Objective: Clinical evaluation of signs and symptoms (CSS) of infection is imperative to the diagnostic process. However, patients with heavily colonised and infected wounds are often asymptomatic, leading to poor diagnostic accuracy. Point-of-care fluorescence imaging rapidly provides information on the presence and location of bacteria. This clinical trial (#NCT03540004) aimed to evaluate diagnostic accuracy when bacterial fluorescence imaging was used in combination with CSS for identifying wounds with moderate-to-heavy bacterial loads. Methods: Wounds were assessed by study clinicians using NERDS and STONEES CSS criteria to determine the presence or absence of moderate-to-heavy bacterial loads, after which the clinician prescribed and reported a detailed treatment plan. Only then were fluorescence images of the wound acquired, bacterial fluorescence determined to be present or absent and treatment plan adjusted if necessary. Results: We examined 17 VLUs/2 DFUs. Compared with CSS alone, use of bacterial fluorescence imaging in combination with CSS significantly improved sensitivity (22% versus 72%) and accuracy (26% versus 74%) for identifying wounds with moderate-to-heavy bacterial loads (≥104 CFU/g, p=0.002). Clinicians reported added value of fluorescence images in >90% of study wounds, including identification of wounds incorrectly diagnosed by CSS (47% of study wounds) and treatment plan modifications guided by fluorescence (73% of study wounds). Modifications included image-guided cleaning, treatment selection, debridement and antimicrobial stewardship. Conclusion: Findings from this pilot study suggest that when used in combination with CSS, bacterial fluorescence may: (1) improve the diagnostic accuracy of identifying patients with wounds containing moderate-to-heavy bacterial loads and (2) guide more timely and appropriate treatment decisions at the point-of-care.
Detection of bacterial burden within or near surgical wounds is critical to reducing the occurrence of surgical site infection (SSI). A distinct lack of reliable methods to identify postoperative bioburden has forced reliance on clinical signs and symptoms of infection (CSS). As a result, infection management has been reactive, rather than proactive. Fluorescence imaging of bacterial burden (FL) is positioned to potentially flip that paradigm. This post hoc analysis evaluated 58 imaged and biopsied surgical site wounds from the multicentre fluorescence imaging assessment and guidance clinical trial. Diagnostic accuracy measures of CSS and FL were evaluated. A reader study investigated the impact of advanced image interpretation experience on imaging sensitivity.Forty-four of fifty-eight surgical site wounds (75.8%) had bacterial loads >10 4 CFU/g (median = 3.11 Â 10 5 CFU/g); however, only 3 of 44 were CSS positive (sensitivity of 6.8%). FL improved sensitivity of bacterial detection by 5.7-fold compared with CSS alone (P = .0005). Sensitivity improved by 11.3-fold over CSS among clinicians highly experienced with FL interpretation (P < .0001). Surgical sites that reach the stage of referral to a wound specialist frequently harbour asymptomatic high bacterial loads that delay healing and increase infection risk. Advanced imaging of pathological bacterial burden improves surgical site monitoring and may reduce the rate of SSIs.
Objective: Oxygen plays an integral role in all phases of the wound healing process and tissue oxygenation is a key determinant of wound healing. A comprehensive evaluation of patients with hard-to-heal wounds must include measurement of oxygenation in and around the area of skin breakdown. The current gold standard, transcutaneous oxygen measurement (TCOM), has numerous drawbacks and as a result has fallen into disuse. Method: This study compared measurement of tissue oxygenation of near infrared spectroscopy (NIRS) with TCOM in patients with acute and hard-to-heal wounds. The Shapiro-Wilk test was used to evaluate the normality of the data. The level of agreement between NIRS and TCOM was determined using Bland-Altman analysis. The relationship between TCOM and NIRS was examined using Pearson correlation. Results: A total of 24 observations were obtained from 10 patients using TCOM and NIRS. The weighted mean partial pressure of oxygen (pO2) in the study population was 39.54mmHg (8.96 standard deviation). Bland–Altman analysis showed that mean difference was positive (18.75), suggesting an overestimation of oxygen measurements using TCOM compared with NIRS. The oxygen levels measured by TCOM and NIRS showed a strong correlation (r=0.74). Conclusion: The wound and hyperbaric community would benefit from a simplified procedure for measuring tissue oxygenation. These findings suggest a strong trend toward correlation between NIRS and TCOM. A further study in a larger population is recommended. NIRS offers several advantages over TCOM. Clinicians have immediate point-of-care visualisation of tissue oxygenation using a handheld device. The procedure takes minutes to perform and is less operator-dependent than TCOM. Finally, NIRS allows measurement of oxygenation in the wound bed, while TCOM does not.
Objective: According to a recent clinical trial, 82% of hard-to-heal wounds harbour levels of bacteria that impede healing. A follow-up analysis of trial data revealed that the use of antiseptic cleansers did not correlate with bacterial burden. At a minimum, these findings suggest the need for clinical research into the efficacy of antiseptics in reducing bacterial burden. Evidence supporting the bacterial killing ability of antiseptics is largely derived from preclinical and laboratory studies. Few clinical trials have examined bacterial levels and healing rates in hard-to-heal wounds. Fortunately, the advent of fluorescence imaging to detect bacterial burden has simplified the conduct of clinical research examining the effectiveness of antiseptics in the clinic setting. The aim of this study was to evaluate the efficacy of a modified sodium hypochlorite (NaOCl) solution in reducing wound size and bacterial load in hard-to-heal wounds. Method: In this randomised, double-blind pilot study, patients were randomised to one of two groups: daily wound cleansing with either normal saline solution (NSS) or NaOCl. Patients and investigators were blinded to the allocation. All wound types were included. Results: A total of 16 patients consented to participate. At the initial visit, the target ulcer was measured and a fluorescence image to evaluate bacterial load obtained. The wound was then cleansed with either NSS or NaOCl and fluorescence imaging repeated. Patients cleansed the wound daily in accordance with the randomisation schedule. They returned to the clinic weekly for four weeks, and on each visit the wound was measured and a fluorescence image captured. Patients receiving NaOCl had a greater percent reduction in wound area versus NSS; although the first phase of the study was not powered for statistical significance, there was a strong trend favouring NaOCl. In addition, there was greater bacterial reduction in the NaOCl group. Conclusion: Based on the results of this pilot study, enrolment has continued in order to increase the study's power. This pilot study suggests that sodium hypochlorite is efficacious in reducing bacterial burden and promoting healing.
Objective: A third of people with diabetes will develop a foot ulcer during their lifetime. The absence of pain secondary to neuropathy often leads to a delay in diagnosis and treatment. Diabetic foot ulcer (DFU) complications, such as infection and amputation, increase mortality and strain the financial resources of health systems across the world. Cellular and/or tissue products (CTPs) have played an important role in the closure of DFUs. Investigators continue to search for new CTPs that facilitate healing. The aim of this study was to assess the efficacy and safety of a porcine peritoneum-derived matrix in DFU treatment. Method: Patients with longstanding DFUs participated in this institutional review board-approved, multicentre, prospective pilot study evaluating the time to healing over 12 weeks. In addition to weekly assessments for wound size, investigators analysed bacterial burden using the MolecuLight procedure (MLiX) and bacterial protease (BPA) testing. Participants received a weekly application of Meso Wound Matrix Scaffold (MWM), a lyophilised porcine peritoneum-derived matrix (DSM Biomedical Inc., Exton, PA, US) for up to eight weeks. Descriptive statistics were chosen for this analysis. Results: A total of 12 male patients and three female patients with an average age of 57 years were enrolled over a two-month period. The average wound duration was 30 weeks. Due to unrelated health issues, four participants were withdrawn. For the study endpoint of complete wound closure at 12 weeks, six (55%) of the remaining 11 patients achieved complete closure, and four (36%) patients healed during the 8-week treatment period. The average number of CTP applications was six. Patients who healed all had negative BPA by nine weeks and no fluorescence on MLiX, indicating low bacterial load. Conclusion: This small pilot study indicates that patients with longstanding DFUs may respond to a porcine peritoneal-derived CTP. In this study, the CTP appears to have inhibited bacterial growth in the wound; however, further research is needed.
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