10/21- Pathology of the Adrenal Glands and Thymus

Question 1

What are the layers of the adrenal glands?

Answer 1

• Cortex: more hormonally active
• Zona glomerulosa: mineralocorticoids (aldosterone)
• Zona fasciculata: glucocorticoids (cortisol)
• Zona reticularis: sex steroids (estrogen, androgen)
• Medulla: fight/flight hormones

Question 2

What is seen here?

Answer 2

Layers of adrenal gland

• Cortex: more hormonally active
• Zona glomerulosa: mineralocorticoids (aldosterone)
• Zona fasciculata: glucocorticoids (cortisol)
• Zona reticularis: sex steroids (estrogen, androgen)
• Medulla: fight/flight hormones

Question 3

IMPORTANT

Answer 3

Question 4

What is seen with adrenocortical hyperfunction (syndromes)?

Answer 4

Hyperadrenalism: syndromes with overlapping clinical features

• Hypercortisolism (Cushing’s)
• Hyperaldosteronism
• Adrenogenital (virilizing) syndromes

Question 5

What are clinical features of Hypercortisolism (excess glucocorticoids)?

Answer 5

• Hypertension
• Easy bruisability
• Weight Gain
• Menstrual irregularity
• Central obesity
• Hirsutism
• Decreased muscle mass
• Mood swings/psychosis
• Osteoporosis
• Immunosuppression
• Diabetes
• Cutaneous striae
• Thin skin
• Poor wound healing
• “Cushingoid” appearance

Question 6

What are causes of hypercortisolism?

Answer 6

Exogenous steroid use

• Steroid treatment for autoimmune diseases or post-organ transplants
• Weight lifters, athletes, etc. (rare)

Endogenous:

• ACTH hypersecretion (hypothal-pit), 70-80%
• Cortisol hypersecretion (adrenal), 10-20%
• Ectopic ACTH secretion (paraneoplastic), 10%
• Common in small cell tumors of the lung

Question 7

What are causes of ACTH hypersecretion?

• Lab values
• Epidemiology

Answer 7

Labs:

• High ACTH
• High cortisol

Causes:

• Pituitary (Cushing Disease)
• 5x more in females; 20s-30s
• Microadenoma, adenoma (>1cm)
• Primary corticotrophic cell hyperplasia
• Hypothalamic
• CRH producing tumor (2’ cortioctrophic cell hyperplasia in pituitary)
• Secondary adrenocortical hyperplasia

Question 8

What are causes of cortisol hypersecretion?

• Lab values

Answer 8

Labs:

• ACTH-independent, so low ACTH
• High cortisol

Seen in:

• Adrenocortical adenoma (#1)
• Adrenocortical carcinoma
• Primary adrenocortical hyperplasia (uncommon)

Question 9

What are causes of ectopic ACTH production?

• Lab values
• Epidemiology

Answer 9

Paraneoplastic syndrome

Labs:

• High ACTH
• High cortisol

Epidemiology:

• More males
• 40s-50s

Causes:

• Small cell carcinoma of lung (#1)
• Carcinoid tumor (typ small intestine/colon), Medullary thyroid CA, Islet cell tumor of pancreas
• Ectopic CRH secretion also possible (rare)

Question 10

What is seen here?

Answer 10

Adrenal hyperplasia

Question 11

What is seen here?

Answer 11

Tumor of the adrenal cortex

• Much fat (medulla will look different; different tissue composition)

Microscopically, see very different cell size/morphology

• Hard to tell benign vs. malignant with adrenal tumors - Even benign may look scary

Question 12

What is the pathology of Cushing’s syndrome on the pituitary?

Answer 12

Crooke hyaline change

Question 13

What is the pathology of Cushing’s syndrome on the adrenal?

Answer 13

• Atrophy: if low ACTH (exogenous steroids, functioning tumor)
• Diffuse hyperplasia: if high ACTH (hypothalamic-pituitary)
• Nodular hyperplasia: if high ACTH (hypthalamic pituitary)
• Mass

Question 14

How do you make the lab diagnosis of Cushing’s syndrome?

Answer 14

• 24 hour urine free cortisol level increased due to loss of normal diurnal pattern of cortisol secretion
• Serum ACTH level
• Dexamethasone suppression test
• Urinary 17-hydroxycorticosteroid level
• After low dose and high dose dexamethasone

Question 15

What is seen in the various causes of Cushing’s (pituitary disease, ectopic ACTH, and adrenal disease) for:

• ACTH levels
• Cortisol levels
• Response to low and high dose Dex

Answer 15

Pituitary disease: high ACTH, high cortisol

• Low dose dex -> no suppression of 17OH-CCS
• High dose dex -> suppression of 17OH-CCS

Ectopic ACTH: high ACTH, high cortisol

• Low dose dex -> no suppression
• High dose dex -> no suppression

Adrenal disease: low ACTH, high cortisol

• Low dose dex -> no suppression
• High dose dex -> no suppression

Question 16

What are clinical and lab features of hyperaldosteronism (excess mineralocorticoids)?

Answer 16

Sodium retention and potassium excretion

• Hypernatremia (increased fluid volume)
• Hypokalemia (weakness, paresthesia, visual disturbance, tetany)
• Hypertension
• EKG changes, cardiac decompensation

Primary (adrenal)

• Suppression of renin-angiotensin system
• Low renin

Secondary (extra-adrenal)

• Activation of renin-agniotensin system. High renin

Question 17

What are causes of secondary hyperaldosteronism?

Answer 17

RAAS system

• Decreased renal perfusion
• Renal artery stenosis
• Arteriolar sclerosis
• Arterial hypovolemia and edema
• CHF
• Cirrhosis
• Nephrotic syndrome
• Pregnancy
• Estrogen-induced increase in plasma renin

Question 18

What are causes of primary hyperaldosteronism?

Answer 18

Adrenocortical neoplasm

• Most often adenoma (Conn syndrome)

Primary adrenocortical hyperplasia

• Idiopathic
• May be genetic
• Cells resemble ZG

Glucocorticoid-remediable hyperaldosteronism

• Uncommon
• Genetic in some families

Question 19

What is Conn syndrome?

• Epidemiology
• Gross appearance
• Histo features

Answer 19

Adenoma (causing primary hyperaldosteronism)

Epidemiology

• Adults, 2x more females
• 30s-40s

Features:

• Small bright yellow nodule.
• May have spironolactone bodies.
• May be multiple adenomas.
• No associated cortical atrophy due to normal ACTH

Question 20

What are adrenogenital syndromes

Answer 20

Excess androgens causing virilization

Question 21

What is broad pathway for androgen production?

Answer 21

Dehydroepiandrosterone (DHEA) and androstenedione produced by adrenal cortex

• Converted to testosterone in peripheral tissues
• Production regulated by ACTH

Question 22

What are causes of adrenogenital syndromes?

Answer 22

• Adrenocortical neoplasms
• More often carcinomas
• Often association with Cushing syndrome
• Congenital Adrenal Hyperplasia (CAH)

Question 23

What is Congenital Adrenal Hyperplasia

• Sporadic or genetic
• Mechanism

Answer 23

Inherited AR metabolic disorders of steroid biosynthesis (CYP21B gene defect)

Deficient or absent activity of enzymes:

• 21-hydroxylase (90%)
• Other: 17-hydroxylase, 11-hydroxylase

Decreased cortisol (+/- aldosterone) production

• Alternate pathway of steroidogenesis results in excess androgens
• Increased ACTH – Adrenocortical hyperplasia

Question 24

Describe the genital defect in CAH

Answer 24

Inherited AR metabolic disorders of steroid biosynthesis (CYP21B gene defect)

• Abnormal recombination with non-functional CYP21A, a neighboring “pseudogene”
• Highest carriers: Hispanic, Ashkenazi Jewish

Question 25

What happens with 21-hydroxylase deficiency in CAH (congenital adrenal hyperplasia)?

Answer 25

• Defective conversion of progesterone to 11-deoxycorticosterone (aldosterone pathway)
• Defective conversion of 17-OH progesterone to 11-deoxycortisol (cortisol pathway)

Question 26

What are the clinical features of Congenital Adrenal Hyperplasia?

Answer 26

Variable; Mild to Severe (life-threatening)

• Androgen excess
• Ambiguous genitalia at birth: masculinization in females and precocious puberty in males
• Variable aldosterone and glucocorticoid deficiency
• Salt-wasting (if low aldosterone production)

Question 27

What are the different CAH syndromes?

Answer 27

• Salt-wasting (classic) form
• Simple virilizing form
• Late-onset (non classic) form

Question 28

What is seen with salt-wasting (Classic) form of CAH?

Answer 28

• Absent activity: most severe disease; seen at birth.
• Ambiguous genitalia
• More easily recognized in girls
• Salt-wasting
• Hyponatremia, hyperkalemia, hypotension, vomiting, dehydration, acidosis, cardiovascular collapse, death
• Also, impaired catecholamine production

Question 29

What is seen with simple virilizing form of CAH?

Answer 29

• Decreased activity; less severe disease
• Ambiguous genitalia, but no salt-wasting

Question 30

What is seen with Late-onset (non-classic) form of CAH?

Answer 30

• Most common
• Mildest disease
• Recognized late in life

Question 31

What is the pathology seen in CAH?

Answer 31

Bilateral adrenocortical hyperplasia

• 10-15 x normal weight
• Diffusely thick and nodular cortex
• May be tan-brown due to decreased lipid.
• Secondary hyperplasia of ACTH-producing corticotroph cells in pituitary

Question 32

What may cause adrenocortical insufficiency?

Answer 32

Primary hypoadrenalism

• Loss of cortex
• CAH, Adrenoleukodystrophy, Autoimmune adrenal insufficiency, infection, amyloidosis, sarcoidosis, hemochromatosis, metastasis
• Metabolic failure
• CAH, Drug and steroid-induced inhibition

Secondary hypoadrenalism

• Hypothalamic-Pituitary disease
• Neoplasm, inflammation
• Hypothalamic-Pituitary suppression
• Long-term steroid administration, steroid-producing neoplasms

Question 33

What is adrenal crisis? What causes it?

Answer 33

Acute adrenocortical insufficiency

Caused by:

• Stress crisis in patients with chronic adrenal insufficiency
• Rapid withdrawal of exogenous steroids
• Massive adrenal hemorrhage

Question 34

What may result in massive adrenal hemorrhage and constitute and adrenal crisis (acute adrenocortical insufficiency)?

Answer 34

- Neonate after prolonged delivery, trauma, hypoxia

- Anticoagulation therapy

- DIC

- Waterhouse-Friderichsen Syndrome (bacteremia): picture below

• Neisseria meningitidis (Meningococcemia)
• Other: Pseudomonas, S. pneumoniae, H. flu, Staphylococcus

Question 35

What is Addison disease?

Answer 35

Primary chronic adrenal insufficiency

Question 36

What are clinical features of Addison disease?

Answer 36

- Insidious onset

• Progressive weakness, fatiguability, GI disturbance (anorexia, N/V/D, weight loss), Skin hyperpigmentation, hyperkalemia, hyponatremia, volume depletion, hypotension, hypoglycemia

- Acute adrenal crisis

• Triggered by stress (infection, trauma, surgery)
• Life-threatening

Question 37

What are causes of primary chronic adrenal insufficiency (Addison disease)?

Answer 37

• Autoimmune adrenalitis (60-70%)
• Tuberculosis (historically, 90%)
• Fungal (histoplasma, coccidioides)
• AIDS (CMV, MAI, KS)
• Metastatic cancer (Lung, breast)
• Also: GI, lymphoma, melanoma
• Genetic disorders
• Adrenoleukodystrophy
• Congenital adrenal hypoplasia

Question 38

What is seen here?

Answer 38

Progressive destruction of adrenal glands

• Very small and atrophic with few residual cortical cells
• Lymphocytes

Question 39

What is Autoimmune Adrenalitis

• Epidemiology
• Types

Answer 39

Epidemiology:

• More in Caucasian women
• Autoantibodies to 21OH-ase, 17OH-ase

Types

- Isolated autoimmune Addison disease

- Autoimmune polyendocrinopathy syndrome type I (APS1)

• Chronic mucocutaneous candidiasis, skin/nail/enamel abnormalities, hypoadrenalism, hypoparathyroidism, hypogonadism, pernicious anemia
• AIRE gene

- Autoimmune polyendocrinopathy syndrome type II (APS2)

• Early adulthood; May be HLA-related
• Adrenal insufficiency, autoimmune thyroiditis, type I diabetes

Question 40

What are causes of secondary hypoadrenalism? ACTH level?

Answer 40

• Hypothalamic- Pituitary cause
• Low ACTH

Question 41

What are clinical features of secondary hypoadrenalism?

Answer 41

• Similar to Addison Disease

BUT:

• Normal or near-normal aldosterone
• No evidence of skin hyperpigmentation

ACTH administration causes increase in cortisol

• No response to ACTH in primary adrenal disease due to loss or non-function of adrenal cortex

Question 42

T/F: There is no morphologic distinction between functioning and non-functioning adrenocortical neoplasms

Answer 42

True

Question 43

What are broad features of adrenocortical adenomas?

Answer 43

• Often incidental and asymptomatic
• Well-circumscribed, yellow to yellow-brown (2.5cm)
• May have “endocrine atypia”

Question 44

What are broad features of adrenocortical carcinomas?

Answer 44

• RARE, adults and children.
• Larger mass, often necrosis and hemorrhage.
• Malignancy defined by vascular invasion or mets!

Question 45

What is seen here?

Answer 45

Benign adrenocortical adenoma

• Circumscribed, yellow, sitting in surface

Question 46

What is seen here?

Answer 46

Benign adrenocortical adenoma ?

Question 47

What is seen here?

Answer 47

Adrenocortical carcinoma

Question 48

What is seen here?

Answer 48

Adrenocortical carcinoma

Question 49

What is seen here?

Answer 49

Adrenocortical carcinoma

Question 50

What is a pheochromocytoma?

• Cell type
• Lab values
• Clinical presentation

Answer 50

• Chromaffin cells
• Release catecholamines
• Elevated urinary VMA, HVA

Clinical presentation

• Hypertension
• Paroxysmal BP elevation with tachycardia, HA, sweating, tremor, apprehension. May be life-threatening.
• Chronic sustained hypertension with some lability
• Amenable to surgical cure

Question 51

What condition does the rule of 10s apply to?

Answer 51

Pheochromocytoma

Question 52

What is the rule of 10s for a pheochromocytoma?

Answer 52

Familial, extra-adrenal, bilateral, malignant, childhood

- 10% familial

• MEN2A/2B
• NF1
• VHL, SW

- 10% extraadrenal

• Paraganglioma

- 10% bilateral

- 10% malignant

- 10% childhood

Question 53

Describe the appareance/characteristics of a pheochromocytoma

• Size
• EM

Answer 53

• Variable size, avg 100g
• Often hemorrhagic
• Dark brown in Zenker’s fixative (potassium dichromate) – oxidation of catecholamines
• “Zellballen”; vascular
• Stippled chromatin and nuclear pleomorphism
• Neural markers (chromogranin, synaptophysin)
• EM: electron dense granules

Question 54

Are pheochromocytomas more commonly benign or malignant?

• Histologic distinction

Answer 54

Benign

• No reliable histological criteria to differentiate
• Defined by mets

Question 55

What is seen here?

Answer 55

Pheochromocytoma

Question 56

What is seen here?

Answer 56

Pheochromocytoma

Question 57

What is seen here?

Answer 57

Pheochromocytoma

Question 58

What is Multiple Endocrine Neoplasia?

• Associations?

Answer 58

Endocrine hyperplasia, adenomas, carcinomas

Associated with:

• Younger age
• Multiple organ sites (synchronous or metachronous)
• Multifocality
• Asymptomatic stage of hyperplasia
• More aggressive course (recurrence)

Question 59

What are the features/conditions of MEN1?

Answer 59

3Ps:

• Pituitary adenomas
• Parathyroid (hyperplasia, adenomas)
• Pancreas (endocrine tumors: gastrinoma, insulinoma)

Also, gastrinomas in duodenum, carcinoid tumors, thyroid and adrenal adenomas, lipomas

Question 60

What are the features/conditions of MEN2A?

• Gene involved?

Answer 60

MEN2A = RET gene

• Medullary thyroid CA (100%)
• Pheochromocytoma (40-50%)
• Parathyroid hyperplasia (10-20%)
• Also, Familial Medullary Thyroid CA syndrome

Question 61

What are the features/conditions of MEN2B?

• Gene involved?

Answer 61

MEN2B = RET gene

• Medullary thyroid CA
• Pheochromocytoma
• Mucosal neuromas
• Skin, oral, eyes, respiratory, GI
• Marfanoid features

Question 62

What is seen here?

Answer 62

?

Question 63

What are the most common extracranial solid tumors of childhood?

Answer 63

Neuroblastic tumors

• Often in infants and kids under 5

Question 64

What is the spectrum of differentiation with neuroblastic tumors?

Answer 64

• Neuroblastoma
• Ganglioneuroblastoma
• Ganglioneuroma

Question 65

Where can neuroblastic tumors occur?

Answer 65

• Adrenal gland

Also:

• Retroperitoneal
• Posterior mediastinal

Question 66

What is seen here?

Answer 66

Neuroblastoma of adrenal gland?

Question 67

What is seen here?

Answer 67

Neuroblastoma of adrenal gland?

Question 68

Embryology of the thymus?

Answer 68

Derived from 3rd (and 4th) pharyngeal pouches

Question 69

What cell types are found in the thymus?

Answer 69

• Thymic epithelial cells
• Lymphocytes
• Few B cells, macrophages, DCs
• Rare neutrophils and eosinophils

Question 70

What immune organ has Hassal’s corpuscles?

Answer 70

Thymus

Question 71

What is seen here?

Answer 71

Thymus..?

Question 72

Describe the structure of the thymus (micro)

Answer 72

• Has lobes and lobules
• Encapsulated
• Reticulum of epithelial cells
• Cortex with blood-thymus barrier
• Medulla
• Hassall’s corpuscles

Question 73

What is seen here?

Answer 73

Normal thymus structure

Question 74

What is seen here?

Answer 74

Thymus: Hassal’s corpuscles (?)

Question 75

SINCE LECTURE WASN’T FINISHED IN THE STREAM, THYMUS PATHOLOGY WILL NOT BE COVERED ON THE TEST

Answer 75

SINCE LECTURE WASN’T FINISHED IN THE STREAM, THYMUS PATHOLOGY WILL NOT BE COVERED ON THE TEST

Question 76

Describe the development of the thymus

Answer 76

Growth during childhood, followed by involution

• 10-35 g at birth
• 20-50 g at puberty (maximum)
• 5-15 g in adults, replaced by fatty tissue

Question 77

What can cause rapid involution of the thymus?

• Histologic features?

Answer 77

Stress/illness

• Blurred corticomedullary junction
• “Starry-sky” appearance
• Lymphocyte depletion

Question 78

Where is the thymus located?

Answer 78

Inferior to thyroid gland; more in the thorax

Question 79

What are the different types of thymic hyperplasia?

• Histologic characteristics?

Answer 79

True thymic hyperplasia

• Increased size and weight
• Histologically normal

Follicular hyperplasia

• Lymphoid follicles (germinal centers)

Question 80

What can cause follicular hyperplasia?

Answer 80

• Associated with myasthenia gravis (65-75%)
• Other chronic inflammatory conditions
• Grave’s disease
• SLE
• Scleroderma
• RA

Question 81

What is seen here?

Answer 81

Thymic hyperplasia??

Question 82

What are the different thymic neoplasms?

• Subtypes

Answer 82

Thymoma

• Benign
• Medullary type (spindled)
• Mixed med-cortical
• Malignant
• Malignant thymoma type 1 (invasive)
• Malignant thymoma type 2 (thymic carcinoma)

Question 83

Describe thymoma

• Cells involved
• Epidemiology
• Location
• DDx
• Clinical features

Answer 83

• Tumor of thymic epithelium

Also lymphocytes in the background

Epidemiology:

• Adults > 40 yo
• Equal genders

Location: superior mediastinum

DDx:

• Lymphoma
• Germ cell
• Carcinoid

Clinical features:

• Local mass effect (40%)
• Myasthenia (30-45%)
• Incidental
• Paraneoplastic phenomena (acquired hypogram, pure red cell aplasia, Grave’s, pernicious anemia, DM-PM, Cushing’s); possibly with abnormal T cell selection in tumor environment

Question 84

What is malignant thymoma type 1?

• Benign or malignant
• Cells involved
• Prognosis

Answer 84

Invasive thymoma

• Cytologically benign
• Mostly cortical (epithelial)
• Locally invasive; prognosis related to invasion:
• >90% minimal invasion
• 50% extensive invasion

Question 85

What is malignant thymoma type 2?

• Histology
• Prognosis
• Subtypes

Answer 85

Thymic carcinoma

• Cytologially malignant
• Biologically aggressive

May be:

• Squamous
• Lymphoepithelioma-like
• Sarcomatoid
• Basaloid
• Clear cell

Question 86

What is seen here?

Answer 86

Medullary ?

Question 87

What is seen here?

Answer 87

Cortical ?