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Endocrine Collection

Background imageEndocrine Collection: Goitre, 15th century artwork C018 / 1849

Goitre, 15th century artwork C018 / 1849
Goitre. 15th century artwork of a man with an enlarged thyroid gland (goitre)

Background imageEndocrine Collection: Pancreas anatomy, artwork

Pancreas anatomy, artwork
Pancreas anatomy. Cut-away computer artwork of the pancreas, which secretes digestive enzymes and the hormones insulin and glucagon, which regulate blood sugar levels

Background imageEndocrine Collection: Islet of Langerhans, light micrograph

Islet of Langerhans, light micrograph
Islet of Langerhans. Light micrograph of a section through an islet of Langerhans (centre) in the pancreas. This structure is composed of clumps of secretory cells

Background imageEndocrine Collection: Oxytocin neurotransmitter molecule

Oxytocin neurotransmitter molecule. Computer model showing the structure of the neurotransmitter and hormone Oxytocin

Background imageEndocrine Collection: Female naked body, with full endocrine system superimposed

Female naked body, with full endocrine system superimposed. Anatomy image. On white background with clipping path included Female naked body, with full endocrine system superimposed. Anatomy image

Background imageEndocrine Collection: Diagnosis of thyroid disease vector illustration

Diagnosis of thyroid disease vector illustration

Background imageEndocrine Collection: Thyroid test tube vector illustration diagnosis technology

Thyroid test tube vector illustration diagnosis technology

Background imageEndocrine Collection: Woman with goitre, and enlargement of the thyroid gland caused by lack of iodine

Woman with goitre, and enlargement of the thyroid gland caused by lack of iodine
527396 Woman with goitre, and enlargement of the thyroid gland caused by lack of iodine. From Jules Rengade Les Grands Maux et les Grands Remedes, Paris, c1890.; Universal History Archive/UIG

Background imageEndocrine Collection: Cretin aged 15. Cretinism in infants and children is caused by defective thyroid gland

Cretin aged 15. Cretinism in infants and children is caused by defective thyroid gland and failure to produce the hormone thyroxine. Sufferers are mentally and physically retarded

Background imageEndocrine Collection: Thymus gland, light micrograph C015 / 4970

Thymus gland, light micrograph C015 / 4970
Thymus gland. Light micrograph of a section through tissue from the thymus gland, part of the lymphoid system. The dense areas are the thymic cortex, which produces lots of lymphocytes

Background imageEndocrine Collection: Fight-or-flight response, artwork

Fight-or-flight response, artwork
Fight-or-flight response. Artwork showing the bodys fight-or-flight response to a threat. Visual perception (yellow arrow) can trigger fear memories controlled by the brains amygdala (yellow)

Background imageEndocrine Collection: Male urinary system, artwork

Male urinary system, artwork
Male urinary system. Computer artwork of a male abdomen highlighting the urinary system. The two kidneys are at upper centre

Background imageEndocrine Collection: Parathyroid hormone molecule

Parathyroid hormone molecule. Computer model showing the structure of parathyroid hormone (PTH), or parathormone

Background imageEndocrine Collection: Conceptual image of pancreatic islet of Langerhans

Conceptual image of pancreatic islet of Langerhans

Background imageEndocrine Collection: Noradrenaline norepinephrine molecule

Noradrenaline norepinephrine molecule
Noradrenaline (norepinephrine), belonging to the group of catecholamines, molecular model. Catecholamine acting also as a hormone and a neurotransmitter

Background imageEndocrine Collection: Adrenaline epinephrine molecule

Adrenaline epinephrine molecule
Adrenaline (epinephrine) is a hormone and a neurotransmitter. It is used to treat a number of conditions like cardiac arrest, anaphylaxis, and superficial bleeding

Background imageEndocrine Collection: Insulin molecule C014 / 2121

Insulin molecule C014 / 2121
Insulin molecule. Molecular module of insulin showing its secondary structure. Insulin is a hormone produced by the pancreas

Background imageEndocrine Collection: Insulin molecule F006 / 9761

Insulin molecule F006 / 9761
Insulin molecule. Molecular model of the hormone insulin from a pig. Insulin consists of two peptide chains, A and B, which are linked by disulphide bridges

Background imageEndocrine Collection: Human growth hormone molecule F006 / 9683

Human growth hormone molecule F006 / 9683
Human growth hormone. Molecular model of human growth hormone (hGH, orange) bound to the extracellular domain of the human growth hormone binding protein (hGHBP)

Background imageEndocrine Collection: Insulin molecule F006 / 9625

Insulin molecule F006 / 9625
Insulin, molecular model. Insulin plays an important role in blood sugar regulation

Background imageEndocrine Collection: Insulin molecule F006 / 9605

Insulin molecule F006 / 9605
Insulin molecule. Molecular model of the hormone insulin. Insulin consists of two peptide chains, A and B, which are linked by disulphide bridges

Background imageEndocrine Collection: Insulin molecule F006 / 9558

Insulin molecule F006 / 9558
Insulin, molecular model. Insulin plays an important role in blood sugar regulation

Background imageEndocrine Collection: Oxytocin and carrier protein F006 / 9439

Oxytocin and carrier protein F006 / 9439
Oxytocin and carrier protein. Molecular model of the hormone oxytocin bound to its carrier protein neurophysin I

Background imageEndocrine Collection: Human growth hormone molecule F006 / 9355

Human growth hormone molecule F006 / 9355
Human growth hormone (hGH), molecular model. hGH is produced in the anterior pituitary gland of the brain

Background imageEndocrine Collection: Insulin-like growth 1 factor molecule F006 / 9351

Insulin-like growth 1 factor molecule F006 / 9351
Insulin-like growth factor 1 (IGF-1), molecular model. IGFs are polypeptides that are similar in their molecular structure to insulin

Background imageEndocrine Collection: Cushings syndrome, light micrograph

Cushings syndrome, light micrograph
Cushings syndrome. Light micrograph of a section through muscle affected by Cushings syndrome, a hormonal condition caused by overproduction of adrenal gland hormones

Background imageEndocrine Collection: Islet of Langerhans, light micrograph C016 / 0514

Islet of Langerhans, light micrograph C016 / 0514
Islet of Langerhans. Light micrograph of a section through an islet of Langerhans in a pancreas

Background imageEndocrine Collection: Islet of Langerhans, light micrograph C016 / 0513

Islet of Langerhans, light micrograph C016 / 0513
Islet of Langerhans. Light micrograph of a section through an islet of Langerhans in a pancreas

Background imageEndocrine Collection: Thymus gland, artwork C018 / 0353

Thymus gland, artwork C018 / 0353
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Thymus and lymphatic vessels, artwork C018 / 0342

Thymus and lymphatic vessels, artwork C018 / 0342
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Thymus gland, artwork C018 / 0352

Thymus gland, artwork C018 / 0352
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Thymus gland, artwork C018 / 0354

Thymus gland, artwork C018 / 0354
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Thymus gland, artwork C018 / 0336

Thymus gland, artwork C018 / 0336
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Thymus and lymphatic vessels, artwork C018 / 0337

Thymus and lymphatic vessels, artwork C018 / 0337
Thymus. Computer artwork of the butterfly shaped thymus endocrine gland which is located ahead of the heart, playing a role in the immune system and atrophies progressively after puberty

Background imageEndocrine Collection: Insulin molecule C014 / 2122

Insulin molecule C014 / 2122
Insulin, molecular module. Insulin is a hormone produced by the pancreas. It consists of two peptide chains, A (blue) and B (yellow), which are linked by disulphide bridges

Background imageEndocrine Collection: Insulin molecule C014 / 2290

Insulin molecule C014 / 2290
Insulin molecule. Molecular module of insulin showing its primary structure over a background of the molecules electron density map

Background imageEndocrine Collection: Insulin molecule C014 / 2120

Insulin molecule C014 / 2120
Insulin molecule. Molecular module of insulin showing its primary structure. Insulin is a hormone produced by the pancreas

Background imageEndocrine Collection: Human intestines, historical model

Human intestines, historical model
Human intestines. 1940s anatomical model of the human gut, showing the small intestine at centre (pink), with the large intestine (grey) around it

Background imageEndocrine Collection: Vasopressin hormone crystals, LM C016 / 8551

Vasopressin hormone crystals, LM C016 / 8551
Vasopressin hormone crystals, light micrograph taken with polarised light

Background imageEndocrine Collection: Human pancreas, artwork

Human pancreas, artwork
Human pancreas, computer artwork. The pancreas secretes digestive enzymes as well as hormones, including insulin

Background imageEndocrine Collection: Central nervous system, artwork

Central nervous system, artwork
Central nervous system. Computer artwork showing the brain, cranial nerves and the top portion of the spinal cord. At centre is the pituitary gland (small, spherical), which secretes hormones

Background imageEndocrine Collection: Urinary system, artwork C015 / 6455

Urinary system, artwork C015 / 6455
Urinary system. Computer artwork showing the organs of the human urinary system. The kidneys (red, top left and right) filter waste products such as urea from the blood (red and blue) to form urine

Background imageEndocrine Collection: Urinary system, artwork C015 / 6454

Urinary system, artwork C015 / 6454
Urinary system. Computer artwork showing the organs of the human urinary system. The kidneys (red, top left and right) filter waste products such as urea from the blood to form urine

Background imageEndocrine Collection: Kidneys and ureters, artwork C013 / 4672

Kidneys and ureters, artwork C013 / 4672
Kidneys and ureters. Computer artwork showing an oblique anterior view of the kidneys, the main organs of the urinary system, relative to the skeleton and abdominal organs (white)

Background imageEndocrine Collection: Kidneys and ureters, artwork C013 / 4671

Kidneys and ureters, artwork C013 / 4671
Kidneys and ureters. Computer artwork showing an anterior view of the kidneys, the main organs of the urinary system, relative to the skeleton and abdominal organs (white)

Background imageEndocrine Collection: Urinary system, artwork C013 / 4673

Urinary system, artwork C013 / 4673
Urinary system. Computer artwork showing an anterior view of the kidneys, the main organs of the urinary system, relative to the skeleton and abdominal organs (white)

Background imageEndocrine Collection: Urinary system, artwork C013 / 4670

Urinary system, artwork C013 / 4670
Urinary system. Computer artwork showing the kidneys (top), the main organs of the urinary system. The kidneys are located in the upper abdomen

Background imageEndocrine Collection: Urinary system, artwork C013 / 4669

Urinary system, artwork C013 / 4669
Urinary system. Computer artwork showing the kidneys (top), the main organs of the urinary system. The kidneys are located in the upper abdomen

Background imageEndocrine Collection: Kidneys and ureters, artwork C013 / 4668

Kidneys and ureters, artwork C013 / 4668
Kidneys and ureters. Computer artwork showing the kidneys, the main organs of the urinary system. The kidneys are located in the upper abdomen

Background imageEndocrine Collection: Thyroid gland follicle, TEM

Thyroid gland follicle, TEM
Thyroid gland follicle. Coloured transmission electron micrograph (TEM) of a follicle from the thyroid gland

Background imageEndocrine Collection: Thyroid gland, scintigram

Thyroid gland, scintigram
Thyroid gland. Coloured scintigram of a healthy thyroid gland. This two-lobed endocrine gland is found in the neck, where it lies on top of the trachea (windpipe)

Background imageEndocrine Collection: Pituitary gland tissue, light micrograph

Pituitary gland tissue, light micrograph
Pituitary gland tissue. Light micrograph of a section through the pars distalis, the anterior part of the adenohypophysis in the pituitary gland

Background imageEndocrine Collection: Kidneys and adrenal glands

Kidneys and adrenal glands
Kidneys. Computer artwork of the human renal system

Background imageEndocrine Collection: Corpus luteum, SEM

Corpus luteum, SEM
Corpus luteum. Coloured scanning electron micrograph (SEM) of a corpus luteum, or yellow body (brown), in an ovary

Background imageEndocrine Collection: Pancreas

Pancreas. Computer artwork of a human pancreas. The pancreas is between 15 and 20 centimetres in length. It is located in the abdominal cavity behind the stomach

Background imageEndocrine Collection: Diabetes mellitus, computer artwork

Diabetes mellitus, computer artwork. Diabetes is caused by low levels of the hormone insulin and resistance to insulin by the body cells

Background imageEndocrine Collection: Skin pigmentation in Addisons disease

Skin pigmentation in Addisons disease
Skin pigmentation from Addisons disease. Light micrograph of a section through the skin of a patient with Addisons disease

Background imageEndocrine Collection: Thymus gland tissue, light micrograph

Thymus gland tissue, light micrograph
Thymus gland tissue. Light micrograph of a transverse section through tissue from the thymus gland, part of the lymphoid system

Background imageEndocrine Collection: Islets of Langerhans cells, artwork

Islets of Langerhans cells, artwork
Islets of Langerhans cells, computer artwork. These cells (large, pink) of the pancreas release hormones (dots) into the blood

Background imageEndocrine Collection: Hypothalamus and hypophysis, diagram

Hypothalamus and hypophysis, diagram
Hypothalamus and hypophysis. Diagram showing the brains hypothalamus (white) and hypophysis (pituitary gland, orange), the link between the nervous system and the endocrine system

Background imageEndocrine Collection: Hypothalamus and hypophysis, artwork

Hypothalamus and hypophysis, artwork
Hypothalamus and hypophysis. Artwork showing the brains hypothalamus (white) and hypophysis (pituitary gland, orange), the link between the nervous system and the endocrine system

Background imageEndocrine Collection: Human head anatomy, artwork

Human head anatomy, artwork
Human head anatomy. Computer artwork of the left-side of the head and neck of a human skeleton. The arteries (red lines), veins (blue lines) and nervous system (white lines) are shown

Background imageEndocrine Collection: Brain anatomy, 3D artwork

Brain anatomy, 3D artwork
Brain anatomy. 3D artwork of a cut-away model of the human brain

Background imageEndocrine Collection: Human head, artwork

Human head, artwork
Human head. Computer artwork of a human head showing the skull, cervical (neck) vertebrae and brain inside

Background imageEndocrine Collection: Insulin-like growth 1 factor molecule

Insulin-like growth 1 factor molecule
Insulin-like growth factor 1 molecule. Computer model showing the structure of a molecule of the hormone insulin-like growth factor 1 (IGF-1)

Background imageEndocrine Collection: Thyroid-stimulating hormone molecule

Thyroid-stimulating hormone molecule. Computer model showing the structure of a molecule of thyroid stimulating hormone (TSH)

Background imageEndocrine Collection: Norepinephrine neurotransmitter molecule

Norepinephrine neurotransmitter molecule. Computer model showing the structure of the neurotransmitter and hormone norepinephrine, or noradrenaline

Background imageEndocrine Collection: Calcitonin hormone molecule

Calcitonin hormone molecule. Computer model showing the structure of the human hormone calcitonin

Background imageEndocrine Collection: Leukotriene E4 molecule

Leukotriene E4 molecule. Computer model showing the structure of the fatty acid leukotriene E4

Background imageEndocrine Collection: Prolactin hormone molecule

Prolactin hormone molecule. Computer model showing the secondary structure of human prolactin (hPRL), or luteotropic hormone (LTH)

Background imageEndocrine Collection: Insulin-like growth 2 factor molecule

Insulin-like growth 2 factor molecule
Insulin-like growth factor 2 molecule. Computer model showing the structure of a molecule of the hormone insulin-like growth factor 2 (IGF-2)

Background imageEndocrine Collection: Thrombopoietin hormone molecule

Thrombopoietin hormone molecule. Computer model showing the secondary structure of a molecule of the hormone thrombopoietin (TPO)

Background imageEndocrine Collection: Follicle stimulating hormone molecules

Follicle stimulating hormone molecules. Computer artwork showing the secondary structure of two strands of follicle stimulating hormone (FSH)

Background imageEndocrine Collection: Thyrotrophin-releasing hormone molecule

Thyrotrophin-releasing hormone molecule. Computer model showing the structure of Thyrotrophin-releasing hormone (TRH)

Background imageEndocrine Collection: Renin and inhibitor complex

Renin and inhibitor complex. Computer model showing the secondary structure of the enzyme renin complexed with inhibitor 7

Background imageEndocrine Collection: Salmon calcitonin hormone molecule

Salmon calcitonin hormone molecule. Computer model showing the structure of calcitonin from salmon

Background imageEndocrine Collection: Relaxin hormone molecule

Relaxin hormone molecule. Computer model showing the secondary structure of a molecule of the hormone relaxin. The alpha helices (ribbons) of the secondary structure can be seen

Background imageEndocrine Collection: Human chorionic gonadotrophin molecule

Human chorionic gonadotrophin molecule. Computer model showing the crystal structure of a molecule of the hormone human chorionic gonadotrophin (hCG)

Background imageEndocrine Collection: Vasopressin hormone molecule

Vasopressin hormone molecule. Computer model showing the structure of the hormone vasopressin (AVP)

Background imageEndocrine Collection: Triiodothyronine hormone molecule

Triiodothyronine hormone molecule. Computer model showing the structure of the hormone triiodothyronine (T3)

Background imageEndocrine Collection: Thyroxine hormone molecule

Thyroxine hormone molecule. Computer model showing the structure of the hormone thyroxine (T4)



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EDITORS COMMENTS

The endocrine system, a complex network of glands and hormones, plays a vital role in maintaining homeostasis within the human body. From ancient times to modern science, the study disorders has fascinated researchers and artists alike. In the 15th century artwork C018/1849, goitre is depicted as an enlargement of the thyroid gland due to iodine deficiency. This condition highlights the importance of proper nutrition for healthy hormone production. Pancreas anatomy is beautifully illustrated in another artwork, showcasing its intricate structure. The pancreas houses the Islet of Langerhans, which can be observed under a light micrograph. These tiny clusters produce insulin and glucagon, regulating blood sugar levels. Oxytocin neurotransmitter molecule captures attention with its crucial role in bonding and childbirth. This molecule promotes social interaction and facilitates labor contractions during childbirth. Examining thyroid gland capillaries through scanning electron microscopy (SEM) reveals their intricate network responsible for transporting hormones throughout the body. Similarly, SEM showcases thyroid gland blood vessels that supply oxygen-rich blood to this important endocrine organ. Artwork depicting Islets of Langerhans cells provides insight into their appearance within pancreatic tissue. These cells are essential for glucose regulation by producing insulin and other hormones critical for metabolism control. Dog anatomy artwork allows us to explore various organs involved in hormonal balance such as adrenal glands or pituitary glands that secrete numerous essential hormones like cortisol or growth hormone respectively. Male urinary system artwork illustrates structures like spermatic cord, vas deferens, epididymis, and seminiferous tubule cross-sections present within testes. Testes play a significant role in testosterone production necessary for male reproductive health. Parathyroid hormone molecule stands out due to its pivotal function in calcium regulation within our bodies. It ensures optimal bone density while also influencing muscle function among other physiological processes.

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