Physio 5

Question 1

calcium amounts in the body

Answer 1

Total Ca: 9-10.6 mg/dl

Ionized: 4.5-5.2 mg/dl. tightli regulated.

Question 2

acidosis/alkalemia

Answer 2

blocks Ca 2+ binding to albumin and increases free ionized Ca. alkalemia is the opposite

Question 3

High [Ca] (hypercalcemia)

Answer 3

> 12 mg/dl. fatigue, apathy, headache, intercranial pressure, muscle weakness, increased membrane polarization and lower neural responses. bradycardia, polydipsia, polyuria, hypertension, calculi

Question 4

low [Ca] (hypocalcemia)

Answer 4

<7 mg/dl. learning retardation, apnea, tetany, increased hypersensitivity of neurons, long Q-T interval with reduced cardiac output. Ca/PO4 deficiency leading to weak bone development

Question 5

calcium economy

Answer 5

maintaining calcium balance in the body involving 3 main organ systems: Digestive system, kidneys, and bone. kidneys filter and recapture all but about 175 mg of Ca. bone acts as repository and buffer with daily turnover of about 280 mg. If low Ca intake, kidneys can increase reabsorption of filtered Ca, but in the log term the bones bear the brunt of Ca donating by bone resorption

Question 6

Calcitonin

Answer 6

hormone made by thyroid gland and has a strong role in early development. inhibitor of bone resorption.

Question 7

parathyroid hormone (PTH)

Answer 7

targets kidney where it stimulates reabsorption of calcium. Stimulates excretion of PO4 into urine and increases synth of vitamin D to its active form. affects osteoblastic lineage cells. causes them to secrete RANK-L, causing osteoclastic resorption, releasing more Ca and PO4 into blood

Question 8

PTH secretion

Answer 8

PTH release by chief cells in parathyroid is caused by a reduction of Ca in the extra cellular fluids and plasma. calcium sensing receptor activates a signal cascade involving intracellular Ca binding/release from the ER that controls release and synth of PTH.

Question 9

FHH (familial hypercalcemic hypocalcuria)

Answer 9

rare disease. curve is shifted to the right, urine calcium excretion is low, and individuals are otherwise healthy. Ca is stabilized at a very high concentration

Question 10

Ca transport in kidney

Answer 10

PTH increases Ca reabsorption at distal tubule. Vitamin D aids by increasing calbindin/Ca2+ transport and efflux at the basal side. Active transport occurs in the ascending loop. PTH reduces PO4 reabsorption at proximal tubule

Question 11

Vitamin D

Answer 11

when plasma Ca drops, active form of vitamin D increases. production is stimulated by increased PTH. increases transport of Ca and PO4 from lumen into the plasma in the small intestine. In bone, activates receptors on osteoblast which cause ccell to make signals that promote maturation and activation of osteoclasts which resorb bone. assists transport of Ca in distal convoluted tubules of the kidney. reduces production of PTH (negative feedback)

Question 12

Vitamin D synth

Answer 12

precursors are cholesterol derivatives generated in skin, converted to cholicalciferol by UV light. Converted to 25-OH cholicalciferal in liver. Active form formed in kidney (1-25 dihydroxy vitamin D3, or calcitriol) by enzyme 1-alpha-hydroxylase. Activity of this enzyme is enhanced by PTH.

Question 13

calcitriol

Answer 13

increases active and passive transport of Ca and PO4 into blood in small intestine by increasing synth of the transporter (calbindin)

Question 14

rickets

Answer 14

chronic deficiency of vitamin D and/or dietary deficiency of calcium or phosphorous during early development. leads to disturbances in developing bone formation. weakened and bowed long bones. in adults, leads to poor quality bone formed during remodeling and is called osteomalacia.

Question 15

primary hyperparathyroidism vs. secondary hyperparathyroidism

Answer 15

primary = hypercalcemia (too much PTH secretion)

secondary = hypocalcemia (low D, renal failure, diet, etc)

Question 16

hypoparathyroidism vs. pseudohypoparathyroidism

Answer 16

hypo = hypocalcemia due to genetics or surgical damage to parathyroid.

pseudo = hypocalcemia due to genetic defect in G-protein in PTH receptor in kidney

Question 17

phosphorus homeostasis

Answer 17

not rigidly maintained. PTH influences reabsorption of PO4 in proximal tubule

Question 18

collagen matrix synth and mineralization

Answer 18

pre-collagen molecules are synthed by the osteoBlast and then polymerized extracellularly forming fibrils and osteoid matrix that eventually mineralizes.

Question 19

bone mineralization

Answer 19

microcrystaline HA (hydroxylapatite) mineral deposition in collagen matrix. crystals coalesce and accumulate within and around new collagen fibrils

Question 20

bone remodeling

Answer 20

one by osteoclast. secrete acidic molecules to dissolve mineral and proteases digest and phagocytize the collagen matrix. RANKL from osteoblasts activates osteoclasts, increasing number and bone resorption and turnover. OPG made by osteoblasts slows down bone resorption by competing with RANKL

Question 21

regulators of bone remodeling

Answer 21

PTH and vitamin D increase resorption. Estrogen reduces resorption. Calcitonin inhibits osteoclasts. Glucocorticoids inhibit intestinal Ca absorption. Growth hormones stimulate formation. mechanical loading promotes bone accrual and maintenance.

Question 22

mechanical loading as a means of regulating bone mass

Answer 22

increased loading tends to stimulate bone formation and repair, and vice versa. osteocytes reduce expression of sclerostin, an inhibitor of bone formation, when under stress

Question 23

osteoporosis

Answer 23

trabecular and cortical sites. related to disease or aging. caused by inappropriate or excessive remodeling. . treat with replacing deficient nutrients, loading exercise, or drugs designed to stop resorption