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The Endocrine System Endocrine System Endocrine vs. Exocrine Organs are not physically connected Alters activities of target organs/cells Purpose: Growth/Development Reproduction Regulation Stress Reactions Hormones are Activated By Hormonal Humoral Neural Gland/Hormone Functions Some glands produce >1 hormone Some hormones produced by >1 gland Some organs have >1 function Some hormones have >1 function Functions of Endocrine Glands Endocrine Functions only Production Secretion Contained within other organs which have other functions Categories of Glands Central: Pituitary Hypothalamus Peripheral: Thyroid Adrenals Parathyroids Thymus Pineal Gonads Pancreas Others Hypothalamus Found on floor of diencephalon Neural and endocrine functions Biofeedback mechanism for: Osmotic pressures Temperature regulations Metabolic functions Pituitary Extends from Hypothalamus-behind sphenoid bone “Master Gland” of body Anterior- Portal network Posterior- Neural-contains axons of Hypothalamus neurons Anterior Pituitary GH- Growth Hormone Prolactin TSH- Thyroid Stimulating Hormone ACTH- Adrenocorticotropic FSH- Follicle Stimulating Hormone LH- Luteinizing Hormone Posterior Pituitary ADH- Anti-Diuretic Hormone Oxytocin Pituitary Disorders Acromegaly- Hypersecretion of GH Dwarfism- Hyposecretion of GH Thyroid Inferior to larynx 2 Lobes T3- Triiodothyronine T4- Thyroxine Calcitonin Thyroid Disorders Hypothyroidism- Hyposecretion Hyperthyroidism- Hypersecretion Graves Disease Goiters- iron deficiencies Parathyroids 4 small glands posterior surface of thyroid Parathyroid hormone Responsible for osteoclast of bone Decreases blood phosphate levels (By way of kidneys) Enhances activation of Vitamin D Parathyroid Disorders Hyperparathyroidism “Moan and groan, stones and bones” Pineal Gland Forms part of diencephalon Melatonin Inhibits hypothalamus release of gonadotropins Melatonin-decreases in light/increase in dark (circadian rhythm) Thymus Gland Posterior to sternum, around great vessels Thymosin Both lymphatic and endocrine Lymphatic- produces T-lymphocytes Endocrine- ‘programs’ T-cells The Adrenals Located on superior end of each kidney Medulla- inner gland Cortex- outer gland Adrenal Medulla Sympathetic preganglionic fibers synapse on cells in medulla Release of epinephrine/norepinephrine into general circulation Adrenal Cortex Produce over 30 steroid hormones Three main cortical hormones Mineralocorticoids Glucocorticoids Sex hormones Mineralocorticoids Regulate levels of electrolytes and water in extracellular fluid 95% are aldosterone Sodium reabsorption Potassium excretion Glucocorticoids Influence carbohydrate metabolism Important in body’s response to stress 95% cortisol (hydrocortisone) stimulates gluconeogenesis secretion is regulated by ACTH Sex Hormones Androgens (testosterone) Estrogens Both are secreted in greater numbers by gonads Adrenal Disorders Cushing’s diseasecortisol over-production secondary to increased ACTH Addison’s Diseasecortisol/aldosterone deficiencies Gonads Testes- males Testosterone Ovaries- females Estrogens Progesterone Both produce hormones/gametes Pancreas Retroperitoneal-posterior to stomach Exocrine & Endocrine Endocrine- islets of Langerhans Alpha Beta Delta Alpha cells 20% of islets Hormone glucagon Stimulates breakdown of glycogen in liver- raises glucose levels in blood (glycogenolysis & glyconeogenesis) Beta Cells 75% of islets Hormone- insulin Decreases glucose levels Glucose Metabolism Organic components of food: Carbohydrates (instant-energy) Glucose Fats Fatty acids/glycerols Proteins Amino acids Carbohydrate Metabolism Insulin is released by humoral, hormonal, neural means Increased glucose Parasympathetic stimulation Gastrointestinal hormones Carbohydrate Metabolism 60% of carbohydrates are stored as glycogen in liver If muscles are not exercised after eating-stored as muscle glycogen Glycolysis Glucose is broken down into pyruvate and lactate- releasing 2ATPs (Anaerobic metabolism) Krebs Cycle Fat Metabolism A third of any glucose passing through liver is converted to fatty acids Fatty acids are converted to triglycerides and stored in adipose tissue Fat Metabolism Without insulin, fat is broken back down into triglycerides/cholesterol CAD Fatty acids are also broken down into ketone bodies Protein Metabolism In absence of insulin- protein storage stops and breakdown begins (muscle) Amino acid breakdown for energy leads to increased urea in urine organ dysfunction Pancreas Disorders DiabetesType 1- Juvenile onset Type 2- Mature onset Gestational diabetes Type 1 Diabetes Insulin dependant S/S: polyuria polydipsia polyphagia blurred vision weight loss Type 2 Diabetes Generally non-insulin dependant Has ability to make small amounts of insulin Can develop into insulin dependant Gestational Diabetes Develops during pregnancy Deficiencies in insulin leads to inability to metabolize carbohydrates Generally disappears after delivery Insulin Agents Early- porcine, bovine Recent- genetic engineered human insulin Protein Rapid, intermediate and long-term Combination of long-term, rapid each day Insulin Types Regular- Fast acting 0.5-1 hour onset 6-8 hour duration NPH- Intermediate 1-1.5 hour onset 24 hour duration Insulin Types Ultralente- Long acting 4-6 hour onset 36 hour duration Oral agents: Diabinese (chlorpropamide) Orinase (tolbutamide) Micronase (glyburide) Glucotrol Diabetic Emergencies Hypoglycemia Hyperglycemia Diabetic Ketoacidosis (DKA) Hyperosmolar Hyperglycemic Nonketotic Coma (HHNK) Hypoglycemia Rapid on-set < 60 mg/dl Causes: too much insulin decreased intake salicylates excessive activity beta blockers emotional stress hypothermia chronic alcoholism sepsis S/S of Hypoglycemia Altered LOCs- irritability, nervousness, confusion, combative Cool, clammy Weak, rapid pulse Snoring, salivation Normal BP Diabetic Ketoacidosis Fat metabolism leads to ketoacids Acidosis leads to K+ in circulation & hyperkaluria K+ deficiency Osmotic diuresis dehydration, electrolyte imbalances S/S of DKA Warm, dry skin Dry mucous membranes Tachycardia, thready pulse Postural hypotension Weight loss ‘Polys’ S/S of DKA Abdominal pain Anorexia, nausea/vomiting Acetone breath Kussmauls Decreased LOC Hyperosmolar Hyperglycemic Nonketotic Coma Generally Type II diabetic Osmotic diuresis secondary to sugars Not acidotic as in DKA Factors: Geriatric Preexisting diseases Increased insulin requirements Medication use- thiazide, diuretics Parenteral/enteral feedings S/S of HHNK Weakness Thirst Polyuria Weight Loss Extreme dehydration Treatment of Diabetic Emergencies Hypoglycemia- ABCs IV- NS Monitor ECG Oral, IV Dextrose Poss. Glucagon IM Poss. Thiamine Monitor glucose! Treatment of Diabetic Emergencies Hyperglycemia (DKA, HHNK)ABCs O2 IV- NS Monitor ECG for abnormalities