Feasibility of imaging pentose cycle glucose metabolism in gliomas with PET : Studies in rat brain tumor models

Alexander M Spence; Michael M Graham; Mark Muzi; Scott D Freeman; Jeanne M Link; John R Grierson; Finbarr O'Sullivan; Donna Stein; Gregory L Abbott; Kenneth A Krohn

Feasibility of imaging pentose cycle glucose metabolism in gliomas with PET : Studies in rat brain tumor models

Journal article

Peer reviewed

Feasibility of imaging pentose cycle glucose metabolism in gliomas with PET : Studies in rat brain tumor models

Alexander M Spence, Michael M Graham, Mark Muzi, Scott D Freeman, Jeanne M Link, John R Grierson, Finbarr O'Sullivan, Donna Stein, Gregory L Abbott and Kenneth A Krohn

The Journal of nuclear medicine (1978), Vol.38(4), pp.617-624

1997

PMID: 9098213

View Online

Abstract

The feasibility of imaging pentose cycle (PC) glucose utilization in human gliomas with PET was explored in two rat glioma models by means of glucose radiolabeled in either the carbon-1 (C-1) or carbon-6 (C-6) position. Methods: In vitro, monolayers of T-36B-10 glioma, tissue slices of intracerebral glioma grafts or slices of normal brain were fed [1-14C]glucose or [6-14C]glucose, and the generated [14C]CO2 was trapped to quantitate the ratio of [14C]CO2 from 14C-1 versus 14C-6. In vivo, rats bearing grafts of either T-36B-10 or T-C6 rat gliomas at six subcutaneous sites received simultaneous intravenous injections of either [1-11C]glucose and [6-14C]glucose, or [1-14C]glucose and [6-11C]glucose. Tumors were excised between 5 and 55 min postinjection to quantify tracer uptake while arterial plasma was collected to derive time-activity input curves. Results: In vitro, the C-1/C-6 ratio for CO2 production from T-36B-10 monolayers was 8.8 +/- 0.4 (s.d.), in glioma slices it was 6.1 +/- 2.1 and in normal brain slices it was 1.1 +/- 0.7. PC metabolism in T-36B-10 was 1.8% +/- 0.5 of total glucose utilization. In vivo, tumor radioactivity levels normalized by plasma isotopic glucose levels showed that retained C-1 relative to C-6 radiolabeled glucose was significantly lower in both gliomas, 4.9% lower in T-36B-10 (p < 0.01) and 4.7% lower in T-C6 (p < 0.01). In an additional group of rats bearing T-36B-10 gliomas and exposed to 10 Gy of 137Cs irradiation 4 hr before isotope injection, the C-1 level was 5.6% lower than that for C-6 (p < 0.05). These results were analyzed with a model of glucose metabolism that simultaneously optimized parameters for C-1 and C-6 glucose kinetics by simulating the C-1 and C-6 tumor time-activity curves. The rate constant for loss of radiolabeled carbon from the tumors, k4, was higher for C-1 than for C-6 in all groups of rats (19% higher for T-36B-10 unirradiated, 32% for T-36B-10 irradiated and 32% for T-C6 unirradiated). Conclusion: Mathematical modeling, Monte Carlo simulations and construction of receiver-operator-characteristic curves show that if human gliomas have a similar fractional use of the PC, it should be measurable with PET using sequential studies with [1-11C]glucose and [6-11C]glucose.

Nervous System

Biological and medical sciences

Radionuclide investigations

Investigative techniques, diagnostic techniques (general aspects)

Medical sciences

Details

Title: Subtitle: Feasibility of imaging pentose cycle glucose metabolism in gliomas with PET : Studies in rat brain tumor models
Creators: Alexander M Spence - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Michael M Graham - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Mark Muzi - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Scott D Freeman - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Jeanne M Link - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
John R Grierson - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Finbarr O'Sullivan - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Donna Stein - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Gregory L Abbott - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Kenneth A Krohn - Departments of Neurology, Radiology and Statistics, Univesity of Washington School of Medicine, Seattle, Washington, United States
Resource Type: Journal article
Publication Details: The Journal of nuclear medicine (1978), Vol.38(4), pp.617-624
Publisher: Society of Nuclear Medicine; Reston, VA
PMID: 9098213
ISSN: 0161-5505
eISSN: 1535-5667
Language: English
Date published: 1997
Academic Unit: Radiology; Radiation Oncology
Record Identifier: 9984047866102771

Metrics

8 Record Views

10 Times Cited - Web of Science