Techniques for fluorescence detection of protoporphyrin IX in skin cancers associated with photodynamic therapy.

Kishore R Rollakanti, Stephen C Kanick, Scott C Davis, Brian W Pogue, Edward V Maytin
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引用次数: 60

Abstract

Photodynamic therapy (PDT) is a treatment modality that uses a specific photosensitizing agent, molecular oxygen, and light of a particular wavelength to kill cells targeted by the therapy. Topically administered aminolevulinic acid (ALA) is widely used to effectively treat cancerous and precancerous skin lesions, resulting in targeted tissue damage and little to no scarring. The targeting aspect of the treatment arises from the fact that ALA is preferentially converted into protoporphyrin IX (PpIX) in neoplastic cells. To monitor the amount of PpIX in tissues, techniques have been developed to measure PpIX-specific fluorescence, which provides information useful for monitoring the abundance and location of the photosensitizer before and during the illumination phase of PDT. This review summarizes the current state of these fluorescence detection techniques. Non-invasive devices are available for point measurements, or for wide-field optical imaging, to enable monitoring of PpIX in superficial tissues. To gain access to information at greater tissue depths, multi-modal techniques are being developed which combine fluorescent measurements with ultrasound or optical coherence tomography, or with microscopic techniques such as confocal or multiphoton approaches. The tools available at present, and newer devices under development, offer the promise of better enabling clinicians to inform and guide PDT treatment planning, thereby optimizing therapeutic outcomes for patients.

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光动力疗法相关皮肤癌中原卟啉IX的荧光检测技术。
光动力疗法(PDT)是一种使用特定光敏剂、分子氧和特定波长的光来杀死治疗目标细胞的治疗方式。局部给药氨基乙酰丙酸(ALA)被广泛用于有效治疗癌性和癌前皮肤病变,导致靶向组织损伤,几乎没有疤痕。这种治疗的靶向性源于ALA在肿瘤细胞中优先转化为原卟啉IX (PpIX)。为了监测组织中PpIX的量,已经开发了测量PpIX特异性荧光的技术,这为在PDT照明阶段之前和期间监测光敏剂的丰度和位置提供了有用的信息。本文综述了这些荧光检测技术的现状。非侵入性设备可用于点测量或宽视场光学成像,以监测表面组织中的PpIX。为了获得更深层的组织信息,正在开发多模态技术,将荧光测量与超声或光学相干断层扫描相结合,或与显微技术如共聚焦或多光子方法相结合。目前可用的工具和正在开发的新设备,使临床医生能够更好地告知和指导PDT治疗计划,从而优化患者的治疗结果。
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