Chronic cutaneous wounds represent a major health care burden in China. However, limited information exists regarding the epidemiologic changes associated with recent social and economic development. We designed a cross-sectional survey in 2,513 patients who underwent treatment of chronic cutaneous wounds from a nationally representative sample in 17 hospitals between 2007 and 2008. Results revealed the prevalence of chronic cutaneous wounds among hospitalized patients was 1.7‰. Patient ages ranged from 18 days to 96 years (median, 58 years). The highest ratios were among 40-60 and 60-80-year-old patients (31% and 38%, respectively). The leading causes of chronic cutaneous wounds were diabetes (31.3% men, 35.3% women) trauma (26.4% men, 19.2% women). Manual workers (38.5% men, 29.3% women) and retirees (27.9% men, 23.5% women) accounted for over half the chronic cutaneous wound patients. Regarding treatments, only 22.4% were treated with modern dressings or other novel technologies and more patients received antibiotics (77.8%). Treatment was paid for by the patients in 42.3% of cases, by social medical insurance in 25.0%, by commercial medical insurance in 4.8%, while 27.9% received free medical care. Approximately half the patients' wounds were completely healed at discharge (1,345/2,513). In conclusion, diabetes has recently become the leading cause of chronic cutaneous wounds in China. The large population and considerable financial burden mean that serious attention should be paid to the early detection, prevention and diagnosis of chronic cutaneous wounds, and suggest that an overall health insurance system should be established, especially for the elderly.
Hydrogen peroxide (H<sub>2</sub>O<sub>2</sub>) is a topical antiseptic used in wound cleaning which kills pathogens through oxidation burst and local oxygen production. H<sub>2</sub>O<sub>2</sub> has been reported to be a reactive biochemical molecule synthesized by various cells that influences biological behavior through multiple mechanisms: alterations of membrane potential, generation of new molecules, and changing intracellular redox balance, which results in activation or inactivation of different signaling transduction pathways. Contrary to the traditional viewpoint that H<sub>2</sub>O<sub>2</sub> probably impairs tissue through its high oxidative property, a proper level of H<sub>2</sub>O<sub>2</sub> is considered an important requirement for normal wound healing. Although the present clinical use of H<sub>2</sub>O<sub>2</sub> is still limited to the elimination of microbial contamination and sometimes hemostasis, better understanding towards the sterilization ability and cell behavior regulatory function of H<sub>2</sub>O<sub>2</sub> within wounds will enhance the potential to exogenously augment and manipulate healing.
Background: To determine the distribution and antimicrobial susceptibility pattern of pathogenic bacteria in patients with chronic cutaneous wounds on a national scale.Methods: A retrospective study was conducted using the data recorded between January 1, 2018 and January1, 2020 in 195 hospitals across China. After screening the data, 815 patients with chronic wounds were finally analyzed. The data collected included information about the patients' general condition and local cutaneous wound assessments, especially microbial culture and antibiotic susceptibility tests. The analyses were performed using SPSS Version 26.Results: The study included 815 patients (290 [35.6%] females; 63 [50–74] years). The most common causes of chronic cutaneous wounds were diabetes (183, 22.5%), infection (178, 21.8%), and pressure (140, 17.2%). Among these, 521(63.9%) samples tested yielded microbial growth, including 70 (13.4%) polymicrobial infection and 451 (86.6%) monomicrobial infection. The positive rate of microbial culture was highest in wound tissue of ulcers caused by infection (87.6%), followed by pressure (77.1%), diabetes (68.3%), and venous diseases (67.7%). Bates-Jensen wound assessment tool (BWAT) scores >25 and wounds that lasted for more than 3 months had a higher positive rate of microbial culture. BWAT scores >25 and wounds in the rump, perineum, and feet were more likely to exhibit polymicrobial infection. A total of 600 strains were isolated, of which 46.2% (277 strains) were Gram-positive bacteria, 51.3% (308 strains) were Gram-negative bacteria, and 2.5% (15 strains) were fungi. The most common bacterial isolates were Staphylococcus aureus (29.2%), Escherichia coli (11.5%), Pseudomonas aeruginosa (11.0%), Proteus mirabilis (8.0%), and Klebsiella pneumoniae (5.8%). The susceptibility tests showed that 116 cultured bacteria were Multidrug resistant (MDR) strains. The resistance rates of S. aureus were 92.0% (161/175) to penicillin, 58.3% (102/175) to erythromycin, and 50.9% (89/175) to clindamycin. Vancomycin was the most effective antibiotic (0% resistance rate) against all Gram-positive bacteria. Besides, the resistance rates of E. coli were 68.1% (47/69) to ampicillin, 68.1% (47/69) to ciprofloxacin, 60.9% (42/69) to levofloxacin. However, all the isolated Gram-negative bacteria showed low resistance rates to tigecycline (3.9%) and amikacin (3.6%).Conclusions: The distribution of bacteria isolated from chronic cutaneous wounds varies with the BWAT scores, causes, duration, and the location of wounds. Multidrug resistance is a serious health issue, and therefore antibiotics used in chronic wounds must be under strict regulation. Our findings may help clinicians in making informed decisions regarding antibiotic therapy.
A simple general method has been developed for the synthesis of Zr-based multicomponent functional materials with highly ordered mesoporous structure, including pure zirconia, ceria-zirconia solid solutions, yttriastabilized zirconia, and scandia-stabilized zirconia. Amphiphilic poly(alkylene oxide) block copolymers serve as structure-directing agents (SDAs). More importantly, the whole process is self-adjusting to organize the network-forming metal oxide species without any additional acid or base. Small-angle X-ray diffraction (XRD) and transmission electron microscopy (TEM) measurements show that these mesoporous Zr-based materials possess 2D hexagonal mesostructure (p6mm) with large-domain order and crystalline walls. Nitrogen sorption isotherms reveal that these materials have large surface areas, pore volumes, and narrow pore size distributions. The introduction of the second metal species to the Zr-based system enhances the thermal stability of the mesostructures, and in certain cases, they are resistant to high temperature up to 700 °C. All features above of these Zr-based mesoporous materials promise the various potentials in heterogeneous catalysis, solid oxide fuel cells (SOFCs), oxygen sensors, and so forth. With the selection of the hydrogenation of benzene as a test reaction, the representative mesoporous ZrO 2 and Ce 0.5 Zr 0.5 O 2 loaded with ruthenium demonstrate their potentials in catalysis.
Embedding of alloy particles into a polymer surface ensures both firm supporting and easy activation.
To assess the feasibility of a wound care model using 4th-generation mobile communication technology standards (4G) with smart phones or smart glasses for wound management.This wound care model is an interactive, real-time platform for implementing telemedicine changing wound dressings, or doing operations. It was set up in March 2015 between Jinhua in Zhejiang province and Shanghai, China, which are 328 km apart. It comprised of a video application (APP), 4G net, smart phones or smart glasses, and a central server.This model service has been used in 30 patients with wounds on their lower extremities for 109 times in 1 month. Following a short learning curve, the service worked well and was deemed to be user-friendly. Two (6.7%) patients had wounds healed, while others still required wound dressing changes after the study finished. Both local surgeons and patients showed good acceptance of this model (100% and 83.33%, respectively).This telemedicine model is feasible and valuable because it provides an opportunity of medical service about wound healing in remote areas where specialists are scarce.
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