The retrieval rate of IVCFs was most influenced by insurance status, distance from the medical center, and age. Race was statistically significant only when combined with insurance status. The results of this study suggest that these patient groups may need closer follow-up in order to obtain optimal IVCF retrieval rates.
Objectives: The objective was to compare the rates of antimicrobial susceptibility in strains of Escherichia coli isolated from uncomplicated cystitis cases presenting to the emergency department (ED) of a tertiary care center to those reported on that institution's hospital-wide antibiogram. The hypothesis was that cases of uncomplicated cystitis presenting to the ED will exhibit higher antimicrobial susceptibility than is reported by the hospital-wide antibiogram.Methods: A retrospective chart review of patients who were diagnosed with uncomplicated cystitis in the ED of a large, academic tertiary care center was conducted. Due to an error in the implementation of a new electronic medical record system at this institution in 2009, all urine samples with any abnormality were reflexively sent for culture. The authors were then able to review and record the antibiotic susceptibility patterns of all cultures that grew E. coli. Exclusion criteria included fever, subsequent hospital admission, treatment of suspected pyelonephritis, receiving current cystitis treatment, male sex, indwelling catheters, recent surgery or hospitalization, or asymptomatic for cystitis. Culture isolate antimicrobial susceptibility was then compared with the hospital-wide antibiogram of the same period. Empiric treatment regimens were also recorded as secondary data.Results: Greater susceptibility to trimethoprim-sulfamethoxazole (TMP-SMX; 80% vs. 71%), cefazolin (97% vs. 87%), and ciprofloxacin (89% vs. 73%) was found in our population than was published in the hospital antibiogram. These differences were shown to be statistically significant using Fisher's exact test (p < 0.05). A very high sensitivity to nitrofurantoin (99%), similar to the hospital antibiogram (98%), was also found. Also noted was a high rate of antimicrobial susceptibility when specific empiric treatment was initiated with TMP-SMX or ciprofloxacin: 92 and 89%, respectively. Conclusions:The greater susceptibility of E. coli to TMP-SMX, cefazolin, and ciprofloxacin observed in this population supports the hypothesis that antimicrobial susceptibility rates in uncomplicated cystitis presenting to the ED are greater than those reported in the hospital-wide antibiogram. This could affect treatment guidelines by confirming that antimicrobials currently recommended for use in uncomplicated cystitis are more effective in this setting than currently reported by the hospital-wide antibiogram.ACADEMIC EMERGENCY MEDICINE 2015;22:998-
Sickle-cell disease (SCD) is a debilitating hematological disorder with very few approved treatment options. Therapeutic reactivation of fetal hemoglobin (HbF) is one of the most pursued methods for ameliorating the systemic manifestations of SCD. Despite this, very few pharmacological agents have advanced to clinical trials or marketing for use. In this study, we report the development of an HbF in situ intracellular immunoblot assay coupled to a high-throughput drug screen to identify Food and Drug Administration (FDA) approved drugs that can be repurposed clinically for treatment of SCD. Using this assay we evaluated the National Institute of Health (NIH) Clinical Collection (NCC), a publicly available library of 725 small molecules, and found nine candidates that can significantly re-express HbF in erythroid cell lines as well as primary erythroblasts derived from SCD patients. Furthermore, we show the strong effects on HbF expression of these candidates to occur with minimal cytotoxicity in 7 of the 9 drugs. Given these data and their proven history of use for other indications, we hypothesize that several of these candidate drugs warrant further investigation for use in SCD.
The in vitro erythrocyte differentiation model remains a strong, clinically relevant tool to model erythroid development in normal and disease related hematopoiesis. This model also has application to developing therapeutics for diseases related to red blood cells such as sickle cell anemia where targeting increased expression of fetal hemoglobin has been a major emphasis. Since the original protocol’s publication in 2002, many groups have published modified methodologies to address issues in efficiency of maturation and terminal enucleation, as well as in scalability. While all reports have merit and show efficient enucleation, the methodologies used vary widely in technique and cytokine content. Additionally, despite the strengths in these methods, reproducibility of efficient differentiation to the point of differentiation is difficult. To address these limitations, we developed a streamlined process where total PBMCs are first primed using the original liquid culture expansion phase (published in 2002) before being differentiated with minimal input via standardized, commercially purchased semi-solid medium culture pre-supplemented with erythropoietin. Our data show this methodology to produce similar levels of CD235/CD71 positivity as previous methods but with enhanced CD235 solo positivity and evidence of enucleated cells in comparison with other widely used methods. Given the difficulty and wide variation in in vitro differentiation techniques, we present this methodology as a streamlined methodology for production of mature erythroid cells with minimal input using easily purchased reagents.
BACKGROUND: Mature circulating red blood cells, though devoid of a nucleus, have been shown to contain an abundance of miRNAs. Further, it has been shown that sickle cell patient-derived RBCs have a dramatic difference in miRNA content than normal RBCs. Given that a range of miRNAs are involved in the regulation of immunity, including the release of inflammatory mediators, we hypothesize that miRNAs enriched in circulating red blood cells function to prolong the inflammatory state in sickle cell disease. Further, we hypothesize that these miRNAs can be used as biomarkers for use in the clinic to predict crisis and differentiate acute versus chronic pain. Exploring this miRNA enrichment in circulating red blood cells in sickle cell patients will provide practical insight for the inflammation state and will inform characteristics of patients who may need greater care in the clinic. METHODS: Twenty steady state patients were recruited and categorized according to their chronic pain status and crisis frequency per year. Whole blood was drawn during routine visits to the OSU Wexner Medical Center Hematology Clinic. Additionally, whole blood was drawn from five patients either in acute pain crisis (recruited prior to crisis) or within a few days of crisis. Samples were subject to double gradient centrifugation and red cells were resuspended in Trizol and cryopreserved. MiRNAs were isolated from red cell Trizol suspensions using a commercial isolation kit (QIAGEN Cat#217004). Isolated miRNAs were then subject to a NanoString Human miR (v3) expression assay. Differential expression analysis was conducted to compare miRNAs with at least 1.5 fold difference (p = 0.05) between steady state and acute crisis. Target prediction and GO ontology analysis was performed for statistically significant miRNAs using DIANA Tools mirPath v3. Follow-up qPCRs were performed using TaqMan Advanced miRNA cDNA Synthesis Kit (Cat#A28007) and TaqMan Advanced miRNA Assays (Cat#A25576) to validate the decreased expression of miRNAs. Additional qPCRs were performed using TaqMan Gene Expression Assays (Cat#4331182) to investigate mRNA regulatory effects of significant miRNAs in the total red cell population. Western blots were also performed to investigate regulatory effects of these miRNAs at the protein level. RESULTS & CONCLUSION: Comparison of RBC miRNA profiles from patients during acute crisis to those in steady state shows several significantly decreased (>1.5 fold) miRNAs in crisis. Among these miRs we have found previously uncharacterized miRNAs, hsa-miR-2116-5p and hsa-miR-302d-3p. DIANA tools miRNA analysis software predicts these miRNAs to be involved in regulation of cell-to-cell adhesion pathways through gene transcripts such as Protocadherin Beta 6 (PCDHB6) and Neural Cell Adhesion Molecule 2 (NCAM2). Interestingly, inspection of miRNA predicted targets that fall under significant GO terms also predicts several individual miRNAs to regulate inflammatory response and nociceptive signaling gene transcripts like A20 (TNFAIP3) and Cathepsin S (CTSS). Validation of these miRNAs was performed via qPCR for 5 out of the 6 significantly decreased miRNAs. Of the 5 miRNAs tested, hsa-miR-2116-5p, hsa-miR-302d-3p, and hsa-miR-1246 were validated as having decreased expression in acute crisis patients compared to steady state. qPCRs were then performed to probe for miRNA based regulation of top predicted target mRNA transcripts. Both CTSS and TNFAIP3 showed increased expression of mRNA transcripts in acute crisis patient red cells as compared to steady state. Next, western blot analysis was performed on red cell protein lysate. Interestingly, this analysis revealed a pattern in activated CTSS expression that was independent of acute crisis. Steady state patients reporting chronic pain showed increased activated CTSS compared to those without chronic pain. Activated CTSS was not found in red cell lysates from three normal, non-SCD donors. Taken together, these results suggest that red blood cells may play a larger role in inflammation and pain responses in sickle cell disease than previously thought. Further these results suggest activated CTSS as a potential biomarker for differentiating chronic pain in patients. Follow-up studies are underway to further stratify and investigate these findings. Disclosures Desai: University of Pittsburgh: Research Funding; Ironwood: Other: Adjudication Committee; NIH: Research Funding; FDA: Research Funding; Selexy/Novartis: Research Funding; Pfizer: Research Funding.
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