Epidemiology of pediatric human immunodeficiency virus infection in the United States.
ABSTRACT HIV infection is an important cause of morbidity and mortality in the pediatric population. Providers of health care to children need to be aware of the problem and the characteristics of the most affected populations. Early diagnosis of HIV infection is critical for initiating appropriate antiviral therapy and prophylactic treatment for opportunistic infections. Attending to the myriad of social problems these families face is equally important for providing an optimal chance for prolonged survival and a reasonably high quality of life.
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ABSTRACT: The aim of this study was to ascertain the correlation between various opportunistic infections and complications in human immunodeficiency virus (HIV)-1-infected children and the immune status of these patients, evaluated by absolute cluster of differentiation 4 (CD4) count and CD4 percentage.Sultan Qaboos University medical journal 11/2014; 14(4):e513-21.
Biomedical Research Reports 01/1998; 1:327-363. DOI:10.1016/S1874-5326(07)80035-4
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ABSTRACT: Dry and evaporative heat losses of clothed people are highly affected by the air exchange between the clothing microclimate and the environment. This air exchange, or clothing ventilation, is highly affected by the air permeability of the fabric materials as well as the clothing design. To examine the effect of the air permeability of fabric on clothing ventilation, the ventilation rate of three suits with identical design but with different air permeability (air resistance: 0.3 and 20.5 kPa·s−1·m−1, and impermeable) was determined for subjects under the following conditions: standing still or walking, both in still air and in air moving at 1 m s−1. In addition tests were performed with the suit's openings at neck and wrist cuffs both opened and closed, under the same conditions, to determine the effect of the openings on ventilation. The microclimate ventilation was significantly higher in the more permeable suit compared with the less permeable ones when standing with no wind and when walking with wind. The air permeability of the two permeable suits increased ventilation significantly when walking with no wind and when standing with wind. These increases in ventilation ranged from 30 to 90 l min−1 and corresponded to the level of clothing ventilation required to remove sweat produced as a result of light work. Compared to the suits with the openings tightened, the suits with the collars and cuffs open showed greater ventilation, but this increase in ventilation made a smaller difference as the air permeability of the fabric increased. These data imply that the air permeability of fabric can induce the proper dry and evaporative heat loss for keeping comfortable under light-work conditions, provided that clothing apertures are considered as a combined factor.