Clinical Trials Directory

Trials / Withdrawn

WithdrawnNCT04502914

The Study on Bacterial Load Following Open-to-air Management in Burn Patients.

Status
Withdrawn
Phase
N/A
Study type
Interventional
Enrollment
0 (actual)
Sponsor
Texas Tech University Health Sciences Center · Academic / Other
Sex
All
Age
18 Years – 89 Years
Healthy volunteers
Not accepted

Summary

Burns are one of the common forms of trauma and are a cause of unintentional death and injury. Management of burns becomes complex due to multiple associated complications, for instance, secondary infection of burn wounds is the most common complication associated with burn injuries. Treatment of bacterial infections with antibiotics is becoming more challenging due to the development of multidrug-resistance. Hence, there is a critical need to investigate and establish non-antibiotic approaches to prevent colonization, control growth, and eliminate bacteria from burn wounds. Recent studies have explored the beneficial effects of open-to-air strategies on wound healing. Based on the evidence, the investigators hypothesize that bacterial load in burn wounds will be lowered when treated with an open-to-air strategy compared to the traditional closed wound approach.

Detailed description

Burns are one of the common forms of trauma and are a cause of unintentional death and injury in the world as well as in the United States (US). Management of burns becomes complex due to multiple associated complications, which result in short-term and long-term disability. Secondary infection of burn wounds is the most common complication associated with burn injuries. Approximately 10,000 people die in the US due to burn-related infections. For instance, gram-negative Pseudomonas aeruginosa is an opportunistic organism commonly found in burn wounds. Bacterial infections cause prolonged hospital stay, increase morbidity, and mortality of burn patients. Treatment of bacterial infections with antibiotics is becoming more challenging due to the development of multidrug-resistance. Hence, current antibiotic regimens and wound care are not always successful in eliminating bacterial infections. As such, there is a critical need to investigate and establish non-antibiotic approaches to prevent colonization, control growth, and eliminate bacteria from burn wounds. Recent studies have explored the beneficial effects of open-to-air strategies on wound healing, especially in the presence of necrotizing infections. In an open-to air strategy, the wound is left open to the external environment with a heat lamp placed at 6 feet to promote drying. However, the spritz of a topical solution will be applied to avoid excessive drying. Based on current evidence, the investigators hypothesize that bacterial load in burn wounds will be lowered when treated with an open-to-air strategy compared to the traditional closed wound approach.

Conditions

Interventions

TypeNameDescription
PROCEDUREOpen-to-air strategyIn open-to-air management, the wound will be washed with a chlorhexidine solution and leave the wound open, or portion of the wound assigned to OTA, to the environment. An electric heat lamp (model no. 53103, 250W, Brandt Industries LLC, Bronx, NY) will be placed at as close to 1 yard (0.91 m) as possible from the wound after daily wound care for 24 hours (+/- 6 hours) to promote drying. However, to prevent excessive drying an hourly spritz of topical solution, e.g., DuoDERM® Hydroactive® gel (ConvaTec Oklahoma City, OK) will be used at the bedside.
PROCEDURETraditional closed-wound managementIn traditional closed-wound management, once a day the wound will be washed with a chlorhexidine solution and closed with a non-adherent dressing such as ADAPTIC® (Acelity, San Antonio, TX) soaked in topical antimicrobial solutions, ointments, and creams designed to promote wound healing.

Timeline

Start date
2020-11-01
Primary completion
2021-06-09
Completion
2021-06-09
First posted
2020-08-06
Last updated
2022-01-05

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT04502914. Inclusion in this directory is not an endorsement.