Travis White scite author profile

PURPOSE:Common labs such as a daily complete blood count or a daily basic metabolic panel represent possible waste and have been targeted by professional societies and the Choosing Wisely campaign for critical evaluation. We undertook a multifaceted quality-improvement (QI) intervention in a large community hospitalist group to decrease unnecessary common labs. METHODS:The QI intervention was composed of academic detailing, audit and feedback, and transparent reporting of the frequency with which common labs were ordered as daily within the hospitalist group. We performed a pre-post analysis, comparing a cohort of patients during the 10-month baseline period before the QI intervention and the 7-month intervention period. Demographic and clinical data were collected from the electronic medical record. The primary endpoint was number of common labs ordered per patient-day as estimated by a clustered multivariable linear regression model clustering by ordering hospitalist. Secondary endpoints included length of stay, hospital mortality, 30-day readmission, blood transfusion, amount of blood transfused, and laboratory cost per patient. RESULTS:The baseline (n 5 7824) and intervention (n 5 5759) cohorts were similar in their demographics, though the distribution of primary discharge diagnosisrelated groups differed. At baseline, a mean of 2.06 (standard deviation 1.40) common labs were ordered per patientday. Adjusting for age, sex, and principle discharge diagnosis, the number of common labs ordered per patient-day decreased by 0.22 (10.7%) during the intervention period compared to baseline (95% confidence interval [CI], 0.34 to 0.11; P < 0.01). There were nonsignificant reductions in hospital mortality in the intervention period compared to baseline (2.2% vs 1.8%, P 5 0.1) as well as volume of blood transfused in patients who received a transfusion (127.2 mL decrease; 95% CI, 2257.9 to 3.6; P 5 0.06). No effect was seen on length of stay or readmission rate. The intervention decreased hospital direct costs by an estimated $16.19 per admission or $151,682 annualized (95% CI, $119,746 to $187,618).CONCLUSION: Implementation of a multifaceted QI intervention within a community-based hospitalist group was associated with a significant, but modest, decrease in the number of ordered lab tests and hospital costs. No effect was seen on hospital length of stay, mortality, or readmission rate. This intervention suggests that a communitybased hospitalist QI intervention focused on daily labs can be effective in safely reducing healthcare waste without compromising quality of care. Journal

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Exosome Isolation: Cyclical Electrical Field Flow Fractionation in Low-Ionic-Strength Fluids

Petersen

Shiri

White

et al. 2018

Anal. Chem.

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The influence of buffer substitution and dilution effects on exosome size and electrophoretic mobility were shown for the first time. Cyclical electrical field flow fractionation (Cy-El-FFF) in various substituted fluids was applied to exosomes and other particles. Tested carrier fluids of deionized (DI) water, 1× phosphate buffered saline (PBS), 0.308 M trehalose, and 2% isopropyl alcohol (IPA) influenced Cy-El-FFF-mediated isolation of A375 melanoma exosomes. All fractograms revealed a crescent-shaped trend in retention times with increasing voltage with the maximum retention time at ∼1.3 V AC. A375 melanoma exosome recovery was approximately 70–80% after each buffer substitution, and recovery was independent of whether the sample was substituted into 1× PBS or DI water. Exosome dilution in deionized water produced a U-shaped dependence on electrophoretic mobility. The effect of dilution using 1× PBS buffer revealed a very gradual change in electrophoretic mobility of exosomes from ∼−1.6 to −0.1 μm cm/s V, as exosome concentration was decreased. This differed from the use of DI water, where a large change from ∼−5.5 to −0.1 μm cm/s V over the same dilution range was observed. Fractograms of separated A375 melanoma exosomes in two substituted low-ionic-strength buffers were compared with synthetic particle fractograms. Overall, the ability of Cy-El-FFF to separate exosomes based on their size and charge is a highly promising, label-free approach to initially catalogue and purify exosome subtypes for biobanking as well as to enable further exosome subtype interrogations.

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“Keeping Each Patient Safe”:Quality Safety Teaching/Learning Packets

Benczo

Gaudy

White

2004

The Joint Commission Journal on Quality and Safety

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Black Chemists Share Their Stories about Isolation and Inclusion

Doumbia¹,

Labastide²,

Reid³

et al. 2020

ACS Cent. Sci.

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Metrics & MoreArticle Recommendations T he killings of George Floyd and Breonna Taylor as well as the resulting protests have brought about a time of intense reflection for many people in the United States, including the chemistry community.Being Black in chemistry is a lonely experience for many, and it doesn't get better after earning a PhD. C&EN recently invited six Black chemists working in academia, industry, and government to share their experiences and their hopes for a more equitable future in the sciences. Always the Odd One OutDevin Swiner, graduate student in chemistry, the Ohio State University, and cofounder of #BlackinChem

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Travis White

A multifaceted hospitalist quality improvement intervention: Decreased frequency of common labs

Exosome Isolation: Cyclical Electrical Field Flow Fractionation in Low-Ionic-Strength Fluids

“Keeping Each Patient Safe”:Quality Safety Teaching/Learning Packets

Black Chemists Share Their Stories about Isolation and Inclusion

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