Lecture 6: Adrenal Glands

Question 1

Bilateral cortical hyperplasia of the adrenal glands is seen in which variants of Cushing Syndrome?

Answer 1

ACTH-dependent —> ACTH-producing pituitary adenoma or Ectopic ACTH-producing tumors

Question 2

Atrophic adrenals would be expected in which variant of Cushing Syndrome?

Answer 2

“Iatrogenic” Cushing Syndrome from administration of exogenous glucocorticoids

Question 3

What are the 2 most common underlying causes of ACTH-independent Cushing Syndrome?

Answer 3

• Adrenal adenoma
• Adrenal carcinoma

Question 4

What are the serum levels of cortisol and ACTH like in adrenal adenomas/carcinomas?

Answer 4

• ↑↑↑ serum cortisol
• ↓↓↓ serum ACTH

Question 5

What is the most common morphological alteration observed in the pituitary resulting from high levels of endogenous or exogenous glucocorticoids called?

Answer 5

Crooke hyaline change

Question 6

Crooke hyaline change of the ACTH-producing cells of the anterior pituitary seen in Cushing Syndrome is the result of the accumulation of what?

Answer 6

Intermediate KERATIN filaments in the cytoplasm

Question 7

What is a major morphological difference between adrenocortical adenomas and adrenocortical carcinomas?

Answer 7

• Adenomas tend to be smaller w/ thin- or well-developed capsules
• Carcinomas are MUCH larger and are UNencapsulated masses

Question 8

Both benign and malignant adrenocortical adenomas are more common in which sex and age range?

Answer 8

Women in their 30s to 50s

Question 9

Hypercortisolism causes selective atrophy of fast-twitch myofibers resulting in what clinical manifestations?

Answer 9

• Decreased muscle mass
• Proximal limb weakness

Question 10

Which cause of Cushing Syndrome will have elevated levels of ACTH which is completely insensitive to low or high doses of exogenous dexamethasone?

Answer 10

Ectopic ACTH-producing tumors

Question 11

Which 4 settings of HTN should raise suspicion of Primary Hyperaldosteronism (“Conn’s syndrome”)?

Answer 11

• Refractory HTN
• Adrenal mass + HTN
• HTN at a young age
• Severe HTN (>160/100 mmHg)

Question 12

What is the most common underlying cause of primary hyperaldosteronism and what is seen morhphologically in the adrenal glands?

Answer 12

• Bilateral idiopathic hyperaldosteornism (IHA)
• Characterized by bilateral nodular hyperplasia of adrenal glands

Question 13

Germline and somatic mutations of which gene are present in familial idiopathic hyperaldosteronism and some aldosterone-secreting adenomas?

Answer 13

KCNJ5 encoding a K+ channel

Question 14

Glucocorticoid-remediable hyperaldosteronism is an uncommon cause of primary familial hyperaldosteronism and may be due to which genetic rearrangement and involving what chromosome?

Answer 14

Rearrangement on Cr. 8 placing CYP11B2 (gene encoding aldosterone synthase) under control of the ACTH-responsive CYP11B1 gene promoter

Question 15

In glucocorticoid-remediable hyperaldosteronism what is the function of ACTH?

Answer 15

ACTH is able to stimulate the production of aldosterone synthase

Question 16

Due to the unusual circumstance in glucocorticoid-remediable hyperaldosteronism where aldosterone production is under the control of ACTH, how can this production be suppressed?

Answer 16

Suppressible by dexamethasone

Question 17

Secondary hyperaldosteronism occurs in response to conditions which do what?

Answer 17

Activate the RAAS

Question 18

List 5 conditions where there is an increased activation of RAAS which may lead to secondary hyperaldosteronism?

Answer 18

• Diuretic use
• ↓ renal perfusion (i.e., arteriolar nephrosclerosis, renal a. stenosis)
• Arterial hypovolemia (i.e., CHF, cirrhosis, nephrotic syndrome)
• Pregnancy (estrogen-induced ↑ in plasma renin substrate)
• Renin-secreting tumors

Question 19

How does activity of the RAAS and levels of renin differ between primary and secondary hyperaldosteronism?

Answer 19

• Primary assoc. w/ suppression of RAAS and ↓ renin
• Secondary assoc. w/ activation of RAAS and ↑↑↑ renin

Question 20

Do aldosterone-secreting adenomas typically produce visible enlargement?

Answer 20

NO, often small (<2 cm) and buried within the gland

Question 21

What is a characteristic histological feature of aldosterone-secreting adenomas?

Answer 21

Eosinophilic, laminated cytoplasmic inclusions –> Spironolactone bodies

Question 22

Is hypokalemia a mandatory feature of primary hyperaldosteronism?

Answer 22

• NO, although many patients will be hypokalemic
• Increasing numbers of patients who are normokalemic are being diagnosed

Question 23

Diagnosis of primary hyperaldosteronism is confirmed by what screening test, and if postive, what test must be performed?

Answer 23

• ↑↑↑ ratios of plasma aldosterone: plasma renin activity
• Confirmed w/ aldosterone suppression test

Question 24

What is the best therapy for primary hyperaldosteronism caused by an adenoma vs. bilateral hyperplasia?

Answer 24

• Adenomas are amendable to resection
• Bilateral hyperplasia is best managed w/ aldosterone antagonists i.e., spironolactone

Question 25

Adrenocortical neoplasma associated with virilization are more likely to be of what type?

Answer 25

Androgen-secreting adrenal carcinomas

Question 26

Androgen-secreting adrenal carcinomas often elaborate what other hormone?

Answer 26

Cortisol and are known as “mixed syndromes”

Question 27

What is the inheritance pattern of the inherited metabolic errors causing congenital adrenal hyperplasia?

Answer 27

Autosomal recessive

Question 28

Which enzyme involved in the biosynthesis of cortical steroids is most commonly seen as deficient?

Answer 28

21-hydroxylase deficiency

Question 29

Which syndrome associated with 21-hydroxylase deficiency has a complete lack of the enzyme activity?

Answer 29

Salt wasting syndrome

Question 30

What are the levels of mineralocorticoids, cortisol, and sex steroids like in salt wasting syndrome?

Answer 30

• NO mineralocorticoids or cortisol
• ↑↑↑ sex steroids

Question 31

Salt wasting syndrome comes to attention soon after birth with what serum electrolyte abnormalities?

Answer 31

• Salt wasting –> HYPOnatremia
• HYPERkalemia
• HYPOtension

Question 32

How does the presentation of salt wasting syndrome differ in males vs. females at birth?

Answer 32

• Females will present w/ easily recognizable virilization at birth
• Males don’t usually come to clinical attention until 5-15 days after birth due to some salt-losing crisis

Question 33

Patients w/ severe salt-wasting 21-hydroxylase deficiency will have adrenomedullary dysplasia which predisposes them to what long term consequences?

Answer 33

• ↓ catecholamine secretion
• HYPOtension
• Circulatory collapse

Question 34

Simple virilizing adrenogenital syndrome without salt wasting is associated with what type of 21-hydroxylase activity and how does this typically present clinically?

Answer 34

• Partial lack of enzyme activity; some mineralcorticoids and small amount of cortisol, NOT enough to prevent ACTH overproduction
• Presents as genital ambiguity

Question 35

The most common form of 21-hydroxylase deficiency presents as nonclassic or late-onset adrenal virilism; what are the clinical manifestations?

Answer 35

• May be virtually asymptomatic
• Mild manifestations such a precocious puberty, acne and hirsutism at the time of puberty

Question 36

In all cases of congenital adrenal hyperplasia what is the morphological change seen in the adrenals?

Answer 36

BILATERAL hyperplastic; some times ↑↑↑ 10-15x normal weights

Question 37

Pt’s with CAH are treated with what?

Answer 37

• Exogenous glucocorticoids, provides adequate levels AND suppresses ACTH levels
• Mineralocorticoid supplementation given in salt-wasting variants

Question 38

What are 2 means of diagnosis of congenital adrenal hyperplasia?

Answer 38

• Serum 17-hydroxyprogesterone levels will be ↑↑↑
• ACTH-stimulation test, which would normally ↑ glucocorticoids (but fails to do so in CAH)

Question 39

Disseminated bacterial infection causing massive adrenal hemorrhagic necrosis and resultant primary acute adrenocortical insufficiency is known as what?

Answer 39

Waterhouse-Friderichsen Syndrome

Question 40

Amyloidosis, sarcoidosis, and hemochromatosis may all lead to what type of adrenal dysfunction?

Answer 40

Primary adrenocortical insufficiency

Question 41

In which 3 clinial settings does primary acute adrenocortical insufficiency most often occur?

Answer 41

• As a crisis in pt with chronic adrenocortical insufficiency precipitated by any form of stress
• Rapid withdrawl of steroids or failure to ↑ dose in response to acute stress
• Massive adrenal hemorrhage, as occurring in newborns following prolonged/difficult delivery; pt’s on anticoagulant therapy who develop DIC; and in Waterhouse-Friderichsen Syndrome

Question 42

Adrenal hemorrhage leading to primary acute adrenocortical insufficiency may occur in what 5 clinical settings?

Answer 42

• Sepsis: Waterhouse Friderichsen syndrome
• Neonatal period
• Trauma
• Postsurgical patients
• Coagulopathy

Question 43

Which 5 bacterial species may be associated with Waterhouse-Friderichsen Syndrome?

Answer 43

• N. meningitidis septicemia
• H. influenzae
• Pseudomonas species
• Pneumococci
• Staphylococci

Question 44

What are the clinical signs/sx’s associated with Waterhouse-Friderichsen Syndrome?

Answer 44

• Rapidly progressive HYPOtension —> Shock
• DIC assoc. w/ widespread purpura, particularly of the skin
• Massive bilateral adrenal hemorrhage –> rapid adrenocortical insufficiency

Question 45

Histological examination of the adrenals in Waterhouse-Friderichsen syndrome show hemorrhage that starts where and then travels how?

Answer 45

Starts within medulla near thin-walled venous sinusoids, then spreads peripherally into cortex, often leaving islands of recognizable cortical cells

Question 46

What are 6 signs/sx’s that should raise suspicion of acute adrenal insufficiency?

Answer 46

• HYPOtension (refractory to volume repletion)
• HYPOnatremia
• HYPOglycemia
• Abdominal pain
• Fever
• N/V

Question 47

90% of all cases of primary chronic adrenocortical insufficiency can be attributed to one of what 4 disorders?

Answer 47

• Autoimmune adrenalitis
• Tuberculosis
• AIDS
• Metastatic cancers

Question 48

Most common cause of primary chronic adrenocortical insufficiency in developed countries?

Answer 48

Autoimmune adrenalitis

Question 49

Most common cause of primary chronic adrenocortical insufficiency worldwide?

Answer 49

Tuberculosis —> Autoimmune

Question 50

Autoimmune polyendocrine syndrome type 1 is also know as what?

Answer 50

Autoimmune PolyEndocrinopathy, Candidiasis and Ectodermal Dystrophy (APECED)

Question 51

Autoimmune polyendocrinopathy syndrome type 1 (aka APECED) is characterized by what clinical findings?

Answer 51

• Chronic mucocutaneous candidiasis
• Abnormalities of skin, dental enamel, and nails (ectodermal dystrophy)
• Organ-specific autoimmune disorders: autoimmune adrenalitis, hypoparathyroidism, idiopathic hypogonadism, and pernicious anemia

Question 52

Autoimmune polyendocrine syndrome type 1 is associated w/ mutations in which gene, on which chromosome?

Answer 52

AIRE on chromosome 21q22

Question 53

Autoantibodies against which 2 cytokines seen in autoimmune polyendocrinopathy syndrome type 1 are the reason for chronic mucocuntaneous infections?

Answer 53

IL-17 and IL-22

Question 54

When does autoimmune polyendocrine syndrome type 2 usually develop and what are the characteristic findings?

Answer 54

• Starts in early adulthood
• Combination of adrenal insufficiency (adrenalitis) + immune thyroiditis OR type 1 DM

Question 55

Which 3 infectious agents may cause primary chronic adrenocortical insufficiency?

Answer 55

• Tuberculosis used to be most common cause
• Histoplasma capsulatum
• Coccidioides immitis

Question 56

AIDS patients are at risk for developing adrenal insufficiency from which 2 infections and as a complication of what?

Answer 56

• CMV and Mycobacterium avium-intracellulare
• Noninfectious (Kaposi Sarcoma)

Question 57

Metastatic neoplasms involving the adrenals and causing adrenocortical insufficiency most often arise from which 2 sites; what are some other sites which may be implicated?

Answer 57

• Lungs and breast carcinomas = most common
• May also be from GI carcinomas, malignant melanoma, and hematopoietic neoplasms

Question 58

What are 2 genetic causes of adrenal insufficiency?

Answer 58

• Congenital adrenal hypoplasia
• Adrenoleukodystrophy (X-linked recessive)

Question 59

What is the gross morphology and histology of the adrenal glands in primary autoimmune adrenalitis?

Answer 59

• Irregularly SHRUNKEN glands
• Scattered residual cortical cells in collapsed network of CT w/ a variable lymphoid infiltrate of the cortex

Question 60

Which type of inflammatory reaction will be seen in the adrenal glands affected by tuberculosis and fungal disease?

Answer 60

Granulomatous inflammation

Question 61

What are the initial manifestations (signs/sx’s) of primary chronic adrenocortical insufficiency (Addison’s disease)?

Answer 61

Progressive weakness and easy fatigability

Question 62

What are the signs/sx’s of primary chronic adrenocortical insufficiency as a result of corticosteroid and mineralocroticoid deficiency?

Answer 62

• ↓ corticosteroids –> vague malaise, N/V, hypoglycemia, and refractory hypotension
• ↓ mineralocorticoids –> hyperkalemia and hyponatremia

Question 63

Which type of adrenocortical insufficiency is associated with hyperpigmentation of the skin and which is not?

Answer 63

• Primary adrenal disease will have hyperpigmentation
• Adrenocortical insufficiency caused by primary pituitary or hypothalamic disease will not

Question 64

How does the presentation of adrenal carcinomas differ from that of adenoma?

Answer 64

• Carcinomas are larger and produce mass effect causing compression/invasion of adjacent structures
• Virilizing

Question 65

How does the production of cortisol, androgens, and aldosterone in secondary adrenocortical insufficiency differ from that of primary?

Answer 65

• Will have deficient cortisol and androgens
• But normal or near-normal synthesis of aldosterone

Question 66

How can an ACTH-stimulation test help you differentiate primary vs. secondary adrenocortical insufficiency?

Answer 66

• Primary will have a reduced response to exogenous ACTH
• Secondary will show a prompt rise in plasma cortisol levels

Question 67

Which 2 familial cancer syndromes are associated with a predisposition for developing adrenocortical carcinomas?

Answer 67

• Li-Fraumeni syndrome, due to germline TP53 mutations
• Beckwith-Wiedemann syndrome a disorder of epigenetic imprinting

Question 68

Adrenocortical carcinomas have a strong tendency to invade which structures?

Answer 68

• Adrenal vein
• Vena cava
• Lymphatics —> regional and periaortic nodes = common

Question 69

Distant hematogenous spread by adrenocortical carcinomas to where is common; what is the prognosis of these neoplasms?

Answer 69

• Lungs and other viscera
• Median pt survival = about 2 years

Question 70

Which is more common, primary adrenocortical carcinomas or metastases to the adrenal cortex?

Answer 70

Metastases

Question 71

Cortical and medullary neoplasms may undergo necrosis and cystic degeneration and may present as what type of lesion?

Answer 71

“Nonfunctional cysts”

Question 72

Adrenal myelolipomas are unusual benign lesions composed of what?

Answer 72

Mature fat + hematopoietic cells (i.e., bone marrow)

Question 73

What is the 10% rule associated with Pheochromocytomas (5 of them)?

Answer 73

• 10% are extra-adrenal (paraganglioma)
• 10% are bilateral
• 10% in kids
• 10% are malignant
• 10% are NOT associated with HTN

Question 74

What % of pheochromocytomas are now recognized as harboring germline mutations and as such are familial?

Answer 74

25%

Question 75

What are the 3 groups of extra-adrenal paraganglia based on anatomic distribution?

Answer 75

1. Branchiomeric
2. Intravagal
3. Aorticosympathetic

Question 76

What are 4 familial syndromes which are associated with pheochromocytomas and extra-adrenal paragangliomas?

Answer 76

• MEN-2A
• MEN-2B
• NF-1
• Von Hippel-Lindau (VHL)

Question 77

How does the patient presentation and location of pheochromocytomas in pt’s harboring germline mutations differ from that of sporadic types?

Answer 77

• Pt’s are typically younger
• More often harbor bilateral disease

Question 78

The histological pattern in pheochromocytomas is composed of clusters of polygonal to spindle-shaped chromaffin or chief cells surrounded by what?

Answer 78

Supporting sustentacular cells, creating small nests or alveoli (zellballen) that are supplied by rich vascular network

Question 79

The cytoplasm of cells within a pheochromocytoma has a finely granular appearance and is best demonstrated with what stain due to granules containing catecholamines?

Answer 79

Silver Stain

Question 80

What stain can be used for visualization of the peripheral sustentacular cells of a pheochromocytoma?

Answer 80

Stain w/ antibodies against S-100

Question 81

Which histological feature of pheochromocytomas reliably predicts clinical behavior?

Answer 81

NONE

Question 82

What is the definitive diagnosis of malignancy in pheochromocytomas based on?

Answer 82

Exclusively on the presence of metastases

Question 83

What is the dominant clinical manifestation of pheochromocytomas and what is the classic triad?

Answer 83

• HTN which can be either chronic or paroxysmal
• Triad = Headache + Palpitations + Diaphoresis

Question 84

What are some acute complications of pheochromocytomas which are associated with catecholamine surges?

Answer 84

• CHF
• Pulmonary edema
• MI
• Ventricular fibrillation
• CVA

Question 85

What is a chronic cardiac complication which may arise in the setting of a pheochromocytoma?

Answer 85

Catecholamine cardiomyopathy

Question 86

What is the laboratory diagosis of pheochromocytomas based on?

Answer 86

↑ urinary excretion and plasma free catecholamines + their metabolites i.e., vanillylmandelic acid and metanephrines

Question 87

What 3 features of adrenal incidentalomas impact the appropriate managment of the mass?

Answer 87

• SIZE: >4cm = more likely to be carcinoma
• Positive functional assays: i.e., dexamethasone suppression test for hypercortisolism or urinary metanephrines for pheochromo.
• CT enhancement characteristics

Question 88

How do endocrine tumors arising in the context of MEN syndromes differ from their sporadic counterparts in terms of age, organs involved, behavior, and foci?

Answer 88

• Tend to occur at younger age
• Arise in multiple endocrine organs, either synchronously or metachronously
• Typically preceded by asymptomatic stage of hyperplasia
• Even in one organ, tumors are often multifocal
• Are usually more aggressive and recur

Question 89

What are the “3 P’s” of MEN, type 1?

Answer 89

• Primary hyperparathyroidism
• Pancreatic endocrine tumors
• Pituitary adenomas

Question 90

What is the initial manifestation of MEN 1 in most patients, appearing in almost all patients by age 40-50?

Answer 90

Primary hyperparathyroidism

Question 91

Which tumors of MEN-1 are the leading cause of morbidity and mortality due to their aggressiveness and metastases?

Answer 91

Pancreatic endocrine tumors

Question 92

What is the most frequent pituitary adenoma encountered in MEN-1?

Answer 92

Prolactinoma (lactotroph); may also see somatotroph adenoma (GH)

Question 93

What is the most common site of gastrinomas present in pt’s with MEN-1?

Answer 93

Duodenum; may also have synchronous duodenal + pancreatic tumors

Question 94

MEN-1 is due to germline mutations in the MEN1 tumor suppressor gene which encodes what protein?

Answer 94

Menin

Question 95

What is the triad of MEN-2A?

Answer 95

• Pheochromocytoma
• Medullary thyroid carcinoma
• Parathyroid hyperplasia

*There are more ‘A’s’ in Type 2 ‘A’

Question 96

Which tumor is seen in almost 100% of patients with MEN-2A?

Answer 96

Medullary carcinoma of the thyroid

Question 97

The medullary thyroid carcinoma encountered in MEN-2A are usually multifocal and are virtually always associated with foci of what?

Answer 97

C-cell hyperplasia in the adjacent thyroid

Question 98

MEN-2A is caused by which mutation and on what chromosome?

Answer 98

Germline gain-of-function mutations in RET on Cr. 10q11.2

Question 99

What is the triad of MEN-2B?

Answer 99

• Pheochromocytomas
• Medullary thyroid carcinomas
• Mucosal neuromas (distinguishing feature from MEN-2A)

Question 100

Which MEN syndrome is associated with a marfanoid habitus, characterized by long axial skeletal features and hyperextensible joints?

Answer 100

MEN-2B

Question 101

How is the germline mutation associated with MEN-2B distinct from that of MEN-2A?

Answer 101

MEN-2B caused by germline mutation leading to a single amino acid change in RET (specific point mutation)

Question 102

Familial medullary thyroid cancers are a variant of MEN-2A; how are they different?

Answer 102

• Develop at an older age
• Do not have the other clinical manifestation assoc. w/ MEN-2A
• Typically follow a more indolent course

Question 103

About 1/3 of sporadic medullary thyroid carcinomas harbor the identical point mutation of RET encountered in MEN-2B and follow what type of course?

Answer 103

More aggressive disease and adverse prognosis

Question 104

Diagnosis via screening of at-risk family members for which MEN syndrome is important?

Answer 104

MEN-2A due to medullary thyroid carcinoma being life-threatening, and can be prevented by prophylactic thyroidectomy

Question 105

The pineocytes of the pineal gland are epithelial cells with what 2 functions?

Answer 105

Photosensory and neuroendocrine functions

Question 106

Majority of tumors arising in the pineal gland are of what type?

Answer 106

• Germ cell tumors i.e., germinomas, embryonal carcinomas; choriocarcinomas and mixtures of the 2