59 research outputs found
Policy challenges for the pediatric rheumatology workforce: Part III. the international situation
Survival dominates current pediatric global health priorities. Diseases of poverty largely contribute to overall mortality in children under 5 years of age. Infectious diseases and injuries account for 75% of cause-specific mortality among children ages 5-14 years. Twenty percent of the world's population lives in extreme poverty (income below US $1.25/day). Within this population, essential services and basic needs are not met, including clean water, sanitation, adequate nutrition, shelter, access to health care, medicines and education. In this context, musculoskeletal disease comprises 0.1% of all-cause mortality in children ages 5-14 years. Worldwide morbidity from musculoskeletal disease remains generally unknown in the pediatric age group. This epidemiologic data is not routinely surveyed by international agencies, including the World Health Organization. The prevalence of pediatric rheumatic diseases based on data from developed nations is in the range of 2,500 - 3,000 cases per million children. Developing countries' needs for musculoskeletal morbidity are undergoing an epidemiologic shift to chronic conditions, as leading causes of pediatric mortality are slowly quelled
Spatiotemporal modeling of microbial metabolism
Background
Microbial systems in which the extracellular environment varies both spatially and temporally are very common in nature and in engineering applications. While the use of genome-scale metabolic reconstructions for steady-state flux balance analysis (FBA) and extensions for dynamic FBA are common, the development of spatiotemporal metabolic models has received little attention.
Results
We present a general methodology for spatiotemporal metabolic modeling based on combining genome-scale reconstructions with fundamental transport equations that govern the relevant convective and/or diffusional processes in time and spatially varying environments. Our solution procedure involves spatial discretization of the partial differential equation model followed by numerical integration of the resulting system of ordinary differential equations with embedded linear programs using DFBAlab, a MATLAB code that performs reliable and efficient dynamic FBA simulations. We demonstrate our methodology by solving spatiotemporal metabolic models for two systems of considerable practical interest: (1) a bubble column reactor with the syngas fermenting bacterium Clostridium ljungdahlii; and (2) a chronic wound biofilm with the human pathogen Pseudomonas aeruginosa. Despite the complexity of the discretized models which consist of 900 ODEs/600 LPs and 250 ODEs/250 LPs, respectively, we show that the proposed computational framework allows efficient and robust model solution.
Conclusions
Our study establishes a new paradigm for formulating and solving genome-scale metabolic models with both time and spatial variations and has wide applicability to natural and engineered microbial systems
Fulminant leucocytoclastic brainstem vasculitis in a patient with otherwise indolent systemic lupus erythematosus
The spectrum of central nervous system (CNS) vascular pathology in systemic lupus erythematosus (SLE) includes small vessel vasculopathy, thromboembolism, perivascular lymphocytic infiltration and, rarely, overt transmural vasculitis. We present the case of a patient, who experienced three CNS relapses over total disease duration of 26 years, with otherwise indolent disease. The first two relapses were suspicious of vasculitis and the last was proven at autopsy. The short duration between final relapse onset and death in this SLE CNS vasculitis case was, to our knowledge, unique. Histopathological investigation demonstrated multiple confluent areas of haemorrhage in the medulla due to an acute small vessel leucocytoclastic vasculitis.T.J. Kleinig, B. Koszyca, P.C. Blumbergs and P. Thompso
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