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In This Article

  • Summary
  • Abstract
  • Introduction
  • Protocol
  • Representative Results
  • Discussion
  • Acknowledgements
  • Materials
  • References
  • Reprints and Permissions

Summary

Quantitative measurements of oxygen and glucose metabolism by PET are established technologies, but details of practical protocols are sparsely described in the literature. This paper presents a practical protocol successfully implemented on a state-of-the-art positron emission tomography-computed tomography scanner.

Abstract

The authors have developed a paradigm using positron emission tomography (PET) with multiple radiopharmaceutical tracers that combines measurements of cerebral metabolic rate of glucose (CMRGlc), cerebral metabolic rate of oxygen (CMRO2), cerebral blood flow (CBF), and cerebral blood volume (CBV), culminating in estimates of brain aerobic glycolysis (AG). These in vivo estimates of oxidative and non-oxidative glucose metabolism are pertinent to the study of the human brain in health and disease. The latest positron emission tomography-computed tomography (PET-CT) scanners provide time-of-flight (TOF) imaging and critical improvements in spatial resolution and reduction of artifacts. This has led to significantly improved imaging with lower radiotracer doses.

Optimized methods for the latest PET-CT scanners involve administering a sequence of inhaled 15O-labeled carbon monoxide (CO) and oxygen (O2), intravenous 15O-labeled water (H2O), and 18F-deoxyglucose (FDG)-all within 2-h or 3-h scan sessions that yield high-resolution, quantitative measurements of CMRGlc, CMRO2, CBF, CBV, and AG. This methods paper describes practical aspects of scanning designed for quantifying brain metabolism with tracer kinetic models and arterial blood samples and provides examples of imaging measurements of human brain metabolism.

Introduction

The human brain is a heavy consumer of oxygen and glucose for metabolism. A proportion of glucose metabolism in the healthy human brain occurs outside of oxygen use, known as brain aerobic glycolysis (AG), the purposes of which are under intense investigation1,2,3,4,5. Prior studies in animal models and humans report an association between AG and development and aging, synaptic and neurite development, memory, amyloid deposition in Alzheimer's disease, and white matter function and disease

Protocol

NOTE: The Institutional Review Board and Radioactive Drug Research Committee of Washington University School of Medicine approved all studies based on the protocol described below. All human participants provided informed written consent prior to participating in research studies based on the protocol below. See the Table of Materials for details related to all equipment, materials, and reagents used in this protocol.

1. Participant Selection

  1. Inclu.......

Representative Results

Some of the most technically challenging aspects of this protocol involve configuring, managing, and successfully collecting data from arterial lines while simultaneously administering short half-life radiotracers and running the scanner. Figure 1 provides a bird's eye viewpoint of the current setup that summarizes the organization and operational workflows required from study coordinators, interventionalist, nursing, technologists, and investigators. The radiopharmaceuticals described a.......

Discussion

PET imaging of oxygen and glucose metabolism using inhaled [15O]CO and [15O]O2 gases, intravenous injection of [15O]H2O, and intravenous injection of [18F]FDG have significant historical priors based on imaging accumulated from older generations of PET scanners14,15,16,17,26,

Acknowledgements

We are particularly grateful to our research participants for their altruism. We acknowledge the directors and staff of the Neuroimaging Labs Research Center, Knight Alzheimer's Disease Research Center, Center for Clinical Imaging Research (CCIR), and the Washington University cyclotron facility for making this research possible. We gratefully acknowledge research funding from NIH R01AG053503, R01AG057536, RF1AG073210, RF1AG074992, and 1S10OD025214, the Mallinckrodt Institute of Radiology, and the McDonnell Foundation for Systems Neuroscience at Washington University.

....

Materials

NameCompanyCatalog NumberComments
3/16" outer diameter 1/8" innner diameter nylaflow tubingNylaflow Tubing, Zazareth, PA
4 x 4 in. gauzeMcKesson MedSurg16-4242
Analytical balanceFisher Scientific/OHUASPioneer Exal Model 90 mm platform #PA84
Bacterial/Viral filterHudson RCI, Teleflex, Perak, MalaysiaREF 1605 (IPN042652)
BD SmartSite Needle-Free ValveBecton Dickinson2000E
Biograph mMRSiemens, Erlangen, Germany
Biograph Vision 600 EdgeSiemens, Erlangen, Germany
Caprac wipe counterMirion Medical (Capintec), Florham Park, NJ from 1991 or newerNaI drilled well crystal
Coban self-adhesive wrap3Mcommonly used in intensive care units
dressing, tegaderm, 4 x 4" 3M Health Care#1626
ECAT EXACT HR+CTI PET Systems, Knoxville, TN
Edwards TruWave 3 cc/84 in (210 cm) Edwards LifesciencePX284R
extension catheter 48 cm length, 0.642 mL priming volumeBraunV5424
heparin sodium, solution 2 U/mL, 1,000 mLHospira Worldwide#409762059
I.V. armboard flexible 4 x 9 in. adultDeRoyalM8125-A
Keithley pico-ammeterTekronix
Magnetom Prisma fitSiemens, Erlangen, Germany3T
male-male adapter for Luer valvesArgon Medical Co.040184000A
MiniSpin Personal MicrocentrifugeEppendorf, Hamburg, GermanyEP-022620151
Mouthpiece 15 mm ID, 22 mm ODHudson RCI, Teleflex, Perak, MalaysiaREF 1565 (IPN042595)
MRIdiumIradmed, Winter Springs, FL3860+
Nalgene square PET media bottle with closure, 650 mLThermo Scientific#3420400650for cross-calibration
pressure infusion bag with bulb, accommodating 1,000 mL Health Care Logi#10401
pressure monitoring tray polyethylene catheter; 2.5Fr (2.5 cm) angiocath; 0.015" 15 cm wire; 22G (2 cm) needleCook MedicalC-P MSY-250, G02854
RDS 11 MeV CyclotronSiemens, Erlangen, Germanyproton bombardment of 15N to generate 15O
sodium chloride IV solution 0.9%, 1,000 mLB. Braun MedicalE8000
steri-strips (closure, skin reinf LF 1/2x4")McKesson MecSurg#3010
Twilite IISwisstrace, Zurich, Switzerland
Uninterruptible Power Supply battery backup and surge protectorAPCBR1500MS2

References

  1. Goyal, M. S., Hawrylycz, M., Miller, J. A., Snyder, A. Z., Raichle, M. E. Aerobic glycolysis in the human brain is associated with development and neotenous gene expression. Cell Metabolism. 19 (1), 49-57 (2014).
  2. Magistretti, P. J.

Explore More Articles

Keywords Positron Emission TomographyPET CT ScannerTime of flight ImagingCerebral Metabolic Rate Of GlucoseCerebral Metabolic Rate Of OxygenCerebral Blood FlowCerebral Blood VolumeBrain Aerobic GlycolysisRadiopharmaceutical TracersTracer Kinetic ModelsArterial Blood Samples

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