Wilmink Gerald J, Opalenik Susan R, Beckham Joshua T, Abraham Alexander A, Nanney Lillian B, Mahadevan-Jansen Anita, Davidson Jeffrey M, Jansen E Duco
Department of Biomedical Engineering, Vanderbilt University, Nashville, Tennessee 37232, USA.
J Invest Dermatol. 2009 Jan;129(1):205-16. doi: 10.1038/jid.2008.175. Epub 2008 Jun 26.
Patients at risk for impaired healing may benefit from prophylactic measures aimed at improving wound repair. Several photonic devices claim to enhance repair by thermal and photochemical mechanisms. We hypothesized that laser-induced thermal preconditioning would enhance surgical wound healing that was correlated with hsp70 expression. Using a pulsed diode laser (lambda=1.85 microm, tau(p)=2 ms, 50 Hz, H=7.64 mJ cm(-2)), the skin of transgenic mice that contain an hsp70 promoter-driven luciferase was preconditioned 12 hours before surgical incisions were made. Laser protocols were optimized in vitro and in vivo using temperature, blood flow, and hsp70-mediated bioluminescence measurements as benchmarks. Biomechanical properties and histological parameters of wound healing were evaluated for up to 14 days. Bioluminescent imaging studies indicated that an optimized laser protocol increased hsp70 expression by 10-fold. Under these conditions, laser-preconditioned incisions were two times stronger than control wounds. Our data suggest that this molecular imaging approach provides a quantitative method for optimization of tissue preconditioning and that mild laser-induced heat shock may be a useful therapeutic intervention prior to surgery.
愈合受损风险较高的患者可能会从旨在改善伤口修复的预防措施中获益。一些光子设备声称可通过热和光化学机制促进修复。我们假设激光诱导的热预处理会增强与热休克蛋白70(hsp70)表达相关的手术伤口愈合。使用脉冲二极管激光器(波长λ = 1.85微米,脉冲宽度τ(p)=2毫秒,频率50赫兹,辐照剂量H = 7.64毫焦/平方厘米),在进行手术切口前12小时,对含有hsp70启动子驱动的荧光素酶的转基因小鼠皮肤进行预处理。利用温度、血流和hsp70介导的生物发光测量作为基准,在体外和体内对激光方案进行了优化。对伤口愈合的生物力学特性和组织学参数进行了长达14天的评估。生物发光成像研究表明,优化后的激光方案可使hsp70表达增加10倍。在这些条件下,激光预处理的切口强度是对照伤口的两倍。我们的数据表明,这种分子成像方法为优化组织预处理提供了一种定量方法,并且轻度激光诱导的热休克可能是手术前一种有用的治疗干预措施。
