Telemedicine use in the field of wound care had been increasing in popularity when the novel coronavirus 2019 paralyzed the globe in early 2020. To combat the constraints of healthcare delivery during this time, the use of telemedicine has been further expanded. Though many limitations of telemedicine are still being untangled, the benefits of virtual care are being realized in both inpatient and outpatient settings. In this article, the advantages and disadvantages of telemedicine are discussed through two case examples that highlight the promise of implementation during and beyond the pandemic.
Background Prone positioning improves mortality in patients intubated with acute respiratory distress syndrome and has been proposed as a treatment for non-intubated patients with COVID-19 outside the ICU. However, there are substantial patient and operational barriers to prone positioning on acute floors. Our objective was to increase the frequency of prone positioning among acute care patients with COVID-19. Methods We conducted a retrospective analysis of all adult patients admitted to the acute care floors with COVID-19 respiratory failure. We used a run chart to quantify the frequency of prone positioning over time. For the subset of patients assisted by a dedicated physical therapy team, we compared oxygen before and after positioning. Our initiative consisted of four separate interventions: (1) nursing, physical therapy, physician, and patient education; (2) optimization of supply management and operations; (3) an acute care prone positioning team; and (4) electronic health record optimization. Results From March 9, 2020 to August 26, 2020, 176/875 (20.1%) patients were placed in prone position. Among these, 43 (24.4%) were placed in prone position by the physical therapy team. Only 2/94 (2%) eligible patients admitted in the first two weeks of the pandemic were ever documented in prone position. After launching our initiative, weekly frequency peaked at 13/28 (46.4%). Mean oxygen saturation was 91% prior to prone positioning versus 95.2% after ( p < 0.001) in those positioned by physical therapy. Conclusion A multidisciplinary quality improvement initiative increased frequency of prone positioning by proactively addressing barriers in knowledge, equipment, training, and information technology.
Pharmacovigilance is the science of monitoring the effects of medicinal products to identify and evaluate potential adverse reactions and provide necessary and timely risk mitigation measures. Intelligent automation technologies have a strong potential to automate routine work and to balance resource use across safety risk management and other pharmacovigilance activities. While emerging technologies such as artificial intelligence (AI) show great promise for improving pharmacovigilance with their capability to learn based on data inputs, existing validation guidelines should be augmented to verify intelligent automation systems. While the underlying validation requirements largely remain the same, additional activities tailored to intelligent automation are needed to document evidence that the system is fit for purpose. We propose three categories of intelligent automation systems, ranging from rule-based systems to dynamic AI-based systems, and each category needs a unique validation approach. We expand on the existing good automated manufacturing practices, which outline a risk-based approach to artificially intelligent static systems. Our framework provides pharmacovigilance professionals with the knowledge to lead technology implementations within their organizations with considerations given to the building, implementation, validation, and maintenance of assistive technology systems. Successful pharmacovigilance professionals will play an increasingly active role in bridging the gap between business operations and technical advancements to ensure inspection readiness and compliance with global regulatory authorities.
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