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Disease surveillance is the systematic collection, analysis, and interpretation of health data essential to the planning, implementation, and evaluation of public health practice. This process integrates data dissemination to entities responsible for preventing and controlling disease, injury, and disability. Surveillance systems provide crucial information for action, helping public health authorities make informed decisions to manage and prevent outbreaks, ensure public safety, optimize...
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The nurse documents nursing diagnoses and enters them into the patient record. The identified patient's nursing diagnosis is either written out with a plan of care or entered into the electronic health record.
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Systematic Approach to Address Early Pandemic's Diagnostic Unmet Needs.

Catherine Cabrera1, Kanoelani Pilobello2, Steven Dalvin2

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The study outlines a framework for selecting and validating new diagnostic tools for Severe Acute Respiratory Syndrome Coronavirus-2 (SARS-CoV-2). This systematic approach accelerates the adoption of essential testing technologies during health crises.

Keywords:
COVID-19SARS-CoV-2diagnosticpoint-of-servicerubric system

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Area of Science:

  • Medical Diagnostics
  • Infectious Disease Research
  • Public Health Preparedness

Background:

  • The COVID-19 pandemic necessitated rapid development and deployment of diagnostic tests for SARS-CoV-2.
  • Existing diagnostic selection and validation processes were insufficient for the pandemic's urgent demands.
  • Challenges included the need for accurate, scalable, and timely testing solutions.

Purpose of the Study:

  • To develop a systematic framework for assessing and selecting novel diagnostic technologies for SARS-CoV-2.
  • To propose clinical validation frameworks for the rapid screening of new diagnostic tools.
  • To provide a versatile approach applicable to future emerging pathogen diagnostics.

Main Methods:

  • Developed a framework for evaluating diagnostic technologies based on prioritized performance metrics.
  • Proposed clinical validation protocols for rapid assessment of new diagnostic methods.
  • Applied a systematic approach to guide device selection in a clinical setting.

Main Results:

  • Established a structured rubric for assessing diagnostic technology performance.
  • Demonstrated a method to expedite the clinical validation of new diagnostic tools.
  • Provided a scalable framework for future diagnostic technology adoption.

Conclusions:

  • A systematic approach integrating diagnostic selection and rapid validation shortens the time to clinical practice.
  • The developed framework is adaptable for assessing technologies for future emerging pathogens.
  • This methodology enhances preparedness for global health emergencies requiring rapid diagnostic solutions.