Module 5.2 Endocrine

Question 1

What are the functions of Alpha and Beta cells in the Islets of Langerhans

Answer 1

• Alpha cells produce and release glucagon
  
  • Glucagon is a catabolic hormone that increases blood glucose. Its primary target organ is the liver, where it promotes glycogenesis.
• Beta Cells synthesize and secrete insulin.
  
  • Insulin-dependent cells (skeletal and cardiac muscles) require insulin to metabolize glucose as fuel.

Question 2

What causes Diabetes Type 1?

Answer 2

• Usually a result of a loss of beta cells in the pancreatic islets leading to absolute insulin deficiency ( none or not enough insulin is produced)
• Inheritance of certain histocompatibility leukocyte antigen types predispose to this condition
• Autoimmune destruction of beta cells with progressive loss
  
  • Triggering event may activate autoimmune process. This may be a virus, chemical, or stress

Question 3

What causes Diabetes Type 2?

Answer 3

• Type II DM is due to insulin resistance of the body’s cells.
  
  • Insulin resistance is defined as a suboptimal response of insulin- sensitive tissues (especially liver, muscle, and adipose tissue) to insulin.
  • Insulin resistance results from a variety of mechanisms including genetic predisposition, excessive calorie storage volume, metabolic dysfunction, receptor down regulation, and glucose transport abnormalities. Abdominal obesity in particularly is correlated with insulin resistance.

Question 4

What are risk factors for DM II?

Answer 4

■Age: Onset typically after age 40, but incidence in younger age groups is increasing rapidly as the younger population becomes more overweight

■Obesity: 80% of Type 2 diabetics are obese

■Genetic susceptibility:

■A variant form of a gene on chromosome 1 increases risk by 25%. However 85 % of the population has this variation and not all become diabetic.

■Some ethnic groups (African-American, Asian-American, Hispanic, Native American, and Pacific Islander) are at increased risk

■Parent or sibling with diabetes

■Gestational diabetes or a child heavier than 9 pounds at birth

■Hypertension

■Triglyceridemia

metabolic syndrome

Question 5

What are the three metabolic defects in Diabetes Type 2

Answer 5

1. Insuline Resistance
2. Insulin Deficiency
3. Hepatic Glucose Production

Question 6

How does insulin resistance develop?

Answer 6

• This may begin years before diabetes develops. It is theorized that chronic overconsumption of food desensitizes cells to insulin. Some think this may be an effort to protect cells from all the excess glucose. However, the pancreas compensates for a while by producing more insulin. Hyperinsulinemia results.
• Skeletal muscle responds to insulin excess with a reduction in blood flow so that less insulin is delivered to the tissues. Adipose tissue releases free fatty acids that act as a barrier to insulin delivery. The liver continues to produce glucose.
• Over time the excess strain on pancreatic cells wears them out. Genetically susceptible individuals may be especially vulnerable to increased pancreatic cell turnover and injury. Eventually there is a reduction in beta cell mass.

Question 7

What are the effects of insulin deficiency?

Answer 7

• Glucose levels rise
  
  • the weakened pancreas (from insulin resistance compensation) is unable to produce enough insulin to meet demand
• Amylin accumulates outside of beta cells and may contribute to further tissue damage.
  
  • Amylin is an amino acid peptide normally produced by beta cells and packaged with insulin. Normallyh supresses glucagon release

Question 8

What happens with hepatic glucose production in type 2 diabetes?

Answer 8

The liver continues to produce glucose, despite rising glucose levels (r/t insulin resistance, insulin deficiency). Low levels of insulin signal the liver to release additional glucose.

Question 9

Explain the relationship between obesity, insulin resistance and hyperinsulinemia in the development of type II diabetes mellitus.

Answer 9

• Abdominal obesity is correlated with insulin resistance.
  
  • Obesity results in the secretion of adipokines, which causes an increase in free fatty acid and the release of inflammatory cytokines, which then causes a decrease in the activity of ghrelin, leading to insulin resistance.
• Insulin resistance occurs throughout the body cells, but is particularly a problem with skeletal muscle and liver.
• Insulin resistance causes the pancreas to pump out even greater amounts of insulin leading to hyperinsulinemia. This is in response to rising blood glucose levels.
• Over time, the pancreatic cells may not be able to keep up with the demand for insulin and hypoinsulinemia will result which leads to type II diabetes.

Question 10

What is metabolic syndrome?

Answer 10

Metabolic Syndrome is a constellation of disorders (central obesity, dyslipedemia, prehypertension, and elevated fasting blood glucose level) that together confer a high risk of developing type 2 diabetes and associated cardiovascular complications

Question 11

What is the Diagnostic Criteria for Metabolic Syndrome?

Answer 11

central obesity: waist circumference equal to or greater than 40 inches for males and 35 inches for females (or ethnic-specific values for Asians)

• at least 3 of the following:
  
  • elevated triglycerides: at least 1.7 mmol/L or 150 mg/dL
  • low HDL cholesterol: less than 1.04 mmol/L or 40 mg/dL in males, less than 1.29 mmol/L or 50 mg/dL in females
  • elevated blood pressure of at least 130/85 mm Hg
  • fasting hyperglycemia: greater than 5.6 mmol/L or 100 mg/d or previous history or diabetes or impaired glucose tolerance

Question 12

What are complications of the metabolic syndrome?

Answer 12

• Complications in later stages:
  
  • Coronary artery disease
  • Atherosclerosis
  • Cerebral Vascular Accident

Question 13

What is Diabetic Ketoacidosis (DKA)?

Answer 13

• Diabetic Ketoacidosis develops when there is an absolute or relative deficiency of insulin and an increase in the levels of insulin counterregulatory hormones.
  
  • Usually associated with Type 1
  • Common precipitating factor is intercurrent illness (infection,trauma, surgery, emotions, MI)
  • The most important electrolyte disturbance is a marked deficiency in Total body (not serum) potassium
  • Cerebral edema, especially in children

Question 14

How does DKA develop?

Answer 14

• Insuline deficiency –> increase in insulin counterregulatory hormones (catecholamines, cortisol, glucagon, and GH)
• Counterregulator hormones antagonize insulin by increasing glucose production and decrease tissue use
• Profound insulin defieciency results in decreased glucose uptake , increased fat mobilization with release of fatty acids, and accelerated gluconeogenesis and ketogenesis
• Insulin deficiency–> hepatic overproduction of B-hydroxybutyrate and acetoacetic acids causes increase in ketone concentrations
• bicarbonate buffering does not occur –> metabolic acidocis

Question 15

Wnat is Hyperosmolar hyperglycemic nonketotic syndrome (HHNKS)?

Answer 15

HHNKS is a life threatening emergency most often precipitated by infections, medications, nonadherance to diabetes. Usually associated with Type 2. Can also occur in individuals with pancreatic destruction from other causes ( pancreatic cancer)

Question 16

What are the characteristics of HHNKS?

Answer 16

• Type 2 Diabetes
• HHNKS is characterized by a lack of ketosis
  
  • Beause the amount of insulin required to inhibit fat breakdown is less than the amount of insulin effective glucose transport, insulin levels are sufficient are sufficient to prevent excessive lipolysis but not to use glucose properly.
• Glucose levels are higher in HHNKS >600
• Severe dehydration and potassium deficit

Question 17

Compare and contrast the pathophysiology of hyperosmolar hyperglycemic non-ketotic syndrome (HHNKS) and diabetic ketoacidosis (DKA).

Answer 17

• DKA
  
  • Usually associated with Type 1
  • Insulin deficiency more profound in DKA than HHNKS
  • Illness, trauma, surgery, emotions
  • Total body (not serum) potassium deficiency
  • Cerebral edema, especially in children
• HHNKS
  
  • Usually associated with Type 2
  • Fluid deficiency more marked in HHNKS
  • Higher glucose than DKA b/c of volume depletion
  • Less ketosis
  • potassium deficit
  • high mortality

Question 18

What are microvascular complications of diabetes?

Answer 18

■Microvascular disease resulting from thickening of the cell basement membrane caused by accumulation of glucose and other “sugars”

■Diabetic retinopathy resulting from microanueurysms in small blood vessels. These result in fluid leakage, edema and small hemorrhages.

■Diabetic nephropathy resulting from basement membrane thickening and glomerulosclerosis

■Neuropathy resulting from nerve degeneration

Question 19

What are macrovascular complications of Diabetes?

Answer 19

Macrovascular disease (lesions in large and medium sized arteries) increases risk for accelerated atherosclerosis, MI, , stroke, and peripheral vascular disease.

• Coronary artery disease is the most common cause of morbidity and mortality in diabetes

Poor wound healing can lead to amputation

Question 20

Describe the feedback loop involving the hypothalamus-pituitary gland and target adrenal glands

Answer 20

When the body undergoes stress( hypoxia, hypoglycemia, exercise or cortisol deficiency) the hypothalamus produces CRH- which in turn acts on the anterior pituitary to release ACTH- which in turn acts on the adrenal cortex to release glucocorticoids ( mainly cortisol).

The negative feedback inhibition is when (in this case) cortisol binds to receptors in the hypothalamus and anterior pituitary and has the effect of inhibiting secretion of CRH and ACTH. This leads to less stimulation of cortisol by the adrenal cortex. Anything that disrupts this system will cause dysfunction- such as pituitary or adrenal tumors.

Question 21

What is Cushing disease?

Answer 21

Cushing disease is overproduction of pituitary ACTH by a pituitary adenoma (can occur at any age).

Question 22

What is cushing syndrome?

Answer 22

Complex of clinical manifestations resulting from chronic exposure to excess cortisol. The adrenal glands release cortisol when a message/ACTH is received from the pituitary gland.

• individuals lack diurnal/circadian secretions patterns of ACTH and Cortisol
• Individuals Do not increase ACTH and Cortisol in response to stress
• excess ACTH stimulates excess production of cortisol and there is loss of feedback control of ACTH production
• Secretion of cortisol and adrenal androgens is increased, and CRH is inhibited

Question 23

What are signs and symptoms of cushings syndrome?

Answer 23

■Weight gain due to accumulation of adipose tissue in the trunk (truncal obesity), facial (moon face), and cervical areas (buffalo hump).

■Glucose intolerance due to cortisol-induced insulin resistance. (polyuria due to hyperglycemia).

■Protein wasting and muscle wasting/weakness; thin extremities.

■Hypercalcinuria; vasoconstriction/HTN; increased susceptibility infections.

■Purple striae observed in the trunk area; easy bruising.

■Hyperpigmentation (bronze skin); thinning hair; acne; increased body hair.

Question 24

What is addisons disease?

Answer 24

• Hypocortisolism - low levels of cortisol secretion
• Addisons disease is characterized by inadequate corticosteroid and mineralcorticoid synthesis and elevated serum ACTH levels.
• Most common cause is autoimmune destruction of adrenal cortex

Question 25

What are signs and symptoms of addisons disease?

Answer 25

◦S/S-Weakness, anorexia, N/V, diarrhea, hypoglycemia, hyperpigmentation, vitiligo, hypotension (decreased blood volume due to renal sodium loss).

Addison Crisis - severe hypotension and vascular collapse (stressor induced).

Question 26

Describe the feedback loop involving the hypothalamus-pituitary gland and thyroid target gland

Answer 26

Thyroid hormone is regulated by a negative feedback loop.

• TRH is released by the hypothalamus and circulates through the portal system to the anterior pituitary gland- where TSH is released.
• TSH then binds to receptors on the thyroid;
• the release of TSH from the anterior pituitary is under negative feedback inhibition by thyroid hormone, particularly triiodothyronine.

Question 27

What is hypothyroidism? Prmary vs Secondary

Answer 27

Hypothyroidism is caused by a deficinent production of TH by the thyroid gland. It may be primary or secondary

• Primary is the most prevalent, problem is the gland itself
• Central (secondary) hypthyroidism includes conditions that cause either pituitary or hypothalamic failure with failure to stimulate normal thyroid function

Question 28

What causes primary hypothyroidism?

Answer 28

The loss of functional thyroid tissue leads to decreased production of TH. Causes in adults include

• autoimmune thyroiditis (Hashimotos disease)
• Iatrogenic loss of thyroid tissue after surgical or radioactive treatment for hyperthyroidism
• Head and neck radiation therapy
• medications
• endemic iodine deficiency
• congenital defects in infants and children (NB screening mandated in most states)
  *

Question 29

What causes secondary hypothyroidism?

Answer 29

Caused by the pituitarys failure to synthesize adequate amounts of TSH or a lack of TRH.

• Pituitary tumors that compress surrounding pituitary cells or the consequences of their treatment are the most common cause
• Traumatic Brain injury
• Subarrachnoid hemmorage
• pituitary infarction
• Hypothalamic dysfunction results in low levels of TRH, TSH, and TH

Question 30

In primary hypothyroidism what would you expect the TSH, T3, and T4 to be (high, low, normal) and why?

Answer 30

Low levels of TH (T3,T4) and high levels of TSH

• Due to a defect in the gland, the thyroid cant make enough T3, T4
• If your thyroid is malfunctioning, your pituitary gland will produce more TSH in an attempt to get your thyroid to produce more T3 and T4.

Question 31

What is Hashimoto thyroiditis?

Answer 31

Autoimmiune Thyroiditis/ Hashimoto Disease result in gradual inflammatory destruction of thyroid tissue by infiltration of lymphocytes and circulating thyroid antibodies

An infection or other trigger may initiate the autoimmune process. There is initial thyroid enlargement with transient hyperthyroidism. This resolves. Years later the thyroid begins to atrophy, causing a hypothyroid state.

Question 32

What is a primary endocrine disorder?

Answer 32

In a primary endocrine disorder the target endocrine gland (i.e. thyroid, adrenals) is malfunctioning. In a primary disorders there is a lack of response by the target gland to the command of the pituitary gland.

• Addison’s Disease. Primary is directly caused by adrenal failure/insufficiency or hypocortisolism
• primary hypothyroidism the “primary” problem is the thyroid not producing enough thyroid hormone
• Graves Disease

Question 33

What is a secondary endocrine disorder?

Answer 33

In a secondary endocrine disorder, the problem is with the pituitary or hypothalamus. In a secondary disorder, there is an inappropriate response by the pituitary or hypothalamus to the feedback provided by the target gland.

Question 34

What is Graves Disease?

Answer 34

■most common cause of hyperthyroidism

■associated with autoimmune abnormalities or disorders in the feedback system.

■S/S-all of these signs and symptoms are associated with a hypermetabolic state.

• Thyroid is enlarged and possible bruit heard (goiter)
• increased cortisol degradation
• hypercalcemia
• amenorrhea
• wt. loss
• N/V
• sweating, flushed skin, heat intolerance
• ocular manifestations (exophthalmos, periorbital edema, diplopia)
• tachycardia; restlessness, fatigue; SOB.

Question 35

What is Thyrotoxic crisis (Thyroid Storm)

Answer 35

A rare deadly disorder where hyperthyroidism is too severe.

S/S = hyperthermia, tachycardia, dysrhythmias, heart failure, agitation or delirium, and N/V or diarrhea leading to volume depletion