Assessment of splanchnic blood flow in alcohol and drug abuse using radionuclide angiography.

Computerized radionuclide angiography (RA) is a noninvasive, quantitative, reproducible, and cost-effective method for measuring the portal venous fraction of total hepatic blood flow (represented by the Hepatic Perfusion Index, HPI), and also can be utilized to detect hemodynamic abnormalities in the spleen. A group of 105 men (aged 20-56) were evaluated at the time of admission to the Substance Abuse Program at the Department of Veterans Affairs Medical Center. These patients were classified into three groups: (a) alcohol dependence or abuse (Group A, n = 54); (b) polysubstance abuse without alcohol (Group B, n = 9); and (c) polysubstance abuse with alcohol (Group C, n = 42).

Quantitative evaluation of brain edema by radionuclide imaging technique.

The objective of the present investigation was to quantify metabolic cerebral edema in dogs with impaired monoamine oxidase (MAO) function and liver disease using dynamic imaging of the brain with 99mTc-diethylenetriamine pentacetic acid (99mTc DTPA). Data acquisition was started following a rapid intracarotid injection of 99mTc DTPA (5 mCi), and sixty 0.5-s images of the left or right hemisphere were taken.

Amputation stumps studied by bone scanning. Work in progress.

Nine diabetic and 7 nondiabetic (post-trauma) patients 24 to 63 years of age (mean, 49) were scanned following amputation below the knee, which was bilateral in 4. A three-phase scanning technique (flow, blood pool, and delayed equilibrium images) was employed, using Tc-99m-etidronate. Duration of the arterial and capillary phases was estimated during flow.

An improved method of estimating the portal venous fraction of total hepatic blood flow from computerized radionuclide angiography.

The measurement of portal venous flow to the liver is important in the evaluation of patients for shunt surgery. A previous report described a method using slope analysis of hepatic radionuclide angiograms to generate an index of relative portal flow, which correlated well with angiographic grades of portal perfusion. The present report describes a refinement in bolus administration and a modification in technique that appear to reflect true portal venous flow more accurately.