Calcium physiology, hypercalemia, renal secondary hyperparathyroidism

Question 1

Chronic kidney disease mineral and bone disorders can be manifested in one of three ways. Name them.

Answer 1

1. Laboratory abnormalities indicative of disturbed mineral/bone metabolism
2. Calcification of the vasculature and soft tissues
3. Abnormalities in skeletal morphology (renal osteodystrophy)

Question 2

99% of the calcium in the body is stored in the bone in what form?

Answer 2

Hydroxyapatite

Question 3

What percent of the plasma calcium is in a free, ionized form under normal conditions?

Answer 3

55%

Question 4

In the presence of acidemia, what happens to the protein bound and ionized calcium concentrations in the blood?

Answer 4

Calcium and hydrogen ions compete for the negatively-charged protein binding sites

Therefore, protein bound calcium decreases and ionized calcium increases with acidemia

Question 5

What are the major functions of PTH?

Answer 5

1. Stimulates calcium reabsorption from the renal tubules (distal convoluting)
2. Stimulates calcitriol synthesis
3. Enhances mobilization of calcium from the bone
4. Increases FGF23 production from the bone
5. Stimulates phosphorus excretion in the kidneys

Question 6

What is the effect of FGF23 on PTH synthesis?

Answer 6

FGF23 inhibits PTH synthesis and secretion - negative feed back loop

Question 7

What are the major functions of FGF23?

Answer 7

1. Potent phosphaturic hormone
2. Stimulates renal tubular reabsorption of calcium
3. Inhibits calcitriol production

Question 8

What are the major functions of calcitriol?

Answer 8

1. Inhibits PTH synthesis
2. Increases transcellular calcium reabsorption from the intestines
3. Increases transcellular calcium reabsorption from the distal convoluted tubule

Question 9

Under normal conditions, what percent of filtered calcium is reabsorbed in the renal tubules?

Answer 9

98%
- Proximal tubule 60-70%

Question 10

What is the paracellular pathway of calcium reabsorption in the renal tubules?

Answer 10

Movement of calcium through tight junctions between epithelial cells
- Primary method of calcium reabsorption in the proximal tubule and thick ascending limb
- Driven by passive diffusion or solvent drag down an electrochemical gradient

Question 11

What is the transcellular pathway of calcium reabsorption in the renal tubules

Answer 11

Calcium transport through tubular epithelial cells
- Primary method of calcium reabsorption in the distal convoluted tubule (5-10% of calcium reabsorption)
- Crucial to the fine regulation of calcium reabsorption, where hormones act

Question 12

When dietary calcium intake is low, what absorption method predominates? How does it occur?

Answer 12

Active, hormonal-dependent, transcellular absorption
- Occurs in the duodenum
- Via vitamin D receptors that are highly expressed under the influence of calcitriol

Question 13

Passive paracellular calcium diffusion occurs when the dietary intake is higher. Where does it occur?

Answer 13

Throughout the small intestine, cecum, and proximal colon

Question 14

How does calcitriol enhance calcium absorption in the intestines?

Answer 14

Calcitriol binds to the vitamin D receptor (transcription factor) => transcription of genes encoding for:
- The transient receptor potential vanilloid subtype 6: absorbs calcium on the intraluminal surface of the cell
- Calcium ATPase and sodium-calcium exchangers - on the basolateral membrane to move calcium into the blood

Question 15

What cell in the parathyroid gland synthesizes PTH?

Answer 15

Parathyroid chief cells

Question 16

What stimulates PTH release?

Answer 16

• Ionized hypocalcemia
• Phosphate retention
• Decreased calcitriol synthesis

Question 17

How does PTH promote bone resorption?

Answer 17

Indirectly activates osteoclasts through increased expression of RANKL on the osteoblasts and osteocytes

Question 18

What factors increase the activity of 1-alpha-hydroxylase activity in the kidneys, leading to increased calcitriol production?

Answer 18

PTH, calcitonin, low extracellular calcium and phosphate

Question 19

Where is FGF23 produced?

Answer 19

Osteocytes and osteoblasts in the bone

Question 20

What stimulates FGF23 production?

Answer 20

Calcitriol, PTH, increased phosphorus

Question 21

How does FGF23 lead to increased renal excretion of phosphorus?

Answer 21

Decreases expression of the renal sodium phosphate cotransporters

Question 22

FGF23 exerts its biological function by interacting with what receptor complex?

Answer 22

alpha-Klotho-FGF receptor complex

Question 23

How does membrane-bound alpha-Klotho affect FGF23?

Answer 23

Acts as a co-factor to enhance ligand-receptor affinity

Question 24

Where is calcitonin produced?

Answer 24

Parafollicular cells of the thyroid gland

Question 25

What stimulates calcitonin production?

Answer 25

Increased blood calcium concentrations

Question 26

What are the primary effects of calcitonin?

Answer 26

1. Inhibits osteoclastic bone resorption
2. Antagonizes PTH

Question 27

How does calcitriol reduce PTH synthesis?

Answer 27

• Directly inhibits mRNA synthesis for the production of PTH
• Increases the number of calcium channels on the cell to increase responsiveness to extracellular calcium concentrations

Question 28

What is the half life of PTH and how does that effect it’s function?

Answer 28

3-5 minutes - allows PTH to be involved in the minute to minute, fine tuning of iCa concentrations

Question 29

How is hypercalcemia toxic to cells?

Answer 29

Alters cell membrane permeability, alters cell membrane calcium pump activity, reduces energy production, derangements in cellular functions result

Question 30

What are the most common clinical signs of hypercalcemia?

Answer 30

PU/PD, anorexia, lethargy, weakness

Question 31

What are uncommon signs of hypercalcemia?

Answer 31

Constipation, cardiac arrhythmias, seizures, AKI, calcium urolithiasis

Question 32

The severity of clinical signs from hypercalcemia depends on what factors?

Answer 32

• Magnitude of hypercalcemia
• Rate of development - signs are most severe when hypercalcemia develops rapidly
• Duration - clinical signs more likely the longer hypercalcemia goes on

Question 33

Soft tissue mineralization occurs when the product of calcium x phosphorus is greater than what?

Answer 33

60

Question 34

How does hypercalcemia lead to an AKI?

Answer 34

• Ionized hypercalcemia can result in renal vasoconstriction
• Can decrease the permeability coefficient of the glomerulus
• Can cause acute tubular necrosis from ischemic and toxic effects

Question 35

If the thick ascending limb is not damaged, hypercalcemia can result in hyposthenuria through what means?

Answer 35

Causes nephrogenic diabetes insipidus - hypercalcemia can affect aquaporin expression and delivery to the membrane of the tubular cells in the collecting duct

Question 36

In one study of 109 dogs, what was the most common cause of hypercalcemia?

Answer 36

Neoplasia - 58%

Question 37

What percent of dogs with hypoadrenocorticism have hypercalcemia?

Answer 37

~30% (another study says 42% total, 22% ionized hypercalcemia)

Question 38

What is the PTH concentration in dogs with hypoadrenocorticism and hypercalcemia?

Answer 38

Normal to low

Question 39

How quickly does hypercalcemia resolve in dogs with hypoadrenocorticism?

Answer 39

Rapidly - within 1-2 day of corticosteroids and fluids

Question 40

Patients with CRF often have a total hypercalcemia and elevated PTH. What is their ionized calcium?

Answer 40

• Normal or low - helps you distinguish from primary hyperparathyroidism
• In one study, less than 10% of these dogs had ionized hypercalcemia
• Ionized hypercalcemia more common in cats

Question 41

Why are clinical signs of hypercalcemia uncommon in CRF patients?

Answer 41

Clinical signs are due to ionized hypercalcemia, and in CRF, ionized calcium is typically normal to low

Question 42

Of 490 dogs with CRF, what percent had ionized hypercalcemia? Hypocalcemia?

Answer 42

Hypercalcemia - 9%
Normocalcemia - 55%
Hypocalcemia - 36%

Question 43

Of 102 cats with CRF, what percent had ionized hypercalcemia? Hypocalcemia?

Answer 43

Hypercalcemia - 29%
Normocalcemia - 61%
Hypocalcemia - 10%

Question 44

In renal secondary hyperparathyroidism, elevated PTH (not necessarily calcium) contributes to what?

Answer 44

Disease progression

Question 45

The use of low dose calcitriol to reduce PTH concentrations has what effects on CRF patients?

Answer 45

• Reduces toxic concentrations of PTH
• Improves QOL
• Reduces disease progression and prolongs survival
• Low doses typically do not lead to excessive intestinal absorption of calcium

Question 46

If hypercalcemia develops while on calcitriol therapy, what dosing scheme can be used?

Answer 46

Twice weekly - still suppresses PTH without intestinal absorption of calcium

Question 47

In dogs with CRF, total hypercalcemia, and normal ionized calcium, what is driving the increase in total calcium?

Answer 47

Increased in complexed calcium - calcium bound to organic anions (citrate, phosphates, lactate, oxalates)

Question 48

What does tertiary hyperparathyroidism refer to?

Answer 48

Patients with CRF that develop ionized hypercalcemia and excessive PTH secretion that is not inhibited by hypercalcemia - likely a progression of secondary hyperparathyroidism

Question 49

Why is the parathyroid gland secreting more PTH in cases of tertiary hyperparathyroidism?

Answer 49

Likely not autonomous secretion. Rather, it takes more ionized calcium to inhibit PTH secretion (higher “set point”) due to a lack of calcitriol and reduced expression of calcium receptors

Question 50

What are the characteristic clinicopathologic findings in patients with humoral hypercalcemia of malignancy?

Answer 50

• Hypercalcemia
• Hypophosphatemia
• Hypercalciuria
• Increased fractional excretion of phosphorus

Question 51

What mechanisms are responsible for hypercalcemia in humoral hypercalcemia of malignancy?

Answer 51

• Increased osteoclastic bone resorption
• PTHrP stimulates renal calcium resorption
• Some forms, but not all, increase calcitriol as well

Question 52

What two neoplasias are most responsible for hypercalcemia of malignancy in the cat?

Answer 52

Lymphoma, squamous cell carcinoma

Question 53

What cytokines may synergize with PTHrP to induce hypercalcemia?

Answer 53

IL-1, TNF-alpha, TGF-alpha or beta - can stimulate bone resorption too

Question 54

What percent of dogs with lymphoma are hypercalcemic?

Answer 54

20-40%

Question 55

What percent of dogs with AGASACA are hypercalcemic?

Answer 55

30-50%

Question 56

What percent of primary hyperparathyroidism cases are caused by an adenoma? Carcinoma?

Answer 56

Adenoma 90%
Carcinoma 5%
Hyperplasia 5%

Question 57

What is the mean age of dogs diagnosed with primary hyperparathyroidism?

Answer 57

10-11 years

Question 58

What dog breed is over-represented among cases of primary hyperparathyroidism?

Answer 58

Keeshonds - 36% of cases in one study

Question 59

What percent of dogs with primary hyperparathyroidism develop calcium containing uroliths?

Answer 59

30%

Question 60

What substance can be infused to enhance visualization of the parathyroids intra-operatively? What are the potential side effects?

Answer 60

Methylene blue
Can cause hemolytic anemia and AKI - only used if really needed

Question 61

What is the success rate of surgical removal of a parathyroid adenoma?

Answer 61

Resolution of hypercalcemia in 94% of cases, usually 1-6 days post op

Question 62

What is the success rate of ethanol ablation of a parathyroid adenoma? Of radio frequency heat ablation?

Answer 62

Ethanol 72%
Heat ablation 90%

Question 63

How does hypercalcemia result from granulomatous disease?

Answer 63

Macrophages can synthesize calcitriol - express 1-alpha-hydroxylase when stimulated by interferons or LPS

Question 64

In cats with idiopathic hypercalcemia, what is the PTH concentration?

Answer 64

Usually in the lower half of the reference range

Question 65

Hypercalcemia has been detected in 93% of dogs with AKI due to ingestion of what toxin?

Answer 65

Grapes/raisins

Question 66

Why is 0.9% NaCl the fluid treatment of choice for hypercalcemia?

Answer 66

• Results in slight expansion of the ECF => increased GFR and increased filtered load of calcium
• Increased sodium ions leads to reduced resorption of calcium in the renal tubules => calciuresis
• Fluid itself is devoid of calcium

Question 67

Why is furosemide used in hypercalcemic cases? What method of delivery is more effective?

Answer 67

Increases calciuresis
CRI causes 1.6x more calcicuresis than intermittent boluses

Question 68

What other electrolyte can drop rapidly with furosemide therapy and should be monitored during treatment?

Answer 68

Magnesium

Question 69

Is glucocorticoid therapy effective at reducing hypercalcemia in patients with primary hyperparathyroidism?

Answer 69

No - only effective for neoplastic causes, vitamin D toxicity, granulomatous disease, Addison’s, and idiopathic hypercalcemia in cats

Question 70

Is glucocorticoid therapy effective at reducing hypercalcemia in patients with primary hyperparathyroidism?

Answer 70

No - only effective for neoplastic causes, vitamin D toxicity, granulomatous disease, Addison’s, and idiopathic hypercalcemia in cats

Question 71

How do steroids reduce calcium levels?

Answer 71

1. Reduce bone resorption by impairing osteoclast maturation
2. Decrease intestinal calcium absorption by antagonizing vitamin D
3. Increase renal calcium excretion

Question 72

If you suspect an animal has lymphoma and do not want to give prednisone until a diagnosis is reached, what drug can be given to reduce hypercalcemia?

Answer 72

L-asparaginase - disrupts tumor metabolism without causing cytolysis, so you can still find the lymphoma cells

If calcium normalizes within 72 hours, occult lymphoma is likely

Question 73

What is the maximal decrease in tCa that can be expected with calcitonin administration?

Answer 73

3 mg/dL

Question 74

How does administration of calcitonin reduce hypercalcemia?

Answer 74

Reduces the activity and formation of osteoclasts - acts rapidly

Question 75

What are the downsides to using calcitonin?

Answer 75

Expensive
Short lived (hours)
Resistance mediated by receptor down regulation occurs within a few days of treatment - can discontinue therapy for 24-48 hours to restore effectiveness

Question 76

What is the mechanism of action of bisphosphonates?

Answer 76

• Decrease osteoclast activity and function
• Interfere with hydroxyapatite dissolution
• Result in osteoclast apoptosis

Question 77

How long after administering a bisphosphonate is bone resorption inhibited?

Answer 77

1-2 days

Question 78

What is the most potent bisphosphonate?

Answer 78

Zoledronate

Question 79

How can bisphosphonates lead to AKI?

Answer 79

Precipitation of insoluble calcium-bisphosphonate salts in the renal tubules => AKI

More common after multiple doses, with dehydration, and in patients with pre-existing CKD

Question 80

What are calcimimetic drugs?

Answer 80

Activate the calcium receptor, decreasing PTH secretion

Ex: cinacalcet (Sensipar)

Question 81

Why are calcimimetic drugs contraindicated in CKD patients?

Answer 81

Can cause hyperphosphatemia

Question 82

What are the common clinical signs of hypocalcemia?

Answer 82

Muscle tremors, facial rubbing, muscle cramping, behavioral change (aggression, anxiety, disorientation), seizures in which partial consciousness is retained

Question 83

How does hypocalcemia result in clinical signs?

Answer 83

Causes increased excitability of neuromuscular tissue

Question 84

In its most severe form, hypocalcemia can result in death from what mechanisms?

Answer 84

Hypotension, decreased myocardial contraction, paralysis of the respiratory muscles

Question 85

What causes hypocalcemia in CKD?

Answer 85

• Mostly decreased production of calcitriol from diseased kidneys
• Some small contribution from mass law interactions of calcium with markedly increased phosphorus

Question 86

What does hypocalcemia correlate with in CKD patients?

Answer 86

Degree of azotemia - worse CRF = worse hypocalcemia

Question 87

Does total calcium accurately predict iCa in patients with CKD?

Answer 87

No - tCa underestimates the number of patients with ionized hypocalcemia

Question 88

In IRIS stage I CKD, what percent of dogs had already developed renal secondary hyperparathyroidism (low or normal calcium with an elevated PTH)?

Answer 88

36%

Question 89

In IRIS stage II CKD, what percent of dogs had developed renal secondary hyperparathyroidism? Stage III?

Answer 89

Stage II - 50%
Stage III - 96%

Question 90

What causes hypocalcemia in critical illness?

Answer 90

Decreased PTH secretion, increased calcitonin secretion, altered calcium binding to proteins. May be related to inflammatory cytokines or complexes with lactate in some cases

Question 91

What are the proposed mechanisms of hypocalcemia in acute pancreatitis?

Answer 91

• Sequestration of calcium into peri- pancreatic fat (saponification)
• Increased free fatty acids
• Increased calcitonin secondary to hyperglucagonemia
• PTH resistance or deficit from hypomagnesemia

Question 92

What clinicopathologic abnormalities are noted with acute tumor lysis syndrome?

Answer 92

Hyperkalemia, hyperphosphatemia, hyperuricemia. Hypocalcemia can result from calcium-phosphate salts deposited into soft tissues

Question 93

What causes nutritional secondary hyperparathyroidism?

Answer 93

Vitamin D deficiency, low calcium and/or high phosphorus concentration in the diet, or severe GI disease preventing absorption of calcium and vitamin D

Question 94

What are the clinicopathologic abnormalities with nutritional secondary hyperparathyroidism?

Answer 94

-Initially leads to low iCa and increased PTH secretion
- High PTH tends to return iCa to normal, but may cause low phosphorus

Question 95

How does renal secondary hyperparathyroidism affect the bones differently from nutritional secondary hyperparathyroidism?

Answer 95

Renal: preferentially affects the bones of the face (fibrous osteodystrophy)

Nutritional: causes osteopenia of the long bones and vertebrae

Question 96

What is type 2 vitamin D dependent Ricketts?

Answer 96

End organ resistance to calcitriol - affected puppies/kittens develop hypocalcemia with an increased PTH and increased calcitriol (nutritional secondary) - do not respond at all to calcitriol supplementation

Question 97

What is type 1 vitamin D dependent Ricketts?

Answer 97

Deficiency of 1-alpha-hydroxylase - display hypocalcemia, elevated PTH, and low calcitriol levels - respond to calcitriol therapy

Question 98

In 68 dogs with hyperadrenocorticism, what percent had elevated PTH above the reference range?

Answer 98

92% - normalizes with trilostane
No changes in iCa though

Question 99

What is thought to the mechanism behind increased PTH in hyperadrenocorticism?

Answer 99

Glucocorticoids decrease intestinal absorption of calcium and increase renal excretion of calcium - may lead to a negative calcium balance => increased PTH

Question 100

What is the primary cause of hypoparathyroidism in dogs? In cats?

Answer 100

• Dogs: usually idiopathic chronic inflammation (likely immune mediated, but not proven)
• In cats, surgical removal or injury to the thyroid parathyroid glands during thyroidectomy for hyperthyroidism is most common

Question 101

Is primary hypoparathyroidism more common in female or male dogs?

Answer 101

Female (62%)

Question 102

What clinicopathologic changes are seen with primary hypoparathyroidism?

Answer 102

Low PTH despite ionized hypocalcemia, hyperphosphatemia, and decreased calcitriol

Question 103

How does hyperphosphatemia affect calcitriol concentrations?

Answer 103

Phosphorus is a potent inhibitor of 1-alpha-hydroxylase => low calcitriol

Question 104

What percent of dogs become hypocalcemic after surgical removal of a parathyroid adenoma (primary hyperparathyroidism)? When does hypocalcemia occur and how long can it take to resolve?

Answer 104

50% - 3-6 days post-operatively
Takes 8-12 weeks for the remaining parathyroid tissue to hypertrophy and return iCa to normal

Question 105

Mild, acute hypomagnesemia results in increased PTH secretion. What does severe hypomagnesemia cause?

Answer 105

Decreased PTH secretion, increased end organ resistance to PTH, may impair calcitriol synthesis

Question 106

How does ethylene glycol cause hypocalcemia?

Answer 106

Chelates calcium and leads to calcium deposition in soft tissues

Question 107

An ECG should be closely monitored when injecting calcium salts. What should you be monitoring for?

Answer 107

• Bradycardia - may signal the onset of cardiotoxicity from rapid infusion
• Sudden elevation of the ST segment or shortening of the QT interval

Question 108

Calcitriol supplementation exerts effects on the intestines within what time frame?

Answer 108

3-4 hours

Question 109

What should the goal be in treating primary hypoparathyroidism?

Answer 109

To achieve calcium just below the reference range - minimize clinical signs while also minimizing calciuresis (due to the lack of PTH) - can cause uroliths

Question 110

Describe the pathogensis of renal secondary hyperparathyroidism

Answer 110

Decreased GFR => phosphorus retention => increased FGF23 => decreased calcitriol synthesis => hypocalcemia => increased serum PTH

Question 111

In early CKD, what hormone increases before increased serum phosphorus and PTH?

Answer 111

FGF23

Question 112

FGF23 initially inhibits PTH production. Why does this inhibition stop in later stages of CKD?

Answer 112

Downregulation of the FGF23 receptor and it’s co-receptor, alpha-Klotho, occur

Question 113

Why do calcitriol concentrations initially decrease in early CKD patients? Why do they decrease in later stage CKD patients?

Answer 113

Initial decline is due to the inhibitory effects of increasing FGF23 and hyperphosphatemia

Later decline is due to declining functional renal mass and decreased production by nephrons

Question 114

How does FGF23 lead to a decrease in calcitriol concentrations?

Answer 114

Downregulates 1-alpha-hydroxylase and stimulates renal expression of 24-hydroxylase

Question 115

Name 3 consequences of metabolic bone disorder (secondary renal hyperparathyroidism)

Answer 115

• Progressive CKD
• Parathyroid hyperplasia
• Extraskeletal calcification

Question 116

An increase in serum phosphorus of 1mg/dL increases the risk of CKD progression by what?

Answer 116

42%

Question 117

Aluminum hydroxide should not be administered with what substance? Why?

Answer 117

Citrate - increases aluminum absorption and the risk of aluminum toxicity

Question 118

What clinicopathologic abnormality can result from aluminum toxicity?

Answer 118

Microcytic anemia

Question 119

What is alpha klotho?

Answer 119

The co-receptor for FGF23 - needed for most of FGF23’s actions. FGF23 binds to alpha-klotho and then to the FGF-1 receptor

Question 120

How do FGF23 and PTH increase renal excretion of phosphorus?

Answer 120

Downregulates two sodium-linked phosphate transporters in the proximal tubule of the kidney (NPT2a and NPT2c)

Question 121

What is occurring in fibrous osteodystrophy?

Answer 121

Demineralized bone is replaced with fibrous tissue

Question 122

What are the clinical signs of fibrous osteodystrophy in CKD dogs?

Answer 122

Osseous swelling of the maxilla and mandible, facial deformity, bone malleability (“rubber jaw”)

Question 123

Why are young dogs more prone to developing fibrous osteodystrophy?

Answer 123

Incomplete skeletal maturation - require higher calcium concentrations, bones more easily demineralized

Question 124

Why does systemic hypertension develop in humans with CKD?

Answer 124

Mineralization/calcification of the vascular walls occurs - unknown if this occurs in dogs/cats

Question 125

What are calcimimetic drugs and how do they work?

Answer 125

Act on the calcium sensing receptor in the parathyroid gland to reduce PTH secretion. Cinacalcet is the most commonly used

Question 126

After controlling hyperphosphatemia with diet and phosphate binders, what laboratory test should be performed?

Answer 126

Check PTH concentration

Question 127

If PTH is still high after correcting hyperphosphatemia, what medications are indicated?

Answer 127

If iCa is low - calcitriol
If iCa is high - cinacalcet
If iCa is normal, could try either with close monitoring (JD likes cinacalet)

Question 128

What form of phosphorus may be detrimental to renal health?

Answer 128

Soluble, inorganic phosphates - more bioavailable than organic or insoluble phosphates

Question 129

In normophosphatemic dogs with CKD, a serum FGF-23 > 528 pg/mL was associated with what?

Answer 129

Shorter time to development of hyperphosphatemia and CKD progression

Question 130

Cats with early CKD developed what when fed a low protein, low phosphorus diet?

Answer 130

Hypercalcemia and elevated FGF-23

Did not occur on a moderate protein, moderate phosphorus diet - may be more appropriate for early CKD

Question 131

In a retrospective study of 37 dogs: Compared to healthy dogs, what forms of vitamin D were decreased in dogs with IRIS stage I and II CKD? Stages III and IV CKD?

Answer 131

Stage I and II - no difference

Stage III and IV - All of them were decreased- calcidiol, calcitriol, 24,25(OH)2D

Question 132

What is the sensitivity and specificity for total calcium to predict ionized calcium in CKD cats?

Answer 132

Sensitivity is 27%
Specificity is 100%

So if they have total hypercalcemia, they likely have ionized hypercalcemia. But if the total is normal, who knows what the ionized is doing

Question 133

What other clinicopathologic change caused total calcium to underestimate ionized calcium in CKD cats?

Answer 133

Low serum bicarbonate (acidosis => increased iCa)

Question 134

What are the strongest independent predictors of FGF-23 concentration in CKD dogs?

Answer 134

Creatinine (worse IRIS stage = higher FGF23) and phosphorus

Question 135

What factors were independent predictors of survival time and CKD progression in a study of 200 CKD cats?

Answer 135

FGF-23 and age

Question 136

What changes were noted in the bone of dogs with CKD vs healthy dogs?

Answer 136

• Decreased lacunae size
• Increased resorption cavity density
• Increased overall porosity

All changes were relatively mild and unlikely to cause clinical signs

Question 137

In dogs with CKD, supplementation with calcifediol lead to what clinicopathologic changes?

Answer 137

• Increased levels of all vitamin D metabolites
• No difference in calcium, phosphorus, PTH
• Increased FGF-23

Question 138

Long term bisphosphonate use in cats can lead to what rare side effect?

Answer 138

Osteonecrosis of the jaw

Question 139

What predicts post-operative hypocalcemia in dogs undergoing surgical treatment of hyperparathyroidism?

Answer 139

Pre-operative hypercalcemia - moderate correlation with post-operative hypocalcemia. Dogs with iCa >1.7 were more likely to be hypocalcemia