Week 8 Endocrine Flashcards

Question 1

Q

There are 3 parts to the posterior pituitary gland: the
median eminence, the pituitary stalk and the pars nervosa.

Which part secretes hormones?

Which hormones does it secrete?

Answer

A

The pars nervosa secretes ADH and oxytocin.

Question 2

Q

What are some factors that might contribute to decreased secretion of antidiuretic hormone (ADH)?

Answer

A

ADH secretion decreases with:

-decreased plasma osmolality
-increased intervascular volume
-HTN
-alcohol ingestion
-increased estrogen, progesterone, or angiotensin II levels

Question 3

Q

How are intravascular volume changes monitored?

When is ADH secretion stimulated?

Answer

A

Intravascular volume changes from ADH secretion are monitored by baroreceptors in left atrium, carotid arteries, and aortic arch -> ADH secretion is stimulated by a volume loss of 7-25%

Question 4

Q

Where is ADH secretion regulated?

Answer

A

ADH secretion is regulated by osmoreceptors in hypothalamus, which are stimulated by increased plasma osmolality.

Question 5

Q

What actions stimulate oxytocin secretion?

Answer

A

infant suckling; oxytocin binds to receptors in myoepithelial cells in mammary tissues, causing contraction of those cells, leading to milk expression (“let-down”)
mechanical distensions of female reproductive tract at the end of labour, enhancing the effectiveness of contractions to promote delivery of placenta and post-partum clamp down of the uterus.

Question 6

Q

True or false:

Oxytocin has an antidiuretic effect similar to ADH.

Question 7

Q

Where are the parathyroid glands located?

Answer

A

The parathyroid glands are located on the posterior aspect of the thyroid gland.

Question 8

Q

How many parathyroid glands are there?

Answer

A

There are usually 4 parathyroid glands but there can be between 2 and 6.

Question 9

Q

Which hormone is produced by the parathyroid glands?

What does this hormone do?

Answer

A

Parathyroid hormone (PTH).

PTH is responsible for regulating serum calcium levels.

Question 10

Q

When serum calcium is low, PTH is secreted.

What actions are stimulated to increase serum calcium?

Answer

A

PTH causes bone demineralization by stimulating osteoclast activity to release calcium

PTH stimulates the kidneys to reabsorb calcium into circulation

PTH increases absorption of calcium in the intestines

Question 11

Q

Calcium and ________ have a reciprocal relationship, thus PTH will also act on the kidneys to decrease __________ reabsorption. (same answer)

Answer

A

Phosphate

Question 12

Q

What are some possible causes for hypoparathyroidism?

Answer

A

Congenital, post-surgery or radiation, or from autoimmune disease.

Question 13

Q

Hypoparathyroidism leads to?

Answer

A

Hypocalcemia.

Question 14

Q

Hypoparathyroidism can lead to hypocalcemia.

What are the symptoms/manifestations of hypocalcemia?

Answer

A

Hypocalcemia affects nerve and muscle function causing weakness in cardiac muscle and excitability of nerves leading to muscle twitching and spasms (tetany)

Question 15

Q

What are some possible causes of hyperparathyroidism?

Answer

A

Adenoma, hyperplasia, secondary to renal failure

Question 16

Q

Hyperparathyroidism can lead to hypercalcemia.

What are the symptoms/manifestations of hypercalcemia?

Answer

A

Hypercalcemia causes forceful cardiac contractions, kidney stone risk, and osteoporosis as the high levels of PTH result in removal of calcium from the bone

Question 17

Q

The adrenal medulla, the inner part of an adrenal gland, controls hormones that initiate the…?

Answer

A

…the flight or fight response (Sympathetic Nervous System)

Question 18

Q

The adrenal medulla secretes _________, hormones that help your body respond to stress

Answer

A

Catecholamines

Question 19

Q

Catecholamines include adrenaline and noradrenaline, also known as…

Answer

A

Epinephrine and norepinephrine

Question 20

Q

Blood glucose concentration is determined by a balance between insulin and glucagon secretion by which organ?

Answer

A

Pancreas.

Question 21

Q

Increased blood glucose (e.g. after eating a meal) will trigger _______ in the pancreas to secret insulin.

Question 22

Q

Insulin will lower blood sugar levels by triggering tissue cells (such as fat or muscle cells) to take up glucose for energy and also by stimulating glycogen formation in the _____ (where glucose is stored as glycogen).

Question 23

Q

Reduction of blood glucose causes a reduction in _______ secretion and brings the system back to homeostasis.

Question 24

Q

Low blood glucose levels trigger the release of glucagon from ________of the pancreas.

Question 25

Q

Which hormone is secreted with insulin and inhibits glucagon secretion?

Answer

A

Amylin plays a role in glycemic regulation by slowing gastric emptying and promoting satiety, thereby preventing post-prandial spikes in blood glucose levels.

Question 26

Q

Which hormone inhibits secretion of insulin and glucagon after glucose is broken down or transferred to cell?

Answer

A

Somatostatin.

Question 27

Q

Define metabolic syndrome.

Answer

A

A group of disorders (central obesity, dyslipidemia, prehypertension, and an elevated blood glucose level) that together give a high risk of development type 2 diabetes and associated cardiovascular complications.

Question 28

Q

Which two presentations are considered the strongest predictors for the development of metabolic syndrome.

Answer

A

Elevated triglycerides and waist circumference.

Question 29

Q

_________ is considered a proinflammatory and prothrombotic state.

Answer

A

Metabolic syndrome.

Question 30

Q

What are some complications associated with metabolic syndrome?

Answer

A

-Fatty liver disease
-Cirrhosis
-Chronic kidney disease
-CV disease
-Polycystic ovarian syndrome (PCOS)
-Obstructive sleep apnea (OSA)
-Gout

Question 31

Q

What are some risk factors for developing metabolic syndrome?

Answer

A

*Genetic predisposition.

*Weight gain, especially central/abdominal obesity.

*Females (postmenopausal)

*Childhood obesity.

*Smoking.

*High-carbohydrate diet, especially soft drink consumption.

*Lack of exercise

*Sedentary lifestyle.

*Insulin resistance.

Question 32

Q

What is the treatment plan for a patient who has been diagnosed with metabolic syndrome?

Answer

A

*Identify and treat pt with hyperglycemia

*Management of hypertension, dyslipidemia and abdominal obesity

*Diet modification, exercise (minimum 30min/day), weight loss, smoking cessation

Question 33

Q

A term referring to impaired fasting glucose (IFG), impaired glucose tolerance (IGT) or an elevated A1C%, each of which places individuals at high risk of developing diabetes.

Answer

A

Prediabetes.

Question 34

Q

The combination of FPG of 6.1 - 6.9 mmol/L and an A1C of 6.0% - 6.4% is predictive of 50% progression to type 2 diabetes over a 5-year period.

True or false?

Answer

A

False. It is 100% predictive.

Question 35

Q

Subclinical hypothyroidism is defined biochemically as_______ T4 in the presence of an elevated TSH.

(decreased / normal / elevated?)

Question 36

Q

An autoimmune disorder where autoreactive T cells and circulating autoantibodies target and infiltrate the thyroid, resulting in gradual inflammatory destruction

Answer

A

Hashimoto’s Thyroiditis.

Question 37

Q

Differentiate between primary hypothyroidism and secondary hypothyroidism.

Answer

A

Primary: Caused by disease in the thyroid

Secondary: Caused by disease in the pituitary or hypothalamus.

Question 38

Q

True or false?

Subclinical hypothyroidism may be associated with an increased risk of cardiovascular disease.

Question 39

Q

Hypothyroidism affects all body systems and symptoms can vary in relation to the magnitude of TH deficiency. Generally, hypothyroidism leads to a slowing of metabolic processes and myxedema.

What signs and symptoms could you see in terms of metabolism and neuro?

Answer

A

Metabolism: Low metabolic rate, weight gain, cold intolerance, and slightly lowered basal body temperature.

Neuro: Lethargy, fatigue, memory or mental impairment, difficulty concentrating, and slowed speech or thinking.

Question 40

Q

Hypothyroidism affects all body systems and symptoms can vary in relation to the magnitude of TH deficiency. Generally, hypothyroidism leads to a slowing of metabolic processes and myxedema.

What signs and symptoms could you see in terms of the physical thyroid itself and CVS?

Answer

A

Thyroid: normal, small, or increased (Goitre).

Cardio: Bradycardia, hypertension, pericardial effusion.

Question 41

Q

Hypothyroidism affects all body systems and symptoms can vary in relation to the magnitude of TH deficiency. Generally, hypothyroidism leads to a slowing of metabolic processes and myxedema.

What signs and symptoms could you see in terms of respiratory and GI/Reproductive systems?

Answer

A

Resp: SOB, Pleural effusion.

GI/Repro: Constipation, heavy or irregular menstrual periods.

Question 42

Q

Hypothyroidism affects all body systems and symptoms can vary in relation to the magnitude of TH deficiency. Generally, hypothyroidism leads to a slowing of metabolic processes and myxedema.

What signs and symptoms could you see in terms of skin and GI/Reproductive systems?

Answer

A

Skin: Dry and flaky skin. Course and brittle hair with possible loss.

MSK: Delayed deep tendon reflexes, muscle aches, and paresthesia to hands and feet.

Question 43

Q

What are some presentations of myxedema?

Answer

A

Myxedema: Characteristic sign of severe or longstanding hypothyroidism. Usually seen in the eyes, hands, feet, and supraclavicular fossa. The tongue and laryngeal and pharyngeal mucous membranes can also thicken, producing thick, slurred speech and hoarseness.

Myxedema coma: Severe hypothyroidism. Mortality 30-50%. Usually occurs in undiagnosed or untreated hypothyroid patients, and can be precipitated by an acute event.

Question 44

Q

Pretibial myxedema is a presentation unique to which disease?

Answer

A

Graves disease.

Question 45

Q

↑TSH and normal fT4

Subclinical hypothyroidism or primary hypothyroidism?

Answer

A

Subclinical hypothyroidism.

In primary hypotension you will also see decreased fT4.

Question 46

Q

Which lab test may help determine if Hashimoto’s thyroiditis is the cause of hypothyroidism?

Answer

A

Anti-TPO (antithyroid antibody).

Question 47

Q

Treatment of hypothyroidism can be initiated and monitored by the family practitioner. Which patient conditions would you want to refer for?

Answer

A

A referral to endocrinology for certain patient situations which include, but is not limited to, hypothyroidism and:

pregnancy

goiter

thyroid nodules

pituitary dysfunction

cardiac disease

medications causing hypothyroidism (thyroid.ca)

Question 48

Q

What is the pineal gland? What hormone does it secrete?

Answer

A

Located near centre of brain & comprised of photoreceptive cells that secrete melatonin

Question 49

Q

What inhibits and stimulates melatonin secretion?

Answer

A

Light and dark

Question 50

Q

What is melatonin synthesized from?

Answer

A

Tryrptophan (converted to serotonin, then melatonin)

Question 51

Q

Functions of melatonin?

Answer

A

circadian rhythm, reproductive system incl. secretion of GRH and onset of puberty, immune regulation, may affect aging process, increases NO release from blood vessels, removes toxic free radicals & decreses insulin secretion

Question 52

Q

Pancreas has both endocrine and exocrine functions. What does it produce in each?

Answer

A

endocrine = produces hormones
exocrine = produces digestive enzymes

Question 53

Q

What part of the pancreas secretes hormones?

Answer

A

Islets of Langerhans

Question 54

Q

Alpha cells in the pancreas islet of langerhans secrete what hormone?

Question 55

Q

Beta cells in the pancreas islet of langerhans secrete what 2 hormones?

Answer

A

Insulin and amylin

Question 56

Q

What 2 hormones are secreted from the delta cells of the pancreas (in Islets of Langerhans)

Answer

A

Gastrin & somatostatin

Question 57

Q

F (or PP) cells – secrete what hormone in pancreas? (PP cells are in Islet of Langerhans)

Answer

A

pancreatic polypeptide

Question 58

Q

Fx of insulin

Answer

A

*Promotes glucose uptake primarily in the liver, muscle & adipose tissue

*Decreases blood glucose levels

*Stimulate protein & fat synthesis

Question 59

Q

T/F Insulin is regulated by chemical control only (not hormonal or neural)

Answer

A

FALSE. All of them.
*Secretion regulated by chemical, hormonal, and neural control

Question 60

Q

What triggers release of insulin from the beta cells?

Answer

A

Released when beta cells stimulated by parasympathetic NS, usually before eating meal

Secretion can also be stimulated by increased blood glucose levels, increased amino acids (leucine, arginine, and lysine), and increased GI hormones (gastrin, glucagon, cholecystokinin, and secretin)

Question 61

Q

What does Amylin do? When is it secreted?

Answer

A

Co-secreted with insulin by beta cells in response to nutrient stimuli

*Regulates blood glucose concentration by delaying gastric emptying and suppressing glucagon secretion after meals

Satiety effect

*Antihyperglycemic effect overall

Question 62

Q

Where is glucagon made?

Answer

A

Alpha cells of pancreas + cells lining GI tract

Question 63

Q

Where does glucagon act?

Answer

A

Mostly liver
Also muscle & fat tissue

Question 64

Q

Function of glucagon?

Answer

A

*Increases blood glucose concentration in the liver by stimulating glycogenolysis

*Causes gluconeogenesis in muscle

*Causes Lipolysis in adipose tissue
(Glucagon is the ANTAGONIST to insulin)

Answer 57

A

*Inhibited by high glucose levels

*Stimulated by low glucose levels, sympathetic stimulation, and amino acids

Answer 58

A

Released into bloodstream in response to food intake

*Regulates alpha & beta cell within the islets = inhibits secretion of insulin, glucagon & pancreatic polypeptide

*Essential to carbohydrate, fat, protein metabolism

Answer 59

A

*Targets stomach, stimulates secretion of gastric acid

Answer 60

A

Stomach
*Brain, small intestine & pancreas release small amounts of Ghrelin

Answer 61

A

Hunger hormone
*Stimulates GH secretion, controls appetite, plays a role in obesity & regulation of insulin sensitivity

Answer 62

A

*Response to hypoglycemia and protein-rich meals

*Inhibits gallbladder contraction & exocrine pancreas secretion

*Frequently increased with Diabetes Mellitus & pancreatic tumors

Answer 63

A

In sella tucica of the sphenoid bone

Answer 64

A

Accounts for 75% of pituitary
Connects to hypothalamus through stalk and hypophyseal blood vessels
Pars distalis (source of ant pit hormones)
Pars tuberalis (layer of cells on stalk)
Pars intermedia (between the others)
2 main cell types: Chromophobes: non secretory
Chromophils: secretory

Answer 65

A

Chromophobes: non secretory
Chromophils: secretory

Answer 66

A

Tropic hormones (affect physiologic function of specific target organs
Somatotropic hormones (diverse effects on body tissues)

Answer 67

A

FSH, LH, TSH, MSH, GH, Prolactin

Answer 68

A

in the neck, just below larynx, normally not palpable

Answer 69

A

-contains two lobes that lay on either side of the trachea, joined by a small band of tissue called the isthmus

-consists of follicles that contain follicular cells surrounding a viscous substance called colloid

-contain C-cells that secrete polypeptides

Answer 70

A

Follicular cells

Answer 71

A

Calcitonin

Answer 72

A

lowers serum calcium by inhibiting bone-reabsorbing osteoclasts

Answer 73

A

Approx 2 mo worth

Answer 74

A

Significant effect on growth, maturation, and function of cells/tissue throughout the body

-essential for normal growth and neurological development in fetus/infant

-affects metabolic, neurological, cardiovascular, respiratory functions in all ages

-required for the metabolism and function of blood cells

-required for normal muscle functioning

-required for integrity of skin, nails, hair

-affects cell metabolismà increases heat production and oxygen consumption

Answer 75

A

Low thyroid hormone levels sensed by hypothalamus, which releases TRH (thyroid releasing hormone) which stimulates the anterior pituitary to released TSH (thyroid stimulating hormone). This stimulates the thyroid to release TH (T3 and T4). Once released into circulation, TH are transported by thyroxine binding prealbumin, albumin, or lipoproteins. Only the unbound form is active. In tissues, T4 converts to T3, which acts on the target cell.

Answer 76

A

Primary thyroid disorders: alteration of TH levels with secondary feedback effects on TSH
Secondary (central) thyroid disorders- due to pituitary of hypothalamic alterations (disordered pituitary gland TSH production

Answer 77

A

he Adrenal cortex is the outer aspect of the adrenal glands. The adrenal glands are paired organs behind the peritoneum and close to the upper pole of each kidney. The adrenal cortex is divided into three zones

Answer 78

A

zona glomerulosa, zona fasiculata, zona reticularis

Answer 79

A

Zona Glomerulosa

The outer layer. Primarily produces the mineralocorticoid aldosterone.

Zona Fasciculata (largest portion)

Middle layer. Secretes glucocorticoids: cortisol, cortisone and corticosterone.

Zona Reticularis

Inner layer. Secretes aldosterone, androgens/estrogens and glucocorticoids

Answer 80

A

Glucocorticoids directly affect carbohydrate metabolism. They cause an increase in glucose concentration through gluconeogenesis in the liver and decreasing the use of glucose

Glucocorticoids also inhibit immune and inflammatory responses, suppress growth and promote protein breakdown `

Answer 81

A

Mineralocorticoids directly affect ion transport by renal tubular cells

Aldosterone’s primary role is renal reabsorption of sodium and secretions of potassium and hydrogen

Answer 82

A

Anterior Pituitary

Regulated by

Secretion of hypothalamic peptide hormones or releasing factors

Feedback effects of the hormones secreted by target glands

Direct effects of other mediating neurotransmitters

Answer 83

A

Release of ADH and Oxytocin - regulated by:

Cholinergic and adrenergic neurotransmitters

Glutamate (to stimulate release)

GABA (to inhibit release)

Answer 84

A

ADH regulation:

Primarily regulated by the osmoreceptors of the hypothalamus

When osmolarity increases the rate of ADH secretion increases to encourage water reabsorption in the kidneys

Increased secretion when baroreceptors sense changes in intravascular volume

A volume loss of 7 – 25% will stimulate increased secretion of ADH

Increases are also affected by stress, trauma, pain, exercise, nausea, nicotine, exposure to heat, and medications like morphine

Decreases are affected by decreased plasma osmolality, increased intravascular volume, HTN, alcohol, increase in estrogen, progesterone or angiotensin II levels

Answer 85

A

Hormone- water soluble peptide
Secreted in pulsatile way in response to parasymp stimulation of beta cells, increased blood levels glucose/ AA, and GI hormones
ANABOLIC (building)
Net effects: stimulate protein and fat synthesis, reduce blood glucose levels

Answer 86

A

-increased glucose uptake

-increased glycogenesis, glycolysis, and gluconeogenesis (glycogen formation, breakdown of glucose to make pyruvate and ATP, formation of glucose from non carb substrates like amino acids)

-decreased glycogenolysis, ketogenesis, and urea cycle activity (decreases glycogen breakdown, decreases formation of ketone bodies)

Answer 87

A

-increased glucose uptake

-increased glycogenesis, glycolysis, amino acid uptake, and protein synthesis

-decreased glycogenolysis, proteolysis

Answer 88

A

-increased glucose uptake

-increased glucose use, glycolysis, fat esterification, fat storage

-decreased lipolysis

Answer 89

A

Anabolic effect- builds stuff! (i.e., glycogen, protein, fat synthesis) and decreases blood glucose levels.

Answer 90

A

Type 2 Diabetes:

When the pancreas does not produce enough insulin or when the body does not effectively use the insulin that is produced.

May range from predominant insulin resistance with relative insulin deficiency to a predominant secretory defect with insulin resistance.

Answer 91

A

Fasting plasma glucose (FPG) - baseline fasting sugar, fasting of 8hrs, greater than or equal to 7.0mmol/L OR

FPG correlates most closely with 2-hour plasma glucose (2hPG) greater than or equal to 11.0mmol/L with a 75g oral glucose tolerance test (OGTT) OR

HbA1C greater than or equal to 6.5% (in adults). Not to use for suspected type 1 diabetes OR

Random plasma glucose: at any time of the day and is greater than or equal to 11.1 mmol/L.

Answer 92

A

Deficient production of Thyroid Hormone by the thyroid gland

Answer 93

A

High serum TSH
Low serum T4

Answer 94

A

The hypothalamus

Answer 95

A

steroid hormones are excreted either directly by the kidneys or metabolized by the liver which inactivates them and makes them more water soluble for renal excretion

Answer 96

A

peptide hormones (e.g. hypothalamic hormones) are catabolized by circulating enzymes and eliminated via urine or feces

Answer 97

A

Located at base of the brain, connected to pituitary gland by pituitary stalk

Answer 98

A

Connected to anterior pituitary by hypophysial portal blood vessels –> communicates via BLOOD SUPPLY to induce release of hormones

Connects to posterior pituitary via a nerve tract –> communicates via NERVE SIGNALS to induce release of hormones

Answer 99

A

Posterior does NOT make its own hormones (just stores & releases ADH & oxytocin)

Answer 100

A

Has neurosecretory cells that are similar to other neurons but can synthesize & secrete the hypothalamic-releasing hormones that regulate release of hormones from the anterior pituitary

These neurosecretory cells also synthesize ADH & oxytocin

Hypothalamic hormones have special circulation so that they reach their target cells in the pituitary in high concentrations

These hormones are small peptides that are generally active only at the relatively high concentrations achieved in the pituitary portal blood system

Answer 101

A

Consolidates signals from upper cortical inputs, autonomic function, environmental cues such as light and temperature and peripheral endocrine feedback

Delivers precise signals to the pituitary gland

Answer 102

A

Pituitary

Answer 103

A

Pituitary stalk connects median eminence to the pituitary gland

Hormones released from hypothalamus are released into median eminence and then move down pituitary stalk to pituitary gland.

Answer 104

A

This is a classification used for individuals with higher than normal glucose that do not yet meet diabetes diagnostic criteria

While people with prediabetes do not have increased risk for microvascular disease as seen in diabetes, they are at risk for the development of diabetes and CVD (cardiovascular disease).

People with prediabetes, particularly in the context of the metabolic syndrome, would benefit from CV risk factor modification.

Answer 105

A

Impaired fasting glucose: Fasting plasma glucose of 6.1-6.9 mmol/L

Impaired glucose tolerance: 2-hour plasma glucose in 75g oral glucose tolerance test of 7.8-11.0mml/L

A1C of 6.0%-6.4%

Answer 106

A

Normal serum T4 concentration + elevated serum TSH concentration.
Some pt’s may have vague nonspecific symptoms suggestive of hypothyroidism
Normally this disorder is diagnosed on the basis of lab test results

Answer 107

A

Causes are the same as those of overt (aka Primary) hypothyroidism.

Most pt’s have chronic autoimmune (Hashimoto’s) thyroiditis w/high serum concentrations of antithyroid peroxidase (anti-TPO) antibodies.

Other major causes: prior ablative or antithyroid drug therapy for hyperthyroidism caused by Graves’ disease; prior partial thyroidectomy; external radiation therapy in pt’s w/Hodgkin Lymphoma, leukemia, or brain tumours; inadequate T4 replacement therapy for overt hypothyroidism; drugs impairing thyroid function

Answer 108

A

Usually just labs. Elevated TSH, normal T4

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Week 8 Endocrine Flashcards

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