子宫内膜光动力疗法在大鼠模型中的结构和功能效应
Structural and functional effects of endometrial photodynamic therapy in a rat model.
作者信息
Fehr M K, Tromberg B J, Svaasand L O, Ngo P, Berns M W, Tadir Y
机构信息
Beckman Laser Institute and Medical Clinic, University of California, Irvine 92715, USA.
出版信息
Am J Obstet Gynecol. 1996 Jul;175(1):115-21. doi: 10.1016/s0002-9378(96)70260-0.
OBJECTIVE
Our purpose was to determine the optical dose required for irreversible endometrial destruction and prevention of implantation by photodynamic therapy with topical 5-aminolevulinic acid.
STUDY DESIGN
Three hours after drug application 74 female Sprague-Dawley rats received varying doses of 630 nm of light delivered by an intrauterine cylindric diffusing fiber.
RESULTS
A 64 J/cm2 in situ optical dose resulted in long-term irreversible endometrial destruction; 43 J/cm2 damaged endometrial stroma and myometrium but not glandular epithelium 1 day after photodynamic therapy. At this lower light dose endometrium regenerated to full thickness within 3 weeks; however, implantation sacs were significantly reduced.
CONCLUSIONS
Photodynamic destruction of glandular epithelium accompanies irreversible endometrial ablation, whereas isolated stromal damage leads to reproductive impairment only. The optical dose required for endometrial ablation is approximately 1.5-fold higher than for reproductive impairment (functional damage) because of differential cell photosensitivity.
目的
我们的目的是确定通过局部应用5-氨基酮戊酸进行光动力疗法实现不可逆子宫内膜破坏和防止着床所需的光剂量。
研究设计
在给药3小时后,74只雌性斯普拉格-道利大鼠接受了通过子宫内圆柱形扩散光纤传递的不同剂量的630nm光。
结果
64J/cm²的原位光剂量导致长期不可逆的子宫内膜破坏;43J/cm²在光动力疗法后1天损伤了子宫内膜基质和肌层,但未损伤腺上皮。在这个较低的光剂量下,子宫内膜在3周内再生至全层;然而,着床囊显著减少。
结论
腺上皮的光动力破坏伴随着不可逆的子宫内膜消融,而单独的基质损伤仅导致生殖功能受损。由于细胞光敏性不同,子宫内膜消融所需的光剂量比生殖功能受损(功能性损伤)所需的光剂量高约1.5倍。
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