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Diagnosis is generally based on a blood phosphate level exceeding 1.46 mmol/L (4.5 mg/dL). [1] Levels may appear falsely elevated with high blood lipid levels, high blood protein levels, or high blood bilirubin levels. [1] Treatment may include a phosphate low diet and antacids like calcium carbonate that bind phosphate. [1]
Hyperphosphatemia causes acute kidney injury in tumor lysis syndrome, because of deposition of calcium phosphate crystals in the kidney parenchyma. [2] Hypocalcemia. Because of the hyperphosphatemia, calcium is precipitated to form calcium phosphate, leading to hypocalcemia. [2] Symptoms of hypocalcemia include (but are not limited to): [9] tetany
Hypercalcemia occurs most commonly in breast cancer, lymphoma, prostate cancer, thyroid cancer, lung cancer, myeloma, and colon cancer. [2] It may be caused by secretion of parathyroid hormone-related peptide by the tumor (which has the same action as parathyroid hormone), or may be a result of direct invasion of the bone, causing calcium ...
PTHrP acts similarly to parathyroid hormone in that it binds to the parathyroid hormone 1 receptors on the kidneys and bones and causes an increased tubular reabsorption of calcium and activation of osteoclast activity, respectively. [22] Osteoclasts are a type of bone cell which cause bone resorption, releasing calcium into the bloodstream.
Non-calcium-based phosphate binders, including lanthanum carbonate, form insoluble complexes with phosphates in food, thereby reducing the amount of phosphate in the body. [1] Sevelamer carbonate. Sevelamer is an insoluble polymeric amine, which is protonated once in the intestines and this allows it to bind dietary phosphate.
Calcium is the most abundant mineral in the human body. [3] The average adult body contains in total approximately 1 kg, 99% in the skeleton in the form of calcium phosphate salts. [3] The extracellular fluid (ECF) contains approximately 22 mmol, of which about 9 mmol is in the plasma. [4]
In contrast, dystrophic calcification is caused by abnormalities or degeneration of tissues [2] [3] resulting in mineral deposition, though blood levels of calcium remain normal. These differences in pathology also mean that metastatic calcification is often found in many tissues throughout a person or animal, whereas dystrophic calcification ...
One of the principal causes of arterial stiffening with age is vascular calcification. Vascular calcification is the deposition of mineral in the form of calcium phosphate salts in the smooth muscle-rich medial layer of large arteries including the aorta. DNA damage, especially oxidative DNA damage, causes accelerated vascular calcification. [11]