scholarly journals Deoxyglucose Kinetics in a Rat Brain Tumor

1989 ◽  
Vol 9 (3) ◽  
pp. 315-322 ◽  
Author(s):  
Michael M. Graham ◽  
Alexander M. Spence ◽  
Mark Muzi ◽  
Gregory L. Abbott
Keyword(s):  
Rate Constants ◽  
Liquid Scintillation ◽  
Scintillation Counting ◽  
Metabolic Rates ◽  
Blood Samples ◽  
Time Points ◽  
Lumped Constant ◽  
Rat Brain Tumor ◽  
Dg Method ◽  
Dual Tracer

Accurate quantitation of local glucose metabolic rates (LMRglc) of abnormal tissues such as brain tumors with the 2-deoxyglucose (DG) method requires knowledge of the tissue rate constants and lumped constant. The deoxyglucose rate constants were measured in an experimental intracerebral glioma in 24 awake rats with a dual tracer [(3H)-DG and (14C)-DG] method. Tissue time points were obtained at 2, 5, 10, 18, 30, 60, 90, and 180 min after injection by decapitation and liquid scintillation counting. Blood samples were obtained at 1 min intervals initially and at longer intervals later. The rate constants were estimated with parameter estimation. LMRglc was calculated from the rate constants, assuming a lumped constant of 0.5. K1 for normal cerebrum was found to be 0.258 ml/g/min, and k2– k4 were 0.406, 0.075, and 0.0103 min−1; LMRglc = 65.1 μ;mol/100 g/min. The corresponding values for the glioma were 0.108, 0.126, 0.040, and 0.0019 with LMRglc = 41.7. The considerably lower k4 in the glioma was reflected in persistent higher activity in the glioma at longer times. Thus, tissue activity alone cannot be used to assess relative glucose metabolic rates in abnormal tissues such as gliomas, particularly at late times after injection.

Preparation of whole blood for liquid scintillation counting.

1981 ◽  
Vol 27 (4) ◽  
pp. 609-611 ◽  
Author(s):  
P A Moore
Keyword(s):  
Whole Blood ◽  
Liquid Scintillation Counting ◽  
Liquid Scintillation ◽  
Scintillation Counting ◽  
Blood Samples ◽  
Dry Oxidation ◽  
Whole Blood Samples ◽  
Blood Volumes ◽  
Blood Pigments

Abstract Liquid scintillation counting of 3H-labeled whole-blood samples is severely impaired owing to quenching by blood pigments. In this study, dry oxidation and chemical solubilization followed by decolorization were the two general methods used to eliminate color quenching. Three blood volumes were examined: 0.25, 0.50, and 1.0 mL. Dry oxidation yielded complete recoveries of 3H label with counting efficiencies greater than 30% for up to 1.0 mL of blood. Although blood volumes larger than 0.25 mL can be used with chemical solubilization and decolorization, treatment of 0.25 mL of blood gave the highest counting efficiencies, with count rates comparable to those for 1.0-mL samples.

scholarly journals Effect of Ischemia on Quantification of Local Cerebral Glucose Metabolic Rate in Man

1981 ◽  
Vol 1 (1) ◽  
pp. 37-51 ◽  
Author(s):  
Randall A. Hawkins ◽  
Michael E. Phelps> ◽  
Sung-Cheng Huang ◽  
David E. Kuhl
Keyword(s):  
Glucose Metabolism ◽  
Metabolic Rate ◽  
Rate Constants ◽  
Normal Values ◽  
Cerebral Glucose Metabolism ◽  
Stroke Rate ◽  
Metabolic Rates ◽  
Lumped Constant ◽  
Glucose Metabolic Rate ◽  
The Stability

The model for quantifying local cerebral glucose metabolic rates originally developed by Sokoloff et al. and modified by Phelps, Huang and co-workers was applied to humans with cerebral ischemia (i.e., stroke). Rate constants for fluorodeoxyglucose were measured in ischemic and nonischemic regions with positron computed tomography. Using measured rate constants for ischemia, the model generates more accurate estimates of local cerebral glucose metabolism as compared to the use of rate constants from normal young adults, because the local metabolic rate is significantly underestimated, and temporal instability of the model is observed when normal values are applied to ischemic regions. A method was also developed to test the stability of the local lumped constant. The estimates of the lumped constant showed no or only small variations between ischemic and nonischemic types. Thus, errors introduced in the calculated local cerebral glucose metabolism by inappropriate rate constants appear to be more significant than those caused by any potential change in the lumped constant in ischemia.

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