Point-of-care Blood Coagulation Monitoring Using Low-cost Paper-based No-reaction Lateral Flow Assay Device

Li, Hua

29 October 2018

No description available.

Electrical Engineering

Blood Coagulation

Paper Based

Lateral Flow

Point of Care

Low Cost

Improving the Sensitivity and Selectivity of Localized Surface Plasmon Resonance Biosensors Toward Novel Point-of-Care Diagnostics

Unser, Sarah A.

19 November 2019

No description available.

Chemistry

Localized Surface Plasmon Resonance

Biosensors

Point-of-Care

Nanoparticles

Colorimetric Sensing

Diagnostics

Nurse Practitioner Use of Thoracic Pocus Using a Handheld Ultrasound Device in the COVID-19 Pandemic

Mitchell, Robyn R.

17 March 2021

No description available.

Nursing

Reevaluating Point-of-Care Resources: Community Engagement in Difficult Collection Choices

Walden, Rachel R., Woodward, Nakia J., Wallace, Rick L.

02 January 2019

Rising collection costs sometimes necessitate tough decisions regarding cancellation of popular products. In 2015–2016, the East Tennessee State University Medical Library subscribed to UpToDate and DynaMed Plus, both clinical point-of-care products, with the understanding that one product would be canceled at the fiscal year end. The librarian team undertook a year-long community engagement campaign to inform library users about the pending product cancellation decision. Ultimately, DynaMed Plus was selected and UpToDate was cancelled. The campaign generated user engagement with the decision making, along with perceived benefits including increased awareness of the library's budget constraints, increased discussion of scholarly publishing, and greater faculty/student knowledge of evaluating evidence-based products.

collection development

community engagement

evidence-based medicine

point-of-care resources

Medical Library

Library and Information Science

Clinical Key: A Review

Wolf, Katherine, Woodward, Nakia J., Wallace, Rick L.

01 April 2013

Elsevier is a leading publisher of medical content, and ClinicalKey is the company's latest endeavor to aggregate multiple resources in one easily searchable interface. ClinicalKey merges medical education with clinically relevant information. This review will provide an overview of the contents, search options, features and limitations of this database.

ClinicalKey

clinician

database review

education

medical database

point-of-care

Medical Library

Library and Information Science

ClinicalAccess

Weyant, Emily

14 September 2016

ClinicalAccess is a clinical decision support tool released in early 2014. It incorporates some familiar aspects of other clinical decision support tools while adding new elements to its interface, such as the ability for users to submit their own questions. Answers provided by ClinicalAccess are supported by evidence and references from McMaster Plus, other McGraw-Hill products, and links to articles in PubMed, amongst other resources.

ClinicalAccess

database

decision support tool

Point of Care Tool

Medical Library

Library and Information Science

Rapid Prototyping Of Wrinkled Nano-/Micro-Structured Electrodes For Electrochemical DNA Detection

Woo, Stephen Minju

11 1900

Rapid, point-of-care infectious disease diagnostics have the potential to dramatically improve health care provision in low-income world regions. However, the development of technologies such as electrochemical DNA biosensors is hindered by slow turnaround times from design to working prototype. In order to facilitate biosensor development, a rapid prototyping method has been applied to the fabrication of wrinkled nano-/micro-structured electrodes in this work. An electrocatalytic DNA hybridization detection scheme is optimized for use with the wrinkled electrodes by adjusting the concentrations of redox agents FiCN and RuHex. Characterization of the electrodes by electrochemical and fluorescence-based methods showed tunability of important detection-related parameters – namely, the density of DNA probe molecules and the hybridization-induced electrocatalytic signal change – by altering parameters of deposition time, molar fraction of DNA probes relative to diluent molecules, and thickness of the wrinkled gold film. / Thesis / Master of Applied Science (MASc)

Biosensors

Electrochemistry

Biomedical Engineering

Rapid Prototyping

Point-of-care Testing

Molecular Diagnostics

Lab-On-A-Chip

Allocation of Health Care Resources at the Point of Care: An Exploratory Study of the Perceptions and Decision Making of Nurse Practitioners Delivering Primary Care Services in Community Clinics

Crowe, Mary Lind

27 April 2012

No description available.

Ethics

Nursing

point of care resource allocation

nurse practitioners

community clinics

naturalistic decision making

Developing Aptamer-based Biosensor for Onsite Detection of Stress Biomarkers in Noninvasive Biofluids

Dalirirad, Shima

27 September 2020

No description available.

Physics

Point Of Care device

Aptamer

Gold Nanoparticles

Stress and depression

Lateral Flow Assay

Biosensor

Flow Valve Diagnostics for Label-Free, Quantitative Biomarker Detection: Device Fabrication, Surface Modification, and Testing

Mansfield, Danielle Scarlet

07 August 2012

Diseases are often diagnosed by detection of disease-specific biomarkers in fluid samples. However, many state-of-the-art detection methods require a lab with complex machinery, trained operators, and/or lengthy analysis time. In contrast, point-of-care (POC) devices are brought to the patient's location, they are easy to use, and results are obtained almost immediately. Many current POC devices are too difficult to be used without a skilled assistant, and although many are able to detect analytes above a threshold value, they give little or no quantitative information. This work presents the development of polymer-based microfluidic devices capable of sensing and quantifying biomarkers in fluid samples in a straightforward manner using a novel biomarker assay termed "flow valve diagnostics". In this assay, an antibody-modified polydimethylsiloxane (PDMS) microchannel constricts due to the binding force between antibodies and antigens, stopping fluid flow. The flow distance is measured and correlated to antigen concentration. This detection method is an improvement over other methods because it is an innovative, non-instrumented, label-free, easy-to-use approach. These devices are small, portable, disposable, inexpensive, and thus ideal for use in POC testing. I have successfully fabricated flow valve devices with standard micromachining techniques, including photolithography, replica molding with PDMS, and plasma oxidation. Following fabrication, I compared two methods for attaching receptor biomolecules (e.g., antibodies) to the microchannel surfaces: non-specific adsorption and silanization with 3-glycidoxytrimethoxypropylsilane (GOPS). I used laser-induced fluorescence to determine that silanization with GOPS was the better method for biomolecule attachment. Finally, I tested antibody-modified flow valve devices with target antigens to determine if the antibody/antigen binding force was strong enough to cause channel pinching and flow stoppage. By modifying the device design and using higher antigen concentrations, I was able to show that flow valve devices can detect antigens in a concentration-dependent manner. Future work to improve the device design and to modify and test these devices with different receptor/target pairs will bring flow valve diagnostics closer to becoming a valuable asset in biomarker detection and POC testing.

biomarker detection

point-of-care testing

label-free

quantitative

PDMS

Biochemistry

Chemistry