Hypercalcaemia and Hyperparathyroidism

Essentials

• The most common causes of hypercalcaemia are primary hyperparathyroidism, cancers and chronic renal failure.
• The most important test steering the diagnostics is concentration of parathyroid hormone (PTH).
• In primary hyperparathyroidism, the parathyroid glands produce an excess of parathyroid hormone in relation to the blood calcium concentration.
• PTH-independent hypercalcaemia is associated with malignant tumours or other systemic diseases.

Definition and prevalence of hypercalcaemia

• Plasma ionized calcium concentration repeatedly exceeds the value 1.3 mmol/l or fasting plasma calcium concentration, after albumin correction, the value 2.51 mmol/l. Reference ranges and determination methods vary from laboratory to laboratory and according to the patient's age. Do not confuse these with the decision-making threshold.
• The prevalence of primary hyperparathyroidism in postmenopausal women is > 1%. See below the prevalence of hypercalcaemia in cancer patients. Otherwise hypercalcaemia is quite rare in primary care.

Common causes of hypercalcaemia

Symptoms of hypercalcaemia

• The severity of the symptoms varies from asymptomatic to severe systemic symptoms. Usually asymptomatic when plasma ionized calcium concentration is < 1.4 mmol/l (fasting plasma calcium < 2.8 mmol/l).
• Primary hyperparathyroidism is often detected incidentally. It may also be found in patients with chronic aches, constipation or depressive symptoms, or when looking for the cause of urinary calculi or osteoporosis. Rapidly progressing symptoms and poor general condition indicate a malignant tumour.
• Systemic symptoms
  • Fatigue, loss of appetite
• Gastrointestinal symptoms
  • Nausea, constipation, abdominal pain, peptic ulcer, pancreatitis
• Kidneys and fluid balance
  • Urinary and kidney calculi
  • Polyuria, polydipsia, dehydration
  • Renal insufficiency, nephrocalcinosis
• Bones and joints
  • Arthralgia, bone aches, pain, fractures
  • Radiological changes (in hyperparathyroidism, malignancies)
• Neuropsychiatric symptoms
  • Inability to concentrate, depression, dementia
  • Confusion, psychosis
• Cardiovascular symptoms
  • Short QT interval and arrhythmias
  • Hypertension
• In hypercalcemic crisis the plasma calcium concentration is usually over 3.75 mmol/l (ionized calcium > 2.0 mmol/l) and the patient has
  • acute symptoms of hypercalcaemia and worsened general condition
  • dehydration
  • oliguria and impaired renal function

Laboratory investigations

• Plasma ionized calcium, or albumin-corrrected fasting plasma calcium. A 10 g/l change in plasma albumin causes a 0.2 mmol/l change in the same direction in plasma calcium. Ionized calcium is more useful than calcium if there are serum protein disturbances.
• Plasma PTH levels can be used for differential diagnosis between PTH-dependent and PTH-independent hypercalcaemia.
  • In PTH-dependent hypercalcaemia, PTH concentration is increased or near the upper limit of the normal range.
  • In PTH-independent hypercalcaemia, PTH concentration is decreased or too low to measure.
  • Note: Secondary hyperparathyroidism caused by insufficient intake or malabsorption of dietary calcium and/or vitamin D is a common cause for elevated PTH levels. In this case plasma calcium levels are either normal or low. Secondary hyperparathyroidism is extremely common in renal failure.
• Specific tests to discover the cause of hypercalcaemia are selected according to the suspected aetiology. Primary hyperparathyroidism can be diagnosed if plasma ionized calcium or plasma calcium levels are increased and plasma PTH concentration is increased or close to the upper limit of the normal range. Further investigations to be considered include ALP, 25-OH vitamin D, 24 h urinary calcium and bone densitometry. In PTH-independent hypercalcaemia, a malignant tumour with bone metastases or sarcoidosis are usually looked for (investigations in specialized health care).

Treatment