Frank Schembri
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P-1875. A Quality Initiative to Understand Risk Factors for Pneumonia Readmissions at a Regional Medical Center Open
Background Pneumonia is a significant cause of hospitalizations in the United States, with 1 million pneumonia-related hospital admissions in 2014. Additionally, patients discharged after pneumonia treatment have a high all-cause 30-day re…
View article: Supplementary Table 10 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 10 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 10 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
View article: Supplementary Table 5 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 5 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 5 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
View article: Supplementary Table 7 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 7 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 7 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
View article: Data from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Data from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Cigarette smoke creates a molecular field of injury in epithelial cells that line the respiratory tract. We hypothesized that transcriptome sequencing (RNA-Seq) will enhance our understanding of the field of molecular injury in response to…
View article: Supplementary Table 3 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 3 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 3 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
View article: Supplementary Figure 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Figure 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Figure 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
View article: Supplementary Table 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 7 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 7 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 8 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 8 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 4 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 4 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 2 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 2 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 9 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 9 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 6 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 6 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 5 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 5 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 4 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 4 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 6 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 6 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 3 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 3 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 8 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 8 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 9 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 9 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 10 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 10 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Table 2 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Table 2 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Supplementary Figure 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Supplementary Figure 1 from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq
Data from Characterizing the Impact of Smoking and Lung Cancer on the Airway Transcriptome Using RNA-Seq Open
Cigarette smoke creates a molecular field of injury in epithelial cells that line the respiratory tract. We hypothesized that transcriptome sequencing (RNA-Seq) will enhance our understanding of the field of molecular injury in response to…
Introduction of an academic medical center’s point-of-care ultrasound curriculum to internal medicine residents at a community-based teaching hospital Open
Adaptation of POCUS curricula from academic centers may be a feasible instructional strategy for community-based IM residency programs.