Mistake Proofing Changing Designed To Reduce Error
& Bioassays Resources...DNA & RNABLAST (Basic Local Alignment Search Tool)BLAST (Stand-alone)E-UtilitiesGenBankGenBank: BankItGenBank: SequinGenBank: tbl2asnGenome WorkbenchInfluenza VirusNucleotide DatabasePopSetPrimer-BLASTProSplignReference Sequence (RefSeq)RefSeqGeneSequence Read Archive (SRA)SplignTrace ArchiveUniGeneAll DNA & RNA Resources...Data & SoftwareBLAST (Basic Local Alignment Search Tool)BLAST (Stand-alone)Cn3DConserved Domain Search Service (CD Search)E-UtilitiesGenBank: BankItGenBank: SequinGenBank: tbl2asnGenome ProtMapGenome WorkbenchPrimer-BLASTProSplignPubChem Structure SearchSNP Submission ToolSplignVector Alignment Search Tool (VAST)All Data & Software Resources...Domains & StructuresBioSystemsCn3DConserved Domain Database (CDD)Conserved Domain Search Service (CD Search)Structure (Molecular Modeling Database)Vector Alignment Search Tool (VAST)All Domains & Structures Resources...Genes & ExpressionBioSystemsDatabase of Genotypes and Phenotypes (dbGaP)E-UtilitiesGeneGene Expression Omnibus (GEO) Database Gene Expression Omnibus (GEO) DatasetsGene Expression Omnibus (GEO) ProfilesGenome WorkbenchHomoloGeneMap ViewerOnline Mendelian Inheritance in Man (OMIM)RefSeqGeneUniGeneAll Genes & Expression Resources...Genetics & MedicineBookshelfDatabase of Genotypes and Phenotypes (dbGaP)Genetic Testing RegistryInfluenza VirusMap ViewerOnline Mendelian Inheritance in Man (OMIM)PubMedPubMed Central (PMC)PubMed Clinical QueriesRefSeqGeneAll Genetics & Medicine Resources...Genomes & MapsDatabase of Genomic Structural Variation (dbVar)GenBank: tbl2asnGenomeGenome ProjectGenome ProtMapGenome WorkbenchInfluenza VirusMap ViewerNucleotide DatabasePopSetProSplignSequence Read Archive (SRA)SplignTrace ArchiveAll Genomes & Maps Resources...HomologyBLAST (Basic Local Alignment Search Tool)BLAST (Stand-alone)BLAST Link (BLink)Conserved Domain Database (CDD)Conserved D
purposes only. It was current when produced and may now be outdated. Archive material is no longer maintained, and some links may not work. Persons with disabilities having difficulty accessing this information should contact us at: https://info.ahrq.gov. Let us know the nature of the problem, the Web address of what you want, and your contact information. Please go to www.ahrq.gov for current information. Page 1 of 1 Publication # 07-0020 Go to Online Store Mistake-Proofing the Design of Health Care Processes Mistake-Proofing the Design of Health http://www.ncbi.nlm.nih.gov/pubmed/17142609 Care Processes is a synthesis of practical examples from the real world of health care on the use of process or design features to prevent medical errors or the negative impact of errors. It contains over 150 examples of mistake-proofing that can be applied in health care--and in many cases relatively inexpensively.An important addition to patient safety literature, this work draws https://archive.ahrq.gov/professionals/quality-patient-safety/patient-safety-resources/resources/mistakeproof/index.html on examples contributed by clinicians in the field as well as research from several academic disciplines. The focus is on what works to reduce medical errors for the in-the-trenches workers who face important decisions, judgments, and risks every day while performing their jobs. This volume draws on the groundbreaking writings of Shingo Shingeo, innovative solutions from nurses at a regional medical center, architects in the center of the current hospital design revolution, and many others.Select to download print version (PDF File, 1.6 MB).By John Grout, Ph.D., Berry College, Rome, GAContentsAcknowledgmentsPrefaceChapter 1. What is Mistake-Proofing?IntroductionMistake-Proofing DefinedA Review of Human ErrorMistake-Proofing ApproachesAttributes of Mistake-ProofingCreating Simplicity Is Not SimpleImplementing Mistake-Proofing in Health CareConclusionReferencesChapter 2. Relationships to Existing Patient Safety Efforts and ToolsIntroductionRelationships to Existing Patient Safety EffortsKnowing What Errors Occur and Why Is Not EnoughUsing the Tools TogetherConclusionReferencesChapter 3. How to Mistake-Proof the DesignThe Design Change ImperativeMultiple Fault TreesDesigning Mistake-Proofing Devices that Cause Benign FailuresAn Application ExampleConclusionReferencesChapter 4. Design Issues, Caveats, and LimitationsIntroductionMistake Proof the Mistake-ProofingAvoid Moving Errors to Another LocationPrevent Devices from Becoming Too CumbersomeCommit the Appropriate ResourcesAvoid Type I Error Pr
have a problem!Oops. A firewall is blocking access to Prezi content. Check out this article to learn more or contact your system administrator. Stand out and be remembered with Prezi, the secret weapon of great presenters. Get started today Get started What https://prezi.com/mnrhjsoytkux/mistake-proofing-changing-designs-to-reduce-error/ is Prezi? Learn more Loading presentation... Public Share Embed Liked Like Present Remotely Send the link below via email or IMCopy Present to your audienceStart remote presentationInvited audience members will follow you as you navigate and presentPeople invited to a presentation do not need a Prezi accountThis link expires 10 minutes after mistake proofing you close the presentationA maximum of 30 users can follow your presentationLearn more about this feature in our knowledge base article Do you really want to delete this prezi? Neither you, nor the coeditors you shared it with will be able to recover it again. DeleteCancelMake your likes visible on Facebook? Connect your mistake proofing changing Facebook account to Prezi and let your likes appear on your timeline. You can change this under Settings & Account at any time. No, thanksConnect with FacebookMistake proofing: Changing designs to reduce error No description by Suji R Selvam on 16 April 2014 TweetComments (0) Please log in to add your comment. Report abuseTranscript of Mistake proofing: Changing designs to reduce errorMistake proofing: Changing designs to reduce error-J R GroutQual Saf Health Care. Dec 2006; 15(Suppl 1): i44–i49.what is it about?Creating designs which can prevent the performance of a prohibited action, ensure required actions are performed or ensure that information required for correct action is available at the correct time and place, and that which can stand against a noisy background is called "mistake proofing". Lit. ReviewPatrice Spath wrote: “If healthcare is to improve patient safety, systems and processes must be designed to be more resistant to error occurrence and more accommodating of error consequence”.S
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