Ergonomics in the computer workstation

Background: Awareness of effects of long term use of computer and application of ergonomics in the computer workstation is important for preventing musculoskeletal disorders, eyestrain and psychosocial effects. Objectives: To determine the awareness of ºphysical and psychological effects of prolonged computer usage and application of ergonomics in the workstation. Design: One hundred and eighty one people were interviewed from tertiary educational institutions, telecommunications and media houses within Nairobi, Kenya. Subjects: Descriptive cross sectional study. Results: Majority (89.8%) of the respondents felt that prolonged computer use had an adverse effect on their health, with only 12.4% having received formal training on the same. Assessment of their workstations revealed the most applied ergonomic measure as feet placement on the floor: 100% (181) followed by correct monitor placement with 94.4% (171) fulfilling the requirements. The least applied ergonomic measures were non reflecting wall paint: 5% (9) and adjustable desk 9.9% (18). Conclusion: There is awareness among computer users on the effects of prolonged computer use but there is limited application of ergonomic measures

Characterization of Schistosome Tegumental Alkaline Phosphatase (SmAP)

Schistosomes are parasitic platyhelminths that currently infect over 200 million people globally. The parasites can live for years in a putatively hostile environment - the blood of vertebrates. We have hypothesized that the unusual schistosome tegument (outer-covering) plays a role in protecting parasites in the blood; by impeding host immunological signaling pathways we suggest that tegumental molecules help create an immunologically privileged environment for schistosomes. In this work, we clone and characterize a schistosome alkaline phosphatase (SmAP), a predicted ∼60 kDa glycoprotein that has high sequence conservation with members of the alkaline phosphatase protein family. The SmAP gene is most highly expressed in intravascular parasite life stages. Using immunofluorescence and immuno-electron microscopy, we confirm that SmAP is expressed at the host/parasite interface and in internal tissues. The ability of living parasites to cleave exogenous adenosine monophosphate (AMP) and generate adenosine is very largely abolished when SmAP gene expression is suppressed following RNAi treatment targeting the gene. These results lend support to the hypothesis that schistosome surface enzymes such as SmAP could dampen host immune responses against the parasites by generating immunosuppressants such as adenosine to promote their survival. This notion does not rule out other potential functions for the adenosine generated e.g. in parasite nutrition