We discuss the so-called vacuum fluctuation effects caused by many baryon resonances in the nuclear and neutron matter based on a relativistic Hartree theory. The obtained coupling parameters readjusted to reproduce the bulk properties of the nuclear matter are consideraby smaller than those of the standard mean-field theory. As the result these effects soften the equation of state and the calculated incompressibility is close to the experimental one.
To evaluate the potential of dextran-coated magnetite (DM) particles in enhancing the detection of hepatocellular carcinoma with magnetic resonance (MR) imaging, the authors induced liver tumors in rats by oral administration of diethylnitrosamine and examined the rats before and after intravenous injections of DM with various iron concentrations. Because of the intense and preferential T2 relaxativity of DM, use of DM with an iron concentration of 10 mumol/kg yielded effective MR signal reduction in each normal liver at 1 hour after the injection. Because no significant signal change in the tumors was observed on DM-enhanced MR images, the contrast between hepatocellular carcinoma and adjacent uninvolved liver increased remarkably on even relatively T1-weighted images. The detection rate for the 89 tumors, including small tumors less than 2 mm in diameter, increased from 10% (nine of 89) before DM administration to 65% (58 of 89) with DM-enhanced T1-weighted imaging. Iron staining of rat liver performed about 1 hour after DM administration showed sparse deposits of DM selectively in reticuloendothelial cells but not in liver tumors.
To examine the practical feasibility of using a 3.0-T MR unit to obtain high-quality, high-resolution images of the knee joint.One human cadaveric and 5 porcine knees were imaged with the 3.0-T unit. Sets of T1-weighted spin echo images were obtained with in-plane resolution of 0.195x0.39 mm and an acquisition time of approximately 5 min. Two porcine knees were also imaged with the 1.0-T unit with an identical imaging protocol and the signal-to-noise (S/N) ratios were measured on images at 3 T and 1 T.The 3-T MR system provided detailed delineation of the knees. Deep layers of the medial collateral ligament and associated fine fibers beneath the medial and lateral collateral ligament were demarcated. We observed precise demonstration of the tibial attachment of the anterior cruciate ligament, irregularity of the meniscal free edge, and conjoint tendon formation together with the lateral collateral ligament and the biceps femoris tendon. Compared to the 1-T unit, the S/N ratio with the 3-T unit was increased by a factor of 1.39 to 1.72.Due to the potential advantage of obtaining detailed images, the 3-T MR system suggests a practical utility for fine demonstration of the knee morphology.
Hormones produced by the anterior pituitary have conventionally been measured in the serum by radioimmunoassays (RIA), whereas more sensitive immunoradiometric assays (IRMA) have now been developed and are replacing RIA. Dynamic tests (stimulatory tests and suppression tests) rather than single and random determinations are often important tools in the study of pituitary functions. Stimulatory tests (such as glucagon plus propranolol test for growth hormone and water deprivation test for arginine-vasopressin) are used to evaluate hypofunction and suppression tests (such as dexamethasone suppression test for adrenocorticotrophic hormone) are used to investigate hyperfunction. This chapter, mainly dealing with representative dynamic tests, describes test protocols and how to interpret test results.
Abstract The two‐dimensional powder pattern for isotactic polypropylene in a sample rotating at an off‐magic angle has been measured and the chemical shift principal values and principal axis directions for each of the CH, CH 2 and CH 3 carbons, together with their CH bond lengths, have been determined.
