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Cancerous Cell Death from Sensitizer Free Photoactivation of Singlet Oxygen
Abstract: Singlet oxygen ((1)O(2)) is an electronic state of molecular oxygen which plays a major role in many chemical and biological photo-oxidation processes. It has a high chemical reactivity which is commonly harnessed for therapeutic issues. Indeed, (1)O(2) is believed to be the major cytotoxic agent in photodynamic therapy. In this treatment of cancer, (1)O(2) is created, among other reactive species, by an indirect transfer of energy from light to molecular oxygen via excitation of a photosensitizer (PS). This P…
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Cited by 73 publications
(77 citation statements)
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“…Il a été montré que cette production d'oxygène singulet est suffisante pour assurer la mort de cellules cancéreuses du sein [4].…”
Section: Perspectivesunclassified
“…Il a été montré que cette production d'oxygène singulet est suffisante pour assurer la mort de cellules cancéreuses du sein [4].…”
Section: Perspectivesunclassified
“…В ряде работ показана перспективность использова-ния высокоинтенсивного лазерного излучения вынужденного комби-национного рассеивания (ВКР) для лечения онкологических заболе-ваний [1][2][3]. В течение нескольких лет активно анализируется идея, согласно которой инфракрасный свет инициирует фотохимические реакции, напрямую возбуждая молекулы кислорода в биологических системах [4][5][6][7][8][9][10].…”
Section: Introductionunclassified
“…В работах [2,3] с использованием перестраи-ваемого ВКР-лазера на примере органических жидкостей и клеточных культур показано, что максимальная генерация синглетного кислорода достигается при облучении на длине волны 1264-1270 нм. Линия по-глощения О 2 в этой области спектра наиболее активна ввиду практиче-ски полного отсутствия поглощения конкурирующими хромофорами.…”
Section: Introductionunclassified
“…Courtade and co-workers have created novel methods to generate heat shock (1,250 nm) or oxidant stress (1,270 nm) by laser irradiation with tight kinetic and spatial control (Anquez et al 2010;Anquez et al 2012). On the one hand, this approach allows analysis of extremely rapid (∼seconds) kinetics of activation that opens new avenues for temporal studies of stress response mechanisms.…”
Section: Introductionmentioning
confidence: 99%
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