D
David W. Johnson
Researcher at University of Queensland
Publications - 2880
Citations - 157072
David W. Johnson is an academic researcher from University of Queensland. The author has contributed to research in topics: Peritoneal dialysis & Kidney disease. The author has an hindex of 160, co-authored 2714 publications receiving 140778 citations. Previous affiliations of David W. Johnson include Minnesota Department of Transportation & Open University.
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Storytelling as a communication tool for health consumers: development of an intervention for parents of children with croup. Stories to communicate health information
TL;DR: Several challenges arose during the development of the stories including staying true to the story versus being evidence based; addressing the use of the internet by consumers as a source of health information; balancing the need to be comprehensive and widely applicable while being succinct.
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Dosing of gentamicin in patients with end-stage renal disease receiving hemodialysis.
TL;DR: Simulation from the final population model showed that predialysis dosing has a higher probability of achieving target maximum concentration (Cmax) concentrations (>8 mg/L) within acceptable exposure limits (area under the concentration‐time curve [AUC] values >70 and <120 mg·h/L per 24 hours) than postdialysis dosed.
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Free fatty acids are associated with obesity, insulin resistance, and atherosclerosis in renal transplant recipients.
K. Armstrong,Balaji Hiremagalur,Brian Haluska,Scott B. Campbell,Carmel M. Hawley,L. Marks,Johannes B. Prins,David W. Johnson,Nicole M. Isbel +8 more
TL;DR: FFAs are associated with the development of IR and may be involved in the pathogenesis of atherosclerosis in RTRs, and additional studies are required to explore these associations further before considering whether an interventional trial aimed at lowering FFA would be a worthwhile undertaking.
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Control of Reaction Pathway and the Nanostructure of Final Products through the Design of Modulated Elemental Reactants
TL;DR: In this paper, the authors focus on the use of designed reactants, consisting of ultrathin elemental layers sequentially deposited in ultrahigh vacuum, to control reaction pathways and the structure of compounds formed.