Adrenal Disorders Dr Atallah AlRuhaily Consultant Endocrinologist College

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Adrenal Disorders Dr. Atallah Al-Ruhaily Consultant Endocrinologist College of Medicine and Teaching Hospitals (KSU),

Adrenal Disorders Dr. Atallah Al-Ruhaily Consultant Endocrinologist College of Medicine and Teaching Hospitals (KSU), Riyadh President, Saudi Society of Endocrinology and Metabolism

Adult Adrenal Glands • Weight: Each: 4 -5 gm. • Location: in the retroperitoneum

Adult Adrenal Glands • Weight: Each: 4 -5 gm. • Location: in the retroperitoneum above or medial to the upper poles of the kidneys. • Surrounded by a fibrous capsule. • Richly vascularized.

Adult Adrenal Glands • Cortex: The yellowish outer component & comprises 90% of adrenal

Adult Adrenal Glands • Cortex: The yellowish outer component & comprises 90% of adrenal weight. • Medulla: The inner component “modified Sympathetic ganglion” & comprises 10% of adrenal weight. • Adrenal Function: regulation of fluid volume and stress response

Normal Adrenal Glands Each adult adrenal gland weighs from 4 to 6 grams.

Normal Adrenal Glands Each adult adrenal gland weighs from 4 to 6 grams.

A normal right adrenal gland is shown here positioned between the liver and the

A normal right adrenal gland is shown here positioned between the liver and the kidney in the retroperitoneum. Note the amount of adipose tissue, some of which has been reflected to reveal the upper pole of the kidney and the adrenal.

Embryology of Adrenal Cortex is of mesodermal origin. Identifiable as a separate organ at

Embryology of Adrenal Cortex is of mesodermal origin. Identifiable as a separate organ at the 2 month-oldfetus. At this stage, composed of: § Fetal zone o additional zone in fetus o makes up the main bulk of weight at this time. o lost in the 1 st year (usually within 3 months after birth). § Definitive zone o The origin of the adrenal cortex.

Embryology of Adrenal Cortex Fetal adrenal increases rapidly in size (Larger than the kidney

Embryology of Adrenal Cortex Fetal adrenal increases rapidly in size (Larger than the kidney at mid gestation & much larger than adult gland in relation to total body mass). Fetal adrenal produces mainly DHEA & DHEA-S (precursors of maternal-placental estrogen). Definitive zone synthesizes many steroids mainly cortisol.

Embryology of Adrenal Cortex The anatomic relationship of fetal and definitive zones is maintained

Embryology of Adrenal Cortex The anatomic relationship of fetal and definitive zones is maintained until birth. Adrenocortical weight decreases gradually until the fetal zone disappears 3 months after delivery. During the first 3 years, the adult adrenal cortex develops and differentiates into 3 adult zones: Glomerulosa Fasciculata Reticularis

Embryology of Adrenal Medulla Ø Medullary chromaffin cells (the principal cells of adrenal medulla)

Embryology of Adrenal Medulla Ø Medullary chromaffin cells (the principal cells of adrenal medulla) are from the neural crest. Ø During development, the medullary cells migrate and lie surrounded by the cortex.

Adrenal gland is composed of 2 distinct compartments Adrenal cortex produces many steroid hormones;

Adrenal gland is composed of 2 distinct compartments Adrenal cortex produces many steroid hormones; the most important of which are: § Cortisol § Aldosterone § Adrenal androgens Adrenal Medulla Produces Catecholamines: § Adrenaline (Epinephrine) §Noradrenaline (Norepinephrine)

Sectioning across the adrenals reveals: • a golden yellow outer cortex; and • an

Sectioning across the adrenals reveals: • a golden yellow outer cortex; and • an inner red to grey medulla.

Medulla Zona Reticularis Zona Fasciculata Microscopic Anatomy of Adrenal Gland Remember “GFR” Zona Glomerulsa

Medulla Zona Reticularis Zona Fasciculata Microscopic Anatomy of Adrenal Gland Remember “GFR” Zona Glomerulsa Periadrena Fibrous Fatt Capsule

Zones of Adrenal Cortex Zona Glomerulosa Zona Fasciculata Zona Reticularis Functionally considered as one

Zones of Adrenal Cortex Zona Glomerulosa Zona Fasciculata Zona Reticularis Functionally considered as one unit. The outermost. The thickest The innermost Cells are small & lipid-poor & scattered beneath the capsule. Cells are larger, contain more lipid & termed “clear cells” “Compact” lipidpoor cells but contain lipofuscin granules. Aldosterone (Cannot produce cortisol & Androgens) Cortisol & Androgens Regulated by Renin. Angiotensin System & K Both structure and function are regulated by ACTH

Classification of Adrenal Steroids classified into 3 groups based on their predominant functions: 1.

Classification of Adrenal Steroids classified into 3 groups based on their predominant functions: 1. Glucocorticoids 2. Mineralocorticoids 3. Androgens

Major Classes of Adrenal Steroids Steroid Class Androgens (C 19) Glucocorticoids (C 21) Mineralocorticoids

Major Classes of Adrenal Steroids Steroid Class Androgens (C 19) Glucocorticoids (C 21) Mineralocorticoids (C 21) Main Hormones DHEA, DHEA-S Androstenidione Cortisol Corticosterone Aldosterone Predominant action Androgenic activity metabolism of: • carbohydrates • and proteins • metabolism of: Na & K • Maintain the ECV Main Zone of production Z. Fasciculata Z. Reticularis (functionally as one unit) Z. Glomerulosa

Disorders of Adrenal glands Adrenal Cortex Adrenal Medulla • Cushing’s syndrome • Addison’s disease

Disorders of Adrenal glands Adrenal Cortex Adrenal Medulla • Cushing’s syndrome • Addison’s disease • Hyperaldoteronism • Syndomes of congenital adrenal hyperplasia (CAH). • Hirsutism • Virilization • Adrenocortical Ca • Pheochromocytoma • Paragangelionomas • Neuroblastoma

Adrenal Insufficiency Adrenocortical insufficiency (hypofunction of the adrenal cortex) includes all conditions in which

Adrenal Insufficiency Adrenocortical insufficiency (hypofunction of the adrenal cortex) includes all conditions in which there is deficient production of: ① adrenal glucocorticoid ② mineralocorticoid hormones.

Types of Adrenal Insufficiency 1. Primary adrenal insufficiency (Addison’s diease) due to primary hypofunction

Types of Adrenal Insufficiency 1. Primary adrenal insufficiency (Addison’s diease) due to primary hypofunction of the adrenal cortex. 2. Secondary adrenal insufficiency adrenocortical failure secondary to a primary deficient secretion of ACTH from the pituitary gland.

Etiology of adrenal insufficiency: Primary Adrenal Insufficiency A. Anatomic destruction of gland (chronic &

Etiology of adrenal insufficiency: Primary Adrenal Insufficiency A. Anatomic destruction of gland (chronic & acute) 1. “Idiopathic” atrophy (autoimmune) 2. Surgical removal 3. Infection (Tb. , fungal, viral-esp. AIDS) 4. Adrenal Hemorrhage 5. Invasion: metasteses, amyloidosis, sarcoidosis B. Metabolic failure in hormone production 1. Congenital adrenal hyperplasia (CAH) 2. Enzyme inhibitors: – (metyrapone, ketoconazole, aminoglutethemide) – Cytotoxic agents: (mitotane) C. ACTH-blocking Antibodies

Etiology of adrenal insufficiency: Secondary Adrenal Insufficiency I. Hypopituitarism due to hypothalamic-pituitary disease. II.

Etiology of adrenal insufficiency: Secondary Adrenal Insufficiency I. Hypopituitarism due to hypothalamic-pituitary disease. II. Suppression of hypothalamicpituitary axis by excess steroids: 1. Exogenous steroids (Iatrogenic) 2. Endogenous steroids (from tumors)

Incidence Primary adrenal insufficiency: • relatively rare. • Occurs at any age. • affects

Incidence Primary adrenal insufficiency: • relatively rare. • Occurs at any age. • affects both sexes equally. Secondary adrenal insufficiency: Relatively common (because of common therapeutic use of steroids).

Addison’s Disease Etiology and Pathogenesis • Addison’s disease results from progressive destruction of adrenal

Addison’s Disease Etiology and Pathogenesis • Addison’s disease results from progressive destruction of adrenal cortex. • At least 90% of gland is destroyed before signs of insufficiency appear.

Addison’s Disease Etiology and Pathogenesis • 50% of patients have +ve circulating adrenal Abs.

Addison’s Disease Etiology and Pathogenesis • 50% of patients have +ve circulating adrenal Abs. • Some Abs destroy the adrenal glands, others block the binding of ACTH to its receptors. • Some patients have +ve Abs to thyroid, parathyroid and/or gonadal tissues. • Polyglandular Autoimmune (PGA) syndromes

Associated Autoimmune Disorders • Endocrine Disorders • Nonendocrine Disorders • Chronic lymphocytic thyroiditis •

Associated Autoimmune Disorders • Endocrine Disorders • Nonendocrine Disorders • Chronic lymphocytic thyroiditis • Premature ovarian failure • DM type 1 • Primary hypothyroidism • Hyperthyroidism • • • Pernicious anemia Vitiligo Alopecia Chronic active hepatitis Nontropical sprue Myasthenia gravis

Common Symptoms in chronic primary adrenal insufficiency Symptoms Asthenia (weakness, tiredness, fatigue) Anorexia Gastrointestinal

Common Symptoms in chronic primary adrenal insufficiency Symptoms Asthenia (weakness, tiredness, fatigue) Anorexia Gastrointestinal symptoms • Nausea • Vomiting • Constipation • Abdominal pain • Diarrhea • Salt craving • Postural dizziness Frequency 100 90 85 75 30 30 15 15 10 10

Common Signs in chronic primary adrenal insufficiency Signs Frequency Weight loss Hyperpigmentation of skin

Common Signs in chronic primary adrenal insufficiency Signs Frequency Weight loss Hyperpigmentation of skin Pigmentation of mucous membrane Decreased axillary and pubic hair (in women only) Hypotention (systolic BP <110 mm Hg) with postural accentuation Vitiligo (with autoimmune) 100 95 80 60 15 10

Common Laboratory findings in chronic primary adrenal insufficiency

Common Laboratory findings in chronic primary adrenal insufficiency

Hyperpigmentation • Generalized hyperpigmentation of skin & mucous membrane (the classical physical finding). •

Hyperpigmentation • Generalized hyperpigmentation of skin & mucous membrane (the classical physical finding). • Along with other features, suggests primary adrenocortical insufficiency. • One of earliest manifestations of Addison’s disease.

Hyperpigmentation • Increased at exposed areas and accentuated at pressure areas (knuckles, toes, elbows,

Hyperpigmentation • Increased at exposed areas and accentuated at pressure areas (knuckles, toes, elbows, knees) • Associated with black or dark brown freckles.

Hyperpigmentation • Hperpigmentation of buccal mucosa & gum is preceded by generalized hyperpigmentation of

Hyperpigmentation • Hperpigmentation of buccal mucosa & gum is preceded by generalized hyperpigmentation of skin. • Other areas: palmar creases, nail beds, nipples, areolae, perivaginal, perianal mucosa & scars that formed after onset of ACTH excess (but not older scars).

Adrenal Imaging • Abdominal x-rays – Adrenal calcification in 50% tuberculous cases & some

Adrenal Imaging • Abdominal x-rays – Adrenal calcification in 50% tuberculous cases & some other invasive or hemorrhagic causes. § CT Scan more sensitive for adrenal calcification & enlargement Causes of bilateral adrenal enlargement: • • • Tb Fungal infection CMV infection Infiltrative diseases (malignant or nonmalignant) Adrenal hemorrhage

Rt Adrenal mass

Rt Adrenal mass

Acute Adrenal Crisis A state of acute adrenal insufficiency occuring in patients with Addison’s

Acute Adrenal Crisis A state of acute adrenal insufficiency occuring in patients with Addison’s disease who are exposed to any form of stress. Precipitating stress factors: 1. Infection 2. Trauma 3. Surgery 4. Dehydration (Salt deprivation, vomiting, diarrhea) 5. Discontinuation of steroids replacement therapy

Acute Adrenal Crisis Common Clinical Features • Hypotension & shock • Fever (due to

Acute Adrenal Crisis Common Clinical Features • Hypotension & shock • Fever (due to infection or hypoadrenalism per se) • Dehydration, volume depletion • Nausea, vomiting, anorexia • Abdominal pain (may mimic acute abdomen) • Weakness, apathy, depressed mentation • Hypoglycemia (more in children) Shock and coma may rapidly lead to death in untreated patients.

Acute Adrenal Crisis Laboratory Findings Suggestive of Diagnosis • Hyponatremia & Hyperkalemia (In a

Acute Adrenal Crisis Laboratory Findings Suggestive of Diagnosis • Hyponatremia & Hyperkalemia (In a small number of acute cases). • Azotemia (usual) • Lymphocytosis • Eosinophilia • Hypoglycemia

Acute Adrenal Hemorrhage A progressively deteriorating condition resulting from bilateral adrenal hemorrhage and acute

Acute Adrenal Hemorrhage A progressively deteriorating condition resulting from bilateral adrenal hemorrhage and acute adrenal destruction in an already compromised patient with major illness.

Acute Adrenal Hemorrhage Manifestations: – Abdominal, flank or back pain & abdominal tenderness (Less

Acute Adrenal Hemorrhage Manifestations: – Abdominal, flank or back pain & abdominal tenderness (Less frequently, abdominal distention, rigidity & rebound tenderness). – Hypotension & shock – Fever – Nausea & Vomiting – Confusion & disorientation – tachycardia

Acute Adrenal Hemorrhage With progression, the manifestations may ensue: – severe hypotention – volume

Acute Adrenal Hemorrhage With progression, the manifestations may ensue: – severe hypotention – volume depletion – Dehydration – Hyperpyrexia – Cynosis – Hypoglycemia – Coma – death following

Secondary Adrenal Insufficiency Causes • ACTH deficiency most commonly due to exogenous glucocorticoid therapy.

Secondary Adrenal Insufficiency Causes • ACTH deficiency most commonly due to exogenous glucocorticoid therapy. • Pituitary & Hypothalamus tumors the most common causes of naturally occuring pituitary ACTH hyposecretion.

Secondary Adrenal Insufficiency Pathphysiology • ACTH deficiency is the primary event. • This leads

Secondary Adrenal Insufficiency Pathphysiology • ACTH deficiency is the primary event. • This leads to: – decreased cortisol & androgen secretion. – But aldosterone secretion remains normal except in few cases.

Secondary Adrenal Insufficiency Pathphysiology • In early stages: – Basal ACTH & cortisol levels

Secondary Adrenal Insufficiency Pathphysiology • In early stages: – Basal ACTH & cortisol levels may be normal. – ACTH reserve is impaired. Response of ACTH & cortisol to stress is subnormal. • With further loss of basal ACTH secretion: – There is atrophy of Z. Fasciculata & Z. Reticularis. – Basal cortisol secretion is decreased – The entire pituitary adrenal axis is impaired (i. e. Decreased ACTH responsiveness to stress & decreased adrenal responsiveness to stimulation with exogenous ACTH).

Secondary Adrenal Insufficiency Clinical Features • Usually chronic nonspecific manifestations. • Acute crisis occurs

Secondary Adrenal Insufficiency Clinical Features • Usually chronic nonspecific manifestations. • Acute crisis occurs in: – Undiagnosed patients – Patients who do not receive increased steroid dosage during periods of stress.

Secondary Adrenal Insufficiency Clinical Features Clinical features differ from primary in that: 1. Hyperpigmentation

Secondary Adrenal Insufficiency Clinical Features Clinical features differ from primary in that: 1. Hyperpigmentation does not occur (Because of ACTH deficiency). 2. Manifestations of mineralocorticoid deficiency are usually absent (Because Aldosterone secretion by Z. G. is usually preserved). Therefore: • • • Volume depletion, dehydration & hyperkalemia usually absent. Hypotention is usually absent except in acute presentations. Hyponatremia may occur as a result of water retention.

Secondary Adrenal Insufficiency Clinical Features Prominent features (due to glucocorticoid deficiency) are nonspecific &

Secondary Adrenal Insufficiency Clinical Features Prominent features (due to glucocorticoid deficiency) are nonspecific & include: – Weakness, lethargy & easy fatigability – anorexia, nausea & occasionally vomiting – Arthralgias & myalgias – Hypoglycemia – Acute decompensation with severe hypotention or shock unresponsive to vasopressors.

Secondary Adrenal Insufficiency Associated Features • The following additional features may be present: –

Secondary Adrenal Insufficiency Associated Features • The following additional features may be present: – History of glucocorticoid therapy or Cushingoid features. – Features of loss of other pituitary hormones (hypogonadism & hypothyroidism). – Features of hypersecretion of GH or PRL from pituitary adenoma. – Pressure symptoms from pituitary tumors.

Diagnosis of Adrenal Insufficiency • Basal levels of adrenocortical steroids in plasma or urine

Diagnosis of Adrenal Insufficiency • Basal levels of adrenocortical steroids in plasma or urine may be normal in partial adrenal insufficiency. • Tests for adrenocortical reserve are necessary to establish the diagnosis. – Rapid ACTH Stimulation Test – Plasma ACTH Levels – Metyrapone Test – Insulin-induced Hypoglycemia – CRH Stimulation

Diagnosis of Adrenal Insufficiency • Other indirect clues: § Features of hypersecretion of GH

Diagnosis of Adrenal Insufficiency • Other indirect clues: § Features of hypersecretion of GH or PRL from pituitary adenoma. § Pressure symptoms from pituitary tumors.

Evaluation of Suspected Adrenal Insufficiency Rapid ACTH Stimulation Test A. Abormal ACTH Stimulation Test:

Evaluation of Suspected Adrenal Insufficiency Rapid ACTH Stimulation Test A. Abormal ACTH Stimulation Test: Adrenocortical insufficiency +ve. Which type? Ø Plasma ACTH level: § Elevated: Primary Adrenal Insufficiency +ve § Normal or Low: Secondary Adrenal Insufficiency +ve

Evaluation of Suspected Adrenal Insufficiency Rapid ACTH Stimulation Test B. Normal ACTH Stimulation Test:

Evaluation of Suspected Adrenal Insufficiency Rapid ACTH Stimulation Test B. Normal ACTH Stimulation Test: n This excludes Primary Adrenal Insufficiency & Adrenal atrophy. n But does not exclude “Decreased ACTH Reserve” Ø Metyrapone Test Ø or Insulin-hypoglycemia Test Ø or CRH stimulation Test: § Normal: Exclude Adrenal Insufficiency § Abnormal: Secondary Adrenal Insufficiency +ve

Treatment of Adrenal Insufficiency Acute Addisonian Crisis • Glucocorticoid Replacement – Cortisol (Hyrdocortisone succinate

Treatment of Adrenal Insufficiency Acute Addisonian Crisis • Glucocorticoid Replacement – Cortisol (Hyrdocortisone succinate or phosphate) 100 mg every 6 hrs. for 24 hrs. – When stable, reduce to 50 mg 6 hrs. – Taper to maintenance therapy by day 4 or 5 & add mineralocorticoid as required. – If complications persist or occur, maintain or increase the dose to 200 -400 mg/d. • General or Supportive Measures – Correct volume depletion, dehydration, & hypoglycemia with I. V. saline and glucose. – Evaluate and treat infection or other precipitating factors.

Treatment of Adrenal Insufficiency Maintenance Therapy • Life-long replacement therapy with glucocorticoid and mineralocorticoid.

Treatment of Adrenal Insufficiency Maintenance Therapy • Life-long replacement therapy with glucocorticoid and mineralocorticoid. • Preparations: – Cortisol (hydrocortisone) tablets • First choice • Maintenance dose: 15 -30 mg/d. • Usually, divided into 2 doses (2/3 AM & 1/3 PM) – Cortisone acetate (37. 5 mg/d) • Absorbed rapidly from GIT • converted in the liver to cortisol.

Treatment of Adrenal Insufficiency Maintenance Therapy • Preparations: • Synthetic Steroids - Prednisone or

Treatment of Adrenal Insufficiency Maintenance Therapy • Preparations: • Synthetic Steroids - Prednisone or Prednisolone 5 mg of prednisone tab is equivalent to 20 mg of hydrocortisone. -Fludrocortisone (9 -alpha fludrocortisol) • Used for mineralocorticoid therapy • Usual dose: 0. 05 -0. 1 mg/d PO AM

Treatment of Primary Adrenal Insufficiency Therapy Regimen • • Cortisol 15 -20 mg AM

Treatment of Primary Adrenal Insufficiency Therapy Regimen • • Cortisol 15 -20 mg AM & 10 mg at 4 -5 pm Or prednisone 5. 0 -7. 5 mg AM Fludrocortisone (Fluranif) 0. 05 0. 1 mg PO AM. Clinical Follow up: – Maintenance of normal body weight, BP & electrolytes – Regression of clinical features • Patient education & identification card or bracelet • Increased cortisol dosage during stress.