelter%22%20%221942%22%20%22Albright%22&f=false}}</ref><ref>{{cite book |last1=Beighton |first1=Peter |last2=Beighton |first2=Greta |title=The Man Behind the Syndrome |url=https://books.google.com.ar/books?id=-TGgBQAAQBAJ&pg=PA5&dq=%22Klinefelter%22+%221942%22+%22Albright%22&hl=en&sa=X&ved=0ahUKEwiUorGYzdzgAhW-LLkGHfU9AlwQ6AEIPzAE#v=onepage&q=%22Klinefelter%22%20%221942%22%20%22Albright%22&f=false}}</ref> || {{w|United States}}
+|-
+| 1942 || Scientific development || Li and Sayers isolate the {{w|adrenocorticotropic hormone}} (ACTH).<ref name="A History of Endocrinologys"/> ||
+|-
+| 1943 || Scientific development || Choh Hao Li and Evans isolate pure adrenocorticotrophic hormone (ACTH) from sheep pituitaries.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1943 || Medical development || Bermudian-American endocrinologist {{w|Edwin B. Astwood}} uses {{w|thiourea}} and {{w|thiouracil}} in the medical treatment of {{w|Grave's disease}}.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1943 || Scientific development || Sayers isolate ACTH from swine pituitaries.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1946 || Scientific development || {{w|Hans Selye}} describes the {{w|general adaptation syndrome}}.<ref name="A History of Endocrinologys"/> ||
 |-
 | 1946 || Organization || The {{w|Society for Endocrinology}} is founded. It is an international membership organization, supporting scientists, clinicians and nurses who work with hormones throughout their careers.<ref>{{cite web |title=Society for Endocrinology |url=https://www.endocrinology.org/grants-and-awards/prizes-and-awards/medals/ |website=endocrinology.org |accessdate=5 February 2019}}</ref> || {{w|United Kingdom}}
 |-
-| 1947 || || The {{w|Nobel Prize in Physiology or Medicine}} is awarded to American biochemists [[w:Carl Ferdinand Cori|Carl]] and {{w|Gerty Cori}} "for their discovery of the course of the catalytic conversion of glycogen", and to Argentine biochemist {{w|Bernardo Houssay}} "for his discovery of the part played by the hormone of the anterior pituitary lobe in the metabolism of sugar."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1947 |url=https://www.nobelprize.org/prizes/medicine/1947/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> ||
+| 1947 || Award || The {{w|Nobel Prize in Physiology or Medicine}} is awarded to American biochemists [[w:Carl Ferdinand Cori|Carl]] and {{w|Gerty Cori}} "for their discovery of the course of the catalytic conversion of glycogen", and to Argentine biochemist {{w|Bernardo Houssay}} "for his discovery of the part played by the hormone of the anterior pituitary lobe in the metabolism of sugar."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1947 |url=https://www.nobelprize.org/prizes/medicine/1947/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> ||
+|-
+| 1948 || Scientific development || Hench and his colleagues discover the antiinflamatory effect of {{w|cortisone}} (Kendall's compound-E).<ref name="A History of Endocrinologys"/> ||
+|-
+| 1949 || Scientific development || Choh Hao Li and Evans isolate follicle stimulating hormone (FSH).<ref name="A History of Endocrinologys"/> ||
+|-
+| 1949 || Scientific development || {{w|Edward Calvin Kendall}} discovers that {{w|cortisone}} could relieve symptoms of {{w|rheumatoid arthritis}}.<ref name="History of Hormonesvv"/> ||
+|-
+| 1950 || Award || {{w|Edward Calvin Kendall}}, Polish-Swiss chemist {{w|Tadeus Reichstein}} and American physician {{w|Philip Showalter Hench}} are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries relating to the hormones of the adrenal cortex, their structure and biological effects."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1950 |url=https://www.nobelprize.org/prizes/medicine/1950/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> || {{w|Sweden}}
+|-
+| 1950 || Scientific development || American {{w|pediatric endocrinologist}} {{w|Lawson Wilkins}} reports the first documented demonstration of the pathophysiology of {{w|androgen insensitivity syndrome}} by administration of {{w|methyltestosterone}} to a 46, XY female patient, who shows no signs of {{w|virilization}}.<ref name="Century of Endocrinology Timeline"/> || {{w|United States}}
+|-
+| 1951 || Scientific development || Bulgarian-American chemist {{w|Carl Djerassi}} develops the first oral {{w|progestin}}, {{w|norethindrone}}, at Syntex, SA Laboratories located in Mexico City. The synthesis of norenindrone is a factor leading to the development of oral contraceptives.<ref name="Century of Endocrinology Timeline"/> || {{w|Mexico}}
+|-
+| 1951 || Literature || L'Hermite publishes Le Cerveau et la Pensée, stressing the regulation of mental life by the hormones.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1953 || Scientific development || American biochemist {{w|Vincent du Vigneaud}} synthesizes the first peptide hormone ({{w|oxytocin}}).<ref>{{cite book |last1=Istvan |first1=Hargittai |last2=Balazs |first2=Hargittai |title=Candid Science V: Conversations With Famous Scientists |url=https://books.google.com.ar/books?id=P_P4CgAAQBAJ&pg=PA369&dq=Vincent+du+Vigneaud++oxytocin+%221953%22&hl=en&sa=X&ved=0ahUKEwjZ9dDT1dzgAhWJKLkGHYOxDu8Q6AEIOzAD#v=onepage&q=Vincent%20du%20Vigneaud%20%20oxytocin%20%221953%22&f=false}}</ref><ref>{{cite book |last1=Rezende |first1=Lisa |title=Chronology of Science |url=https://books.google.com.ar/books?id=079t8r9RIcIC&pg=PA347&dq=Vincent+du+Vigneaud++oxytocin+%221953%22&hl=en&sa=X&ved=0ahUKEwjZ9dDT1dzgAhWJKLkGHYOxDu8Q6AEIKjAA#v=onepage&q=Vincent%20du%20Vigneaud%20%20oxytocin%20%221953%22&f=false}}</ref><ref>{{cite book |last1=Loriaux |first1=D. Lynn |title=A Biographical History of Endocrinology |url=https://books.google.com.ar/books?id=ve2hCwAAQBAJ&pg=PA334&dq=Vincent+du+Vigneaud++oxytocin+%221953%22&hl=en&sa=X&ved=0ahUKEwjZ9dDT1dzgAhWJKLkGHYOxDu8Q6AEIMDAB#v=onepage&q=Vincent%20du%20Vigneaud%20%20oxytocin%20%221953%22&f=false}}</ref>  || {{w|United States}}
+|-
+| 1955 || Award || {{w|Vincent du Vigneaud}} is awarded the {{w|Nobel Prize in Chemistry}} "for his work on biochemically important sulphur compounds, especially for the first synthesis of a polypeptide hormone"."<ref name="Century of Endocrinology Timeline"/> || {{w|Sweden}}
+|-
+| 1955 || Scientific development || E. Knobil and  Roy O. Greep show that {{w|growth hormone}} extracts from monkeys are active in man and are species-specific.<ref>{{cite book |title=Human Pituitary Hormones, Volume 13: Colloquia on Endocrinology |edition=G. E. W. Wolstenholme, Cecilia M. O'Connor |url=https://books.google.com.ar/books?id=qEkBEJbQlhoC&pg=PA25&lpg=PA25&dq=Knobil+and+Greep+growth+hormone+%221955%22&source=bl&ots=AXcyZAiKk3&sig=ACfU3U27GnxwnZRe4rCIIbfrLVOFBg3Q-g&hl=en&sa=X&ved=2ahUKEwjE2pi319zgAhXhI7kGHay3AuEQ6AEwCXoECAgQAQ#v=onepage&q=Knobil%20and%20Greep%20growth%20hormone%20%221955%22&f=false}}</ref><ref>{{cite book |title=The Hormones: Physiology, Chemistry, and Applications |edition=Gregory Pincus, Kenneth V. Thimann, E. B. Astwood |url=https://books.google.com.ar/books?id=WzDLBAAAQBAJ&pg=PA149&lpg=PA149&dq=Knobil+and+Greep+growth+hormone+%221955%22&source=bl&ots=OP1ZMNIg2v&sig=ACfU3U1iXS2BpiLG_oW4Gr06q84hYUZ3xA&hl=en&sa=X&ved=2ahUKEwjE2pi319zgAhXhI7kGHay3AuEQ6AEwDHoECAIQAQ#v=onepage&q=Knobil%20and%20Greep%20growth%20hormone%20%221955%22&f=false}}</ref> ||
+|-
+| 1955 || Scientific development || American surgeon {{w|Robert Milton Zollinger}} and E. H. Ellison describe the later called {{w|Zollinger–Ellison syndrome}}.<ref>{{cite web |title=A case of the Zollinger-Ellison syndrome associated with hyperplasia of salivary and Brunner's glands |url=https://gut.bmj.com/content/gutjnl/11/10/837.full.pdf |website=gut.bmj.com |accessdate=7 February 2019}}</ref> ||
+|-
+| 1956 || Scientific development || Swiss clinical immunologist {{w|Deborah Doniach}} and British immunologist {{w|Ivan Roitt}} find that patients with {{w|Hashimoto's thyroiditiss}} have circulating autoantibodies reacting to thyroid self antigens.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1956 || Scientific development || Adams and Purves recognize that patients with {{w|Graves’ disease}} have a serum factor defined as long-acting thyroid stimulator (LATS), later found to be an immunoglobulin G binding to the {{w|thyroid-stimulating hormone}} receptor.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1956 || Scientific development || Noel R. Rose and {{w|Ernst Witebsky}} demonstrate that a {{w|lymphocytic thyroiditis}} similar to the spontaneous human disease can be induced in animals by immunization with autologous thyroid extracts in Freund adjuvant.  This would lead to the general concept of autoimmune gland failure.<ref>{{cite book |title=The Autoimmune Diseases |edition=Ian R. Mackay, Noel R Rose |url=https://books.google.com.ar/books?id=PTMTAAAAQBAJ&pg=PA15&dq=Noel+R.+Rose+Witebsky+%221956%22&hl=en&sa=X&ved=0ahUKEwjC3_O6ld_gAhXmHrkGHUk7D5cQ6AEIKjAA#v=onepage&q=Noel%20R.%20Rose%20Witebsky%20%221956%22&f=false}}</ref><ref>{{cite book |last1=Meurant |first1=Gerard |title=The Autoimmune Diseases |url=https://books.google.com.ar/books?id=i-J1783i8bsC&pg=PA162&dq=Noel+R.+Rose+Witebsky+%221956%22&hl=en&sa=X&ved=0ahUKEwjC3_O6ld_gAhXmHrkGHUk7D5cQ6AEILzAB#v=onepage&q=Noel%20R.%20Rose%20Witebsky%20%221956%22&f=false}}</ref><ref>{{cite book |last1=Bier |first1=O.G. |last2=Dias Da Silva |first2=W. |last3=Goetze |first3=D. |last4=Mota |first4=I. |title=Fundamentals of Immunology |url=https://books.google.com.ar/books?id=opvTBwAAQBAJ&pg=PA413&dq=Noel+R.+Rose+Witebsky+%221956%22&hl=en&sa=X&ved=0ahUKEwjC3_O6ld_gAhXmHrkGHUk7D5cQ6AEINDAC#v=onepage&q=Noel%20R.%20Rose%20Witebsky%20%221956%22&f=false}}</ref><ref>{{cite book |last1=Stern |first1=Judith S. |last2=Kazaks |first2=Alexandra |title=Obesity: A Reference Handbook |url=https://books.google.com.ar/books?id=e3c_qS7JWnoC&pg=PA240&dq=Noel+R.+Rose+Witebsky+%221956%22&hl=en&sa=X&ved=0ahUKEwjC3_O6ld_gAhXmHrkGHUk7D5cQ6AEIPDAD#v=onepage&q=Noel%20R.%20Rose%20Witebsky%20%221956%22&f=false}}</ref>||
+|-
+| 1956 || Scientific development || Cohn describes {{w|primary aldosteronism}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1957 || Scientific development || Maurice S. Raben develops a method for the extraction of human {{w|growth hormone}} grom the pituitaries of cadavers.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1958 || Medical development || American medical researcher {{w|Elwood V. Jensen}} discovers the {{w|estrogen receptor}}, the first receptor found for any {{w|hormone}}. Using a radioactive marker, Jensen shows that only the tissues that respond to estrogen, such as those of the female reproductive tract, are able to concentrate injected estrogen from the blood. This specific uptake suggests that these cells must contain binding proteins, which Jensen calls “estrogen receptors.”<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1958 || Award || {{w|Frederick Sanger}} recieves the {{w|Nobel Prize in Chemistry}} "for his work on the structure of proteins, especially that of insulin". || {{w|Sweden}}
+|-
+| 1958 || Scientific development || John V. Verner and Ashton B. Morrison describe the watery diarrhoea hypokalaemic achlorhydric syndrome.<ref>{{cite book |last1=Cruickshank |first1=Alan H. |last2=Benbow |first2=Emyr W. |title=Pathology of the Pancreas |url=https://books.google.com.ar/books?id=PUYyBwAAQBAJ&pg=PT520&dq=%22verner%22+%22morrison%22+%221958%22&hl=en&sa=X&ved=0ahUKEwiRv5yTod3gAhVWKLkGHe3qD1oQ6AEIKjAA#v=onepage&q=%22verner%22%20%22morrison%22%20%221958%22&f=false}}</ref><ref>{{cite book |title=Hormonal Actions in Non-endocrine Systems |edition=W.B. Essman |url=https://books.google.com.ar/books?id=_gsrBgAAQBAJ&pg=PA71&dq=%22verner%22+%22morrison%22+%221958%22&hl=en&sa=X&ved=0ahUKEwiRv5yTod3gAhVWKLkGHe3qD1oQ6AEIMTAB#v=onepage&q=%22verner%22%20%22morrison%22%20%221958%22&f=false}}</ref><ref>{{cite book |title=Encyclopedia of Endocrine Diseases |url=https://books.google.com.ar/books?id=nVh7DwAAQBAJ&pg=RA1-PA52&dq=%22verner%22+%22morrison%22+%221958%22&hl=en&sa=X&ved=0ahUKEwiRv5yTod3gAhVWKLkGHe3qD1oQ6AEINjAC#v=onepage&q=%22verner%22%20%22morrison%22%20%221958%22&f=false}}</ref><ref>{{cite book |last1=Kannan |first1=C.R. |title=Essential Endocrinology: A Primer for Nonspecialists |url=https://books.google.com.ar/books?id=2v8xBwAAQBAJ&pg=PA495&dq=%22verner%22+%22morrison%22+%221958%22&hl=en&sa=X&ved=0ahUKEwiRv5yTod3gAhVWKLkGHe3qD1oQ6AEIOzAD#v=onepage&q=%22verner%22%20%22morrison%22%20%221958%22&f=false}}</ref> ||
+|-
+| 1958 || Medical development || Gross suggests {{w|angiotensin}} to control aldosterone secretion.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1959 || Scientific development || Liddle and his group develop the metyrapone test for pituitary reserve.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1959 || Scientific development || Rasmussen and Craig isolate the parathyroid hormone and define its structure as a polypeptide hormone.<ref name="A History of Endocrinologys"/> ||
 |-
-| 1949 || || "Kendall, Edward C isolated and crystallized the active principle of the thyroid, named thyroxin. In 1949, he discovered that cortisone could relieve symptoms of rheumatoid arthritis."<ref name="History of Hormonesvv"/> ||
+| 1961 || Scientific development || Choh Hao Li, Dixon and Chung describe the amino acid sequence of bovine [[w:Adrenocorticotropic hormone|adrenocorticopin]].<ref name="A History of Endocrinologys"/> ||
 |-
-| 1950 || || American chemist {{w|Edward Calvin Kendall}},  Polish-Swiss chemist {{w|Tadeus Reichstein}} and American physician {{w|Philip Showalter Hench}} are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries relating to the hormones of the adrenal cortex, their structure and biological effects."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1950 |url=https://www.nobelprize.org/prizes/medicine/1950/summary/ |website=nobelprize.org |accessdate=5 February 2019}}</ref> ||
+| 1963 || Scientific development || Glick, Roth, Berson and Yallow describe a radioimmunological assay (RIA) method for the measurement of human GH.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1963 || Scientific development || Hirsch finds {{w|calcitonin}} in the mammal thyroid.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1964 || Award || British chemist {{w|Dorothy Hodgkin}} is awarded the {{w|Nobel Prize in Chemistry}} "for her determinations by X-ray techniques of the structures of important biochemical substances".  Hodgkin's most significant scientific contributions are the determination of the structures of {{w|penicillin}}, {{w|insulin}}, and {{w|vitamin B12}}.<ref name="Century of Endocrinology Timeline"/> || {{w|Sweden}}
 |-
 | 1965 || Organization || The European Society for Paediatric Endocrinology (ESPE) is founded in {{w|Copenhagen}}.<ref>{{cite web |title=The European Society for Paediatric Endocrinology |url=https://www.eurospe.org/about |website=eurospe.org |accessdate=5 February 2019}}</ref> || {{w|Denmark}}
+|-
+| 1965 || Scientific development || Tenenhouse finds that the hypocalcaemic factor ({{w|calcitonin}}) is a {{w|polypeptide hormone}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1966 || Scientific development || Schwyzer and Sieber synthesize beta-corticotrophim.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1966 || Scientific development || British physiologist {{w|Roderic Alfred Gregory}} isolates {{w|gastrin}} and defines its structure.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1966 || Award || Canadian-American physician {{w|Charles Brenton Huggins}} is awarded the {{w|Nobel Prize in Physiology or Medicine}} "for his discoveries concerning hormonal treatment of prostatic cancer".<ref name="Century of Endocrinology Timeline"/> || {{w|Sweden}}
+|-
+| 1967 || Scientific development || Immunological methods are introduced for the estimation of serum calcitonin.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1969 || Scientific development || Group led by  French-born American neuroscientist {{w|Roger Guillemin}} and another by American endocrinologist {{w|Andrew  Schally}} announce that the {{w|hypothalamic}} substance that causes the anterior pituitary gland to release {{w|thyrotropin}} (thyroid-stimulating hormone, TSH) is L-pyroglutamyL-L-histidyl-L-prolineamide (L-pGlu-L-His-L-ProNH2). This {{w|tripeptide}} is now called {{w|thyrotropin-releasing hormone}}.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1969 || Scientific development || A. G. Everson Pearse introduces the amine uptake and peptide hormone secretion (APUD) concept.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1970 || Scientific development || Lewis E. Braverman, Sidney H. Ingbar, and Kenneth Sterling demonstrate T4 to T3 conversion in periphery.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1970 || Award || Argentine physician {{w|Luis Federico Leloir}} is awarded the {{w|Nobel Prize in Chemistry}} "for his discovery of sugar nucleotides and their role in the biosynthesis of carbohydrates."<ref name="Century of Endocrinology Timeline"/> || {{w|Sweden}}
+|-
+| 1970 || Scientific development || Mitchell and colleagues introduce the {{w|glucagon}} stimulation test to detect {{w|Growth hormone deficiency}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1971 || Award || American pharmacologist {{w|Earl Wilbur Sutherland Jr.}} is awarded the {{w|Nobel Prize n Physiology or Medicine}} for his discoveries concerning "the mechanisms of the action of hormones". || {{w|Sweden}}
+|-
+| 1971 || Scientific development || Hughes, Kosterlitz and colleagues determine the structure of the {{w|thyroid-stimulating hormone}}.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1971–1975 || Scientific development || Hughes, Kosterlitz and colleagues identify the pentapeptides from the brain to posses potent opiate agonist activity.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1971–1979 || Scientific development || Present day ideas on the mechanism of hormonal action are formulated.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1972-1978 || Medical development || Screening begins for neonatal congenital hypothyroidism in the United States, Canada, England, Japan and some other countries. In most cases of congenital hypothyroidism, problems with the thyroid start in the {{w|womb}}.<ref name="Century of Endocrinology Timeline"/> || {{w|United States}}, {{w|Canada}}, {{w|England}}, {{w|Japan}}
+|-
+| 1975 || Scientific development || A.F. Bradbury, D.G. Smyth and C.R. Snell isolate {{w|beta-endorphin}} and describe its structure.<ref name="A History of Endocrinologys"/> ||
+|-
+| 1977 || Award || Roger Guillemin and Andrew V. Schally share half of the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries concerning the peptide hormone production of the brain" with the other half awarded to {{w|Rosalyn Yalow}} "for the development of radioimmunoassays of peptide hormones."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1977 |url=https://www.nobelprize.org/prizes/medicine/1977/summary/ |website=nobelprize.org |accessdate=28 February 2019}}</ref> || {{w|Sweden}}
+|-
+| 1978 || Medical development || {{w|Louise Brown}} becomes the world’s first test tube baby. After numerous attempts to impregnate her mother, British medical researcher [[w:Robert Edwards (physiologist)|Robert Edwards]] and British gynecologist {{w|Patrick Steptoe}} tried fertilizing her eggs in a {{w|Petri dish}} before implanting a two-and-a-half-day-old embryo.<ref>{{cite web |title=Louise Brown |url=https://www.britannica.com/biography/Louise-Brown |website=britannica.com |accessdate=7 February 2019}}</ref>  || {{w|United Kingdom}}
+|-
+| 1978 || Scientific development || German neuropharmacologist {{w|Wilhelm Siegmund Feldberg}} reports on the pharmacology of the central actions of {{w|endorphins}}.<ref name="A History of Endocrinologys"/> ||
 |-
 | 1979 || Organization || The {{w|Max Planck Institute of Experimental Endocrinology}} is founded. ||
 |-
-| 1980 || Organization || "{{w|BIRDEM}}, the Bangladesh Institute of Research and Rehabilitation for Diabetes, Endocrine and Metabolic Disorders" || {{w|Bangladesh}}
+| 1980 || Literature (book) || "First published in 1980, Endocrine Reviews is an enduring and high impact factor resource.  Comprehensive reviews cover clinical and research topics, including thyroid disorders, pediatric endocrinology, growth factors, and reproductive medicine.  Each issue provides translational and basic research articles with knowledge, understanding, and perspective in diabetes, endocrinology, and metabolism."<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1982 || Award || {{w|Sune Bergström}}, {{w|Bengt I. Samuelsson}} and {{w|John Vane}} share the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries concerning {{w|prostaglandin}}s and related biologically active substances".<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1982 |url=https://www.nobelprize.org/prizes/medicine/1982/summary/ |website=nobelprize.org |accessdate=28 February 2019}}</ref> || {{w|Sweden}}
+|-
+| 1986 || Award || American biochemist [[w:Stanley Cohen (biochemist)|Stanley Cohen]] and Italian neurobiologist {{w|Rita Levi-Montalcini}} are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries of growth factors". The nerve growth factor and epidermal growth factor are the first of many growth-regulating signal substances to be discovered and characterized.<ref name="Century of Endocrinology Timeline"/> || {{w|Sweden}}
+|-
+| 1987 || Literature (journal) || Peer-reviewed journal ''{{w|Molecular Endocrinology}}'' is first issued.<ref>{{cite journal |last1=Goldberg |first1=Mark A. |last2=Kaiser |first2=Ursula B. |title=Editorial: The Rise of the Asterisk: One Step to Facilitate Team Science |doi=10.1210/me.2015-1140 |pmid=26132706 |url=https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4484782/ |pmc=4484782}}</ref> ||
+|-
+| 1987 || Scientific development || William I. Wood clones the {{w|growth hormone receptor}}.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1988 || Scientific development || Theo Colborn's research on the state of the environment of the Great Lakes reveals that top predator female birds, fish, mammals, and reptiles transfer persistent, man-made chemicals to their offspring, which undermines the development and programming of their youngsters’ organs before they are born or hatched.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1990 || Scientific development || English physician [[w:David Barker (epidemiologist)|David Barker]] proposes the concept later called {{w|Barker Hypothesis}}, suggesting that in utero environmental conditions, such as {{w|undernutrition}}, can permanently alter {{w|metabolism}} and other functions in ways that dramatically affect health later in life and cause e.g., heart disease. This concept would be expanded to include chemical exposures such as EDCs and is called the Developmental Origins of Adult Health and Disease (DOHaD).<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1991 || Scientific development || The term “[[w:endocrine disruptor|Endocrine Disruption]]” is first used.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1992 || Scientific development || {{w|Polychlorinated Biphenyl}}s (PCBs) are shown to affect cognitive function in children. Jacobson et. al., link PCB exposure to impairment in cognitive functioning and show that impairments are predominantly due to developmental, intrauterine exposure, rather than postnatal effects.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1994 || Scientific development || American molecular geneticist {{w|Jeffrey M. Friedman}} discovers {{w|leptin}}.<ref>{{cite book |title=Leptin: Regulation and Clinical Applications |edition=Sam Dagogo-Jack, MD |url=https://books.google.com.ar/books?id=_KF3BQAAQBAJ&pg=PA38&dq=%22Friedman%22+%22leptin%22+%221994%22&hl=en&sa=X&ved=0ahUKEwiNrr2a5t7gAhVaGbkGHRKPBgMQ6AEIOzAD#v=onepage&q=%22Friedman%22%20%22leptin%22%20%221994%22&f=false}}</ref><ref>{{cite book |title=Journal of Reproduction and Fertility: Supplement, Issue 54 |url=https://books.google.com.ar/books?id=MWEVAQAAMAAJ&q=%22Friedman%22+%22leptin%22+%221994%22&dq=%22Friedman%22+%22leptin%22+%221994%22&hl=en&sa=X&ved=0ahUKEwiNrr2a5t7gAhVaGbkGHRKPBgMQ6AEIRDAF}}</ref><ref>{{cite book |last1=Stern |first1=Judith S. |last2=Kazaks |first2=Alexandra |title=Obesity: A Reference Handbook |url=https://books.google.com.ar/books?id=DaaRl5BZFLgC&pg=PA161&dq=%22Friedman%22+%22leptin%22+%221994%22&hl=en&sa=X&ved=0ahUKEwiNrr2a5t7gAhVaGbkGHRKPBgMQ6AEIKjAA#v=onepage&q=%22Friedman%22%20%22leptin%22%20%221994%22&f=false}}</ref> ||
+|-
+| 1996 || Literature (book) || Dianne Dumanoski and John Peterson Myers ''Our Stolen Future'', which describes the low-dose and/or ambient exposure effects of endocrine disruptors.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1997 || Organization || The {{w|Endocrine Society}} establishes the Hormone Foundation as a public education affiliate.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 1998 || Award || American biochemist {{w|Robert F. Furchgott}}, American pharmacologist {{w|Louis J. Ignarro}} and American physician {{w|Ferid Murad}} are awarded the {{w|Nobel Prize in Physiology or Medicine}} "for their discoveries concerning nitric oxide as a signalling molecule in the cardiovascular system."<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 1998 |url=https://www.nobelprize.org/prizes/medicine/1998/summary/ |website=nobelprize.org |accessdate=28 February 2019}}</ref> || {{w|Sweden}}
+|-
+| 2001 || Literature || the Endocrine Society first publishes ''Endocrine News'', a monthly news and feature magazine providing information on trends in the field of endocrinology as well as a closer look at recently published research.<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 2009 || Scientific development || The {{w|Endocrine Society}} creates a task force charged with summarizing current knowledge about [[w:Endocrine disruptor|endocrine disrupting chemicals]], including possible mechanisms of action and potential health risks. The task force’s work results in the landmark Scientific Statement on EDCs published in the same year. In 2015, the Endocrine Society published a second Scientific Statement on EDCs, building on the groundbreaking first statement and summarizing additional research connecting EDC exposures to infertility, hormone-related cancers, neurological issues, and other disorders."<ref name="Century of Endocrinology Timeline"/> ||
+|-
+| 2010 || Literature (journal) || Medical journal ''{{w|Hormones and Cancer}}'' is first issued.<ref name>{{cite web |title=Hormones and Cancer |url=https://link.springer.com/journal/12672 |website=link.springer.com |accessdate=11 February 2019}}</ref> ||
+|-
+| 2010 || Award || English physiologist [[w:Robert Edwards (physiologist)|Robert Edwards]] is awarded the {{w|Nobel Prize in Physiology or Medicine}} "for the development of {{w|in vitro fertilization}}.<ref>{{cite web |title=The Nobel Prize in Physiology or Medicine 2010 |url=https://www.nobelprize.org/prizes/medicine/2010/summary/ |website=nobelprize.org |accessdate=1 March 2019}}</ref> || {{w|Sweden}}
 |-
-| 1987 || Literature (journal) || ''{{w|Molecular Endocrinology}}''. ||
+| 2012 || Award || American physician {{w|Robert Lefkowitz}} and American physiologist {{w|Brian Kobilka}} are awarded the {{w|Nobel Prize in Chemistry}} "for studies of {{w|G-protein-coupled receptor}}s.<ref>{{cite web |title=The Nobel Prize in Chemistry 2012 |url=https://www.nobelprize.org/prizes/chemistry/2012/summary/ |website=nobelprize.org |accessdate=1 March 2019}}</ref> || {{w|Sweden}}
 |-
-| 2010 || Literature (journal) || ''{{w|Hormones and Cancer}}'' ||
+| 2015 || Scientific development || The {{w|Endocrine Society}} publishes a second Scientific Statement on [[w:Endocrine disruptor|endocrine disrupting chemicals]], summarizing additional research connecting EDC exposures to {{w|infertility}}, hormone-related cancers, neurological issues, and other disorders.<ref name="Century of Endocrinology Timeline"/> ||
 |-
 |}