A. Miyano scite author profile

A. Miyano

5Publications

43Citation Statements Received

100Citation Statements Given

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Iwate University

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A Single‐Blood‐Sample Method Using Inulin for Estimating Feline Glomerular Filtration Rate

Katayama

Saito

Katayama

et al. 2012

Veterinary Internal Medicne

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Background: Application of a multisample method using inulin to estimate glomerular filtration rate (GFR) in cats is cumbersome.Objectives: To establish a simplified procedure to estimate GFR in cats, a single-blood-sample method using inulin was compared with a conventional 3-sample method.Animals: Nine cats including 6 clinically healthy cats and 3 cats with spontaneous chronic kidney disease. Methods: Retrospective study. Inulin was administered as an intravenous bolus at 50 mg/kg to cats, and blood was collected at 60, 90, and 120 minutes later for the 3-sample method. Serum inulin concentrations were colorimetrically determined by an autoanalyzer method. The GFR in the single-blood-sample method was calculated from the dose injected, serum concentration, sampling time, and estimated volume of distribution on the basis of the data of the 3-sample method.Results: An excellent correlation was observed (r = 0.99, P = .0001) between GFR values estimated by the singleblood-sample and 3-sample methods.Conclusions and Clinical Importance: The single-blood-sample method using inulin provides a practicable and ethical alternative for estimating glomerular filtration rate in cats.

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Glomerular filtration rate in Holstein dairy cows estimated from a single blood sample using iodixanol

Murayama¹,

Miyano

Sasaki

et al. 2013

Journal of Dairy Science

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The isotonic, nonionic, contrast medium iodixanol, as a test substance, was compared with the conventional glomerular filtration rate (GFR) tracer inulin to establish a simplified procedure for estimating the GFR in Holstein dairy cows. First, inulin and iodixanol were coadministered as a bolus intravenous injection to clinically healthy cows at 30 mg/kg and 10mg of I/kg of body weight, respectively, followed by blood collection for multisample strategies. Serum iodixanol and inulin concentrations were separately determined by using HPLC and colorimetry, respectively, and blood urea nitrogen and creatinine concentrations in sera were measured. In the multisample method, the GFR values estimated by iodixanol were consistent with those estimated by inulin. No effects of body weight, age, or parity on GFR estimates were noted with either protocol used. No difference was observed between the GFR values obtained from nonlactating and lactating cows, suggesting that no transfer of iodixanol to milk occurred. An equation for calculating the GFR in the single-sample method was derived from the injected dose, sampling time, serum concentration, and estimated volume of distribution based on data from the multisample method in clinically healthy cows and cows with reduced renal function. The GFR values estimated by the single-sample method were in good agreement with those calculated by using the multisample method. These results demonstrate that the single-sample method using iodixanol can be applied as an alternative procedure for screening GFR in dairy cows.

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Technical note: Use of a simplified equation for estimating glomerular filtration rate in beef cattle1

Murayama¹,

Miyano

Sasaki

et al. 2013

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This study was performed to clarify whether a formula (Holstein equation) based on a single blood sample and the isotonic, nonionic, iodine contrast medium iodixanol in Holstein dairy cows can apply to the estimation of glomerular filtration rate (GFR) for beef cattle. To verify the application of iodixanol in beef cattle, instead of the standard tracer inulin, both agents were coadministered as a bolus intravenous injection to identical animals at doses of 10 mg of I/kg of BW and 30 mg/kg. Blood was collected 30, 60, 90, and 120 min after the injection, and the GFR was determined by the conventional multisample strategies. The GFR values from iodixanol were well consistent with those from inulin, and no effects of BW, age, or parity on GFR estimates were noted. However, the GFR in cattle weighing less than 300 kg, aged<1 yr old, largely fluctuated, presumably due to the rapid ruminal growth and dynamic changes in renal function at young adult ages. Using clinically healthy cattle and those with renal failure, the GFR values estimated from the Holstein equation were in good agreement with those by the multisample method using iodixanol (r=0.89, P=0.01). The results indicate that the simplified Holstein equation using iodixanol can be used for estimating the GFR of beef cattle in the same dose regimen as Holstein dairy cows, and provides a practical and ethical alternative.

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Glomerular filtration rate in cows estimated by a prediction formula

Murayama¹,

Miyano

Sato

et al. 2014

Animal Science Journal

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To testify the relevance of Jacobsson's equation for estimating bovine glomerular filtration rate (GFR), we prepared an integrated formula based on its equation using clinically healthy dairy (n=99) and beef (n=63) cows, and cows with reduced renal function (n=15). The isotonic, nonionic, contrast medium iodixanol was utilized as a test tracer. The GFR values estimated from the integrated formula were well consistent with those from the standard multisample method in each cow strain, and the Holstein equation prepared by a single blood sample in Holstein dairy cows. The basal reference GFR value in healthy dairy cows was significantly higher than that in healthy beef cows, presumably due to a breed difference or physiological state difference. It is concluded that the validity for the application of Jacobsson's equation to estimate bovine GFR is proven and it can be used in bovine practices.

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Erratum to “Glomerular filtration rate in Holstein dairy cows estimated from a single blood sample using iodixanol” (J. Dairy Sci. 96:5120–5128)

Murayama¹,

Miyano²,

Sasaki³

et al. 2013

Journal of Dairy Science

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A. Miyano

A Single‐Blood‐Sample Method Using Inulin for Estimating Feline Glomerular Filtration Rate

Glomerular filtration rate in Holstein dairy cows estimated from a single blood sample using iodixanol

Technical note: Use of a simplified equation for estimating glomerular filtration rate in beef cattle1

Glomerular filtration rate in cows estimated by a prediction formula

Erratum to “Glomerular filtration rate in Holstein dairy cows estimated from a single blood sample using iodixanol” (J. Dairy Sci. 96:5120–5128)

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