View clinical trials related to Pressure Injury.
Filter by:This is an observational study designed to evaluate the safety and clinical outcomes of Myriad™ in soft tissue reconstruction procedures. The study will enroll participants who are undergoing a surgical procedure, where the attending physician will use Myriad™ as part of the surgical intervention.
This study is aimed to examine the effect of different wound dressings on the prevention of pressure injury in the face area related to noninvasive mechanical ventilation mask. The study was completed out with 102 patients who were followed up in Chest Diseases and Thoracic Surgery Hospital between October 2019 and August 2020 and met the inclusion criteria of the study. In the study, hydrocellular and hydrocolloid wound dressing was applied to the pressure areas under the mask of noninvasive mechanical ventilation in the intervention groups, while the routine treatment process was followed in the control group. Wound dressings were obtained from HARTMANN. Study data were collected with the "Individual Characteristics Form" and "Pressure Injury Rating Scale".
The purpose of this project is to compare a newly developed automatic reversing dynamic air mattress, with a regular care mattress, which is in daily use at the hospital. Focus will be on pressure relief in relation to occurrence of pressure injury, user satisfaction, and the mattresses impact on sleep and pain. The participants will be randomized to start with the intervention mattress or the control mattress. Outcomes will be measured via validated forms regarding pressure related injuries, quality of life, pain, and mattress comfort. Custom made forms will be used regarding resource use and comfort in the nursing service, especially in relation to position changes in the participants .
Pressure ulcers are a serious and common problem for residents admitted to long-term care facilities and community care patients. They represent a major burden to patients, carers and the healthcare system, affecting approximately 1 in 20 community patients. They occur frequently among patients with limited mobility, such as those patients being bed-bound and/or wheelchair-bound. In many countries, pressure ulcers are recognized as a national health issue and governments designate pressure ulcers as one of the most important sentinel events for healthcare. International guidelines recommend the use of pressure redistributing support surfaces, systematic patient repositioning and preventive skin care to prevent pressure ulcers. All interventions should be patient-tailored and based on a thorough assessment of both the patient and contextual risk factors. As pressure ulcers can arise in a number of ways, interventions for prevention and treatment need to be applied across a wide range of settings, including the community, nursing homes and hospitals. A review of mortality and severe harm incidents reported to the National Reporting and Learning System found that pressure ulcers were the largest proportion of patient safety incidents in 2011/2012, accounting for 19% of all reports. It has been acknowledged that a significant proportion of pressure ulcers are avoidable. The prevalence of pressure ulcers is 1 of the 4 common harms recorded in the UK NHS Safety Thermometer, a local improvement tool for measuring, monitoring and analysing patient harms across a range of settings, including nursing homes, community nursing and hospitals on a monthly basis. Continuous low levels or short-term high levels of pressure and shear on the skin and underlying tissue on vulnerable areas are extrinsic factors contributing to the development of pressure ulcers. Support surfaces (e.g. any mattresses, integrated bed systems, mattress replacement, overlay, seat cushion, or seat cushion overlay) are specialized devices for pressure redistribution specifically designed for management of tissue loads, micro- climate, and/or therapeutic functions. A Cochrane systematic review by McInnes et al. (2015) defined multiple groups of pressure redistribution materials: low-tech (not electrically driven) constant low-pressure supports, high-tech supported surfaces, and other supported surfaces (operating table mattress pad, rotating beds, cushions, and limb protectors). Static or reactive overlay mattresses are an example of a low-tech constant low pressure support. Static air mattresses maintain a continuous low air pressure that exerts a pressure redistributing effect. Serraes and Beeckman (2016) found a pressure ulcer incidence of 5.1% in patients placed on static air support surfaces (mattress overlay, heel wedge, and seat cushion) in a high risk population in a nursing home setting in Belgium. A multicentre randomised controlled clinical trial in 26 nursing homes (including 308 residents) between April 2017 and May 2018 resulted in a significantly lower pressure ulcer incidence when applying the principle of static air (n=8/154, 5.2%) compared to the alternating air group (n=18/154, 11.7%)(p=0.04). The median time to develop a pressure ulcer category II-IV was significantly longer in the static air group (10.5 days, IQR 1-14) compared to the alternating air group (5.4 days, IQR 1-12; p=0.05). The study concluded that a static air mattress was significantly more effective compared to an alternating air pressure mattress to prevent pressure ulcers in a high risk nursing home population. This multicentre cohort study will be performed in 5 nursing homes in a random sample of 40 residents who are at high risk of developing pressure ulcers. Residents will be included in the study for a period of 14 days. Skin assessment and risk factor registration will be done on a daily basis by the nurses. Reliability checks and time measurements will be completed by the researcher.
This study was conducted to examine the effect of two different tube detection on pressure wound formation in the intensive care unit. The search was carried out with a total of 60 patients that 30 of 60 them are interventions and 30 of 60 as experiments, who were hospitalized in the anesthesia and reanimation intensive care unit of an Educational Research Hospital. The 60 patients who made up the sample were assigned 2 groups using a computer program that produced random numbers. For the purpose of the study, the groups were encoded as groups A and B, and each group was tested with two different endotracheal tube detection methods which was applied to the patients in the groups. Data from the study were collected using the introductory and clinical features form, the braden pressure wound risk diagnostic scale, the pressure ulcer recovery assessment scale, the international pressure wound staging system, and the eilers oral assessment guide. Patients in both groups were monitored for four days for oral presure injury. During this process, the tube detection of both groups was changed every 24 hours, and the tubes were repositioned every 4 hours. At the end of the fourth day, wound assesments of patients who developed pressure wounds were performed by using the international pressure staging system and the pressure ulcer recovery assessment scale. Relatives of the patients who were scheduled to conduct the study were informed about the study by oral and written and their consent was obtained.
Pressure Wound (PW) is a chronic wound that develops in soft tissue as a result of the capillary end pressure which rising above 32 mmHg. It is the most common complication with 31% annual incidence after spinal cord injuries. Pressure wound is considered as malpractice for nursing practices. It decreases the quality of life of the elderly and patients with mobility restrictions and prolongs the length of hospital stay. Complication development risk and cost are high. Factors affecting wound opening include the amount of pressure, duration, moisture, friction, nutrition, age, weight, hemoglobin value, chronic diseases. The development of preventive actions, protocol and standard in pressure wound planning of care is among the main goals of nursing care. The research will be carried out to evaluate the effect of hand massage in preventing pressure injuries. Patient with a high risk of developing pressure wound will constitute the experimental and control group of our study. Standard nursing care applied to the control group; unlike the control group hand massage will be applied to the experiment group.when the sample group determined in both the experimental and control groups is reached the study will be terminated. The pressure wound in both groups will be compared statistically and the effectiveness of hand massage in reducing the pressure wound will be determined. H0 :The applied classical hand massage has no effect on the formation of pressure wound. H1: The applied classical hand massage has effect on the formation of pressure wound.
This study was planned as a prospective quasi-experimental study with the control group to determine the effect of structured pressure injury patient education (program on the knowledge, participation, wound healing progress, and quality of life among patients with limited mobility. We hypothesized that there would be a significant effect of structured pressure injury patient education on patient's knowledge, participation, wound healing rate, and quality of life between the control and intervention group over time.
Pressure-related injuries in individuals with SCI and persons who use wheelchairs are one of the most dangerous secondary health problems encountered throughout the lifespan. With recurrence rates as high as 79% and mortality rates as high as 48% when sepsis is present, there exists a critical clinical need to target prevention of pressure injuries. This study will examine the effects of two novel seat mapping technologies ("AW-Shift" and "Sensoria") on increasing in-seat movement in persons who may be at risk for pressure injuries due to altered sensation on their sitting surface. AW-Shift provides a visual display about pressure distribution directly between the body and the seat cushion to a wheelchair user outside of a clinical setting. Sensoria represents a novel technology to promote tissue health by providing users with information about their daily in-seat movement and providing weight shift reminders that are based on time since previous weight shift activities. Changes in the frequency of in-seat movement behaviors will be compared between baseline and each intervention period.
Pressure Ulcers are a serious and common problem for residents admitted to long-term care facilities and community care patients. They represent a major burden to patients, carers and the Healthcare system, affecting approximately 1 in 20 community patients. International guidelines recommend the use of pressure redistribution support surfaces, systematic patient repositioning and preventive skin care to prevent pressure ulcers. It has been acknowledged that a significant proportion of pressure ulcers are avoidable. The prevalence of pressure ulcers is 1 of the 4 common harms recorded in the UK NHS Safety Thermometer, a local improvement tool for measuring, monitoring and analyzing patient harms across a range of settings, including nursing homes, community nursing and hospitals on a monthly basis.
Preventing Pressure Injuries among patients undergoing spinal or orthopedic surgery in the prone position is challenging because of position required for surgical access and limited availability of pressure reduction surfaces for prone position operating tables. A new dressing technology (Mepilex Border Flex® (MBF) provides increased conformability of the dressing to the skin with the ability of the dressing to move in all directions (e.g., 360-degree flexibility) with even slight body movements. Limited data exists on use of silicone foam dressings with all direction flexibility during prone surgical procedures. The investigators will partents scheduled for surgery in the prone position at UCLA Santa Monica Medical Center and propose to examine use of the MBF dressings on the chest, iliac crest, and face (chin, cheeks, forehead) of patients undergoing this type of surgery using a prospective, non-randomized pre/post intervention clinical trial design. Three outcome measures will be compared between patients undergoing prone surgery with standard care (no dressings, pressure reduction positioning on the operating table) and those with standard care and use of MBF dressings placed on the chest, iliac crest and face: (1) incidence of erythema and pressure injuries on face, chest and iliac crest determined by visual skin assessment between the two groups, (2) incidence of moisture associated skin damage (MASD) and friction abrasions on face, chest and iliac crest determined by visual skin assessment between the two groups, and (3) SEM measures indicative of pressure injury damage on face, chest, iliac crest between the two groups. The study will also include a 6-month retrospective medical record review of patients who underwent prone surgeries from February 1, 2018 through July 31, 2018 to determine a historical pressure injury facility incident rate. The year 2018 was chosen to avoid changes associated with the COVID-19 pandemic.