Ophthalmology and Visual Science, Texas Tech University Health Sciences Center, Lubbock, TX 79430, USA.
Fiber Institute, New American Fabric LLC, Lubbock, TX 79415, USA.
Mil Med. 2024 Aug 19;189(Suppl 3):179-183. doi: 10.1093/milmed/usae069.
The material of a bandage plays an important role in wound management. Microorganisms can colonize the dressing and release toxins, which create dead cells in the wound. This allows the microorganisms to bind the dead cells and infect the wound. Thus, a dressing is needed that kills bacteria in the bandage. To combat health care-associated infections, antimicrobial treatment of medical textiles, such as gauze, uniforms, curtains, bed sheets, gowns, and masks, is required. Besides, antimicrobial resistance is another major problem of this century. Antibacterial overuse has contributed to drug-resistant bacteria. To combat these two problems, we synthesized new organo-selenium compounds that can be attached to the cotton of the dressing. We then used an in vivo wound model, which allowed us to measure the effectiveness of selenium attached to a cotton dressing, to prevent bacteria from infecting a wound.
Organo-selenium was attached to cotton fabric, resulting in a fabric with 0.1% selenium covalently attached to it. Staphylococcus aureus (as well as methicillin-resistant S. aureus [MRSA]), Stenotrophomonas maltophilia, Enterococcus faecalis, Staphylococcus epidermidis, and Pseudomonas aeruginosa were chosen for the wound infection study. All the bacteria were enumerated in the wound dressing and in the wound tissue under the dressing. Wounds were made on the backs of mice. The material was used as a bandage over the wound. Bacteria were injected into the wound under the bandage. The amount of bacteria in the wound after 5 days was determined. A similar study was performed using dressing material that was soaked in phosphate buffered saline at 37 °C for 3 months before use.
Cotton dressing with selenium attached showed complete inhibition (7 logs, as compared with control dressing) of different bacterial strains, in both the dressing and "the tissue" of the wound. Similar results were obtained using selenium cotton dressing that was soaked for 3 months before use. Control cotton with no selenium showed complete infiltration of bacteria into the wound and the dressing. In addition, a study was performed under Food and Drug Administration standard methods to show the ability of the selenium to kill bacteria in the fabric, using material that was washed 5 times in detergent. This also showed complete killing of bacteria in the fabric.
The results show that the selenium remains in the dressing after washing and is able to completely protect the wound from bacterial infection. In the selenium bandage, no bacteria were found in the bandage or the wound after 5 days.
绷带的材料在伤口管理中起着重要作用。微生物可以在敷料上定植并释放毒素,从而在伤口中产生死亡细胞。这使得微生物能够结合死亡细胞并感染伤口。因此,需要一种能够杀死绷带中细菌的敷料。为了应对与医疗保健相关的感染,需要对医疗纺织品(如纱布、制服、窗帘、床单、长袍和口罩)进行抗菌处理。此外,抗菌药物耐药性是本世纪的另一个主要问题。抗菌药物的过度使用导致了耐药菌的产生。为了解决这两个问题,我们合成了可以附着在敷料棉花上的新型有机硒化合物。然后,我们使用体内伤口模型来测量附着在棉花敷料上的硒的有效性,以防止细菌感染伤口。
将有机硒附着在棉织物上,使织物上共价结合 0.1%的硒。选择金黄色葡萄球菌(包括耐甲氧西林金黄色葡萄球菌[MRSA])、嗜麦芽窄食单胞菌、粪肠球菌、表皮葡萄球菌和铜绿假单胞菌进行伤口感染研究。所有细菌均在伤口敷料和敷料下的伤口组织中进行计数。在小鼠背部制造伤口。将材料用作伤口上的绷带。将细菌注射到绷带下的伤口中。在第 5 天测定伤口中的细菌数量。使用在 37°C 的磷酸盐缓冲盐水浸泡 3 个月后的敷料材料进行了类似的研究。
附着有硒的棉敷料完全抑制了不同细菌株(与对照敷料相比为 7 对数),无论是在敷料还是“组织”中。使用在使用前浸泡 3 个月的含硒棉敷料也获得了类似的结果。没有硒的对照棉完全使细菌渗透到伤口和敷料中。此外,还按照美国食品和药物管理局的标准方法进行了一项研究,以证明硒在织物中杀死细菌的能力,使用在洗涤剂中洗涤 5 次的材料。这也显示了织物中细菌的完全杀灭。
结果表明,硒在洗涤后仍保留在敷料中,能够完全保护伤口免受细菌感染。在含硒绷带中,第 5 天在绷带或伤口中均未发现细菌。
