Donald F. Smith scite author profile

The authors determined cerebral blood flow (CBF) with magnetic resonance imaging (MRI) of contrast agent bolus passage and compared the results with those obtained by O-15 labeled water (H215O) and positron emission tomography (PET). Six pigs were examined by MRI and PET under normo- and hypercapnic conditions. After dose normalization and introduction of an empirical constant phi Gd, absolute regional CBF was calculated from MRI. The spatial resolution and the signal-to-noise ratio of CBF measurements by MRI were better than by the H215O-PET protocol. Magnetic resonance imaging cerebral blood volume (CBV) estimates obtained using this normalization constant correlated well with values obtained by O-15 labeled carbonmonooxide (C15O) PET. However, PET CBV values were approximately 2.5 times larger than absolute MRI CBV values, supporting the hypothesized sensitivity of MRI to small vessels.

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Meta‐analysis on anxiety and depression in adult celiac disease

Smith

Gerdes

2011

Acta Psychiatr Scand

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Anaesthesia for positron emission tomography scanning of animal brains

Alstrup

Smith

2013

Lab Anim

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Positron emission tomography (PET) provides a means of studying physiological and pharmacological processes as they occur in the living brain. Mice, rats, dogs, cats, pigs and non-human primates are often used in studies using PET. They are commonly anaesthetized with ketamine, propofol or isoflurane in order to prevent them from moving during the imaging procedure. The use of anaesthesia in PET studies suffers, however, from the drawback of possibly altering central neuromolecular mechanisms. As a result, PET findings obtained in anaesthetized animals may fail to correctly represent normal properties of the awake brain. Here, we review findings of PET studies carried out either in both awake and anaesthetized animals or in animals given at least two different anaesthetics. Such studies provide a means of estimating the extent to which anaesthesia affects the outcome of PET neuroimaging in animals. While no final conclusion can be drawn concerning the 'best' general anaesthetic for PET neuroimaging in laboratory animals, such studies provide findings that can enhance an understanding of neurobiological mechanisms in the living brain. A new era of neuroscience began with the invention of positron emission tomography (PET) for studying processes as they occur in the living brain.1 -4 PET makes use of the radioactive decay of positron-emitting nuclides to derive an image of physiological and pharmacological events in a living organ such as the brain. PET is currently the primary procedure for studying molecular events in realtime in intact animals and humans. PET scanning can be used in all branches of pharmacology, molecular biology and medicine, including neuroscience, cancer research and cardiovascular biology. 5 -7

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Venture Capital Formation, Investment, and Regional Industrialization

Florida

Smith

1993

Annals of the Association of American Geographers

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Donald F. Smith

Agglomeration and Industrial Location: An Econometric Analysis of Japanese-Affiliated Manufacturing Establishments in Automotive-Related Industries

Absolute Cerebral Blood Flow and Blood Volume Measured by Magnetic Resonance Imaging Bolus Tracking: Comparison with Positron Emission Tomography Values

Meta‐analysis on anxiety and depression in adult celiac disease

Anaesthesia for positron emission tomography scanning of animal brains

Venture Capital Formation, Investment, and Regional Industrialization

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