Parathyroid disorders and calcium imbalance: Pathology review

Last updated: September 09, 2021

Parathyroid disorders and calcium imbalance: Pathology review

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On the Endocrinology ward, two individuals came in. The first person is 47 year old Melania who recently went through a surgical procedure called thyroidectomy due to thyroid cancer. Melania came in with tetany and on the clinical examination, there was a positive Chvostek’s sign. The other person is 55 year old Emma, who came in with constipation, muscle weakness and bone pain. She has a history of kidney stones, specifically calcium stones and she also said that she’s been feeling down lately. Calcium, phosphate and PTH levels were taken in both individuals. Melania had low levels of calcium, high levels of phosphate and low levels of PTH, whereas Emma had high levels of calcium, low levels of phosphate and high levels of PTH.

Both individuals seem to have a problem in their parathyroids. First, a bit of physiology. The 4 parathyroid glands are on the posterior of the thyroid gland, and their main job is to keep blood calcium levels stable. Changes in the body’s levels of extracellular calcium and phosphate levels are detected by surface receptors in the parathyroid’s chief cells. Both decreased calcium levels and increased phosphate levels can signal the chief cells to release more parathyroid hormone or PTH. PTH affects many organs. In the bones it binds to osteoblasts, the bone building cells, and causes them to release RANK ligands, or RANK-L, and monocyte colony-stimulating factor, or M-CSF. These will cause osteoclast precursors to mature into osteoclasts that break down bones and release calcium and phosphate into the blood. PTH also gets the kidneys to reabsorb more calcium and excrete more phosphate. It also activates calcitriol, also known as 1,25-dihydroxycholecalciferol, or active vitamin D. Active vitamin D then goes on to cause the gastrointestinal tract to increase calcium absorption. Altogether, these effects help to increase extracellular levels of calcium with they’re low.

Now, let’s talk about hypoparathyroidism, where there’s an abnormality with the parathyroid glands so PTH levels are low. The most common cause is removal of the parathyroid glands during thyroid or parathyroid surgery. Another cause is an autoimmune condition that destroys parathyroid glands. There are also genetic causes like DiGeorge syndrome that causes a variety of immune and birth defects. With DiGeorge syndrome, the 3rd and 4th pharyngeal pouches don’t develop, so the parathyroid glands and thymus that originate here will be missing in the infant. Then there is pseudohypoparathyroidism, where PTH levels are normal or high, but the kidneys and bones don’t respond to PTH and this is called PTH resistance. An example is pseudohypoparathyroidism type 1A, or Albright hereditary osteodystrophy, which is an autosomal-dominant condition. The cause is a mutation in the Gs protein alpha-subunit and this mutation is inherited from the mother. Gs proteins function as cellular signaling proteins and where there’s a defect in the alpha-subunit, in this case, the PTH receptor in the bones and kidney won’t be able to activate and so PTH can’t exert its effects. With Albright osteodystrophy, classical symptoms include shortened 4th and 5th digits, short stature, obesity and developmental delay. Now, there’s also pseudo-pseudohypoparathyroidism, which is a subtype of Albright’s hereditary osteodystrophy and it also include symptoms like brachydactyly, developmental delays, and short stature. However, the gene is passed on by the father instead of the mother and there’s no PTH resistance, so there’s normal PTH and calcium levels.

Now let’s look at the symptoms caused by low levels of parathyroid hormone or the lack of response to them. Both will lead to hypocalcemia and hyperphosphatemia which results in more excitable neurons. This can lead to tetany, or the involuntary contraction of muscles. The spontaneous firing of neurons leads to Chvostek's sign, which is when facial muscles twitch after the facial nerve is lightly tapped, usually 1 cm below the zygomatic process. It can cause Trousseau's sign, which is where a blood pressure cuff applies pressure on the brachial nerve which is enough to make it fire, resulting in a muscle spasm that makes the wrist and metacarpophalangeal joints flex. If the hypocalcemia and hyperphosphatemia are severe, this can lead to life-threatening complications like severe seizures and cardiac arrhythmias.

Let’s move on and talk about hyperparathyroidism. There are three types of hyperparathyroidism; primary, secondary, and tertiary. In primary hyperparathyroidism, the parathyroid gland is responsible for the problem, because it makes parathyroid hormone independently of the calcium level. Most often, primary hyperparathyroidism is caused by a parathyroid adenoma, a benign tumor. Rarely, primary hyperparathyroidism is caused by hyperplasia, where parathyroid cells divide excessively causing growth of the glands and in very rare cases, there can be a carcinoma of the parathyroid glands.

The symptoms of primary hyperparathyroidism can be remembered, especially for exams, as ‘stones, thrones, bones, groans, and psychiatric overtones’. Now, hyperparathyroidism causes hypercalciuria, which can lead to dehydration and can stimulate the formation of calcium based kidney stones and gallstones. Thrones refers to the toilet to remind you of the polyuria or frequent urination that results from impaired sodium and water reabsorption. Bones is for bone pain that results after chronic hormone-driven demineralization in order to release calcium. Groans is for constipation and muscle weakness, both of which are partly due to decreased muscle contractions. The excess calcium makes neurons less excitable, which leads to slower muscle contractions, and diminishes neuron firing in the central nervous system. As a result, there are psychiatric overtones which refers to symptoms like depression and confusion. In addition, excess PTH will cause osteoclasts to break down bone and makes the kidneys hold on to calcium and get rid of phosphate, resulting in hypercalcemia and hypophosphatemia. Eventually, bone resorption by osteoclasts can lead to a condition called osteitis fibrosa cystica, where there are cystic bone spaces that are filled with osteoclasts and hemosiderin and these are called brown tumors. Classic signs include subperiosteal erosions that affects the phalanges in the fingers, and salt and pepper sign in the skull, which refers to the numerous small lesions caused by bone resorption. Osteitis fibrosa cystica is classically associated with primary hyperparathyroidism, but can be seen sometimes with secondary hyperparathyroidism, too.

With primary hyperparathyroidism, labs show hypercalcemia, hypophosphatemia, high levels of PTH, high alkaline phosphatase or ALP due to increased bone resorption, and high levels of cAMP in the urine due to hypercalcemia.

Sources

  1. "Robbins Basic Pathology" Elsevier (2017)
  2. "Harrison's Principles of Internal Medicine, Twentieth Edition (Vol.1 & Vol.2)" McGraw-Hill Education / Medical (2018)
  3. "Textbook of Medical Physiology" Elsevier España (2006)
  4. "Davidson's Principles and Practice of Medicine" Churchill Livingstone (2010)
  5. "Primary, Secondary and Tertiary Hyperparathyroidism" Springer (2015)
  6. "Primary hyperparathyroidism: review and recommendations on evaluation, diagnosis, and management. A Canadian and international consensus" Osteoporosis International (2016)
  7. "Hypoparathyroidism" New England Journal of Medicine (2008)