National Institute of Lasers and Optronics College, Pakistan Institute of Engineering and Applied Sciences, Nilore, 45650, Islamabad, Pakistan.
Pakistan Institute of Medical Sciences, Ibn-E-Sina Road, G-8/3, Islamabad, Pakistan.
Lasers Med Sci. 2024 Aug 1;39(1):204. doi: 10.1007/s10103-024-04150-8.
Due to antimicrobial drug resistance, there is a growing interest in the development of light based alternative antibacterial therapies. This research work is focused on the inactivation of Escherichia coli (E. coli) by exploiting the absorption bands 405, 505, 542, 580 and 631 nm of its indigenously produced Protoporphyrin IX (PpIX) excited by three LEDs with broad emission bands at 418, 522 and 630 nm and two laser diodes with narrow emission bands at 405 and 635 nm. Fluorescence spectroscopy and plate count method have been employed for studying the inactivation rate of E. coli strain in autoclaved water suspension. It has been found that LEDs at 418, 522 and 630 nm produced pronounced antimicrobial photodynamic effect on E. coli strain comparing laser diodes at 405 and 635 nm, which might be attributed to the overlapping of broad emission bands of LEDs with the absorption bands of PpIX than narrow emission bands of laser diodes. Particular effect of LED at 522 nm has been noticed because its broad emission band overlaps three absorption bands 505, 542 and 580 nm of PpIX. The gold standard plate count method strongly correlates with Fluorescence spectroscopy, making it an innovative tool to administer bacterial inactivation. The experimental results suggested the development of a light source that entirely overlap absorption bands of PpIx to produce a pronounced antimicrobial photodynamic effect, which might become an effective modality for in vivo disinfection of antibiotic resistant microbes in wounds and lesions.
由于抗菌药物耐药性的出现,人们对开发基于光线的替代抗菌疗法产生了浓厚的兴趣。本研究工作专注于利用大肠杆菌(E. coli)内源产生的原卟啉 IX(PpIX)的吸收带 405、505、542、580 和 631nm,通过三个发射带较宽的 LED(分别在 418、522 和 630nm 处)和两个发射带较窄的激光二极管(分别在 405 和 635nm 处)激发来实现对其的灭活。荧光光谱法和平板计数法已被用于研究在高压灭菌水中悬浮的大肠杆菌菌株的失活动率。结果发现,与激光二极管(分别在 405 和 635nm 处)相比,LED 在 418、522 和 630nm 处对大肠杆菌菌株产生了显著的抗菌光动力效应,这可能归因于 LED 的宽发射带与 PpIX 的吸收带重叠,而激光二极管的窄发射带则没有。特别注意到 LED 在 522nm 处的效果,因为它的宽发射带与 PpIX 的三个吸收带 505、542 和 580nm 重叠。金标准平板计数法与荧光光谱法具有很强的相关性,使其成为管理细菌失活动力学的创新工具。实验结果表明,开发一种完全与 PpIX 吸收带重叠的光源,以产生显著的抗菌光动力效应,这可能成为在伤口和病变中对抗生素耐药微生物进行体内消毒的有效方式。
