No abstract available.
Photochemotherapy* ; Porokeratosis*

The effects of photodynamic therapy (PDT) on the 180-sarcom tumors in some days after treatment were studied at the photo microscope and electro-microscope levels in BALB/c mice bearing 180 sarcom tumors. Animals received intravenous injection of 10 mg/kg of Photofrin and 24h later tumors were treated with 200-350 J/cm2 gold vapor laser light (630 nm). Animals were sacrificed and their tumors removed at time 24, 48, 72h and 7, 14, 21 days after PDT. The results indicated the effects of destruction of the 180-sarcom cells
Neoplasms ; Photochemotherapy

No abstract available.
Photochemotherapy ; Porokeratosis

The mutagenic effect of HpD on cell SCE and the reactions of cell SCE to different sources of light combined with HpD were studied using V79 cells. There were 6 doses of HpD: 1 microgram/ml, 3 micrograms/ml, 5 micrograms/ml, 10 micrograms/ml, 50 micrograms/ml and 100 micrograms/ml. The dose of 5 micrograms/ml is equal to the maximum dose of HpD used in the clinic (HpD per milliliter of patient's blood). Our experiments demonstrated that when the cells were cultured in the dark and HpD was added to the medium no more than 5 micrograms/ml, the SCE frequencies were not increased. The cells were irradiated with different sources of light without HpD, both the fluorescence and ultraviolet light could promote SCE but the light of daylight lamp and red light did not increase it. But when HpD was added into culture medium at the dose of less than 5 micrograms/ml, every light could increase the cell SCE intensively except the daylight lamp light. The red light was more notable than the others by relation analysis.
Cells, Cultured ; Fluorescence ; Hematoporphyrin Photoradiation ; Hematoporphyrins ; pharmacology ; Humans ; Light ; Photochemotherapy ; Sister Chromatid Exchange ; drug effects ; Ultraviolet Rays

While photodynamic therapy is applied on neoplasm, photosensitisers tend to accumulate in neoplastic tissues. With appropriate wavelength light, it causes photochemical reaction and destructs neoplastic tissues. Its better selection for tumor tissue with effective photochemical reaction, and lower side effect make it widespread application in gynecologic oncology. At present, photodynamic therapy has been used in diagnosing and treating lower genital tract carcinoma in situ, and advanced malignant tumor such as vulval and ovarian carcinoma.
Female ; Genital Neoplasms, Female ; drug therapy ; Hematoporphyrin Derivative ; therapeutic use ; Hematoporphyrin Photoradiation ; Humans ; Ovarian Neoplasms ; drug therapy ; Photochemotherapy ; Photosensitizing Agents ; therapeutic use ; Uterine Cervical Neoplasms ; drug therapy

Cancer, as a serious threat to human health, is one of the major killers. The treatment of cancer has attracted more and more attention. Currently, the means of treating cancer is also increasing, but there is no emergence of a fully satisfactory treatment. A combination of sonodynamic therapy (SDT) and photodynamic therapy (PDT), named sono-photodynamic therapy (S-PDT), is a new composite cancer therapy. Because the therapy can significantly improve the tumor curing effect, it has good application prospects in cancer prevention and treatment. The present article reviewed the progress of the anti-tumor mechanisms and influencing factors of S-PDT.
Animals ; Antineoplastic Agents ; administration & dosage ; Combined Modality Therapy ; Hematoporphyrin Derivative ; administration & dosage ; Hematoporphyrin Photoradiation ; Humans ; Neoplasms ; drug therapy ; therapy ; Photochemotherapy ; methods ; Photosensitizing Agents ; administration & dosage ; Ultrasonic Therapy ; methods

Photodynamic therapy (PDT) is a promising new modality that utilizes the combination of a photosensitizing chemical and visible light for the management of various solid malignancies, including gastrointestinal (GI) cancer. PDT has some advantages over chemotherapy in terms of its greater safety and lower toxicity in the treatment of malignant lesions. However, PDT has not been used widely for treating upper GI cancer due to its relatively low cost-effectiveness and anatomical characteristics of the GI system. Nevertheless, PDT may be an effective alternative therapy for early upper-GI cancer patients who are at a high risk of curative surgical resection or systemic chemotherapy. In some clinical studies, PDT for various upper GI cancer showed positiveresults. To improve the efficacy of PDT for upper GI cancer, development of photosensitezer and light delivery system is needed.
Humans ; Light ; Photochemotherapy ; Triazenes

No abstract available.
Carcinoma, Basal Cell* ; Photochemotherapy*

ABSTRACT Lactobacillus acidophilus (L. acidophilus) is one of the etiological agents for dental caries and dominant in the deep carious lesion. L. acidophilus has also been identified in persistent root canal infection and also related to the failure of endodontic treatment. Photodynamic therapy is a therapeutic process involving the combination of a nontoxic photosensitizer and a light source. The excited photosensitizer reacts with reactive oxygen species (ROS), which induce injury and death of the microorganism. This study aimed to prove the effect of irradiation time of photodynamic therapy to the number of L. acidophilus. Forty-two Eppendorf tubes were treated with 0.5 ml L. acidophilus distributed into seven groups. Group 1 as the control group received no treatment. Groups 2, 3, 4, 5, 6 and 7 were treated with a combination of 0.5 ml toluidine blue O (TBO) as a photosensitizer and 630 nm photoactivated (Fotosan®) exposure time for 10, 20, 30, 40, 50 and 60 sec. Then, all were stored in an incubator of 37ºC for 48 h. Later, the colony-forming unit (CFU) was counted for each group. There were significant differences in the number of L. acidophilus in CFU of the various irradiation times. The longer the photodynamic therapy irradiation was, the lesser the number of live L. acidophilus became. At 50 sec and 60 sec irradiation, none of the L. acidophilus was found alive.
Photochemotherapy ; Lactobacillus acidophilus

OBJECTIVETo investigate biological effect of hematoporphyrin derivative (HpD) photodynamic therapy (PDT) on in vitro cultured nasopharyngeal carcinoma (NPC) cell lines CNE2 and C666-1.

METHODSCNE2 and C666-1 cells cultured in vitro were incubated in a medium containing HpD at different concentrations (0.5, 1.0, 1.5, 2.0, 2.5, 3.0, 3.5, and 4.0 microg/ml) for 4 h followed by exposure to different light doses (2, 5, 10, and 20 J/cm2) using a diode laser at 630 nm with power density of 20 mW/cm2. After 24 h of incubation with HpD-PDT, the survival rate of CNE2 and C666-1 cells were analyzed by MTT assay.

RESULTSHpD-PDT produced effective killing of CNE2 and C666-1 cells cultured in vitro, and the killing effects were positively correlated with HpD concentration and the irradiation dose. Exposure of CNE2 and C666-1 cells to irradiation dose of 20 J/cm2 resulted in the IC50 of 0.7 and 1.2 microg/ml, respectively (P<0.01). With the same HpD concentration and irradiation dose, the survival rate of C666-1 cells, however, was significantly higher than that of CNE2 cells (P<0.05).

CONCLUSIONHpD-PDT may result in effective killing of CNE2 and C666-1 cells cultured in vitro, although C666-1 cells are less sensitive to HpD-PDT than CNE2 cells.

Antineoplastic Agents ; pharmacology ; Cell Line, Tumor ; Cell Survival ; drug effects ; radiation effects ; Dose-Response Relationship, Drug ; Dose-Response Relationship, Radiation ; Hematoporphyrin Derivative ; pharmacology ; Hematoporphyrin Photoradiation ; methods ; Humans ; Nasopharyngeal Neoplasms ; pathology ; Photochemotherapy ; methods ; Photosensitizing Agents ; pharmacology