Shyan–Yih Chou scite author profile

It is now becoming apparent that the medullary circulation in the kidney can be regulated separately from overall renal blood flow. This characteristic of the medullary circulation plays an important role in the kidney's ability to excrete a dilute or concentrated urine in concert with changes in water and sodium transport in the distal nephron secondary to the action of vasopressin, prostaglandins, the renal nerves, and other hormones without significant other renal hemodynamic changes. There is strong evidence that renal autocoids such as angiotensin II and prostaglandins uniquely affect regional blood flow in the inner medulla because of the special structure and organization of the microvasculature in this region. There is also evidence that this regional blood flow is in part regulated by circulating hormones, such as vasopressin and atrial natriuretic peptide, which are released in response to changes in extracellular fluid volume or osmolality. In addition, data are emerging to suggest that the kallikrein-kinin system, acetylcholine, the renal nerves and adenosine participate in this regulation. In addition to the role of the medullary circulation in the urinary concentrating operation, there are data to suggest that the medullary circulation either directly (by changes in physical forces) or indirectly (by regulating medullary toxicity) may influence sodium excretion in a variety of conditions. In this regard, activation of the renin-angiotensin system locally reduces blood flow in the papilla which may be necessary before sodium retention is fully expressed in salt retaining states. Future research looking at the microvasculature of the medulla and papilla and those factors that control the contractility of these vessels are necessary before a clearer picture emerges. Nevertheless, from the data already available it seems reasonable to suggest that the medullary circulation may be as important to kidney function during physiological and pathophysiological states as is the cortical circulation.

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Trimethoprim-Sulfamethoxazole Induces Reversible Hyperkalemia

Greenberg

Reiser²,

Chou³

et al. 1993

Ann Intern Med

101

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Pulmonary calcification in hemodialyzed patients detected by technetium-99m diphosphonate scanning

Faubert¹,

Shapiro²,

Porush³

et al. 1980

Kidney International

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Metastatic pulmonary calcification, a well-known complication in patients with chronic disease, has been demonstrated postmortem in patients with a negative chest X-ray. Recently, scintigrams with bone-seeking radionuclides have been used to detect such subclinical pulmonary calcium deposits. We describe 23 patients on maintenance hemodialysis with no evidence of pulmonary calcification on chest X-ray who were prospectively studied by lung scanning with a bone-seeking radionuclide and pulmonary function testing. Of the 23 patients, 14 (61%) had a positive technetium-99m diphosphonate (99mTc-DP) scan (group 1). These patients were on dialysis 38 +/- 5 months compared with 12 +/- 4 months in 9 patients with a negative scan (group 2) (P less than 0.01). Age, sex, blood pressure, hematocrit, serum calcium, phosphorous, bicarbonate, magnesium, and calcium X phosphorus product, as well as parathyroid hormone level did not differ between the two groups. Of 10 group-1 patients tested, 7 had abnormal pulmonary diffusion capacity compared with non in 5 group-2 patients tested (P = 0.014). Histologic examination of the lung in 1 group-1 patients who expired revealed calcification (amorphous on X-ray diffraction), whereas none was found in 1 group-2 patients autopsied. These observations suggest that in patients on maintenance hemodialysis, pulmonary scanning with 99mTc-DP is a sensitive method for detecting pulmonary metastatic calcification, which may be associated with an abnormality in pulmonary diffusion capacity.

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Regulation of papillary plasma flow by angiotensin II

Faubert

Chou

Porush

1987

Kidney International

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We examined in anesthetized dogs the effects of left (L) intrarenal artery infusion of angiotensin II (AII) on renal hemodynamics, urinary concentration and Na excretion, and papillary plasma flow (PPF) (measured by the albumin accumulation technique) in both kidneys. Following AII infusion (0.5 ng/kg/min) into the L renal artery, urinary Na excretion decreased and osmolality increased slightly ipsilaterally, whereas Na excretion did not change significantly and osmolality decreased in the right (R) kidney. PPF was significantly lower in the L compared to the R kidney. When saline loading was superimposed on L intrarenal AII infusion, there was a blunted natriuretic response ipsilaterally with a significantly smaller decrease in urine osmolality compared with the R kidney. PPF increased significantly in the R, but not in the L kidney. Finally, AII blockade with saralasin prior to AII infusion and saline loading prevented the differences between the two kidneys, including PPF. In all groups GFR and renal blood flow did not differ between the two kidneys before or after AII. These data suggest that AII regulates regional blood flow in the medulla, and that the exogenously administered AII induces papillary ischemia, which serves to preserve medullary hypertonicity, preventing an increase in PPF during saline loading, and possibly contributing to the diminished natriuretic response.

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Calcium-sensing receptor gene polymorphism Arg990Gly and its possible effect on response to cinacalcet HCl

Rothe

Shapiro

Sun

et al. 2005

Pharmacogenetics and Genomics

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Cinacalcet, a novel calcimimetic compound, is effective in reducing parathyroid hormone (PTH) levels in approximately 70% of patients with secondary hyperparathyroidism. However, interindividual variations in the dose required to achieve the treatment goal have been noted in clinical studies. Our investigation examined the genetic polymorphisms of the calcium-sensing receptor (CaSR) gene as one possible cause of the different responses to cinacalcet. We report data on seven end-stage renal failure patients who were treated with regular haemodialysis and who participated in clinical trials of cinacalcet. All patients had secondary hyperparathyroidism with baseline intact PTH (iPTH) levels greater than 600 pg/ml. Three patients were male and four female with a mean+/-SD age of 60+/-12 years. DNA was extracted from peripheral lymphocytes. An area in exon 7 of the CaSR gene was amplified by the polymerase chain reaction and sequenced. Mean+/-SD baseline iPTH was 1086+/-189 pg/ml. The five patients without Arg990Gly demonstrated a 29.7+/-4.0% (+/-SEM) reduction in iPTH from individual baseline. One patient was found to be homozygous for the Arg990Gly polymorphism and another was heterozygous for both arginine and glycine alleles. The homozygous patient showed a significantly higher sensitivity to cinacalcet compared to the other patients (P=0.003) with a 76.3+/-7.7% reduction in iPTH from baseline. No polymorphisms were noted in codons 986 or 1011. This preliminary study points to the possibility that patients homozygous for glycine at the 990 position in exon 7 of the CaSR may be more sensitive to the calcimimetic drug cinacalcet compared to those who are homozygous for arginine at that location.

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Shyan–Yih Chou

Renal medullary circulation: Hormonal control

Trimethoprim-Sulfamethoxazole Induces Reversible Hyperkalemia

Pulmonary calcification in hemodialyzed patients detected by technetium-99m diphosphonate scanning

Regulation of papillary plasma flow by angiotensin II

Calcium-sensing receptor gene polymorphism Arg990Gly and its possible effect on response to cinacalcet HCl

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