1 / 21

The Endocrine System

The Endocrine System. Endocrine system: characteristics. Endocrine system is mostly controlled by the nervous system Endocrine system controls most of the processes occurring in the body Divided into cranial & extracranial endocrine glands

preston
Download Presentation

The Endocrine System

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. The Endocrine System

  2. Endocrine system: characteristics • Endocrine system is mostly controlled by the nervous system • Endocrine system controls most of the processes occurring in the body • Divided into cranial & extracranial endocrine glands • Cranial = hypothalamus, pituitary & pineal glands • Extracranial = thyroid, parathyroid, thymus, pancreas, adrenals, gonads, GI tract & placenta

  3. Cranial endocrine glands • Hypothalamus: • Many “nuclei” within this region to control various aspects of homeostasis • Exhibits control over pituitary gland • Blood supply / blood flow pattern is important for control • “portal system”: capillaries in hypothalamus drain into “portal venules” (veins) that connect to capillaries in the pituitary gland (capillary-vein-capillary) • Hypothalamic neurons will release “releasing hormones” or “inhibiting hormones” into these capillaries/portal veins to eventually target the pituitary gland

  4. Pituitary gland - Hypophysis • Known as “the conductor” or “master gland” but is itself under control of the hypothalamus • Inferior region of the brain, nestled within the sellaturnica of the spenoid bone • 2 regions (visibly different) • Adenohypophysis (anterior lobe) • Most of the hormones are produced here • Neurohypophysis (posterior lobe) • More “neural” area, 2 hormones

  5. Pituitary gland (hypophysis) • Anterior lobe (adenohypophysis) • Derived from ectodermal glandular tissue • Linked to hypothalamus via the infundibulum which has the hypophysial portal vascular system (vascular communication) • Body = anterior pituitary proper – secretes 5 different hormones, prolactin (PL), growth hormone (GH), thyroid stimulating hormone (TSH), adrenocorticotropic hormone (ACTH), Follicle stimulating hormone (FSH) and luteinizing hormone (LH) • Posterior lobe (neurohypophysis) • Derived from nervous tissue • “extension of the brain” • Releases 2 hormones (which are synthesized in the brain but stored in the posterior pituitary), oxytocin and vasopressin (or antiduiretic hormone (ADH)) • Intermediate lobe: • Thin, sandwiched between the 2 above layers • secretes a minor hormone (melanin-stimulating hormone=MSH)

  6. Pineal gland • roof of the 3rd ventricle) • Larger in children than adults • Secretes melatonin: involved in circadian rhythm

  7. Extracranial endocrine glandsThyroid gland • Thyroid gland • Below larynx, bi-lobed lateral to the trachea • Largest endocrine gland • Bloodflow via external carotid & subclavian arteries • Simple cuboidal epithelia (heavily reliant on iodine) • Follicular cells secrete thyroxine (T4), Tri-iodo-thyronine (T3) , parafollicular cell or C cells secrete calcitonin

  8. Parathyroid glands • Posterior to the thyroid gland (para = around) • 4 distinct glandular formations • Secretes parathyroid hormone (= parathormone = PTH)

  9. Pancreas • Has BOTH endocrine & exocrine functions • Endocrine = Endocrine cells grouped into the “Islets” (Islets of Langerhans). • 3 types of cells: • Alpha cells: secrete glucagon • Beta cells secrete insulin • Delta cells secrete somatostatin

  10. Minor gastrointestinal endocrine glands • GI tract (gastrointestinal tract) • Numerous endocrine cells distributed throughout GI tract (often single cells) • Additional endocrine glands: • Salivary glands • Brunner’s glands (duodenum)

  11. Adrenal glands • Located on the top of the kidneys • Composed of 2 major parts: • Adrenal cortex: 3 layers • Zonaglomerulosa secretes mineralocorticoids • Zonafasciculata secretes glucocorticoids • Zonareticularis secretes sex hormones • Adrenal medulla: is an extension of the sympathetic autonomic nervous system (specialized 2nd motor neurons which secrete adrenaline)

  12. Gonads • Testicles: Contains the seminiferous tubules where sperm is made. In between the tubules, the Leydig cells secretes testosterone • Ovaries: The developing follicle secretes estrogen and progesterone

  13. Placenta • Transfers waste from fetus to mother and nutrients from mother to fetus • Secretes estrogen & progesterone • Also secretes human chorionic gonadotrophin (hCG)…what’s used to change color of pregnancy test sticks

  14. Pituitary pathophysiology • Panhypopituitarism: reduced pituitary activity or total loss of pituitary function • Abnormal growth hormone: • Inadequate during childhood = pituitary dwarfism • Inadequate during adulthood = Simmond’s disease • Premature aging • Oversecretion during childhood = gigantism • Oversecretion during adulthood = acromegaly • Bones thicken, soft tissues grow inappropriately

  15. Acromegaly Gigantism Occurs during adulthood Begins during childhood WHY are patients who suffer gigantism taller than those who suffer acromegaly?

  16. Thyroid & parathyroid pathophysiology • Hypothyroidism • During childhood = cretinism (“cretins”) • During adulthood = myxedema • Goiter (abnormal thyroid growth) • Endemic = inadequate iodine intake • Grave’s disease

  17. Pancreatic pathophysiology • Diabetes mellitus • Type I diabetes: insulin dependent due to autoimmune destruction of pancreatic beta cells (loss of insulin production) • Type II diabetes: insulin insensitive due to reduced responsiveness to insulin (metabolic obesity)

  18. Adrenal pathophysiology • Pheochromatocytomas: chromaffin cell tumor • Excessive norepinephrine secretion = resembles ANS overstimulation • Addison’s disease: decreased mineralcorticoid & glucocorticoid secretion • Constant hypoglycemia, electrolyte imbalances • Cushing’s syndrome: increased glucocorticoid secretion (Zona fasciculata) • Altered metabolism and physical changes indicative of edema

  19. Pediatric Cushing’s syndrome

More Related