Adrenal gland is a little organ that hangs-out above the kidney. Pathologists rarely see it. It uncommonly is affected by tumours.

Anatomy & histology

Anatomy

• Cortex.
• Medulla.

Histology

It is composed of a cortex and a medulla.

Cortex

It has three layers - mnemonic: GFR (from superficial to deep):

1. Zona glomerulosa - salt (e.g. aldosterone).
   • Eosinophilic cytoplasm. (???)
   • Layer normally discontinuous.
2. Zona fasciculata - sugar (e.g. cortisol).
   • Clear cytoplasm - key feature.
   • Largest part of the cortex ~ 70%.
   • Cells in cords/nests. (???)
3. Zona reticularis - steroid (e.g. dehydroepiandrosterone).
   • Marked eosinophilia of cytoplasm - key feature.
   • Granular/reticular cytoplasm.

Medulla

It consists of two cell types:^[1]

1. Chromaffin cells.
   • Arise of neural crest.
2. Sustentacular cells (supporting cells).

Produce NED: norepinephrine, epinephrine, dopamine.

Clinical

Patients getting a bilat. adrenalectomy get pre-treatment with steroids.^[2]

Adrenal insuff. may be immediately post-op.^[3]

Benign

The section covers non-neoplastic pathologies of the adrenal gland. These uncommonly come to the pathologist.

Stress response

• In fetuses - fat content increases due to stress^[4] -- see: Fetal_autopsy#Adrenal_fetal_fat_pattern.
• In newborns/children/adults - fat content decreases due to stress.

Spironolactone bodies

Features:^[5]

• Location: zona glomerulosa (where aldosterone is produced).
• Appearance: eosinophilic spherical laminated whorls.
• Etiology: long-term use of spironolactone.

Images:

• SB - high mag. (WC).
• SB (circled) - cropped high mag. (WC).

Hemorrhagic adrenalitis

General

• AKA Waterhouse-Friderichsen syndrome.
• Classically thought to be only due to Neisseria meningitidis; however, more recently also associated with Streptococcus aureus.^[6][7]

Gross

Features:

• Massive haemorrhage within the substance of the adrenal gland.

DDx (autopsy):

• Post-mortem changes.

Microscopic

Features:

• Massive haemorrhage within the substance of the adrenal gland.

Image: Haemorrhage in adrenal (nih.gov).

Adrenal cytomegaly

• AKA adrenocortical cytomegaly AKA adrenal gland with cytomegaly.

General

May be associated with:^[8]

• Beckwith-Wiedemann syndrome.
• Prematurity.
• Rh-incompatibility.^[9]

Microscopic

Features:

• Large cells in the adrenal cortex.^[9]

Addison disease

General

• Chronic adrenocortical insufficiency.

Clinical:

• Brown skin - due POMC (a precursor of ACTH and melanocyte stimulating hormone (MSH)).^[10]
  • POMC presence implies the pituitary gland intact.
• Hypotension.
• Nausea and vomiting.

DDx:^[11]

• Autoimmune.
• Tuberculosis.
• AIDS.
• Malignancy.

Notes:

• Secondary adrenocortical insufficiency (due to pituitary pathology):^[12]
  • No hyperpigmentation (as no POMC).
  • Aldosterone usu. normal.

Microscopic

Features:^[10]

• Atrophy adrenal cortex - specifically zona fasciculata and zona reticularis.

Notes:

• There is preservation of zona glomerulosa and medulla.

Benign neoplasms

Adrenal cortical adenoma

General

Epidemiology:

• Often an incidental finding.

Pathologic/clinical:

• May be hormonally active.

• Radiologists are good at identifying adenomas, as they are usually lipid rich and have a characteristic low HU signal.^[13]

Indications for excision:^[14][15]

• Lesions >30 mm.
• Hormonally active.
• Non-incidental finding. (???)

Microscopic

Classic features:

• Well-defined cell borders.
• Clear cytoplasm.
• May have foci of necrosis/degeneration and nuclear atypia.

In aldosterone producing tumours:

• May extend outside of the capsule (should not be diagnosed as adrenal cortical carcinoma).
• No atrophy of non-hyperplastic cortex.

In cortisol producing tumours (Cushing syndrome):

• Atrophy of the non-hyperplastic cortex (due to feedback inhibition from the pituitary gland).

Notes:

• Cushing disease is due to the ACTH over-production by the pituitary.
• Adrenal hyperplasia vs. adrenal adenoma:
  • Hyperplasia is multifocal.^[16]

Pheochromocytoma

General

• Considered to be a paraganglioma.^[17]
• Literally means "dusky" (pheo) "colour" (chromo) - dull appearance on gross.
• Tumour arises from adrenal medulla - chromaffin cells.^[18]

Memory device - the rule of 10s:^[18]

• 10% extra-adrenal (e.g. carotid body, organ of Zuckerkandl (neighourhood of aortic bifuration/IMA branch point)).
• 10% bilateral.
• 10% malignant.
• 10% no hypertension.
• 25% associated within a syndrome:
  1. Multiple endocrine neoplasia 2A and 2B.
  2. von Hippel-Lindau syndrome.
  3. Neurofibromatosis type 1.
  4. Familial paraganglioma syndromes - several.

Clinical

• Classic finding: hypertension.
• Paroxysms (i.e. episodes) of tachycardia, headache, anxiety, hypertension.

Laboratory findings (urine):

• Vanillylmandelic acid (VMA).
• Metanephrines.

Microscopic

Features:^[19]

• Chief cells:
  • Usu. polygonal cells, may be spindled.
  • Arranged in cell nests - "Zellballen" (literally cell balls) - key feature.
  • Stippled chromatin (AKA salt and pepper chromatin) - coarsely granular chromatin.
  • Granular cytoplasm, often basophilic - important.
• Sustentacular cells (structural support cell).
• Often haemorrhagic - highly vascular.
• +/-Nuclear pleomorphism.

Notes:

• The nested architecture (Zellballen) is useful for differentiating from ACC.
• Metastasis sole criteria of malignancy.^[18]

Images:

• Carotid body tumour - low mag. (WC).
• Carotid body tumour - high mag. (WC).

Malignant pheochromoctyoma

1. Robbins says metastases are the sole criteria of malignancy.^[18]
2. Thompson suggests one can differentiate benign from malignant with the aid of the following:^[20]
   • Marked nuclear atypia.
   • Invasion:
     • Capsular.
     • Vascular.
   • Necrosis.
   • Cellular monotony.
   • Mitoses:
     • Rate.
     • Atypical mitosis.

IHC

• Chief cells:
  • Chromogranin A +ve.
  • Synaptophysin +ve.
• Sustentacular cells:
  • S100 +ve.

EM

• Membrane-bound secretory granules.

Ganglioneuroma

Microscopic

Features:

• Ganglion cells - key feature.
  • Large cells with large nucleus.
    • Prominent nucleolus.
• Disordered fibrinous material.

Images:

• Ganglion - benign (WC).

See: CNS tumours.

Myelolipoma

General

• Rare.

Microscopic

Features:^[21]

• Adipose tissue.
• Hematopoietic elements from all three lineages:
  1. Erythroid.
  2. Myeloid.
  3. Megakaryocytic.

Images:

• Myelolipoma (nih.gov).^[21]

Adenomatoid tumour

See: Adenomatoid tumours (uterine tumours).

Malignant neoplasms

Adrenocortical carcinoma

• AKA adrenal cortical carcinoma.
• Abbreviated ACC.

General

• Prognosis sucks, esp. in adults.

Epidemiology:

• May be associated with a syndrome:^[10]
  • Li-Fraumeni syndrome.
  • Beckwith-Wiedemann syndrome.

Gross

• +/-Encapsulated.
• Necrotic-appearing.

Image:

• ACC - gross (WC).

Microscopic

Various criteria exist for this diagnosis. The most widely used is the Weiss criteria, which is a big long clunker.

Image:

• ACC - low mag. (WC).
• ACC - high mag. (WC).
• ACC with normal adrenal medulla - high mag. (WC).
• ACC - cytology (AFIP/WC).

Notes:

• Tumour may contain fat.^[22]

Adult

Weiss criteria

Three of the following:^[23]

1. High nuclear grade.
2. High mitotic rate; >5/50 HPF (@ 40X obj.) - definition suffers from HPFitis.
3. Atypical mitoses.
4. Cleared cytoplasm in >= 25% of tumour cells.
5. Sheeting (diffuse architecture) in >= 1/3 of tumour cells.
6. Necrosis in nests.
7. Venous invasion.
8. Adrenal sinusoid invasion; lymphovascular space invasion within the adrenal gland.
9. Capsular invasion.

Volante criteria

There is a simplified set of criteria by Volante et al. - that is not widely used:^[24]

• Reticular network disruption (with reticulin staining).
• One of the three following:
  1. Abundant mitoses >5/50 high-power fields - definition suffers from HPFitis.
  2. Necrosis.
  3. Vascular invasion.

Pediatric

The criteria in the pediatric setting are somewhat different. This is discussed by Wieneke et al.^[25] and Dehner and Hill.^[26]

Dehner and Hill propose a very simple system:^[26]

• "Low risk" < 200 g & confined to the adrenal.
• "Intermediate risk" 200-400 g, no mets, +/-microscopic disease outside adrenal.
• "High risk" >400 g, or mets, or gross invasion of adjacent structures.

IHC

• Vimentin +ve.
• Melan A +ve.
• Inhibin-alpha +ve.
• Cytokeratins +ve/-ve.

Others:

• Synaptophysin +ve/-ve.
• Chromogranin -ve.
  • Pheochromocytoma +ve.
• EMA -ve.
  • Renal cell carcinoma +ve.
• S100 -ve.
  • Pheochromocytoma +ve (sustentacular cells).^[27]

Neuroblastoma

See also: olfactory neuroblastoma.

General

Laboratory:

• Increased urine homovanillic acid.

Epidemiology:

• Usually paediatric population.

Classification:

• In a grouping known as neuoblastic tumours which includes:^[28]
  • Ganglioneuroma (benign).
  • Ganglioblastoma (intermediate).
  • Neuroblastoma (aggressive).

Gross

• ~40% of in the adrenal gland.^[29]

Microscopic

Features:^[30]

• Small round blue cells separated by thin (pink) fibrous septa.
• Homer-Wright rosettes.
  • Rosette with a small (~100 micrometers - diameter) meshwork of fibers (neuropil) at the centre.^[31]
• Neuropil-like stroma = paucicellular stroma with a cotton candy-like appearance; see comparison below.
  • >50% neuropil-like stroma -- otherwise it's a ganglioneurona or ganglioblastoma.

Notes:

• The fibrous septa are esp. useful for differentiation from lymphoma.

DDx:

• Small round cell tumours.

Images:

• Neuroblastoma (radiographics.rsna.org).^[32]
• Neuroblastoma (WC).
• Neuroblastoma (flickr.com).

Schwannian vs. neuropil

Feature	Schwannian	Neuropil
Cellularity	high ~ spacing of cells < 30 µm	low ~ spacing of cells > 100 µm
Fibrillary	yes, long fine strands	no
Associations	ganglion cells	neuroblasts
Cytoplasmic vacuolation	yes	?

Classification/grading

Commonly grouped by the Shimada classification, which depends on the presence a number of things including:

• Mitoses/karyorrhectic cells.
• Molecular abnormalities.

See also

• Small round cell tumours.

References