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Glucose Administration (glucose + administration)

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Medical Sciences100%

Selected Abstracts

Effect of amino acid and glucose administration following exercise on the turnover of muscle protein in the hindlimb femoral region of Thoroughbreds

EQUINE VETERINARY JOURNAL, Issue S36 2006
A. MATSUI
Summary Reasons for performing study: In man, muscle protein synthesis is accelerated by administering amino acids (AA) and glucose (Glu), because increased availability of amino acids and increased insulin secretion, is known to have a protein anabolic effect. However, in the horse, the effect on muscle hypertrophy of such nutrition management following exercise is unknown. Objectives: To determine the effect of AA and Glu administration following exercise on muscle protein turnover in horses. We hypothesise that administration of AA and Glu after exercise effects muscle hypertrophy in horses, as already shown in man and other animals. Methods: Measurements of the rate of synthesis (Rs) and rate of degradation (Rd) of muscle protein in the hindlimb femoral region of thoroughbred horses were conducted using the isotope dilution method to assess the differences between the artery and iliac vein. Six adult Thoroughbreds received a continuous infusion of L-[ring- 2H5]-phenylalanine during the study, the stable period for plasma isotope concentrations (60 min), resting periods (60 min), treadmill exercise (15 min) and recovery period (240 min). All horses were given 4 solutions (saline [Cont], 10% AA [10-AA], 10% Glu [10-Glu] and a mixture with 10% AA and 10% Glu [10-Mix]) over 120 min after exercise, and the Rs and Rd of muscle protein in the hindlimb measured. Results: The average Rs during the 75,120 min following administration of 10-Mix was significantly greater than for the other solutions (P<0.05). The second most effective solution was 10-AA, and there was no change in Rs after 10-Glu. Conclusions: Administration of AA following exercise accelerated Rs in the hindlimb femoral region, and this effect was enhanced when combined with glucose, because of increasing insulin secretion or a decreased requirement for AA for energy. Potential relevance: Further studies are required regarding the effect on muscle hypertrophy of supplementing amino acids and glucose in the feed of exercising horses. [source]

Doppler sonographic characteristics of umbilical and uterine arteries during oral glucose tolerance testing in healthy pregnant women

JOURNAL OF CLINICAL ULTRASOUND, Issue 9 2003
Yariv Yogev MD
Abstract Purpose Studies have shown that maternal hyperglycemia may be associated with increased placental resistance to blood flow and possibly adverse perinatal outcomes. The aim of this study was to determine whether Doppler velocimetric dynamics change in the uterine and umbilical arteries in healthy pregnant women (without gestational diabetes) during acute hyperglycemia induced by oral glucose tolerance testing. Methods Flow in the umbilical and right and left uterine arteries was assessed by spectral Doppler sonographic examination of healthy pregnant women at 24,28 weeks' menstrual age. Four Doppler studies were conducted for each woman: 1 before oral administration of 100 g of glucose and 3 more at 1, 2, and 3 hours after glucose administration. The systolic-to-diastolic ratio was calculated for the umbilical artery, and the resistance index was calculated separately for the left and right uterine arteries. Results All results of oral glucose tolerance testing were normal, and Doppler signals were obtained in all 30 patients enrolled. No abnormal systolic-to-diastolic ratios or resistance indices were detected in any of the examinations. No significant differences in waveforms or resistance indices between the right and left uterine arteries were found during the various testing intervals. Conclusions Acute hyperglycemia induced in healthy pregnant women does not affect blood flow velocimetric characteristics in the umbilical or uterine arteries at any stage of oral glucose tolerance testing. © 2003 Wiley Periodicals, Inc. J Clin Ultrasound 31:461,464, 2003 [source]

Small-intestinal bacterial overgrowth in cirrhosis is related to the severity of liver disease

ALIMENTARY PHARMACOLOGY & THERAPEUTICS, Issue 12 2009
C. PANDE
Summary Background, Small-intestinal bacterial overgrowth (SIBO) is known to be present in patients with cirrhosis, predisposing to various complications. Aim, To determine the frequency of SIBO in cirrhotics and correlate with severity of cirrhosis. Methods, Small-intestinal bacterial overgrowth was determined by glucose,hydrogen breath test (GHBT). A basal breath-hydrogen >20 ppm or a rise by ,12 ppm above baseline following glucose administration was taken as positive test. Prevalence of SIBO in cirrhotics was compared with healthy controls and correlated with severity of cirrhosis. Results, Of the 53 cirrhotics, 26 (49%) had SIBO, compared to one (8%) control (P = 0.010). The prevalence of SIBO increased with severity of cirrhosis (Child,Pugh A 20%, B 52% and C 73%; P = 0.013). On multivariate analysis, SIBO was independently associated with serum bilirubin and ascites. The best cut-off of serum bilirubin was ,2 mg/dL [AUROC 0.77 (95% CI 0.64,0.90)] predicting SIBO with sensitivity 65%, specificity 81%, positive predictive value 77%, negative predictive value 71% and accuracy 74%. Patients having combination of ascites and serum bilirubin ,2 mg/dL had 82% chance, while patients having neither had only 10% chance of having SIBO. Conclusions, Small-intestinal bacterial overgrowth was prevalent in about half of cirrhotics. Its frequency increased with increase in severity of cirrhosis. Ascites and raised serum bilirubin reliably predicted presence of SIBO. [source]

Quantification of brain glycogen concentration and turnover through localized 13C NMR of both the C1 and C6 resonances

NMR IN BIOMEDICINE, Issue 3 2010
Ruud B. van Heeswijk
Abstract We have recently shown that at isotopic steady state 13C NMR can provide a direct measurement of glycogen concentration changes, but that the turnover of glycogen was not accessible with this protocol. The aim of the present study was to design, implement and apply a novel dual-tracer infusion protocol to simultaneously measure glycogen concentration and turnover. After reaching isotopic steady state for glycogen C1 using [1- 13C] glucose administration, [1,6- 13C2] glucose was infused such that isotopic steady state was maintained at the C1 position, but the C6 position reflected 13C label incorporation. To overcome the large chemical shift displacement error between the C1 and C6 resonances of glycogen, we implemented 2D gradient based localization using the Fourier series window approach, in conjunction with time-domain analysis of the resulting FIDs using jMRUI. The glycogen concentration of 5.1,±,1.6,mM measured from the C1 position was in excellent agreement with concomitant biochemical determinations. Glycogen turnover measured from the rate of label incorporation into the C6 position of glycogen in the , -chloralose anesthetized rat was 0.7,µmol/g/h. Copyright © 2009 John Wiley & Sons, Ltd. [source]