ERS10 Pathology Of Parathyroid Glands

Question 1

Normal parathyroid gland

Answer 1

Gross appearance:

• 4 glands (variable)
• Posterior aspect of 4 poles of thyroid gland (may be found along embryological line of descent from pharyngeal pouches to thymus)
• 20-35 mg
• 3-4 mm
• circumscribed
• outer surface of thyroid capsule, may invaginate into thyroid gland

Histology:

• ALL cells arranged in nests / trabeculae / acinar
• presence of intra-glandular adipose tissue
• cellularity ↓ with age + ↑ intraglandular adipose tissue
• rich vascular network

Cell types:

1. Chief cells (majority):
   - produce, store, secrete PTH
   - polygonal shape
   - well-defined cytoplasmic membrane
   - pale eosinophilic to vacuolated cytoplasm
2. Water-clear cells (least common):
   - Chief cells with abundant glycogen
   - ***abundant clear, glycogen rich cytoplasm
3. Oxyphil cells:
   - unknown function
   - larger
   - scattered throughout glands singly / in clusters
   - abundant mitochondria
   - dense, ***eosinophilic cytoplasm

Question 2

Roles of Parathyroid hormone

Answer 2

Regulate Ca homeostasis
—> Overall effect: ↑ serum Ca level

Plasma free (ionised) Ca level ↓
—> stimulate parathyroid glands
—> secrete PTH
—> stimulates target organs (kidneys and bone) to release Ca

1. Kidneys:
   - ↑ tubular reabsorption of Ca
   - ↑ urinary PO4 excretion —> ↓ serum PO4 (↓ binding and depletion of Ca)
   - ↑ conversion of vit D to active dihydroxy form (1, 25 dihydroxy-D3) —> ↑ Ca absorption from GI tract
2. Bones:
   - ↑ osteoclastic activity —> lamellar bone resorption (esp. metaphyses) —> release stored Ca
3. GI tract (indirect target)

Question 3

***Causes of hypercalcaemia

Answer 3

↑ PTH:
(自己放多左, 太少Ca, 太少Calcitriol, 太多Pi)
1. Hyperparathyroidism
- Primary (autonomous, spontaneous overproduction of PTH)
- Secondary (secondary to chronic renal insufficiency)
- Tertiary (secondary to chronic renal insufficiency)
2. Familial hypocalciuric hypercalcaemia

↓ PTH:
(自己放少左, 太多Ca, 太多Calcitriol)
1. Hypercalcaemia of malignancy
- PTH-related protein-mediated osteolytic metastases
2. Vit D toxicity
3. Immobilisation
4. Drugs (Thiazides diuretics)
5. Granulomatous diseases (Sarcoidosis)

Question 4

Primary hyperparathyroidism

Answer 4

• F:M = 4:1
• asymptomatic (usually detected incidentally)
• **Causes:
  1. Parathyroid Adenoma (85-95%)
  2. Primary hyperplasia of parathyroid gland (diffuse / nodular) (5-10%)
  3. Parathyroid carcinoma (1%)

Signs and symptoms (Hypercalcaemia):

• ***bone pain, renal colic
• polyuria, polydipsia
• constipation, nausea
• peptic ulcers, pancreatitis, gallstones
• CNS manifestations (severe) (depression, lethargy, seizures weakness, hypotonia)

Blood test:
Inappropriate ↑ PTH (without stimuli)
—> ↑ urinary reabsorption of Ca + ↑ excretion of PO4 (+ ↑ bone resorption + ↑ Ca absoption)
—> ***↑ Ca + ↓ PO4 in blood
—> effects on bone (i.e. Renal osteodystrophy), kidney, other organs

Physiological effect:

1. Skeletal changes (↑ osteoclastic activity, esp. in metaphyses of long bones)
   - **Osteopenia —> thinning of bone cortex
   - Osteitis fibrosa cystica —> loss of bone replaced by fibrous tissue in BM —> foci of haemorrhage + cysts
   - **Brown tumour of hyperparathyroidism (fibrosis + haemorrhage + osteoclastic giant cells)
2. Kidney
   - ***Nephrolithiasis
   - Nephrocalcinosis (calcification of renal parenchyma: interstitium + tubules) —> CT
3. Other body parts
   - ***Metastatic calcification (secondary to hypercalcaemia) —> gross / microscopic nodular deposits (e.g. stomach, lungs, myocardium, skin, blood vessels)
   —> vs Dystrophic calcification (Ca deposits are secondary to tissue necrosis e.g. leiomyoma of uterus)

Question 5

Brown tumour of hyperparathyroidism

Answer 5

Active bone resorption + fibrosis

Large lytic bone tumour
1. Numerous osteoclasts (multinucleated giant cells)
2. Haemorrhage, RBC, haemosiderin deposits —> Brown appearance
3. Ingrowth of vascularised fibrous tissue
—> identical to ***Giant cell tumour of bone
—> hyperparathyroidism must be excluded when making ddx by measuring PTH

Symptoms:
1. Bone pain, fractures
2. Osteolytic lesions on radiograph
—> ~ neoplasm

Question 6

Parathyroid adenoma

Answer 6

• Benign tumour of parathyroid gland
• Sporadic / Hereditary
• Asymptomatic (incidentally detected by ↑ serum Ca)

Pathogenesis (sporadic):

1. History of exposure to **ionising radiation in childhood / Secondary to **lithium therapy
2. ***MEN1 (11q13) sporadic mutation of one/both copies (20-30%)
3. **Cyclin D1 gene rearrangement (repositioned next to PTH gene (11p) —> **overexpression of Cyclin D1: component of cell cycle —> Chief cell proliferation) (10-20%)

Pathogenesis (hereditary) (less common):
Germline mutations —> 5-10% familial syndromes

MEN1 / MEN2A familial syndromes (X rmb):

• Hyperparathyroidism-jaw-tumour syndrome (HPT-JT)
• Familial isolated hyperparathyroidism (FIHP)
• Familial hypocalciuric hypercalcaemia

MEN1 (tumour suppressor gene encode for menin) —> Autosomal dominant germline mutation of MEN1 (11q13):

• Parathyroid Adenoma / ***Hyperplasia / Carcinoma
• Endocrine lesions: **Pituitary adenomas, **Pancreatic neuroendocrine tumours, ***Adrenal cortical adenoma/hyperplasia
• Non-endocrine lesions: angiofibromas, lipomas, leiomyomas

MEN2A —> Autosomal dominant germline mutation in RET-activating protooncogene (10q11.2)

• Parathyroid Adenoma / Hyperplasia
• Thyroid medullary carcinoma
• Adrenal pheochromocytomas

Gross appearance:

• Solitary, Larger, Heavier (0.5-5g)
• Well-circumscribed
• Soft, Tan nodular with thin delicate capsule
• ***Other 3 glands are normal / shrunken (∵ feedback inhibition by ↑ Ca)

Histology:

1. ***Chief cells predominant in diffuse sheets
2. ***Thin fibrous capsule
3. ***Rim of compressed normal gland tissue on outside capsule
4. Loss of intraglandular adipose tissue
5. **Enlarged cells + Nuclear atypia (∵ degeneration) (common finding in endocrine neoplasm, does NOT indicate malignancy, **absence of mitotic figures —> distinguished from carcinoma)

Question 7

Parathyroid hyperplasia

Answer 7

• Diffuse process involving ***ALL 4 glands —> NOT always appreciable
• One gland may be larger —> Differentiation from adenoma is difficult

Pathogenesis:

• 5-25% hereditary (MEN1 / MEN2A)
• other cause unclear

Commonest cell types:

1. Chief cell hyperplasia (commonest)
2. Water-clear cells hyperplasia (less common, more commonly seen in secondary hyperparathyroidism)
3. Both cell types together (commonest)
   (4. Oxyphil cells)

Histology:

1. Cells arranged in Diffuse sheets / Multiple nodules / Trabecular
2. Loss of intraglandular adipose tissue (this feature NOT used to differentiate from Adenoma)

Question 8

Parathyroid carcinoma

Answer 8

• Usually ***ONE parathyroid gland involved
• 1/3 cases local recurrence, 1/3 distant dissemination
• Death often due to ***uncontrolled hypercalcaemia

Pathogenesis:

• Sporadic (most)
• Germline mutations (MEN1, MEN2A)

Signs and symptoms:
- fatigue, weakness, polyuria, polydipsia, renal and bone diseases (~ Hyperparathyroidism)

Blood test:
- ↑ serum Ca, PTH, ***Alkaline phosphatase

Gross appearance:

• Gray-white
• Irregular mass (***heavy >10g)
• **Dense fibrous capsule with **invasion of surrounding structures (e.g. thyroid)
• Prominent fibrous band within lesions

Histology:

• Nodules of carcinoma invading into adjacent tissue
• Cells in nodules / trabeculae
• Uniform nuclei + Prominent nucleoli + Absence of high-grade nuclear atypia
• Presence of many ***mitotic figures —> malignancy

Question 9

Secondary hyperparathyroidism

Answer 9

Cause:
- Chronic renal failure —> Hyperphosphataemia + ↓ Calcitriol —> Hypocalcaemia —> ↑ PTH
(Other causes: inadequate Ca intake, Vit D deficiency / malabsorption)

Pathogenesis:
Chronic renal failure —>
1. ↓ PO4 excretion
—> Hyperphosphataemia
—> PO4 bind to / directly suppress serum Ca
—> ↓ serum Ca

2. Loss of renal 1α-hydroxylase (needed for Calcitriol synthesis)
   —> ↓ Calcitriol
   —> ↓ GI absorption of Ca

End result:
**Chronic hypocalcaemia (high PO4 also directly stimulate PTH release)
—> **Parathyroid hyperplasia (in response to low Ca —> high PTH)
—> **↑ serum PTH
—> **↓/normal Ca
—> PTH may eventually back to normal

Physiological effect:
- Less prominent compared with Primary parathyroidism —> Overshadowed by those of chronic renal failure

Chronic renal failure manifestations:

1. Fluid / Electrolyte imbalance (dehydration, edema, hyperkalaemia, metabolic acidosis, polyuria —> oligouria)
2. Anaemia (↓ haematopoietin from kidney)
3. Hypertension
4. Uraemic pericarditis
5. Skin changes (pruritis, dry skin, hyperpigmentation)
6. Calciphylaxis

Blood test:

1. Ca slightly ↓ / normal (compensatory ↑ in PTH levels —> sustain Ca level)
2. ↑ PO4 level —> CaPO4 deposits in tunica media —> ischaemia / gangrene of end organ (***Calciphylaxis)
3. ↑ PTH level

Question 10

Tertiary hyperparathyroidism

Answer 10

Aka Refractory secondary hyperparathyroidism (in minority of patients)

Secondary hyperparathyroidism
—> prolonged stimulation of Parathyroid activity —> excessive
—> Development of ***Autonomous Parathyroid hyperplasia
—> Hyperplastic gland produce PTH regardless of serum Ca level

Histology:

• Chief cell hyperplasia (involve ALL glands)
• Nodular / Diffuse pattern
• Loss of intraglandular adipose tissue

Treatment:
- Parathyroidectomy (to control hyperparathyroidism)

Question 11

Parathyroid hyperplasia —> Primary vs Tertiary Hyperparathyroidism

Answer 11

Primary hyperparathyroidism:
- asymptomatic / renal osteodystrophy

Tertiary hyperparathyroidism:
- chronic renal failure manifestations

**Blood profile:
Primary: ↑ Ca, ↓ PO4, ↑ PTH
Secondary: ↓/normal Ca, ↑ PO4, ↑ PTH
**Tertiary: ↑ Ca (by ↑↑ PTH), ↑↑ PO4, ↑↑ PTH

Question 12

Hypercalcaemia of malignancy - PTH-related protein-mediated osteolytic metastases

Answer 12

Cancer:
- commonest cause of hypercalcaemia in adults

Pathogenesis:
1. Carcinoma
—> secretion of PTH-related protein (PTHrP)
—> binds to PTH receptor (same effects as PTH)
—> ↑ Ca
2. Osteolytic bone metastasis

Most common cancer to secrete PTHrP:

• Squamous cell carcinoma of lung
• Invasive carcinoma of breast

Blood test:
- Serum PTH: normal / ↓

Question 13

Diagnostic algorithm of Hypercalcaemia

Answer 13

Ensure normal renal function, no drug causes
—> measure PTH

High PTH

• Hyperparathyroidism
• Urine Ca low —> Familial hypocalciuric hypercalcaemia
• Hypercalcaemia of malignancy cannot be excluded

Low PTH

• measure PTHrP —> High: suggest Hypercalcaemia of malignancy; Low: still cannot exclude malignancy
• Non-parathyroid causes: Vit D toxicity, Immobilisation, Granulomatous diseases (Sarcoidosis), Adrenal failure

Question 14

Hypoparathyroidism

Answer 14

Uncommon

Causes:

1. Iatrogenic: Surgical removal of parathyroid glands en bloc (most common)
   - thyroid gland diseases / head+neck malignancies
2. Autoimmune (rare)
   - mutations in autoimmune regulator (AIRE gene) with AutoAb against multiple endocrine organs
3. Congenital (rare)
   - Di George syndrome —> deletion of 22q11.2 —> absence of parathyroid gland + thymic aplasia / cardiac defects (very rare)

Clinical manifestations:
1. Hypocalcaemia

2. Secondary to Acute hypocalcaemia (surgical related):
   —> neuromuscular symptoms (tingling, muscle spasms, facial grimacing)
   —> arrhythmia
   —> ↑ intracranial pressure / seizure (rare)

3. Chronic Hypoparathyroidism
—> ↓ PO4 excretion
—> Hyperphosphataemia
—> CaPO4 deposit in various tissues
—> Cataracts, Calcification of cerebral basal ganglia, Dental abnormalities

Question 15

***Summary of Blood profile

Answer 15

Hyperparathyroidism
Primary: ↑ Ca, ↓ PO4, ↑ PTH

Secondary: ↓/normal Ca, ↑ PO4, ↑ PTH

Tertiary: ↑ Ca (by ↑↑ PTH), ↑↑ PO4, ↑↑ PTH

Hypoparathyroidism: ↓ Ca, ↑ PO4, ↓ PTH

Question 16

Diagnostic algorithm of Hypocalcaemia

Answer 16

Exclude acute pancreatitis, PO4 therapy, drug therapy
—> measure PO4

High PO4:
- exclude renal failure
—> High PTH —> Pseudohypoparathyroidism
—> Low / normal PTH —> Primary Hypoparathyroidism

Low / Normal PO4:
- measures Mg
—> Low Mg —> Magnesium deficiency
—> Normal Mg —> Vit D deficiency

Question 17

Pseudohypoparathyroidism

Answer 17

• Very rare genetic disorder
• GNAS mutations (20q13.3)

Pathogenesis:
Normal PTH production but **Peripheral resistance to PTH
—> **↑↑ PTH but ↓ Ca + ↑ PO4
—> usually children with multiple developmental abnormalities
—> short stature, round face, brachydactyly, heterotopic calcification (different clinical variants present)

Question 18

Treatment of Hyperparathyroidism

Answer 18

1. Goal of surgery:
   - Remove abnormal tissue
   —> Adenoma / Hyperplasia?
   - Reimplant part of excised benign gland back to patient to retain PTH function
2. Pre-op Technetium-99 radioisotope:
   - demonstrate location more precisely
   - Adenoma: ↑ uptake in 1 gland ONLY
   - Hyperplasia: ↑ uptake in ALL glands
   —> However not always clear / conclusive
3. Intra-operative frozen section diagnosis:
   —> Ensure abnormal glands are successfully removed

Done when patient under general anaesthesia
—> urgently send resected tissue to lab
—> no time for tissue fixation / processing / conversion to paraffin block
—> tissue embedded by a gel-like OCT medium + frozen by liquid nitrogen immediately
—> block of frozen tissue cut into histology sections with cryostat (microtome installed inside a freezing compartment of -20oC)

Purpose:
1. Confirmation of Parathyroid gland + distinguish from LN / accessory thyroid lobe / other tissue lesions (enlarged LN ~ enlarged parathyroid gland)

2. Distinguish if glands are normal
   - Normal weight: 20-35 mg / gland
   —> Abnormal gland: >35 mg + >5 mm in size
   - Normal: abundant intraglandular fat lobules
   —> Fat content ↓ in hyperplasia, absent in adenoma
3. Determine Adenoma / Hyperplasia
   - Definite diagnosis depends on identification of >=2 abnormal glands —> Hyperplasia
   - Presence of capsule —> Adenoma
   - Rim of normal gland tissue on outside capsule —> Adenoma

Limitations:
1. If only single gland examined —> cannot determine Adenoma / Hyperplasia as morphologically identical —> must also know status of other gland
2. Thin capsule may not be appreciable in frozen section
—> If only finding is enlarged gland + loss of intraglandular fat
—> classify as “abnormal parathyroid gland”
—> sufficient to guide management

Question 19

Case 1:

• 55 yo woman
• vague symptoms of fatigue, weakness, constipation
• no weight loss
• no cough
• no anaemia / jaundice
• no LN / neck nodules
• no breast lump
• ↑↑ PTH
• Normal Vit D
• ↑ Ca
• ↓ PO4
• ↑ ALP
• Hb, MCV, MCHC normal
• CXR normal
• renal ultrasound no calculi
• Technetium-99 scan: One gland showed uptake after 2 hours
• Intraoperative findings: enlarged parathyroid gland, other 3 glands normal
• Histology: Abnormal parathyroid gland tissue + Loss of intraglandular fat + Thin fibrous capsule + Rim of normal gland tissue on outside capsule
  —> examination of another parathyroid gland: normal

Answer 19

Answer:
Parathyroid adenoma
- benign tumour
- commonest cause of primary hyperparathyroidism
- asymptomatic / non-specific symptoms
- incidentally detected by identification of ↑ Ca

Question 20

Case 2:

• 65 yo man
• COPD
• productive cough, flu-like symptoms, low-grade fever
• no travel history
• appear thin
• dry pale skin
• enlarged, 2cm nodule in left neck —> mobile upon swallowing

CBC:

• Normochromic normocytic anaemia
• WBC ↑

Biochemistry:

• LRFT normal
• Ca ↑↑
• PO4 ↓
• ALP ↑
• Vit D normal
• PTH normal

CXR: opacity at left mid-zone

Answer 20

Next investigation:
- Fine needle aspiration of neck nodule
—> tumour cells among background of lymphoid cells
—> metastatic adenocarcinoma to LN
—> tumour express TTF1 (immunohistochemical marker for lung carcinoma)

Answer:
Hypercalcaemia of malignancy

As patient also present with productive cough + WBC ↑
—> 2nd diagnosis: Acute exacerbation of COPD

Carcinoma-related hypercalcaemia is secondary to secretion of PTHrP by adenocarcinoma of lung in this patient
—> ***RMB: Hypercalcaemia secondary to underlying malignancy should ALWAYS be suspected + excluded