Pathoma - Endocrine Pathology

Question 1

Nonfunctional pituiatry adenoma will exert its forces on what?

Answer 1

This will be a mass effect that will lead to bitemporal hemianopsia which occurs due to compression of the optic chiasm

Question 2

What is a prolactinoma?

Answer 2

A benign tumor of the anterior pituitary that will secrete excessive amounts of prolactin

Question 3

What are the characteristic symptoms in female with a prolactinoma and why do these occur?

Answer 3

Galactorrhea and amenorrhea - due to increased prolactin cause mammary stimulation

Question 4

What are the characteristic symptoms of prolactinoma in males and what causes them?

Answer 4

Increased prolactin in males will lead to decreased GnRH which will lead to decreased libido and headaches

Question 5

A growth hormone adenoma will cause what in children and why?

Answer 5

Gigantism in children due to increased linear bone growth (epiphyses are not fused)

Question 6

How will a growth hormone adenoma present in adults?

Answer 6

Acromegaly

Enlarged bones in hands and feet

Growth of visceral organs

Enlarged tongue

Question 7

What is the treatment of a prolactinoma?

Answer 7

Dopamine agonist to suppress prolactin production

Question 8

What is a common symptom of growth hormona adenoma in regards to blood levels?

Answer 8

Secondary diabetes mellitus is often present - GH lowers glucose uptake in cells

Question 9

Why is somatostatin used to treat GH adenoma?

Answer 9

It will suppress the formation of GHRH in the anterior pituitary

Question 10

What is the common pituitary adenoma that presents with hypopituitarism in children?

Answer 10

Craniopharyngioma (Wet Keratin)

Question 11

What is Sheehan syndrome?

Answer 11

Pregnancy related infaction of the pituitary gland - loss of blood from birthing leads to insufficient blood to the pituitary

Question 12

How will Sheehan syndrome present?

Answer 12

Poor lactation, loss of pubic hair, and fatigue

Question 13

What are the 2 hormones that are made in the hypothalamus and transported to the posterior pituitary?

Answer 13

ADH and oxytocin

Question 14

What is the use of oxytocin?

Answer 14

Oxytocin mediates uterine contractions during labor and release of breast milk

Question 15

What is syndrome of inappropriated ADH secretion (SIADH)?

Answer 15

Excessive ADH production usually cause by trauma or infection

Hyponatremia and low serum osmo

Question 16

What is this an image of and what is important to note?

Answer 16

Follicular adenoma - benign proliferation of follicles surrounded by dense fibrous capsule

Question 17

What is this an image of?

Answer 17

Papillary carcinoma - notice white clearing in the center of the nucleus - orphan annie eye

Line or groove within nucleus

Psamomma body - calcification

Question 18

Why do patients with hyperthyroidism have an increased metabolic rate and increased sympathetic nervous system?

Answer 18

Increased basal metabolic rate is due to increased synthesis of Na/K ATPase

Increased sympathetic nervous system activity is due to increased expression of B1-adrenergic receptors

Question 19

What would hyperthyroidism do to blood glucose levels?

Answer 19

Present with hyperglycemia due to increased gluconeogenesis and glycogenolysis

Question 20

What is a clinical feature of graves disease?

Answer 20

Diffuse goiter - constant stimulation of the thyroid leads to hyperplasia and hypertrophy

Question 21

Histologically, what would graves present with?

Answer 21

Irregular follicles with scalloped colloid and chronic inflammation

Question 22

What is the process of creating T3/T4 and what are the important enzyme?

Answer 22

Tyrosine is converted into thyroglobulin and iodine is taken up from the blood and both are transported to the luminal side. Peroxidase catalyzed the reaction to create T3/T4

Question 23

What are the important lab findings associated with Graves?

Answer 23

Increased total and free T4

Decreased TSH - due to Free T3 downreglates TRH receptors in the anterior pituitary

Question 24

Cretenism is characterized by?

Answer 24

Infantile hypothyroidism leading to mental retardation, short stature and skeletal abnormalities

Question 25

What are some of the causes of Cretinism?

Answer 25

Maternal hypothyroidism during early pregnancy and iodine deficiency

Question 26

What is Hashimoto’s thyroiditis?

Answer 26

Autoimmune destruction of the thyroid gland.

Question 27

What are the common findings histologically in Hashimotos?

Answer 27

chronic inflammatory cells with germinal centers and hurthle cell

Question 28

What are the clinical features of hashimotos?

Answer 28

May present as initial hyperthyroidism - due to destruction of follicles leading to hyperthyroidism

Progression to hypothyroidism - Low T4 and increased TSH

Question 29

What are the features of Subacute Granulomatous (DeQuervain) Thyroiditis?

Answer 29

Granulomatous thyroiditis that follows a viral infection

Presents as tender thyroid gland with transient hyperthyroidism

Question 30

What are the key features of Riedel Fibrosing Thyroiditis?

Answer 30

Characterized as chronic inflammation that leads to fibrosis of the thyroid

Hypothyroidism - hard as wood thyroid

Fibrosing may extend into the local structures

Question 31

How could you differentiate between Riedel fibrosing and anaplastic carcinoma?

Answer 31

The age of the patients

Riedel fibrosing is younger <40

Anaplastic - Older patient

Question 32

How can radioactive iodine studies be used to differentiate between different thyroid diseases?

Answer 32

Increased uptake - will be seen in diseases like graves and nodular goiter

Decreased uptake - seen in adenoma and carcinoma

Question 33

Follicular adenoma is characterized by?

Answer 33

The presence of a fibrous capsule

Question 34

What are the key characteristic findings of papillary carcinoma?

Answer 34

Papillary carcinoma - notice white clearing in the center of the nucleus - orphan annie eye

Line or groove within nucleus

Psamomma body - calcification

Question 35

What are the characteristics of Follicular carcinoma?

Answer 35

Malignant proliferation of follicles surrounded by fibrous capsule, but there is invasion of the capsule

Question 36

Medullary carcinoma is caused by proliferation of what cells?

Answer 36

C cells in the thyroid - neuroendocrine cells that secrete calcitonin

Question 37

What is a key laboratory finding associated with medullary carcinoma?

Answer 37

Increased calcitonin - leading to decreased serum calcium by excretion of calcium through the kidney

Question 38

Medullary carcinoma is associated with what familial condition?

Answer 38

Multiple endocrine neoplasia (MEN2A and B) - associated with a mutation in the RET oncogene

Question 39

What are the important cells of the parathyroid that monitor Ca2+ levels?

Answer 39

Chief cells regulate free ionized calcium via parathyroid hormone (PTH)

Question 40

What is the role of PTH on the bone?

Answer 40

Stimulation of osteoblast which will in turn stimulate osteoclast activity and increase bone reabsorption (increase Ca2+ and phosphate)

Question 41

How will PTH act on the small bowel?

Answer 41

Increase reabsorption of calcium and phosphate reabsorption indirectly through Vitamin D

Question 42

How will PTH act on the kidneys?

Answer 42

Increase renal calcium reabsorption and increase “dumping” of phosphate - this allows for increase of free calcium

Question 43

What are the key lab findings associated with primary hyperparathyroidism?

Answer 43

Increase PTH and serum Calcium

Decreased phosphate - due to kidney excretion

Question 44

Chronic renal failure will lead to increased serum phosphate which can have what effect?

Answer 44

Serum phosphate will bind free calcium leading decreased stimulation of the parathyroid - leading to hyperparathyroidism

Question 45

Insulin is secreted by what cells?

Answer 45

Beta cells that lie in the center of islets

Question 46

What is the role of insulin in skeletal mucle and adipose tissue?

Answer 46

Up-regulates the synthesis of the GLUT-4 transporter which will increase glucose uptake and decrease serum glucose

Question 47

What do alpha cells secrete and what is its role?

Answer 47

Glucagon which acts to oppose insulin in order to increase blood glucose levels in states of fasting

Glycogenolysis and lipolysis

Question 48

What is the cause of Type I diabetes mellitus?

Answer 48

Insulin deficiency caused by an autoimmune destruction of beta cells by T lymphocytes

Question 49

How will T1 DM manifest itself?

Answer 49

High serum glucose as a result of insulin deficiency - decreased uptake by muscle and fat

Question 50

What is diabetic ketoacidosis?

Answer 50

This is characterized by excessive serum ketones

Often occurs with elevated epinephrine which will stimulate glucagon secretion increasing lipolysis to increased FFA

FFA will be converted in the liver to ketone bodies

Question 51

How will diabetic ketoacidosis present in clinic?

Answer 51

High glucose (>300), anion gap metabolic acidosis, and hyperkalemia

Treatment is insulin

Question 52

What is Type II DM characterized by?

Answer 52

End-organ insulin resistance leading to metabolic disorder characterized by hyperglycemia

Question 53

Who is the most common population affected by TII DM? Why?

Answer 53

Middle aged obese adults

Obesity leads to decreased number of insulin receptors

Question 54

Histology can reveal what on the islets?

Answer 54

Amyloid deposits

Question 55

Diagnosis of TII DM can be made from which studies?

Answer 55

Random glucose >200

Fasting glucose >126

Glucose tolerance test with serum glucose level > 200 after glucose loading

Question 56

What is the acute risk in TII DM?

Answer 56

Hyperosmolar non-ketogenic coma

Caused by high glucose leading to life-threatening diuresis and hypotension and coma

Question 57

What are the long term consequences associated with large vessels?

Answer 57

Atherosclerosis

Question 58

How can nonenzymatic glycosylation of small vessels become problematic?

Answer 58

This can lead to hyaline arteriolosclerosis

Can injure the glomeruli and cause KW nodules

Question 59

How can diabetes lead to osmotic damage and what can the result be?

Answer 59

Glucose freely enters into schwann cells and pericytes of retinal blood vessels

Aldose reductase converts glucose into sorbitol which results in osmotic damage

The will cause neuropathy, blindness, impotence, and cataracts

Question 60

Glomerulosa produces what?

Answer 60

Mineralocorticoids - aldosterone

Question 61

Fasciculata produces what?

Answer 61

Glucocorticoids - cortisol

Question 62

Reticularis produces?

Answer 62

androgens

Question 63

Hyperaldosteronism is clinically characterized by?

Answer 63

HTN, hypokalemia, and metabolic alkalosis

Alkalosis due to alpha cells in collecting duct “dumping” hydrogen ions

Question 64

Aldosterone has what effect in the distal tubule and collecting duct?

Answer 64

Absorption of sodium and secretion of potassium in the distal tubule and collecting duct

Question 65

How does primary hyperaldosteronism differ from secondary?

Answer 65

Primary - high aldosterone and low renin

Secondary - high aldosterone and high renin

Question 66

How could you identify Liddle’s syndrome?

Answer 66

Liddle’s is a disease where there is little degradation of sodium channels in the collecting tubule. Classically presents as HTN, hypokalemia and metabolic alkalosis in a young patient. This will present with low aldosterone and renin levels.

Question 67

How can hypercortisolism lead to muscle weakness?

Answer 67

Cortisol breaks down muscle to produce amino acids

Question 68

How can hypercortisolism lead to moon facies and truncal obesity?

Answer 68

High insulin due to high glucose which will increase the storage and fat centrally

Question 69

Why will hypercortisolism present with abdominal striae?

Answer 69

Impaired collagen synthesis

Question 70

What causes HTN associated with hypercortisolism?

Answer 70

Increased sensitivity of peripheral vessels to catecholamines

Question 71

21-H deficiency cause lead to what life-threatening complication?

Answer 71

Hypotension due to salt wasting

Question 72

Waterhouse-Friderichsen syndrome is characterized by?

Answer 72

Acute renal insufficiency - hemorrhagic necrosis of the adrenal glands due to DIC in young children with N Meningitidis infection

Lack of cortisol can lead to hypotension and death

Question 73

Clinical features of adrenal insufficiency?

Answer 73

Hypotension, hyponatremia, hypovolemia, hyperkalemia, metabolic acidosis

Question 74

Why can adrenal insufficiency lead to hyperpigmentation?

Answer 74

ACTH is linked to POMC which is a stimulator of melanocytes