Mark Fritz scite author profile

Growing numbers of SARS-CoV-2 cases coupled with limited understanding of transmissibility and virulence, have challenged the current workflow and clinical care pathways for the dysphagia provider. At the same time, the need for non-COVID-19-related dysphagia care persists. Increased awareness of asymptomatic virus carriers and variable expression of the disease have also focused attention to appropriate patient care in the context of protection for the healthcare workforce. The objective of this review was to create a clinical algorithm and reference for dysphagia clinicians across clinical settings to minimize spread of COVID-19 cases while providing optimal care to patients suffering from swallowing disorders. Every practitioner and healthcare system will likely have different constraints or preferences leading to the utilization of one technique over another. Knowledge about this pandemic increases every day, but the algorithms provided here will help in considering the best options for proceeding with safe and effective dysphagia care in this new era.

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High‐yield Selection Criteria for Cranial Computed Tomography after Acute Trauma

Madden

Witzke

Sanders

et al. 1995

Academic Emergency Medicine

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Functional assessment of the ex vivo vocal folds through biomechanical testing: A review

Dion

Jeswani

Roof

et al. 2016

Materials Science and Engineering: C

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The human vocal folds are complex structures made up of distinct layers that vary in cellular and extracellular composition. The mechanical properties of vocal fold tissue are fundamental to the study of both the acoustics and biomechanics of voice production. To date, quantitative methods have been applied to characterize the vocal fold tissue in both normal and pathologic conditions. This review describes, summarizes, and discusses the most commonly employed methods for vocal fold biomechanical testing. Force-elongation, torsional parallel plate rheometry, simple-shear parallel plate rheometry, linear skin rheometry, and indentation are the most frequently employed biomechanical tests for vocal fold tissues and each provide material properties data that can be used to compare native tissue verses diseased for treated tissue. Force-elongation testing is clinically useful, as it allows for functional unit testing, while rheometry provides physiologically relevant shear data, and nanoindentation permits micrometer scale testing across different areas of the vocal fold as well as whole organ testing. Thoughtful selection of the testing technique during experimental design to evaluate a hypothesis is important to optimizing biomechanical testing of vocal fold tissues.

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Antiplatelet and anticoagulation therapy in microlaryngeal surgery

et al. 2013

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The Safety of Antithrombotic Therapy During In-office Laryngeal Procedures—A Preliminary Study

et al. 2015

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Mark Fritz

Moving Forward with Dysphagia Care: Implementing Strategies during the COVID-19 Pandemic and Beyond

High‐yield Selection Criteria for Cranial Computed Tomography after Acute Trauma

Functional assessment of the ex vivo vocal folds through biomechanical testing: A review

Antiplatelet and anticoagulation therapy in microlaryngeal surgery

The Safety of Antithrombotic Therapy During In-office Laryngeal Procedures—A Preliminary Study

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