Formula for the estimation of urine osmolality in healthy cats

A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixtee...

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Published in	Research in veterinary science Vol. 135; pp. 121 - 126
Main Authors	Bouzouraa, Tarek, Rannou, Benoit, Cappelle, Julien, Bonnet-Garin, Jeanne-Marie, Cadoré, Jean-Luc
Format	Journal Article
Language	English
Published	England Elsevier Ltd 01.03.2021 Elsevier Limited Elsevier
Subjects	Animal biology Animals Cats Correlation analysis Correlation coefficient Correlation coefficients Creatinine Density Diagnostic Tests, Routine - statistics & numerical data Diagnostic Tests, Routine - veterinary Feline Freezing Glucose Glucose - analysis Intravenous administration Intravenous infusion Life Sciences Linear Models Osmolar Concentration Physiology Potassium Reference Values Regression models Sodium Sodium - analysis Statistical analysis Ultrasound Urea Urea - analysis Urine Urine - chemistry Urine osmolality Variables Veterinary medicine France ECVIM IRIS Feline AICC USG Urine osmolality RL ACVIM Uosm CKD IV
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Abstract	A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixteen healthy cats under 5 years of age receiving intravenous infusion over a period of 24 h. Samples were collected at baseline (T0), T2, T6, T12, and T24. Urine osmolality was measured using a freezing-point osmometer, and the concentrations of osmolytes (urea, sodium, glucose, and potassium) were evaluated. A simple linear regression model for a clinical use was selected, and the agreement between the calculated and actual urine osmolalities was assessed. Urinary concentrations of urea, sodium and glucose were the three variables included in the model with the lowest AICC. Urine osmolality can be predicted accurately and precisely using urine urea, sodium and glucose with the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl). The concordance correlation coefficient for repeated measures between the actual and the calculated urine osmolality was extremely close to 1, which supported a high agreement: 0.996 (CI 95%: [0.993; 0.998]). In a population of healthy cats, urine osmolality can be predicted accurately and precisely using urinary urea, sodium and glucose concentrations. Similar formulae could potentially be established to help the clinician in pathological situations. •Urine osmolality can be predicted accurately and precisely using urine sodium, urea and glucose in healthy cats.•Urine osmolality in cats can be calculated using the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl).•This formula is applicable to healthy cat
AbstractList	A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixteen healthy cats under 5 years of age receiving intravenous infusion over a period of 24 h. Samples were collected at baseline (T0), T2, T6, T12, and T24. Urine osmolality was measured using a freezing-point osmometer, and the concentrations of osmolytes (urea, sodium, glucose, and potassium) were evaluated. A simple linear regression model for a clinical use was selected, and the agreement between the calculated and actual urine osmolalities was assessed. Urinary concentrations of urea, sodium and glucose were the three variables included in the model with the lowest AICC. Urine osmolality can be predicted accurately and precisely using urine urea, sodium and glucose with the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl). The concordance correlation coefficient for repeated measures between the actual and the calculated urine osmolality was extremely close to 1, which supported a high agreement: 0.996 (CI 95%: [0.993; 0.998]). In a population of healthy cats, urine osmolality can be predicted accurately and precisely using urinary urea, sodium and glucose concentrations. Similar formulae could potentially be established to help the clinician in pathological situations. A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixteen healthy cats under 5 years of age receiving intravenous infusion over a period of 24 h. Samples were collected at baseline (T0), T2, T6, T12, and T24. Urine osmolality was measured using a freezing-point osmometer, and the concentrations of osmolytes (urea, sodium, glucose, and potassium) were evaluated. A simple linear regression model for a clinical use was selected, and the agreement between the calculated and actual urine osmolalities was assessed. Urinary concentrations of urea, sodium and glucose were the three variables included in the model with the lowest AICC. Urine osmolality can be predicted accurately and precisely using urine urea, sodium and glucose with the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl). The concordance correlation coefficient for repeated measures between the actual and the calculated urine osmolality was extremely close to 1, which supported a high agreement: 0.996 (CI 95%: [0.993; 0.998]). In a population of healthy cats, urine osmolality can be predicted accurately and precisely using urinary urea, sodium and glucose concentrations. Similar formulae could potentially be established to help the clinician in pathological situations A simple and intuitive formula for the estimation of urine osmolality (U ) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixteen healthy cats under 5 years of age receiving intravenous infusion over a period of 24 h. Samples were collected at baseline (T ), T , T , T , and T . Urine osmolality was measured using a freezing-point osmometer, and the concentrations of osmolytes (urea, sodium, glucose, and potassium) were evaluated. A simple linear regression model for a clinical use was selected, and the agreement between the calculated and actual urine osmolalities was assessed. Urinary concentrations of urea, sodium and glucose were the three variables included in the model with the lowest AIC . Urine osmolality can be predicted accurately and precisely using urine urea, sodium and glucose with the following equation: U = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl). The concordance correlation coefficient for repeated measures between the actual and the calculated urine osmolality was extremely close to 1, which supported a high agreement: 0.996 (CI 95%: [0.993; 0.998]). In a population of healthy cats, urine osmolality can be predicted accurately and precisely using urinary urea, sodium and glucose concentrations. Similar formulae could potentially be established to help the clinician in pathological situations. A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide range of urine dilutions was proposed in healthy cats. Sixty-three urine samples were retrieved using ultrasound-guided cystocentesis from sixteen healthy cats under 5 years of age receiving intravenous infusion over a period of 24 h. Samples were collected at baseline (T0), T2, T6, T12, and T24. Urine osmolality was measured using a freezing-point osmometer, and the concentrations of osmolytes (urea, sodium, glucose, and potassium) were evaluated. A simple linear regression model for a clinical use was selected, and the agreement between the calculated and actual urine osmolalities was assessed. Urinary concentrations of urea, sodium and glucose were the three variables included in the model with the lowest AICC. Urine osmolality can be predicted accurately and precisely using urine urea, sodium and glucose with the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl). The concordance correlation coefficient for repeated measures between the actual and the calculated urine osmolality was extremely close to 1, which supported a high agreement: 0.996 (CI 95%: [0.993; 0.998]). In a population of healthy cats, urine osmolality can be predicted accurately and precisely using urinary urea, sodium and glucose concentrations. Similar formulae could potentially be established to help the clinician in pathological situations. •Urine osmolality can be predicted accurately and precisely using urine sodium, urea and glucose in healthy cats.•Urine osmolality in cats can be calculated using the following equation: Uosm = 1.25 × urea (mmol/l) or 20.87 × urea (g/l) + 1.1 × sodium (mmol/l) + 67 × glucose (mmol/l) or 3.72 × glucose (mg/dl).•This formula is applicable to healthy cat
Author	Cadoré, Jean-Luc Bouzouraa, Tarek Rannou, Benoit Cappelle, Julien Bonnet-Garin, Jeanne-Marie
Author_xml	– sequence: 1 givenname: Tarek surname: Bouzouraa fullname: Bouzouraa, Tarek email: armonia.medecine@gmail.com organization: Clinique Vétérinaire Armonia – Internal Medicine Unit, Villefontaine, France – sequence: 2 givenname: Benoit surname: Rannou fullname: Rannou, Benoit organization: Department of Clinical Pathology, VetAgro Sup – Campus Vétérinaire, Marcy l'Etoile, France – sequence: 3 givenname: Julien surname: Cappelle fullname: Cappelle, Julien organization: UMR EpiA, VetAgro Sup, INRA, F-69280 Marcy l'Étoile, France – sequence: 4 givenname: Jeanne-Marie surname: Bonnet-Garin fullname: Bonnet-Garin, Jeanne-Marie organization: Department of Physiology – APCSE Unit, VetAgro Sup – Campus Vétérinaire, Marcy l'Etoile, France – sequence: 5 givenname: Jean-Luc surname: Cadoré fullname: Cadoré, Jean-Luc organization: Department of Companion Animal, Internal Medicine Unit – UMR 754 INRA “Infections virales et pathologie comparée” (Cadoré), VetAgro Sup – Campus Vétérinaire, Marcy l'Etoile, France
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Cites_doi	10.1097/00000441-200201000-00007 10.1080/10543400701329422 10.1016/j.cmpb.2012.09.002 10.1093/jn/132.6.1754S 10.1016/j.tvjl.2009.12.006 10.1016/S0195-5616(96)50215-9 10.1111/j.1939-1676.2007.tb03005.x 10.1111/j.1939-1676.1997.tb00070.x 10.1016/j.clinbiochem.2005.03.001 10.1210/jcem-36-5-1019 10.1080/10543400802527890 10.1016/j.cvsm.2008.01.011 10.18637/jss.v034.i12 10.1002/jcla.20424 10.1111/j.1939-165X.2006.tb00131.x 10.1111/j.1476-4431.2005.00161.x 10.2460/ajvr.74.12.1542 10.1111/jsap.12046
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Keywords	ECVIM IRIS Feline AICC USG Urine osmolality RL ACVIM Uosm CKD IV
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Snippet	A simple and intuitive formula for the estimation of urine osmolality (Uosm) using the measured concentrations of major active urine osmolytes over a wide... A simple and intuitive formula for the estimation of urine osmolality (U ) using the measured concentrations of major active urine osmolytes over a wide range...
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SubjectTerms	Animal biology Animals Cats Correlation analysis Correlation coefficient Correlation coefficients Creatinine Density Diagnostic Tests, Routine - statistics & numerical data Diagnostic Tests, Routine - veterinary Feline Freezing Glucose Glucose - analysis Intravenous administration Intravenous infusion Life Sciences Linear Models Osmolar Concentration Physiology Potassium Reference Values Regression models Sodium Sodium - analysis Statistical analysis Ultrasound Urea Urea - analysis Urine Urine - chemistry Urine osmolality Variables Veterinary medicine
Title	Formula for the estimation of urine osmolality in healthy cats
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