R. E. Shelton

Use of perfluorooctylbromide (PFOB) to detect liver abscesses with computed tomography. Safety and efficacy.

Although perfluorooctylbromide (PFOB) is known to stimulate macrophages, particulates given intravenously (IV) can inhibit the bodys response to infection by blocking the reticuloendothelial system. Since PFOB enhances abscesses on computed tomography (CT), the authors evaluated its safety and efficacy by assessing the mortality and abscess volume in 104 rabbits with intrahepatic abscesses given either PFOB or lactated Ringers (LR), and by comparing its efficacy to that of 76% meglumine sodium diatrizoate (MSD76). Abscesses were produced by injecting a virulent strain of E. coli into the liver. Two days later, five of the rabbits had died. Of the remaining rabbits, 50 were given 5 g/kg PFOB IV, and 49 were given an equal volume of LR. All rabbits had a CT scan at four and at ten days after infusion. They were killed before the second CT scan. Thirty seconds before being killed, 28 rabbits given LR were given a bolus of 2 ml/kg MSD76 IV. Following CT, rabbits were frozen, sliced, and photographed. Abscess volumes were calculated by digitizing the photographs of the anatomic sections and the CT images. MSD76 enhanced the liver by 105 Hounsfield units (HU) more than the liquefied abscess center. The abscess wall enhanced to the same degree as liver, resulting in nonvisualization of three of six abscesses less than 3 mm in size, and a 30% underestimation of true abscess volume.(ABSTRACT TRUNCATED AT 250 WORDS)

In vivo estimation of perfluorooctylbromide concentration in tissues

Currently, the only available method to measure perfluorooctylbromide (PFOB) in tissues requires its extraction with a solvent followed by gas chromatography. Not only is this method invasive, but it cannot be validated because the amount of unextracted PFOB is unknown. Using a cylindrical CT phantom with eight wells in the wall filled with bromine (Br) standards, an in vivo method to measure PFOB tissue concentration was developed. Neutron activation analysis (NAA) was used to calibrate and validate the phantom since NAA allows the quantification of Br by making Br radioactive without the need for extraction. Once NAA was validated for PFOB, the phantom was calibrated using 80 rats and tested using 20 rats relative NAA. The phantom produced linear correlation between CT number and known PFOB concentrations with r = 0.998. After its calibration with NAA, the CT method produced a linear correlation between tissue PFOB concentration determined by CT and NAA near the line of identity with an r = 0.984, thus allowing the determination of PFOB tissue content in vivo noninvasively.

A personal computer system for testing gas exchange, heart, lungs, ventilatory pump

SummaryThis paper reports the development of a computer system for testing gas exchange and lung function in the ICU. The essence of the system is a software package that uses an IBM personal computer for data processing and analysis. Front end hardware is modular, as is software, so that portions or all of the system can be used. The system provides measurements of lung mechanics work, functional residual volume, spirometry, oxygen uptake, carbon dioxide output, lung water, blood gas interpretation, hemodynamics. Reports are provided by standard data base manager and so are easily customized.