Water (H2O) is the most abundant and important molecule of life. Natural water contains small amount of heavy isotopes. Previously, few animal model studies have shown that the isotopic composition of body water could play important roles in physiology and pathophysiology. Here we study the stable isotopic ratios of hydrogen (δ2H) and oxygen (δ18O) in human blood plasma. The stable isotopic ratio is defined and determined by δsample = [(Rsample/RSTD)−1] * 1000, where R is the molar ratio of rare to abundant, for example, 18O/16O. We observe that the δ2H and the δ18O in human blood plasma are associated with the human renal functions. The water isotope ratios of the δ2H and δ18O in human blood plasma of the control subjects are comparable to those of the diabetes subjects (with healthy kidney), but are statistically higher than those of the end stage renal disease subjects (p<0.001 for both ANOVA and Student's t-test). In addition, our data indicate the existence of the biological homeostasis of water isotopes in all subjects, except the end stage renal disease subjects under the haemodialysis treatment. Furthermore, the unexpected water contents (δ2H and δ18O) in blood plasma of body water may shed light on a novel assessment of renal functions

A Shankar

AB Mamonov

AJ Branten

CAM Brenninkmeijer

CH Wang

Chun-Mao Lin

Chung-Ho Wang

CJ Konings

CP Lambert

D Dufner

D Panda

DJ Kushner

E Beitz

G Chakrabarti

G Somlyai

GJ Bowen

H Craig

Hideharu Abe

Hsien-Shou Kuo

Hsiu-Chen Lin

J Terris

JC de Wit

JF Thomson

JJ Katz

JR Ehleringer

KA Hobson

LA Chesson

LS King

M Borgnia

M Chaplin

Matthew Lin

MJ Stansell

ML Coleman

NB Argent

P Baertschi

R Gonfiantini

R Hagemann

RD Perrone

RS Tse

S Combet

S Epstein

S Lloyd

S Nielsen

S Vasdev

SC P. Berdea

SP O'Grady

T-R Peng

Tai-Chih Kuo

W Junge

Yuan-Hau Lin

ZD Sharp

English

PubMed

Water (H2O) is the most abundant and important molecule of life. Natural water contains small amount of heavy isotopes. Previously, few animal model studies have shown that the isotopic composition of body water could play important roles in physiology and pathophysiology. Here we study the stable isotopic ratios of hydrogen (d2H) and oxygen (d18O) in human blood plasma. The stable isotopic ratio is defined and determined by dsample = [(Rsample/RSTD)21]  * 1000, where R is the molar ratio of rare to abundant, for example, 18O/16O. We observe that the d2H and the d18O in human blood plasma are associated with the human renal functions. The water isotope ratios of the d2H and d18O in human blood plasma of the control subjects are comparable to those of the diabetes subjects (with healthy kidney), but are statistically higher than those of the end stage renal disease subjects (p,0.001 for both ANOVA and Student’s t-test). In addition, our data indicate the existence of the biological homeostasis of water isotopes in all subjects, except the end stage renal disease subjects under the haemodialysis treatment. Furthermore, the unexpected water contents (d2H and d18O) in blood plasma of body water may shed light on a novel assessment of renal functions

Shou Kuo

CiteSeerX

Assessment of Renal Function by the Stable Oxygen and Hydrogen Isotopes in Human Blood Plasma

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PLoS ONE

Water (H(2)O) is the most abundant and important molecule of life. Natural water contains small amount of heavy isotopes. Previously, few animal model studies have shown that the isotopic composition of body water could play important roles in physiology and pathophysiology. Here we study the stable isotopic ratios of hydrogen (δ(2)H) and oxygen (δ(18)O) in human blood plasma. The stable isotopic ratio is defined and determined by δ(sample) = [(R(sample)/R(STD))-1] * 1000, where R is the molar ratio of rare to abundant, for example, (18)O/(16)O. We observe that the δ(2)H and the δ(18)O in human blood plasma are associated with the human renal functions. The water isotope ratios of the δ(2)H and δ(18)O in human blood plasma of the control subjects are comparable to those of the diabetes subjects (with healthy kidney), but are statistically higher than those of the end stage renal disease subjects (p<0.001 for both ANOVA and Student's t-test). In addition, our data indicate the existence of the biological homeostasis of water isotopes in all subjects, except the end stage renal disease subjects under the haemodialysis treatment. Furthermore, the unexpected water contents (δ(2)H and δ(18)O) in blood plasma of body water may shed light on a novel assessment of renal functions

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Assessment of renal function by the stable oxygen and hydrogen isotopes in human blood plasma.

Kuo Tai-Chih

Wang Chung-Ho

Lin Hsiu-Chen

Lin Yuan-Hau

Lin Matthew

Lin Chun-Mao

Kuo Hsien-Shou

Public Library of Science (PLOS)

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Assessment of Renal Function by the Stable Oxygen and Hydrogen Isotopes in Human Blood Plasma

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