Ever since the development of laser, it has been applied to neurosurgery. It was used as a tool for cutting tissue and hemostasis initially, and then was combined with the use of microscope and endoscope for precise surgery of brain tumor, palmar hyperhidrosis, and percutaneous laser disc decompression. Later on, the laser enthusiasm tempered and shifted to photodynamic medicine. Photodynamic medicine is a broad field including photodynamic diagnosis (PDD), fluorescence-guided resection (FGR) of tumor, and photodynamic therapy (PDT). This field attract increasing attention today. Fluorescence-guided resection enables more complete resection of tumors, leading to prolonged survival and improved prognosis in patients with malignant glioma. After maximal excision of tumor, PDT can selectively destroy the residual tumor cells without causing damage to the surrounding normal brain tissue. PDT is also effective in killing multi-drug resistant cancer cells and can be applied repeatedly. PDT can be used intra-operatively or post-operatively as an adjunctive therapy, it can also be coupled to other therapies. For patients with tumor involving the eloquent region of the brain, complete resection of the tumor is not possible, thus intra-operative PDT could be a good choice in such circumstances. Most patients tolerate PDT well; adverse effects including increased intracranial pressure and skin allergic reaction. The development of better photosensitizer and refinement of the light delivery system can further accelerate the progress of photodynamic medicine. The potential combination of PDT with FGR (to see and to treat) deserves further investigations. If the ideal photosensitizer with good fluorescence yield and high phototoxicity can be successfully developed, it could be used for both diagnosis (PDD) and treatment (PDT).