Chapter 14 Calcium, Magnesium, and Phosphate , Pan Baishen
Content CALCIUM Hypoparathyroidism Renal Diseases Neonatal Monitoring Monitoring in Surgery and Acute Care Critically Ill Patients Hypomagnesemia
Content MAGNESIUM Critical Care Cardiac Disorders Drug Effects on Magnesium Concentration Diabetes Mellitus Alcoholism Other Diseases
Content PHOSPHATE Hypophosphatemia Hyperphosphatemia
The electrolytes calcium, magnesium, and phosphate are the principal inorganic constituents of bone and are vital in the function of membranes, hundreds of enzymes, genetic regulation, muscle contraction, and energy utilization.
CALCIUM-1 Of all the calcium in the body, 99% is in the bone. The remaining 1% is mostly in the blood and other extracellular fluids. Calcium circulates in the blood is several forms: 45% to 50% free ionized 40% to 45% bound to protein 10% to 15% bound to anions
CALCIUM-2 Three hormones are known to participate in serum calcium regulation, and have rates of secretion that depend on ionized calcium concentration. parathyroid hormone (PTH) 1,25 dihydroxyvitamin D calcitonin
CALCIUM -3
CALCIUM-4 Calcium in blood is distributed among several forms : About 45% circulates as ionized calcium 40% is bound to anionic sites on protein 15% is bound to anions
HYPOCALCAEMIC DISORDERS
HYPOCALCAEMIC DISORDERS-1 Hypoparathyroidism Most cases of hypocalcemia from hypoparathyroidism result from surgical removal of tissue during parathyroid or thyroid surgery Pseudohypoparathyroidism is a condition in which renal cells do not respond to PTH
HYPOCALCAEMIC DISORDERS-2 Renal Disease In renal glomerular disease,ionized calcium is changed independently of total calcium In chronic renal disease, a marked increase in serum PTH levels ,in which phosphate binds calcium, or by altered vitamin D metabolism
HYPOCALCAEMIC DISORDERS-3 Neonatal Monitoring The first type of neonatal hypocalcemia is associated with parathyroid immaturity and usually resolves by the first week of life The second type of neonatal hypocalcemia is associated with both hyperphosphatemia and hypomagnesemia
HYPOCALCAEMIC DISORDERS-4 Monitoring In Surgery and Acute Care In open-heart surgery when the heart is restarted Administering calcium as a cardiotropic agent before giving drugs During liver transplantation
HYPOCALCAEMIC DISORDERS-5 Critically Ill Patients Sepsis Thermal burns Renal failure Cardiopulmonary insufficiency
HYPOCALCAEMIC DISORDERS-6 Hypomagnesaemia Inhibition of transport of PTH across the parathyroid gland membrane Impairment of PTH action at its receptor site on bone Interference with the action of vitamin D
HYPERCALCEMIC DISORDERS
HYPERCALCEMIC DISORDERS-1 Primary hyperparathyroidism Ionized calcium is elevated more frequently than total calcium in subtle or asymptomatic hyperparathyroidism Measuring PTH during operations on the parathyroid glands can determine if sufficient parathyroid tissue has been removed
HYPERCALCEMIC DISORDERS-2 Malignancy PTHRP appears to be expressed in tumors, measurements of which ultimately may have clinical diagnostic value Ionized and total calcium measurements have about equal utility in the detection of occult malignancy
CALCIUM-1 Total calcium determinations may be performed on either serum or heparinized plasma In routine testing of serum, many automated analyzers give results that are comparable to atomic absorption. In urine and other fluids, atomic absorption still is preferred.
CALCIUM-2 REFERENCE RANGES FOR CALCIUM mmol/liter mg/dl Total calcium Child 2.20-2.68 8.8-10.7 Adult 2.10-2.55 8.4-10.2 Ionized calcium At birth 1.30-1.60 5.2-6.4 Neonate 1.20-1.48 4.8-5.9 1.20-1.38 4.8-5.5 1.16-1.32 4.6-5.3
MAGNESIUM -1 effect on myocardial function and blood pressure an essential activator of over 300 enzymes complex of ATP is the substrate in energy production
MAGNESIUM -2 The average dietary intake of magnesium is 10 to 15 mmol/day 20% to 63% of the dietary magnesium can be absorbed in the small intestine The overall regulation of body magnesium is controlled largely by the kidney
MAGNESIUM-3 The human body contains about 1 mol (24 g) of magnesium about 50% in the skeleton relatively high concentrations in skeletal muscle, liver, and myocardium
HYPOMAGNESEMIA-1 Critical Care Among chronic diseases, alcoholism, liver disease, and carcinoma were commonly associated with hypomagnesemia Magnesium was the most common electrolyte abnormality found among pediatric intensive-care unit patients
HYPOMAGNESEMIA-2 Cardiac Disorders Magnesium deficiency has been associated with coronary vasospasm, arrhythmias, acute infarction, and sudden death In patients undergoing surgery with cardiopulmonary bypass, plasma ionized magnesium was decreased by 24 hours after bypass
HYPOMAGNESEMIA-3 Drug Effects on Magnesium Concentration Several drugs, including diuretics, gentamicin and other aminoglycoside antibiotics, cisplatin, and cyclosporine result in hypomagnesemia
HYPOMAGNESEMIA -4 Diabetes Mellitus Magnesium loss secondary to ketoacidosis and glycosuria abnormal intracellularextracellular distributions of magnesium caused by hormonal imbalances
HYPOMAGNESEMIA -5 Alcoholism Renal magnesium losses and decreased muscle magnesium content dietary deficiency, ketosis, vomiting, diarrhea, and hyperaldosteronism
HYPOMAGNESEMIA-6 Other Diseases Pregnancy Premature labor and preeclampsia or eclampsia Neonatal seizures Renal stone formation and other renal calcification Paget's disease
MAGNESIUM -1 The patient should fast before collection of blood Hemolyzed samples are not acceptable The anticoagulants must not be used
MAGNESIUM -2 About 30% of magnesium is protein bound, total magnesium may not reflect the physiologically active magnesium serum concentration will not necessarily reflect the status intracellular magnesium
MAGNESIUM-3 Methods: atomic absorption spectroscopy colorimetric methods using either calmagite or methylthymol blue a dry-slide colorimetric method using a formazan dye and a calcium chelator A magnesium load test
MAGNESIUM -4 REFERENCE RANGES FOR MAGNESIUM mmol/liter Total magnesium Serum (newborns) 0.50-0.90 Serum (adults) 0.65-1.05 Erythrocytes 1.65-2.65 CSF 1.0-1.40 Urine 1-5 mmol/day Ionized magnesium Blood 0.44-0.60 (AVI. analyzer) 0.39-0.64 (Nova analyzer)
PHOSPHATE-1 The genetic materials DNA and RNA are complex phosphodiesterases The most important reservoirs of biochemical energy are ATP, creatine phosphate, and phosphoenol pyruvate
PHOSPHATE -2 About 80% of the 700 to 800 grams of phosphate in the body are contained in bone, mostly in the form of hydroxyapatite [Ca10(PO4)6(OH)2] The kidney plays an important role in the regulation of serum phosphate concentration
HYPOPHOSPHATEMIA-1 Transcellular Shift the movement of glucose into cells is accompanied by phosphate GI losses diarrhea and vomiting Renal losses primary hyperparathyroidism, diuretics, hypomagnesemia, or defects in renal tubular absorption of phosphate
HYPOPHOSPHATEMIA-2 Mixed causes Diabetic ketoacidosis Acidosis Alcoholism
HYPERPHOSPHATEMIA-3 Renal failure Severe infections Intensive exercise Neoplastic diseases
PHOSPHATE -1 The patient should fast before collection of blood Hemolyzed samples are not acceptable Intravenous administration of glucose or fructose lowers serum phosphate
ANS, stannous chloride, ferrous ammonium sulfate PHOSPHATE-2 Methods: Reducing Reagent Absorption Peak ANS, stannous chloride, ferrous ammonium sulfate 660nm Semidine HCl 680nm
PHOSPHATE-3 REFERENCE RANGES FOR PHOSPHATE Serum Phosphate mg/dL mmol/L Newborn (1-2 days) 5.5-9.5 1.78-3.07 Infant 4.5-6.5 1.45-2.10 Child 4.5-5.5 1.45-1.78 Adult male 2.3-3.7 0.74-1.20 Adult female 2.8-4.1 0.90-1.32
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