Virginia Tech Carilion School of Medicine, Virginia Tech, Roanoke, VA, USA.
Virginia Tech Carilion School of Medicine, Virginia Tech, Roanoke, VA, USA.
Ultrasound Med Biol. 2023 Sep;49(9):2152-2159. doi: 10.1016/j.ultrasmedbio.2023.06.010. Epub 2023 Jul 1.
Biofilm formation in medical catheters is a major source of hospital-acquired infections which can produce increased morbidity and mortality for patients. Histotripsy is a non-invasive, non-thermal focused ultrasound therapy and recently has been found to be effective at removal of biofilm from medical catheters. Previously established histotripsy methods for biofilm removal, however, would require several hours of use to effectively treat a full-length medical catheter. Here, we investigate the potential to increase the speed and efficiency with which biofilms can be ablated from catheters using histotripsy.
Pseudomonas aeruginosa (PA14) biofilms were cultured in in vitro Tygon catheter mimics and treated with histotripsy using a 1 MHz histotripsy transducer and a variety of histotripsy pulsing rates and scanning methods. The improved parameters identified in these studies were then used to explore the bactericidal effect of histotripsy on planktonic PA14 suspended in a catheter mimic.
Histotripsy can be used to remove biofilm and kill bacteria at substantially increased speeds compared with previously established methods. Near-complete biofilm removal was achieved at treatment speeds up to 1 cm/s, while a 4.241 log reduction in planktonic bacteria was achieved with 2.4 cm/min treatment.
These results represent a 500-fold increase in biofilm removal speeds and a 6.2-fold increase in bacterial killing speeds compared with previously published methods. These findings indicate that histotripsy shows promise for the treatment of catheter-associated biofilms and planktonic bacteria in a clinically relevant time frame.
医学导管中的生物膜形成是医院获得性感染的主要来源,会增加患者的发病率和死亡率。组织微爆破是一种非侵入性、非热的聚焦超声治疗方法,最近被发现可有效去除医学导管中的生物膜。然而,以前建立的用于去除生物膜的组织微爆破方法需要数小时的使用才能有效地治疗全长的医学导管。在这里,我们研究了使用组织微爆破从导管中快速有效地去除生物膜的潜力。
在体外 Tygon 导管模拟物中培养铜绿假单胞菌 (PA14) 生物膜,并使用 1MHz 组织微爆破换能器和各种组织微爆破脉冲率和扫描方法进行组织微爆破处理。在这些研究中确定的改进参数然后用于研究组织微爆破对悬浮在导管模拟物中的浮游 PA14 的杀菌效果。
与以前建立的方法相比,组织微爆破可以以大大提高的速度去除生物膜和杀死细菌。在高达 1cm/s 的处理速度下可实现几乎完全去除生物膜,而在 2.4cm/min 的处理速度下可实现浮游细菌减少 4.241 对数。
这些结果代表与以前发表的方法相比,生物膜去除速度提高了 500 倍,细菌杀灭速度提高了 6.2 倍。这些发现表明组织微爆破有望在临床相关时间范围内治疗导管相关生物膜和浮游细菌。
