Keneeshia N Williams scite author profile

Patients with large burns suffer from anemia of critical illness. Administration of exogenous erythropoietin is ineffective, and transfusion remains the only effective treatment. We have previously shown that erythroid precursors are decreased 1 week after burn in an animal model. Therefore, we have used a two-phase liquid culture system to quantify peripheral blood mononuclear cell (PBMC) compartment-derived erythroid progenitors (EPs) in burn patients. Institutional review board approval and informed consent were obtained. Blood samples were collected at 1 to 30 days after burn, with a mean TBSA of 37.7 ± 15.8% (n = 10; 90% men; age, 46.0 ± 18 years). Four healthy volunteers served as controls. PBMCs were isolated by Ficoll-Hypaque density-gradient centrifugation and were placed in serum-free expansion medium containing cyclosporine A (1 ng/ml), granulocyte macrophage colony-stimulating factor (20 ng/ml), stem cell factor (30 ng/ml), and interleukin-3 (5 ng/ml; phase I). On day 7, cells were reseeded in serum-free expansion medium containing erythropoietin (1 U/ml), holotransferrin (0.3 mg/ml), and stem cell factor (10 ng/ml; phase II). Aliquots from the phase II culture system on day 6 were incubated with anti-CD71, CD235a, and CD36. EPs (CD71 CD36) and erythroblast subpopulations (colony-forming unit erythroids, Proerythroblasts, and intermediate erythroblasts) were identified based on the expressions of CD71 and CD235a by flow cytometry, calculated per million expanded cells, and expressed as a percentage of controls. Total EPs were significantly decreased by days 28 to 31 after the burn (19%; P < .05). Among the erythroblast subpopulations, colony-forming unit erythroids (11%; P < .004) and proerythroblasts (24%; P < .05), were decreased significantly by days 28 to 31 after the burn. PBMCs of burn patients can be used to study impaired erythropoiesis and anemia of critical illness.

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<p>Mass Casualty Shootings and Emergency Preparedness: A Multidisciplinary Approach for an Unpredictable Event</p>

Melmer¹,

Carlin²,

Castater³

et al. 2019

JMDH

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Mass casualty events (MCE) are an infrequent occurrence to most daily healthcare systems however these incidents are the causation for new hospital preparedness and the development of coordinated emergency services. The broad support and operational plans outside the hospital include emergency medical services, local law enforcement, government agencies, and city officials. Modern-day hospital disaster preparedness goals include scheduled training for healthcare personnel to ensure effective and accurate triage for a highvolume of injured patients. This MDT collaboration strengthens the emergency response to optimize the delivery of life-saving care during MCEs. This review identifies the clinical importance of the interdisciplinary team interactions and the lessons learned from past MCE experiences, strengthening healthcare system readiness for such critical incidents.

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Dendritic Cell Depletion in Burn Patients Is Regulated by MafB Expression

Williams

Szilágyi

et al. 2012

Journal of Burn Care & Research

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Studies have shown that monocytes are hyporesponsive and that dendritic cells (DCs) are depleted in burn patients. We have recently shown in a mouse model that burn injury alters the transcriptional regulation in bone marrow progenitors and inhibits myeloid-derived DC (mDC) production. In the present study, using human burn patient peripheral blood mononuclear cells, we have shown an overexpression of MafB with a corresponding reduction in peripheral blood mononuclear cell-derived mDCs. We isolated mononuclear cells from burn patient (23–68% TBSA) and control volunteer peripheral blood samples by Ficoll gradient centrifugation and cultured mDCs by using a standard ex vivo culture system. Fluorescence-activated cell sorter analysis was used to select myeloid cells based on the cell surface expression of CD45+. The mDC fraction was identified by the expression of human leukocyte antigen (HLA)-DR+CD11c+, and we found a significant reduction in HLA-DR+ leukocytes for up to 4 weeks postburn. MafB expression was then examined in HLA-DR+CD14+ monocytes. Burn injury alters the phenotype of CD14+ monocytes augmenting MafB expression and reducing their differentiation into mDCs. MafB was then silenced in ex vivo culture prior to DC differentiation by using small interfering RNA technique. MafB gene silencing improved the differentiation potential of CD14+ cells into mDCs, increasing the percentage of mDCs by >75%. Furthermore, GATA-1+ and HLA-DR+ mDCs were increased following MafB silencing. Although burn injury augments the number of peripheral blood monocytes, the frequency of mDC is reduced. This impairment is likely secondary to the down-regulation of mDC differentiation by high MafB-expressing monocytes following burn injury.

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Presentation, clinical course and complications in trauma patients with concomitant COVID-19 infection

Meyer

Grant

Sola

et al. 2022

The American Journal of Surgery

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