Metronomic Photodynamic Therapy (mPDT): Concepts and Technical Feasibility in Brain Tumor

摘要

The concept of metronomic photodynamic therapy (mPDT) is presented, in which both the photosensitizer and light are delivered continuously at low rates over extended periods in order to increase selective tumor cell kill through apoptosis. The focus of the present work is on mPDT treatment of malignant brain tumors, in which selectivity between damage to tumor cells versus normal brain tissue is critical. Previous studies have shown that low-dose PDT using aminolevulinic acid (ALA)-induced protoporphryin IX (PpIX) can induce apoptosis in tumor cells without causing necrosis in either tumor or normal brain tissue or apoptosis in the latter. In order to produce enough tumor cell kill to be an effective therapy, multiple PDT treatments, such as hyperfractionation or metronomic delivery, are likely required, based on the levels of apoptosis achieved and model calculations of tumor growth rates. mPDT poses two substantial technical challenges: extended delivery of ALA and implantation of interstitial devices for extended light delivery while allowing free movement. In rat models ALA administration via the drinking water has been accomplished at significant doses (up to 10 times therapeutic dose) for up to 10 days, and ex vivo spectrofluorimetry of tumor, normal brain and other tissues post mortem demonstrates a 3-4 increase in the tumor-to-brain concentration of PpIX, without toxicity. Prototype light sources and delivery devices are also shown to be practical, either using a laser diode or light emitting diode (LED) coupled to an implanted optical fiber in the case of the rat model or a directly-implanted LED in rabbits. The combined delivery of both drug and light over an extended period, with survival of the animals, is demonstrated. Preliminary evidence of selective apoptosis of tumor under these conditions is presented.