Detection of Bacterial Burden

Research Category:Detection of Bacterial Burden, Chronic Wounds

Lights, fluorescence, action—Influencing wound treatment plans including debridement of bacteria and biofilms

Int Wound J. 2023;1–10.

Research Category:Detection of Bacterial Burden, Chronic Wounds

Skin Pigmentation Impacts the Clinical Diagnosis of Wound Infection: Imaging of Bacterial Burden to Overcome Diagnostic Limitations

Journal of Racial and Ethnic Health Disparities (2023), April 2023

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Instantly evaluating bacterial infections on skin ulcers in an Asian population using a fluorescence-emitting device

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Point-of-care fluorescence imaging reveals extent of bacterial load in diabetic foot ulcers

International Wound Journal, Volume 20, Issue 2, Feb. 2023, PP 554-566

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Fluorescence – modern method of the diagnosis of chronic wounds on the example of venous leg ulcer

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Fluorescence – modern method of the diagnosis of chronic wounds on the example of venous leg ulcer

Adv Dermatol Allergol, 2022

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Research Category:Detection of Bacterial Burden, Chronic Wounds

The Role of Autoflorescence Imaging Device in the Evaluation of Bacteria Burden Control

The International Journal of Lower Extremity Wounds, May 11, 2022

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Research Category:Chronic Wounds, Detection of Bacterial Burden

The Association Between pH and Fluorescence as Non-invasive Diagnostic Tools in Chronic Wounds

The International Journal of Lower Extremity Wounds

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Uncovering the high prevalence of bacterial burden in surgical site wounds with point-of-care fluorescence imaging

Int Wound J. 2021;1–11.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Are Semi-Quantitative Clinical Cultures Inadequate? Comparison to Quantitative Analysis of 1053 Bacterial Isolates from 350 Wounds

Diagnostics 2021, 11(7), 1239

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Guidelines for Point-of-Care Fluorescence Imaging for Detection of Wound Bacterial Burden Based on Delphi Consensus

Diagnostics 2021, 11(7), 1219

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Bacterial Autofluorescence Digital Imaging Guides Treatment in Stage 4 Pelvic Pressure Injuries: A Preliminary Case Series

Diagnostics 2021, 11(5), 839

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Wound healing: what is the NICE guidance from the UK?

Journal of Wound Care, Vol.30, No. 3

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Research Category:Burns, Detection of Bacterial Burden

Diagnosing Burn Wounds Infection: The Practice Gap & Advances with MolecuLight Bacterial Imaging

Diagnostics 2021, 11(2), 268

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Research Category:Detection of Bacterial Burden, Chronic Wounds

A Prospective Multisite Observational Study Incorporating Bacterial Fluorescence Information Into the UPPER/LOWER Wound Infection Checklists

Wounds 2020;32(11):299–308

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Diagnostic Accuracy of Point-of-Care Fluorescence Imaging for the Detection of Bacterial Burden in Wounds: Results from the 350-Patient FLAAG Trial

Advances in Wound Care, 1 Sep 2020

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Research Category:Detection of Bacterial Burden, Acute Wounds

The use of MolecuLight i:X device in acute hand trauma

Journal of Plastic, Reconstructive & Aesthetic Surgery, 16 March 2020

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Research Category:Detection of Bacterial Burden, Chronic Wounds

A paradigm shift in chronic wound assessment: incorporating bacterial fluorescence imaging into standard of care

Proc. SPIE 11223, Photonic Diagnosis, Monitoring, Prevention, and Treatment of Infections and Inflammatory Diseases 2020, 112230F (4 March 2020)

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Research Category:Detection of Bacterial Burden, Chronic Wounds

MolecuLight i:X: A new tool for wound infection diagnosis

South African Journal of Plastic & Reconstructive Aesthetic Surgery & Burns 2019;2(3):68-71.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

The use of MolecuLight™ for early detection of colonisation in dermal templates

Burns, 29 October 2019

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Current management and perspectives in the treatment of ventricular assist device-specific infections.

J Thorac Dis. 2019 May;11(5):2111-2116

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Real-time bacterial fluorescence imaging accurately identifies wounds with moderate-to-heavy bacterial burden

J Wound Care. 2019 Jun 2;28(6):346-357.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Understanding Real-Time Fluorescence Signals from Bacteria and Wound Tissues Observed with the MolecuLight i:X

Diagnostics. 2019; 9(1):22.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Novel Bacterial Auto-fluorescence Imaging Device Can Lead to more targeted debridement

Today’s Wound Clinic. April 2019.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

New horizons in the understanding of the causes and management of diabetic foot disease: report from the 2017 Diabetes UK Annual Professional Conference Symposium

Diabetic Medicine, 2017, 34(3), 305-315. doi: 10.1111/dme.

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Research Category:Detection of Bacterial Burden, Chronic Wounds

Fluorescence technology for point of care wound management

Surgical Technology International, 2016, 28, 58-64.

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Research Category:Pre-Clinical Applications, Detection of Bacterial Burden

Autofluorescence imaging device for real-time detection and tracking of pathogenic bacteria in a mouse skin wound model: preclinical feasibility studies

Journal of Biomedical Optics, 2014, 19(8). doi: 10.1117/1.JBO.19.8.085002.

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