Hypoparathyroidism
Hypoparathyroidism is decreased function of the parathyroid glands with underproduction of parathyroid hormone (PTH). This can lead to low levels of calcium in the blood, often causing cramping and twitching of muscles or tetany (involuntary muscle contraction), and several other symptoms. It is a very rare disease. The condition can be inherited, but it is also encountered after thyroid or parathyroid gland surgery, and it can be caused by immune system-related damage as well as a number of rarer causes. The diagnosis is made with blood tests, and other investigations such as genetic testing depending on the results. The primary treatment of hypoparathyroidism is calcium and vitamin D supplementation. Calcium replacement or vitamin D can ameliorate the symptoms but can increase the risk of kidney stones and chronic kidney disease.[1] Additionally, medications such as recombinant human parathyroid hormone or teriparatide may be given by injection to replace the missing hormone. [2]
Hypoparathyroidism | |
---|---|
Specialty | Endocrinology |
Symptoms | hypocalcemia |
Medication | Recombinant human parathyroid hormone, Palopegteriparatide |
Signs and symptoms
The main symptoms of hypoparathyroidism are the result of the low blood calcium level, which interferes with normal muscle contraction and nerve conduction. As a result, people with hypoparathyroidism can experience paresthesia, an unpleasant tingling sensation around the mouth and in the hands and feet, as well as muscle cramps and severe spasms known as "tetany" that affect the hands and feet.[3] Many also report a number of subjective symptoms such as fatigue, headaches, bone pain and insomnia.[1] Crampy abdominal pain may occur.[4] Physical examination of someone with hypocalcemia may show tetany, but it is also possible to provoke tetany of the facial muscles by tapping on the facial nerve (a phenomenon known as Chvostek's sign) or by using the cuff of a sphygmomanometer to temporarily obstruct the blood flow to the arm (a phenomenon known as Trousseau's sign of latent tetany).[4]
A number of medical emergencies can arise in people with low calcium levels. These are seizures, severe irregularities in the normal heart beat (specifically prolongation of the QT interval), as well as spasm of the upper part of the airways or the smaller airways known as the bronchi (both potentially causing respiratory failure).[1][5]
Related conditions
Condition | Appearance | PTH levels | Calcitriol | Calcium | Phosphates | Imprinting | |
---|---|---|---|---|---|---|---|
Hypoparathyroidism | Normal | Low | Low | Low | High | Not applicable | |
Pseudohypoparathyroidism | Type 1A | Skeletal defects | High | Low | Low | High | Gene defect from mother (GNAS1) |
Type 1B | Normal | High | Low | Low | High | Gene defect from mother (GNAS1 and STX16) | |
Type 2 | Normal | High | Low | Low | High | ? | |
Pseudopseudohypoparathyroidism | Skeletal defects | Normal | Normal | Normal[6] | Normal | gene defect from father |
Causes
Hypoparathyroidism can have the following causes:[1]
- Removal of, or trauma to, the parathyroid glands due to anterior neck surgery (including thyroid surgery) (thyroidectomy), parathyroid surgery (parathyroidectomy). This is the most common cause of hypoparathyroidism, with 78% of cases of hypoparathyroidism arising due to a complication of anterior neck surgery.[5] Although surgeons generally make attempts to spare normal parathyroid glands at surgery, inadvertent injury to the glands or their blood supply is still common. When this happens, the parathyroids may cease functioning. This is usually temporary but occasionally long term (permanent). Hypoparathyroidism may occur as a complication in up to 8% of anterior neck surgeries with 75% of those resolving by 6 months, and 25% of those having permanent hypoparathyroidism.[5]
- Kenny-Caffey Syndrome
- Autoimmune invasion and destruction is the most common non-surgical cause. It can occur as part of autoimmune polyendocrine syndromes.
- Hemochromatosis can lead to iron accumulation and consequent dysfunction of a number of endocrine organs, including the parathyroids.
- Absence or dysfunction of the parathyroid glands is one of the components of chromosome 22q11 microdeletion syndrome (other names: DiGeorge syndrome, Schprintzen syndrome, velocardiofacial syndrome).
- Magnesium deficiency
- A defect in the calcium receptor leads to a rare congenital form of the disease
- Idiopathic (of unknown cause)
- Occasionally due to other hereditary causes (e.g. Barakat syndrome (HDR syndrome) a genetic development disorder resulting in hypoparathyroidism, sensorineural deafness, and kidney disease)
Mechanism
The parathyroid glands are so named because they are usually located behind the thyroid gland in the neck. They arise during fetal development from structures known as the third and fourth pharyngeal pouch. The glands, usually four in number, contain the parathyroid chief cells that sense the level of calcium in the blood through the calcium-sensing receptor and secrete parathyroid hormone. Magnesium is required for PTH secretion. Under normal circumstances, the parathyroid glands secrete PTH to maintain a calcium level within normal limits, as calcium is required for adequate muscle and nerve function (including the autonomic nervous system).
PTH acts on several organs to regulate calcium levels and phosphorus levels. PTH acts on the kidneys to increase calcium reabsorption into the blood, and to inhibit phosphorus reabsorption (which causes phosphorus to be lost in the urine).[5] It increases calcium and phosphorus absorption in the bowel indirectly by stimulating the kidneys to produce vitamin D which then acts on the gut.[5] PTH also causes increase bone resorption which leads to the releases calcium and phosphorus into the blood.[5]
Diagnosis
Diagnosis is by measurement of calcium, serum albumin (for correction) and PTH in blood. If necessary, measuring cAMP (cyclic AMP) in the urine after an intravenous dose of PTH can help in the distinction between hypoparathyroidism and other causes.
Differential diagnoses are:
- Pseudohypoparathyroidism (normal PTH levels but tissue insensitivity to the hormone, associated with intellectual disability and skeletal deformities) and pseudopseudohypoparathyroidism.[7]
- Vitamin D deficiency or hereditary insensitivity to this vitamin (X-linked dominant).
- Malabsorption
- Kidney disease
- Medication: steroids, diuretics, some antiepileptics.
Other tests include ECG for abnormal heart rhythms, and measurement of blood magnesium levels.
Treatment
Severe hypocalcaemia, a potentially life-threatening condition, is treated as soon as possible with intravenous calcium (e.g. as calcium gluconate). Calcium gluconate can be given via a periheral IV, however other calcium formulations require infusion via a central venous catheter as the calcium can irritate peripheral veins and cause phlebitis.[5] Precautions are taken to prevent seizures or larynx spasms. The heart is monitored for abnormal rhythms during IV treatment as calcium may affect cardiac conduction.[5] When the life-threatening attack has been controlled, the person is then transitioned to long term therapy with oral or subcutaneous injection medications.[5]
Long-term treatment of hypoparathyroidism is with vitamin D analogs (such as calcitriol or alfacalcidol), vitamin D supplementation and calcium supplementation.[5] Potential risks of treatment for hypoparathyroidism include hypercalcemia and hypercalciuria (elevated calcium in the urine) which may lead to kidney calcification (nephrocalcinosis) and chronic kidney disease.[5][8] Calcium levels in the blood and urine (along with other electrolytes) must be monitored during long term treatment of hypoparathyroidism and blood calcium levels are intentionally kept at the lower limits of normal, or mildly low, specifically to avoid hypercalciuria, kidney calcification and kidney damage.[5]
Recombinant human parathyroid hormone and teriparatide (which consists of the first N-terminal 34 amino acids of parathyroid hormone, the bioactive portion of the hormone)(PTH 1-34) may be used as a second line therapy in those that have not responded to conventional therapy.[5] Both medication may be given via subcutaneous injections, but the use of pump delivery of synthetic PTH 1-34 provides the closest approach to physiologic PTH replacement therapy.[9] Recombinant human parathyroid hormone and teriparatide are also associated with a risk of hypercalcemia, hypercalciuria with associated kidney calcification and kidney damage.[5] If these medications are discontinued, they shoudl be tapered and calcium levels should be closely monitored as the transient PTH depletion after stopping the medications can lead to bone leaching of calcium as a compensatory mechanism to increase calcium levels.[5]
A 2019 systematic review has highlighted that there is a lack of high-quality evidence for the use of vitamin D, calcium, or recombinant parathyroid hormone in the management of both temporary and long-term hypoparathyroidism following thyroidectomy.[10]
Kidney ultrasound may be considered periodically to assess for any nephrocalcinosis for those on long term therapy for hypoparathyroidism.[5]
See also
References
- Bilezikian JP, Khan A, Potts JT, Brandi ML, Clarke BL, Shoback D, et al. (October 2011). "Hypoparathyroidism in the adult: epidemiology, diagnosis, pathophysiology, target-organ involvement, treatment, and challenges for future research". Journal of Bone and Mineral Research. 26 (10): 2317–2337. doi:10.1002/jbmr.483. PMC 3405491. PMID 21812031.
- Mannstadt, Michael; Clarke, Bart L; Bilezikian, John P; Bone, Henry; Denham, Douglas; Levine, Michael A; Peacock, Munro; Rothman, Jeffrey; Shoback, Dolores M; Warren, Mark L; Watts, Nelson B; Lee, Hak-Myung; Sherry, Nicole; Vokes, Tamara J (1 November 2019). "Safety and Efficacy of 5 Years of Treatment With Recombinant Human Parathyroid Hormone in Adults With Hypoparathyroidism". The Journal of Clinical Endocrinology & Metabolism. 104 (11): 5136–5147. doi:10.1210/jc.2019-01010.
- Shoback D (July 2008). "Clinical practice. Hypoparathyroidism". The New England Journal of Medicine. 359 (4): 391–403. doi:10.1056/NEJMcp0803050. PMID 18650515.
- Potts Jr JT (2005). "Diseases of the parathyroid gland". In Kasper DL, Braunwald E, Fauci AS, et al. (eds.). Harrison's Principles of Internal Medicine (16th ed.). New York, NY: McGraw-Hill. pp. 2249–68. ISBN 978-0-07-139140-5.
- Gafni, Rachel I.; Collins, Michael T. (2 May 2019). "Hypoparathyroidism". New England Journal of Medicine. 380 (18): 1738–1747. doi:10.1056/NEJMcp1800213.
- Shahid Hussain; Sharif Aaron Latif; Adrian Hall (1 July 2010). Rapid Review of Radiology. Manson Publishing. pp. 262–. ISBN 978-1-84076-120-7. Retrieved 30 October 2010.
- Maeda, Sergio S.; Fortes, Erika M.; Oliveira, Ulisses M.; Borba, Victoria C. Z.; Lazaretti-Castro, Marise (August 2006). "Hypoparathyroidism and pseudohypoparathyroidism". Arquivos Brasileiros de Endocrinologia & Metabologia. 50: 664–673. doi:10.1590/S0004-27302006000400012. ISSN 1677-9487.
- Winer KK, Yanovski JA, Cutler GB Jr. Synthetic human parathyroid hormone 1-34 vs calcitriol and calcium in the treatment of hypoparathyroidism: Results of a randomized crossover trial" JAMA 1996;276:631-636
- Winer KK, Zhang B, Shrader J, et al. Synthetic human parathyroid hormone 1-34 replacement therapy: A randomized crossover trial comparing pump versus injections in the treatment of chronic hypoparathyroidism. J Clin Endocrinol Metab. Nov.2011.
- Edafe O, Mech CE, Balasubramanian SP, et al. (Cochrane Metabolic and Endocrine Disorders Group) (May 2019). "Calcium, vitamin D or recombinant parathyroid hormone for managing post-thyroidectomy hypoparathyroidism". The Cochrane Database of Systematic Reviews. 2019 (5): CD012845. doi:10.1002/14651858.CD012845.pub2. PMC 6530809. PMID 31116878.