View clinical trials related to Pressure Ulcer.
Filter by:The primary objective of the study is to examine the effectiveness of the Zephyr BioPatch in measuring position changes of a non-patient subject in a lab setting and to examine the effectiveness of the Zephyr BioPatch in measuring position changes of hospitalized patients.
The purpose of this study is to test whether optimal patient turning, strictly every 2 hours with at least 15 minutes of tissue decompression, reduces the occurrence of hospital acquired pressure ulcers.
This study aims to test direct application of the Non-Invasive Mechanical Ventilation -NIVM- mask or interface as the most efficient intervention to prevent Pressure Ulcers (PU), compared with other three usual preventive measures which consist in the use of three different medical devices.
Several studies were searched the preventive measures of bed sores. Although repositioning is the mainstay in most preventive measures, there is no evidence to recommend specific turning regimen. The aim of this study is to comparative the impact of the two points repositioning in lateral lying position on the right and left versus the traditional three points repositioning on the right, back, and left in the occurrence of bed sores. This study was conducted on 150 patients admitted to the critical care department of Alexandria Main University Hospital after obtaining an informed consent from their relatives. The investigators excluded patients who: have active or healed bed sores. Patients were randomly divided into two groups by allocated randomization: - Group 1: traditional three points rotation. - Group 2: two points rotation.
Incontinence is a widespread problem in all health care setting. One of the main complications of incontinence is inflammation of the skin in the genital and anal region, also known as incontinence-associated dermatitis (IAD). IAD is a known risk factor of pressure ulcer development. Prevalence figures of IAD vary between 5.6% and 50%. The primary aim of this study is to compare the effectiveness of a 3-in-1 genital wipe versus standard care (traditional water and soap) for the prevention of IAD. The second aim is to perform a health economic evaluation of the 3-in-1 genital wipe versus standard care, and third to compare the cost of a 2-in-1 total body wash wipe versus standard care for total body wash. Other outcomes are the comfort and tolerance of both the nurses and participants. In this Randomized Controlled Trial, performed in 13 long-term care settings, the participants will undergo a 30 day study period. In the experimental intervention, the participants will be washed with body wash wipes and genital wipes. In the control group, the subjects will receive traditional care. IAD as well as Pressure Ulcer prevalence will be monitored. Subjective and objective time measurements will be performed.
Pressure ulcers (PU) cause pain and discomfort to affected patients, as well as considerable costs for society. The present study will evaluate the effect of the Continuous Bedside Pressure Mapping (CBPM)- system on PU prevalence and incidence. A RCT including 180 patients will be conducted in a geriatric setting in a Swedish University hospital
The goal of the Negative Pressure Wound Therapy Registry (NPWTR) for Wounds is to provide real world patient data from electronic health records submitted to meet Stage 2 Meaningful Use in order to understand the effectiveness and safety of various NPWT devices and methods among patients with chronic wounds and ulcers. Randomized, controlled trials to establish product efficacy routinely exclude patients with the co-morbid conditions common to patients seen in usual clinical practice and thus the results of these Randomized Controlled Trials (RCTs) tend to be non-generalizable. Little is known about the effectiveness of NPWT among typical patients. Patient registries are also ideal for assessing long term safety issues in these devices.
The coprecipitation method was used to prepare hydroxypropyl-beta-cyclodextrin complexed with insulin (HPβCD-I) by mixing insulin with hydroxypropyl-beta-cyclodextrin (HPβCD) in the molar ratio of 1:5 with the addition of 10 mL of purified water for every 100 mg of the complex. After complete dissolution of the material, the mixture was stirred for 30 min at room temperature (25°C), then left to rest for 60 min and lyophilized. The gel was prepared by dispersing the Carbopol 940® polymer in a known amount of purified water. Under mild heating the methylparaben (0.02%, w/v), propylparaben (0.01%, w/v) and propylene glycol were dissolved and incorporated in the dispersion of Carbopol 940® and left to rest for a period of 12h. After this time, the prepared gel was stirred and pH corrected to a range of 5.0 to 7.0 with triethanolamine. A set amount of insulin and the HPβCD-I complex were incorporated into the control gel for the preparation of other formulations. A randomized, double-blind, prospective clinical trial was conducted from March 2013 to April 2014 at the Hospital Universitário Regional de Maringá (HUM), Paraná, Brazil, in order to determine the safety and efficacy of gel in patients hospitalized in the Intensive Care Unit. Hyperglycemic volunteers and those with pressure ulcers other than grade II were excluded from the study. Grade II pressure ulcers were selected as they are a superficial lesion, with little tissue loss, and allow easy visualization of healing. A letter of free and informed consent was obtained. The study was conducted with each patient for a period of 15 days. The volunteers were divided equally into three groups A, B and C, with each group being formed by five volunteers (n=5). Group A was randomly selected for treatment with gel with HPβCD-I complex, group B for treatment with gel with insulin, and group C with the control gel. Blood glucose tests were performed in order to assess whether the insulin complexed or otherwise with HPβCD could cause an increase in the rate of insulin in the blood in patients, leading to hypoglycemia. An identical standardized procedure for gel placement was used for all patients. Initially, the pressure ulcer was cleaned with saline. With the aid of a paper ruler, the ulcer was measured and photographed, as the ruler included the date and the initials of the patient. After measuring, a quantity of 5 grams of gel was placed on the pressure ulcer and covered with sterile gauze and a transparent film. The curative was changed once a day during the treatment period, unless there was leakage of fluid, contamination, or signs of infection. Every three days the pressure ulcers of all patients were measured and photographed again, resulting in a total of six measurements per patient. The photos of pressure ulcers were evaluated for measurement of pressure ulcers and any kind of irritation. At the end of this stage, the properly gathered study data was interpreted using the analysis software Mobile Wound Analyzer® (MOWA). Data was evaluated by variance analysis (ANOVA), and means were compared with the Tukey test (p < 0.05) using the software Statistica 8.0/2008 (Stat Soft Inc., Tulsa, USA). Mixed model repeated measures methodology with some covariance structures was adopted for statistical analysis of the clinical trial (p < 0.05). The Statistical Analysis System (SAS) for Windows, version 9.3 (SAS Inc., Chicago, IL) program was used for statistical analysis.
The aim of this study is to correlate the intensity and the duration of a mechanical strain, applied over the skin of a bedridden paraplegics, with the microvascularization parameters (oxygen saturation, blood flow and blood volume) and the early inflammatory mechanism. We want to detect the early stage of irreversible damage for each patient. To achieve this goal, we measure some specifics data over a group of 48 paraplegics admitted in the hospital for a pressure ulcer surgical treatment. The patients are randomly distributed in 4 groups. First the interface pressure between the patient body and the air mattress is recorded continuously for 3 hours (= the repositioning patient frequency): we have the pressure over each point of the patient body in contact with the mattress on this time lap. Then, we will measure the microvascularization parameters, using an O2C medical device over a trochanter on a specific anatomical area which will be thereafter biopsied. Finally, depending on the group in which they were randomly distributed, the patient will undergo a muscle biopsy on his or her trochanter at 0h, 1h, 2h or 3h after they lie down on the air mattress. This way, we will be able to determine the effect of the mechanical strain duration on the physiologic parameters. The following day, the patient is undergoing his or her surgery for removing the necrotic area of the bedsore. At the same time, we will recover some of the sample near the bedsore which would serve as a maximum inflammatory response. Then a second muscle biopsy will be performed on an innervated area to be able to determine a basal concentration of biomarkers. The inclusion period for this study will be 3 years. All the patients are followed for 24 hours then they will be followed by medical staff in their bedsore resection setting. The data gained for this study will hopefully help the scientific world to achieve a better understanding of the pressure ulcer aetiology. They will also be helpful to achieve a mobilization of the patient specific of his or her inherent characteristics with a high sensitivity level. This way we will have a more efficient bedsore prevention.
The purpose of this study is to analyse utility and compatibility of U-health solution service based on mobile for chronic wound management.