Objective To formulate an evidence-based nursing strategy of turning over for a patient with the risk of pressure ulcer. Methods The personalized clinical questions were put forward based on the PICO and patient’s condition, and the following databases such as NGC, The Cochrane Library of DARE, CDSR, CCTR, MEDLINE, PubMed and CBM were searched to collect the best clinical evidences of turning over for preventing pressure ulcer. Results One clinical guideline, one systematic review and three randomized controlled trials were included finally. According to the retrieval outcomes, patient’s clinical condition, and patients and their family members’ willingness, a reasonable nursing plan of turning over was formulated: lie on the visco-elastic foam decompression bed, turn over every 4 hours, and combine supine position with alternation of left-oblique 30° position and right-oblique 30° position. During hospitalization, the grade-I pressure ulcer in size of 4×6 cm2 on patient’s sacrococcygeal region was clear, dry and not broken, and the other part of body with pigmentation had no occurrence of pressure ulcer. Conclusion Evidence-based approaches are helpful to provide patient with a nursing plan that meets the needs of both scientificalness and individualization.
Objective To systematically evaluate the effectiveness and safety of Resina Draconis for pressure ulcer. Methods Such databases as The Cochrane Library (Issue 4, 2013), PubMed, Elsevier SDOL, Web of Knowledge, CBM, CNKI, VIP and WanFang Data were searched from inception to May 2013 to collect randomized controlled trials (RCTs) about Resina Draconis for pressure ulcer. Two reviewers were assigned to independently screen the literature according to inclusion and exclusion criteria, extract data, and appraise the methodological quality. Then, meta-analysis was conducted using RevMan 5.2.4 software. Results A total of 14 RCTs were included, involving 610 patients. The results of meta-analysis showed that, Resina Draconis treatment were associated with a higher effective rate for pressure ulcer (RR=1.17, 95%CI 1.08 to 1.26, Plt;0.000 1). The results of descriptive analysis showed that, compared with the control group, Resina Draconis treatment shortened healing time. As for safety, adverse reactions had not been reported. Conclusion Resina Draconis can improve the effective rate for pressure ulcer and shorten the healing time, compared with other drug treatments. However, due to limited quality and quantity of the included studies, this conclusion needs to be proved by more high quality studies.
Objective To quantitatively evaluate the effect of 2 types of pressures induced injury by using threedimensional (3D) reconstruction of rats loaded tibial is anterior muscle from two-dimensional (2D) image of serial histological sections. Methods Twenty female or male Sprague Dawley rats, aged 10-12 weeks and weighing 280-300 g, were randomlydivided into experimental group (n=10) and control group (n=10). The random side of tibial is anterior muscle was givenintermittent gradient (8.0-21.3 kPa) and sustained (13.3 kPa) pressure in 0.12 cm2 area in experimental group and controlgroup, respectively; the experiment was terminated and the general condition of rats was observed after 3 cycles, and a single cycle included 2 hours of compression and 30 minutes of release. The general observations of pressed skin and tibial is anterior muscle were done after 24 hours of pressure rel ief, and the tibial is anterior muscle was harvested integrally from the loaded side, then made into interval 4 μm serial sections. After HE staining, 2D images were obtained. Necrosis and injury areas were distinguished by Image Pro Plus (IPP) 6.0 software and image registration was conducted by Photoshop 8.0.1 after 2D panorama images acquired by digital microscope (× 40) and IPP mosaic software. 3D reconstruction was establ ished via data processing using Mimics 10.1 software so as to get the volume, the surface area, and 3D images of the whole piece of tibial is anterior muscle and injury areas respectively. Results All rats of 2 groups survived till experiment terminated and no skin ulcers occurred after 24 hours. Edema and indentation were observed on press side skin and tibial is anterior muscles of 2 groups, fadeless maroon area was observed in control group. A total of 994 sl ices were obtained from 20 samples of tibial is anterior muscles. 3D images suggested that injury of control group was severe, which penetrated the whole piece of tibial is anterior muscle and expandedalong the tibia bony prominence. By contrast, injury of experimental group was less, but had similar width to the contact surface of indentor. There was no significant difference in the volume and the surface area of tibial is anterior muscle between 2 groups (P gt; 0.05), while the injury volume and the injury surface area were significantly smaller in experimental group than in control group (P lt; 0.05). Conclusion 3D reconstruction is an effective method to quantitatively evaluate pathological changes inside the integrity tissue and can provide the visual basis for the mechanical property distributed in the loaded muscle. Intermittent gradient pressure can reduce deep tissue injury.
Objective To compare the effect of two types of intermittent pressure on formation of pressure ulcer in rabbit hind l imbs and to investigate the mechanism of gradually changed intermittent pressure produced by waves bed in the prevention of pressure ulcer. Methods Gracil is (3 cm2) in both hind l imbs of 12 adult Japanese white rabbits were randomlyloaded with gradually changed intermittent pressure (50-160 mm Hg, 1 mm Hg=0.133 kPa) and sustained pressure (100 mmHg) serving as the experimental group and the control group, respectively. The experiment was terminated after 4 cycles, and a single cycle included 2 hours of compression and 30 minutes of compression-release. Blood velocity of hind l imbs and blood perfusion of wound were detected by bidirectional doppler blood flow detector and laser doppler perfusion imaging detection system before compression and at every 10 minutes in compression-release period of each cycle (0, 10, 20 and 30 minutes). After the termination, gross observation of the wound was conducted, pathomorphological changes of tissues from compressed area were observed by HE staining, and contents of NO, malondialdehyde (MDA), and superoxide dismutase (SOD) in muscle tissue were measured using colorimetry method. Results No significant difference was evident between two groups in terms of blood flow velocity before compression (P gt; 0.05); the blood flow velocity of two groups decreased significantly at 0 minute in every compressionrelease period of each cycle, and no significant differences were noted between two groups (P gt; 0.05); the blood flow velocity of theexperimental group was higher than that of the control group at 10, 20 and 30 minutes (P lt; 0.05). No significant difference was noted between two groups in terms of wound blood perfusion before compression (P gt; 0.05); the wound blood perfusion of two groups decreased significantly at 0 minute in every compression-release period of each cycle, and no significant differences were noted between two groups (P gt; 0.05); the difference between two groups was not significant at 10 minutes in the first cycle (P gt; 0.05), and the experimental group was higher than the control group at 20 and 30 minutes in the first cycle (P lt; 0.05). In the following 3 cycles, the recovery of perfusion in the experimental group was faster than that of the control group (P lt; 0.05). Gross observation showed the experimental group had less effusion than the control group. The experimental group had intact cutaneous appendage, less inflammatory cell infiltration, and no obvious ulcer formation, whereas the control group had obvious skin ulcer, depletion of cutaneous appendage, and more inflammatory cells infiltration. Significant differences were noted between two groups in terms of NO, MDA, and SOD content (P lt; 0.05). Conclusion Gradually changed intermittent pressure can maintain the blood perfusion of tissue, reduce ischemia-reperfusion injury and cell apoptosis, and prevent the formation of pressure ulcer.
Objective To formulate an evidence-based adjuvant therapeutic plan for a patient with large area pressure ulcers. Methods Based on an adequate assessment of the patient’s condition and using the principle of PICO, we searched The Cochrane Library (Issue 1, 2008), DARE (Issue 3, 2008), CCRT (Issue 1, 2008), MEDLINE (1980~ March 2008) and Chinese Journal Full-text Database CNKI (1979~2008) for the best available clinical evidence on adjuvant therapy of large area pressure ulcers with infrared rays, nutrition support and some special overlays. Results Two systematic reviews and three randomized controlled trials were included. According to the current evidence, as well as the patient’s clinical condition and preference, a comprehensive therapeutic plan was given to the patient. And in the next three months with the therapeutic plan, the patient’s large area pressure ulcers had already recovered. Conclusion Evidence based approaches can help us develop the best comprehensive therapeutic plan for the patient and will help improve the therapeutic results for patients with large area pressure ulcers.
ObjectiveTo investigate the clinical effectiveness of high-glucose insulin mixture on the local treatment of patients with grade Ⅱ and Ⅲ pressure ulcers. MethodsA total of 124 patients with grade Ⅱ and Ⅲ pressure ulcers treated between January 2011 and June 2012 were randomly divided into three groups: saline group (group A, n=41), high-glucose insulin mixture group (group B, n=41) and modern dressing group (group C, n=42). We observed and compared the treatment effects among the three groups using both measurements of traditional evaluation criteria and pressure ulcer scale for healing (PUSH) after a week of dressing. ResultsThe overall treatment effects among the three groups were significantly different (χ2=30.453, P<0.001). The results of pairwise comparisons was that the treatment effect was significantly different between group B or C and group A (P<0.01), but the treatment effect was not statistically different between group B and C (P>0.05). Subgroup analysis for patients with grade Ⅱ or Ⅲ pressure ulcers also came to the similar results. ConclusionBoth high-glucose insulin mixture and modern dressing have significant effects on patients with grade Ⅱ and Ⅲ pressure ulcers. However, the high-glucose insulin mixture costs less and is worthy of extensive promotion.
ObjectiveTo enhance nurses'awareness of pressure ulcer management and reduce the incidence of pressure ulcers by using the risk early warning management idea. MethodsWe analyzed the data of patients with pressure ulcers and patients at high risk of pressure ulcers reported through nursing software between January 2009 and December 2011.Then,we timely and actively gave instructions and formulated corrective measures for the weak points in order to optimize pressure ulcer management process. ResultsNurses'awareness of prevention of pressure ulcers was improved,and the number of patients at high risk of pressure ulcers reported was increased year by year.From 2009 to 2011,the ratio of extremely high-risk and high-risk patients to all discharged patients was respectively 0.76%,1.01% and 0.76%;while from 2009 to 2011,the rate of in-hospital pressure ulcers hard to avoid was respectively 0.06%,0.06% and 0.02%. ConclusionBased on pressure ulcers wound team management,training nurses'early warning management idea,assigning corresponding responsibilities and management goals can help to standardize the management of pressure ulcers and raise the discipline level unceasingly.
ObjectiveTo investigate the operation and effect of pressure ulcers group (PUG) on the procedure of clinical management of pressure ulcers. MethodsThe in-hospital patients with high-risk pressure ulcers and patients with pressure ulcers from outside of the hospital (n=145) before the founding of PUG in 2011 were regarded as group A, and patients in this group were treated by traditional therapies. After PUG was founded in our hospital in January 2012, 192 patients with high-risk pressure ulcers and from outside of the hospital in 2012 were considered as group B. In addition, group C contained 380 patients treated in 2013. Group B and C were both treated by PUG that developed a management system of pressure ulcers and took active measures to control and prevent pressure ulcers. PUG trained 30 clinical nurse supervisors, who were recommended from relevant clinical departments. The incidence of inevitable pressure ulcer of hospitalized patients, the cure rate of patients with pressure ulcers from outside of the hospital, pressure ulcer knowledge level of clinical nurse supervisors were comparatively analyzed between group A and B, and between group A and C, respectively. ResultsAfter the establishment of PUG, the incidence of inevitable pressure ulcer of hospitalized patients in group A, B, and C was 76.20%, 17.02%, and 14.61%, respectively. The cure rate of patients from outside of the hospital was 54.84%, 86.84%, and 87.97%, respectively. Differences between group A and B, and between group A and C both were significant (P<0.01). The pressure ulcer knowledge level of all nurse supervisors improved significantly (P<0.001). ConclusionThe establishment of PUG makes the clinical pressure ulcer management more scientific and objective. Furthermore, it can effectively reduce the incidence of pressure ulcers, and also improve the quality of medical care and ensure the safety of patients.
ObjectiveTo explore the best nursing interventions for advanced-age diabetes with pressure ulcer in Sichuan area. MethodsWe retrospectively analyzed the reasons for pressure ulcer and the nursing process for 37 patients with diabetes treated between March 2012 and March 2013 in our hospital. Then, we analyzed and summarized the susceptibility factors, wound nursing, nutritional support and blood sugar monitoring in all the patients. ResultsThrough intensive nursing, pressure ulcer in 36 patients were cured, and one patient died due to lung infection. ConclusionThe risk of pressure ulcer is high in advanced-age diabetes patients, and they need promising nursing. Individualized plan is necessary for them to improve their life-quality.
ObjectiveTo explore the application of 10% sodium chloride for stage-Ⅲ pressure ulcer debridement. MethodsAccording to the standard, 68 stage-Ⅲ pressure ulcer cases were selected from January 2011 to December 2014. All the patients had yellow surface and positive bacterium cultivation suggesting wound infection. They were randomly divided into control group and trial group. The control group used traditional treatment for debridement, while the trial group used 10% sodium chloride, until the end of debridement where the granulation became fresh and bacterium cultivation negative. Then we compared these two groups in terms of debridement time, wound drainage, wound smell, granulation growth, pain score and cost. ResultsThe control group debridement time was 18-32 days, averaging (22.4±10.8) days, and the trial group debridement time was 5-13 days, averaging (11.6±4.0) days (P<0.05). The control group wound drainage ratings score was 6.70±2.87, while the trial group wound drainage ratings score was 3.65±1.23 (P<0.05). In terms of the wound smell, the control group had a score of 2.74±1.62, and the score for the experimental group was 1.26±0.51 (P<0.05). The average cost of the control group was (975.00±10.29) yuan, while the experimental group was (626.00±8.18) yuan (P<0.05). ConclusionThe application of 10% sodium chloride for stage-Ⅲ pressure ulcer debridement can shorten debridement time, promote the growth of granulation and reduce the economic burden, which is worth clinical promotion.