Calcium Gluconate Anhydrous
Chemical Formula: | C₁₂H₂₂CaO₁₄ |
Molecular weight | 430.37 |
.CAS No: | 299-28-5 |
Applications: |
About Calcium Gluconate Anhydrous
Calcium gluconate is the calcium salt of gluconic acid which is an oxidation product of glucose. Calcium gluconate is used as mineral supplement and medication when there is insufficient calcium in the diet. Supplementation may be done to treat or prevent osteoporosis or rickets, consequences of hypocalcemia. Calcium gluconate is typically administered intravenously (IV) or orally in treating hypocalcemia, cardiac arrest, or cardiotoxicity due to hyperkalemia or hypermagnesemia. Calcium gluconate has also been used off-label in the management of β-blocker toxicity, calcium-channel blocker (CCB) toxicity, magnesium toxicity, and hydrofluoric acid burns.
Hypocalcemia
Calcium gluconate is a calcium salt used to directly replete serum calcium levels in cases of hypocalcemia through IV administration. Hypocalcemia occurs in 15 to 88% of hospitalized adult patients, depending on the measurement method (serum or ionized calcium). The majority of calcium in the body resides in bone, with only 1% of total body stores exchanged with extracellular fluid. Approximately 40% of circulating calcium is bound to protein (e.g., albumin), whereas about 50% of circulating calcium is in a physiologically active form. The remaining 10% of calcium is complexed with anions to form calcium salts. Clinical manifestations of hypocalcemia depend on the severity of serum calcium levels and the rate of decline, with hypocalcemic crisis symptoms manifesting at an ionized calcium concentration of 2.8 mg/dL (0.7 mmol/L). Symptoms include circumoral paresthesias, muscle cramps, myalgias, dysphagia, depression, confusion, irritability, seizures, tetany, laryngospasm, and hypotension. Physical examination findings include hyperreflexia, carpopedal spasm, Trousseau sign, and Chvostek sign. On EKG, hypocalcemia presents with prolonged QT interval, but its significance is undetermined as it is rare for calcium derangements to be the etiology of cardiac arrest. EKG abnormalities of hypocalcemia, such as QT prolongation, typically respond to IV calcium gluconate, returning the QT interval to baseline.
Hypocalcemia treatment initially focuses on symptomatic treatment rather than normalizing serum calcium. In severe hypocalcemia with seizures, laryngospasm, hypotension, or tetany, patients should receive emergent parenteral calcium gluconate to replenish calcium levels until severe and life-threatening abnormalities resolve. It is essential to check magnesium levels during calcium repletion as hypomagnesemia is a crucial cause of hypocalcemia. Hypomagnesemia causes hypocalcemia by impairing parathyroid hormone secretion and renal resistance to parathyroid hormone, leading to decreased renal reabsorption of calcium.
Hyperkalemia
Elevations of extracellular potassium can cause cardiac arrhythmias, which can progress to cardiac arrest and death. The role of calcium gluconate in treating hyperkalemia is to stabilize cardiac cell membranes. Calcium should promptly be administered to any patient presenting with hyperkalemia with EKG changes, indicating a hyperkalemic emergency. Elevated potassium levels destabilize cardiac membranes by increasing the threshold potential of cardiac myocytes. Calcium supplementation decreases the threshold to restore the transmembrane voltage gradient. However, though calcium protects myocytes from potassium, it does not resolve the issue of hyperkalemia, for which other medications are typically administered, such as insulin and dextrose or sodium bicarbonate, which shifts potassium into cells; and sodium polystyrene sulfate, which increases potassium excretion through stool. However, dialysis is the most efficacious means of potassium excretion, particularly in patients with renal disease.
Hypermagnesemia
Acute magnesium toxicity is rare and typically seen in patients being given magnesium sulfate to prevent eclampsia in the obstetric setting. Magnesium toxicity can present in several ways, including diminished deep tendon reflexes, cardiopulmonary arrest, and respiratory depression. This toxicity is due to magnesium’s effect on blocking calcium and potassium channels, both extracellularly and intracellularly. Calcium gluconate treats hypermagnesemia through direct antagonism of magnesium at the site of action (e.g., at the neuromuscular junction).
Hydrofluoric Acid Burns
In treating hydrofluoric acid burns, calcium is a mainstay of treatment that functions by binding to fluoride ions, effectively neutralizing them to prevent further toxicity. Furthermore, fluoride can cause hypocalcemia, possibly due to the formation of fluorapatite (Ca(PO)F) salt, thus decreasing free calcium levels within the serum. Calcium gluconate directly replenishes ionized calcium levels within the blood in cases of fluoride-induced hypocalcemia.
Beta-blocker and Calcium Channel Blocker Toxicity
Calcium may be useful in beta-blocker overdose in patients with shock refractory to other measures. The calcium effect in beta-blocker toxicity appears to be due to the role of calcium in increasing cardiac inotropy as the influx of calcium into the cardiac cell contributes to the contraction of myofibrils.
Calcium gluconate also plays a role in the treatment of CCB toxicity. CCB toxicity causes hypotension, bradycardia, and a decrease in cardiac contractility. The reasoning behind calcium’s mechanism against CCB toxicity is to overwhelm the calcium receptors to antagonize the CCB competitively. Thus, restoring cardiac contractility, which, along with IV fluids, can ameliorate the hypotensive symptoms of CCB toxicity.
Product Number | Product Name | Form | Pharmacopoeia | Solvency | Storage conditions | Color | Purity | Additional information |
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151300140 | Calcium Gluconate Anhydrous | Powder | USP, BP | Its solutions are neutral to litmus. Freely soluble in boiling water; sparingly (and slowly) soluble in water; insoluble in alcohol. | Preserve in well–closed containers. | White granules or powder | 98.0%-102.0% | Crystalline, odorless, tasteless granules or powder. Is stable in air. |