72 research outputs found
An Immunoblotting Technique for Direct Visualization of Chido and Rodgers Reactivity on C4 Variants after Electrophoresis
NU-16PATIENT SAFETY MAY BE IMPROVED USING A DOSE CALCULATING-AND-ROUNDING ELECTRONIC CHEMOTHERAPY ORDER ENTRY AND VERIFICATION SYSTEM WITH CLINICAL DECISION SUPPORT SYSTEM (CDSS) FEATURES IN THE PEDIATRIC SETTING
Severe hyperuricemia with acute kidney injury: Vigilance needed for spontaneous tumor lysis syndrome
MSKCC Quality Assessment (QA) monitoring program for potentially harmful chemotherapy orders
Meta-Analysis to Assess the Efficacy of Interferon-α in Patients With Follicular Non-Hodgkin's Lymphoma
The Amer-ican Recovery and Reinvestment Act of 2009, Title XIII, Heath Information Tech-nology
Abstract Purpose: Pediatric oncology is a challenging environment for computerized provider order entry (CPOE). Our goal was to build on the proven safety features of CPOE and facilitate input of expert clinicians. Methods: A standard, commercially available CPOE system was implemented throughout the hospital. The design of the pediatric oncology implementation was a collaborative effort by a multidisciplinary team of clinicians and information technology experts. Results: During 9 months of configuration effort, 30 medical logic modules and 110 order sets were developed to support pediatric oncology. The proportion of chemotherapy orders submitted using specific research protocol or standard-ofcare order sets increased from 57% to 84% as the number of active order sets grew to 200. The number of medicationrelated patient safety events decreased 39% after implementation of CPOE in pediatric oncology. Acceptance of the system is high in all clinical disciplines. Conclusion: Implementation of CPOE required extensive customization but improved patient safety in this highly complex pediatric oncology environment
Changes in some indices of lipid metabolism after lethal exsanguination and resuscitation
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