Venkata Macha scite author profile

The global and national response to the COVID-19 pandemic has been inadequate due to a collective lack of preparation and a shortage of available tools for responding to a large-scale pandemic. By applying lessons learned to create better preventative methods and speedier interventions, the harm of a future pandemic may be dramatically reduced. One potential measure is the widespread use of contact tracing apps. While such apps were designed to combat the COVID-19 pandemic, the time scale in which these apps were deployed proved a significant barrier to efficacy. Many companies and governments sprinted to deploy contact tracing apps that were not properly vetted for performance, privacy, or security issues. The hasty development of incomplete contact tracing apps undermined public trust and negatively influenced perceptions of app efficacy. As a result, many of these apps had poor voluntary public uptake, which greatly decreased the apps’ efficacy. Now, with lessons learned from this pandemic, groups can better design and test apps in preparation for the future. In this viewpoint, we outline common strategies employed for contact tracing apps, detail the successes and shortcomings of several prominent apps, and describe lessons learned that may be used to shape effective contact tracing apps for the present and future. Future app designers can keep these lessons in mind to create a version that is suitable for their local culture, especially with regard to local attitudes toward privacy-utility tradeoffs during public health crises.

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Computational modeling of retinal hypoxia and photoreceptor degeneration in patients with age-related macular degeneration

McHugh

Wang

et al. 2019

PLoS ONE

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Although drusen have long been acknowledged as a primary hallmark of dry age-related macular degeneration (AMD) their role in the disease remains unclear. We hypothesize that drusen accumulation increases the barrier to metabolite transport ultimately resulting in photoreceptor cell death. To investigate this hypothesis, a computational model was developed to evaluate steady-state oxygen distribution in the retina. Optical coherence tomography images from fifteen AMD patients and six control subjects were segmented and translated into 3D in silico representations of retinal morphology. A finite element model was then used to determine the steady-state oxygen distribution throughout the retina for both generic and patient-specific retinal morphology. Oxygen levels were compared to the change in retinal thickness at a later time point to observe possible correlations. The generic finite element model of oxygen concentration in the retina agreed closely with both experimental measurements from literature and clinical observations, including the minimal pathological drusen size identified by AREDS (64 μm). Modeling oxygen distribution in the outer retina of AMD patients showed a substantially stronger correlation between hypoxia and future retinal thinning (Pearson correlation coefficient, r = 0.2162) than between drusen height and retinal thinning (r = 0.0303) indicating the potential value of this physiology-based approach. This study presents proof-of-concept for the potential utility of finite element modeling in evaluating retinal health and also suggests a potential link between transport and AMD pathogenesis. This strategy may prove useful as a prognostic tool for predicting the clinical risk of AMD progression.

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External Validation of the Renal Ablation-Specific (MC)2 Risk Scoring System in Predicting Complications from Percutaneous Renal Cryoablation

McCafferty

Huang

Khudari

et al. 2021

Cardiovasc Intervent Radiol

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Contact Tracing Apps: Lessons Learned on Privacy, Autonomy, and the Need for Detailed and Thoughtful Implementation (Preprint)

Hogan¹,

Macedo²,

Macha³

et al. 2021

Preprint

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UNSTRUCTURED The global and national response to the COVID-19 pandemic has been inadequate due to a collective lack of preparation and a shortage of available tools for responding to a large-scale pandemic. By applying lessons learned to create better preventative methods and speedier interventions, the harm of a future pandemic may be dramatically reduced. One potential measure is the widespread use of contact tracing apps. While such apps were designed to combat the COVID-19 pandemic, the time scale in which these apps were deployed proved a significant barrier to efficacy. Many companies and governments sprinted to deploy contact tracing apps that were not properly vetted for performance, privacy, or security issues. The hasty development of incomplete contact tracing apps undermined public trust and negatively influenced perceptions of app efficacy. As a result, many of these apps had poor voluntary public uptake, which greatly decreased the apps’ efficacy. Now, with lessons learned from this pandemic, groups can better design and test apps in preparation for the future. In this viewpoint, we outline common strategies employed for contact tracing apps, detail the successes and shortcomings of several prominent apps, and describe lessons learned that may be used to shape effective contact tracing apps for the present and future. Future app designers can keep these lessons in mind to create a version that is suitable for their local culture, especially with regard to local attitudes toward privacy-utility tradeoffs during public health crises.

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Abstract No. 187 Utility of R.E.N.A.L. nephrometry scoring system in predicting complications and outcomes of percutaneous microwave ablation of renal tumors

Huang

Bready

Nelson

et al. 2021

Journal of Vascular and Interventional Radiology

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Results: Patients on anticoagulation had a longer mean catheter implantation time of 323.1 ± 592.0 days compared to 169.0 ± 224.8 days among patients not on anticoagulation, although this was not statistically significant (P ¼ 0.37). Antiplatelet therapy did not significantly delay fibrin sheath development (P ¼ 0.96). Right-sided catheters had a significantly longer mean implantation time of 195.9 ± 335.1 days versus 66.2 ± 58.0 days for left-sided catheters (P ¼ 0.008). Time to fibrin sheath formation was not significantly associated with statin medication (P ¼ 0.72), hematocrit (P ¼ 0.16), platelet count (0.12), PT (P ¼ 0.51), or INR (P ¼ 0.74). Conclusions: Anticoagulation may delay de novo fibrin sheath formation in patients with tunneled internal jugular 14.5 F symmetric tipped dialysis catheters. The time to fibrin sheath formation was significantly shorter among catheters placed on the left, and thus, tunneled dialysis catheters should be placed on the right side when feasible.

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Venkata Macha

Contact Tracing Apps: Lessons Learned on Privacy, Autonomy, and the Need for Detailed and Thoughtful Implementation

Computational modeling of retinal hypoxia and photoreceptor degeneration in patients with age-related macular degeneration

External Validation of the Renal Ablation-Specific (MC)2 Risk Scoring System in Predicting Complications from Percutaneous Renal Cryoablation

Contact Tracing Apps: Lessons Learned on Privacy, Autonomy, and the Need for Detailed and Thoughtful Implementation (Preprint)

Abstract No. 187 Utility of R.E.N.A.L. nephrometry scoring system in predicting complications and outcomes of percutaneous microwave ablation of renal tumors

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