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  • Allison, B. A., P. H. Pritchard, A. M. Richter and J. G. Levy (1990) The plasma distribution of benzoporphyrin derivative and the effects of plasma lipoproteins on its biodistribution. Photochem. Photobiol. 52, 501507.
  • Athar, M., C. A. Elmets, D. R. Bickers and H. Mukhtar (1989) A novel mechanism for the generation of superoxide anions in hematoporphyrin derivative-mediated cutaneous photosensitization. Activation of the Xanthine Oxidase Pathway. J. Clin. Invest. 83, 11371143.
  • Barr, H., A. J. MacRobert, C. J. Tralau, P. B. Boulos and S. G. Bown (1990) The significance of the nature of the photosensitiser for photodynamic therapy: Quantitative and biological studies in the colon. Br. J. Cancer 62, 730735.
  • Bellnier, D. A. and T. I. Dougherty (1982) Membrane lysis in Chinese hamster ovary cells treated with hematoporphyrin derivative plus light. Photochem. Photobiol. 36, 4347.
  • Bellnier, D. A. and T. J. Dougherty (1989a) Protection of murine skin and transplantable tumor against Photofrin-II mediated photodynamic sensitization with WR-2721. J. Photochem. Photobiol., B: Biol. 4, 219225.
  • Bellnier, D. A. and T. J. Dougherty (1989b) The time course of cutaneous porphyrin photosensitization in the murine ear. Photochem. Photobiol. 49, 369372.
  • Bellnier, D., K. Ho, R. K. Pandey, J. Missert and T. J. Dougherty (1989c) Distribution and elucidation of the tumor-localizing component of hematoporphyrin derivative in mice. Photochem. Photobiol. 50, 221228.
  • Ben-Hur, E., T. Fujihara, F. Suzuki and M. M. Elkind (1987) Genetic toxicology of the photosensitization of Chinese hamster cells by phthalocyanines. Photochem. Photobiol. 45, 227230.
  • Ben-Hur, E., E. Heldman, S. W. Crane and I. Rosenthal (1988) Release of clotting factor(s) from cultured endothelial cells photosensitized by phthalocyanine; a model for blood vessels occlusion by photodynamic therapy. Lasers Med. Sci. Abstracts issue, 107.
  • Boegheim, J. P. J., H. Scholte, T. M. A. R. Dubbelman, E. Beems, A. K. Raap and J. van Steveninck (1987) Photodynamic effects of hematoporphyrin-derivative on enzyme activities of murine L929 fibroblasts. J. Photochem. Photobiol., B: Biol. 1, 6173.
  • Borland, C. F., D. J. McGarvey, T. G. Truscott, R. J. Codgell and E. J. Land (1987) Photophysical studies of bacteriochlorophyll a and bacteriopheophytin a—singlet oxygen generation. J. Photochem. Photobiol., B: Biol. 1, 93101.
  • Boyle, D. G. and W. R. Potter (1987) Photobleaching of Photofrin II as a means of eliminating skin photosensitivity. Photochem. Photobiol. 46, 9971001.
  • Brasseur, N., H. Ali, D. Autenrieth, R. Langlois and J. E. van Lier (1985) Biological activities of phthalocyanines—III. Photoinactivation of V-79 Chinese hamster cells by tetrasulfophthalocyanines. Photochem. Photobiol. 42, 515521.
  • Brasseur, N., H. Ali, R. Langlois and J. E. van Lier (1988) Biological activities of phthalocyanines—IX. Photosensitization of V-79 Chinese hamster cells and EMT-6 mouse mammary tumor by selectively sulfonated zinc phthalocyanines. Photochem. Photobiol. 47, 705711.
  • Bugelski, P. J., C. W. Porter and T. J. Dougherty (1981) Autoradiographic distribution of hematoporphyrin derivative in normal and tumor tissue of the mouse. Cancer Res. 41, 46064612.
  • Chan, W.-S., J. F. Marshall, G. Y. F. Lam and I. R. Hart (1988) Tissue uptake, distribution, and potency of the photoactivatable dye chloroaluminum sulfonated phthalocyanine in mice bearing transplantable tumors. Cancer Res. 48, 30403044.
  • Chatlani, P. T., N. Toda, H. Barr, J. Bedwell, N. Krasner and S. G. Bown (1990) Photodynamic therapy of normal and neoplastic rodent pancreas. Presented at the 3rd Biennial Meeting of the International Photodynamic Association, Buffalo, NY, July 1990 (poster #39).
  • Cincotta, A. H., L. Cincotta and J. W. Foley (1990) Novel benzophenothiazinium photosensitizers: Preliminary in vivo results. Proc. SPIE Conference “Photodynamic Therapy: Mechanisms II” 1203, 202210.
  • Denekamp, J., S. A. Hill and B. Hobson (1983) Vascular occlusion and tumour cell death. Eur. J. Cancer Clin. Oncol. 19, 271275.
  • Dillon, J., J. C. Kennedy, R. H. Pottier and J. E. Roberts (1988) In vitro and in vivo protection against phototoxic side effects of photodynamic therapy by radioprotective agents WR-2721 and WR-77913. Photochem. Photobiol. 48, 235238.
  • Dougherty, T. J., M. T. Cooper and T. S. Mang (1990) Cutaneous phototoxic occurrences in patients receiving Photofrin. Lasers Surg. Med. 10, 485488.
  • Dougherty, T. J. and W. R. Potter (1991) Of what value is a highly absorbing photosensitizer in PDT. J. Photochem. Photobiol., B: Biol. 8, 223225.
  • Evans, S., W. Matthews, R. Perry, D. Fraker, J. Norton and H. I. Pass (1990) Effect of photodynamic therapy on tumor necrosis factor production by murine macrophages. J. Nat. Cancer Inst. 82, 3439.
  • Evans, H. H., R. M. Rerko, J. Mencl, M. E. Clay, A. R. Antunez and N. L. Oleinick (1989) Cytotoxic and mutagenic effects of the photodynamic action of chloroaluminum phthalocyanine and visible light in L5178Y cells. Photochem. Photobiol. 49, 4347.
  • Fingar, V. H. and B. W. Henderson (1987) Drug and light dose dependence of photodynamic therapy: A study of tumor and normal tissue response. Photochem. Photobiol. 46, 837841.
  • Fingar, V. H., T. S. Mang and B. W. Henderson (1988) Modification of photodynamic therapy-induced hypoxia by Fluosol-DA (20%) and carbogen breathing in mice. Cancer Res. 48, 33503354.
  • Fingar, V. H., W. R. Potter and B. W. Henderson (1987) Drug and light dose dependence of photodynamic therapy: A study of tumor cell clonogenicity and histologic changes. Photochem. Photobiol. 45, 643650.
  • Fingar, V. H. and T. J. Wieman (1990) Studies on the mechanism of photodynamic therapy induced tumor destruction. Proc. SPIE Conference “Photodynamic Therapy: Mechanisms II” 1203, 168177.
  • Firey, P. A. and M. A. J. Rodgers (1987) Photo-properties of a silicon naphthalocyanine: A potential photosensitizer for photodynamic therapy. Photochem. Photobiol. 45, 535538.
  • Foote, C. S. (1990) Chemical mechanisms of photodynamic action. Proc. SPIE Institute Advanced Optical Technologies on Photodynamic Therapy IS 6, 115126.
  • Gibson, S. L., R. S. Murand, M. D. Chazen, M. E. Kelly and R. Hilf (1989) In vitro photosensitization of tumour cell enzymes by Photofrin II administered in vivo. Br. J. Cancer 59, 4753.
  • Gibson, S. L., K. R. VanDerMeid, R. S. Murant, R. F. Raubertas and R. Hilf (1990) Effects of various photoradiation regimens on the antitumor efficacy of photodynamic therapy for R3230AC mammary carcinomas. Cancer Res. 50, 72367241.
  • Ginevra, F., S. Biffanti, A. Pagnan, R. Biolo, E. Reddi and G. Jori (1990) Delivery of the tumour photosensitizer zinc (II)-phthalocyanine to serum proteins by different liposomes: Studies in vitro and in vivo. Cancer Lett. 49, 5965.
  • Girotti, A. W. (1990) Photodynamic lipid peroxidation in biological systems. Photochem. Photobiol. 51, 497509.
  • Gomer, C. J. (1980) DNA damage and repair in CHO cells following hematoporphyrin photoradiation. Cancer Lett. 11, 161167.
  • Gomer, C. J. and A. Ferrario (1990) Tissue distribution and photosensitizing properties of mono-L-aspartyl chlorin e6 in a mouse tumor model. Cancer Res. 50, 39853990.
  • Gomer, C. J., M. Luna, A. Ferrario and N. Rucker (1991) Increased transcription and translation of heme oxygenase in Chinese hamster fibroblasts following photodynamic stress or Photofrin II incubation. Photochem. Photobiol. 53, 275279.
  • Gomer, C. J. and N. J. Razum (1984) Acute skin response in albino mice following porphyrin photosensitization under oxic and anoxic conditions. Photochem. Photobiol. 40, 435439.
  • Gomer, C. J., N. Rucker, A. Banerjee and W. F. Benedict (1983) Comparison of mutagenicity and induction of sister chromatid exchange in Chinese hamster cells exposed to hematoporphyrin derivative photoradiation, ionizing radiation, or ultraviolet radiation. Cancer Res. 43, 26222627.
  • Henderson, B. W. and D. A. Bellnier (1989) Tissue localization of photosensitizers and the mechanism of photodynamic tissue destruction. In Photosensitizing Compounds: Their Chemistry, Biology and Clinical Use, pp. 112125. Wiley, Chichester , UK .
  • Henderson, B. W. and J. M. Donovan (1989) Release of prostaglandin E2 from cells by photodynamic treatment in vitro. Cancer Res. 49, 68966900.
  • Henderson, B. W. and V. H. Fingar (1987) Relationship of tumor hypoxia and response to photodynamic treatment in an experimental mouse tumor. Cancer Res. 47, 31103114.
  • Henderson, B. W. and V. H. Fingar (1989) Oxygen limitation of direct tumor cell killing during photodynamic treatment. Photochem. Photobiol. 49, 299304.
  • Henderson, B. W. and A. C. Miller (1986) Effects of scavengers of reactive oxygen and radical species on cell survival following photodynamic treatment in vitro: Comparison to ionizing radiation. Radial. Res. 108, 196205.
  • Henderson, B. W., A. B. Sumlin, B. L. Owczarczak and T. J. Dougherty (1991a) Bacteriochlorophyll-a as photosensitizer for photodynamic treatment of transplantable murine tumors. J. Photochem. Photobiol., B: Biol. 53S, 96S.
  • Henderson, B. W., J. Sweeney and T. Gessner (1991b) Endothelial cell production of physiologic mediators in response to PDT in vitro and effects on platelet function. Photochem. Photobiol. 53S, 96S.
  • Horsman, M. R. and J. Winther (1989) Vascular effects of photodynamic therapy in an intraocular retinoblastomalike tumour. Acta Oncol. 28, 693697.
  • Jori, G. (1989) In vivo transport and pharmacokinetic behaviour of tumor photosensitizers. In Photosensitizing Compounds: Their Chemistry, Biology and Clinical Use, pp. 7886. Wiley, Chichester , UK .
  • Kaye, A. H. and J. S. Hill (1990) Photoradiation therapy of brain tumours: Laboratory and clinical studies. In Phototherapy of Cancer (Edited byG.Morstyn and A. H.Kaye), pp. 101118. Harwood, London .
  • Kennedy, J. C., D. C. Pross and R. H. Pottier (1990) Topical application of S-aminolevulinic acid selectively induces phototoxic concentrations of protoporphyrin IX in actinic keratoses, primary basal cell and squamous cell carcinomas, and transdermal secondaries of breast carcinoma. Presented at the 3rd Biennial Meeting of the International Photodynamic Association, Buffalo, NY, July 1990 (abstract XVI/7).
  • Kerdel, F. A., N. A. Soter and H. W. Lim (1987) In vivo mediator release and degranulation of mast cells in hematoporphyrin derivative-induced phototoxicity in mice. J. Invest. Derm. 88, 271280.
  • Kessel, D. (1986) Porphyrin-lipoprotein association as a factor in porphyrin localization. Cancer Lett. 33, 183188.
  • Kessel, D., P. Thompson, K. Saatio and K. D. Nantwi (1987) Tumor localization and photosensitization by sulfonated derivatives of tetraphenylporphine. Photochem. Photobiol. 45, 787790.
  • Kinsey, B. M., A. D. van den Abbeele, S. J. Adelstein and A. I. Kassis (1989) Absence of preferential uptake of [125I]Iododihydrorhodamine 123 by four human tumor xenografts. Cancer Res. 49, 59865988.
  • Kongshaug, M., J. Moan and S. B. Brown (1989) The distribution of porphyrins with different tumor localising ability among human plasma proteins. Br. J. Cancer 59, 184188.
  • Lim, H. W. (1989) Effects of porphyrins on skin. In Photosensitizing Compounds: Their Chemistry, Biology and Clinical Use, pp. 148153. Wiley, Chichester , UK .
  • Lim, H. W., D. Parker and A. J. Marcus (1986) Generation of eicosanoids from mast cells exposed to protoporphyrin and irradiation. Clin. Res. 34, 763.
  • Mang, T. S., T. J. Dougherty, W. R. Potter, D. G. Boyle, S. Somer and J. Moan (1987) Photobleaching of porphyrins used in photodynamic therapy and implications for therapy. Photochem. Photobiol. 45, 501506.
  • Mang, T. S. and T. J. Wieman (1987) Photodynamic therapy in the treatment of pancreatic carcinoma: Dihematoporphyrin ether uptake and photobleaching kinetics. Photochem. Photobiol. 46, 853858.
  • Manyak, M. J., P. D. Smith, F. S. Harrington, S. M. Steinbert, E. Glatstein and A. Russo (1988) Protection against dihematoporphyrin ether sensitivity. Photochem. Photobiol. 47, 823830.
  • Mathews-Roth, M. (1984) Porphyrin photosensitization and carotenoid protection in mice; in vitro and in vivo studies. Photochem. Photobiol. 40, 6367.
  • Mathews, E. K. and Z. J. Cui (1990) Photodynamic action of sulphonated aluminum phthalocyanine (SALPC) on normal and carcinoma cells of the rat exocrine pancreas. (Presented at the 3rd Biennial Meeting of the International Photodynamic Association, Buffalo, NY, July 1990 (abstract VI/7)).
  • Mayhew, E., M. Murray, B. Owczarczak and B. Henderson (1990) Role of liposome composition and size on the biological properties of the photosensitizer isoBoSiNc entrapped in liposomes. Presented at the 3rd Biennial Meeting of the International Photodynamic Association, Buffalo, NY. July 1990 (abstract XXI/2).
  • Moan, J. (1990) On the diffusion length of singlet oxygen in cells and tissues. J. Photochem. Photobiol., B: Biol. 6, 341344.
  • Moan, J., K. Berg, E. Kvam, A. Western, Z. Malik, A. Ruck and H. Schneckenburger (1989) Intracellular localization of photosensitizers. In Photosensitizing Compounds: Their Chemistry, Biology and Clinical Use, pp. 95107. Wiley. Chichester , UK .
  • Moan, J. and S. Sommer (1985) Oxygen dependence of the photosensitizing effect of hematoporphyrin derivative in NHIK-3025 cells. Cancer Res. 45, 16081610.
  • Morgan, A. R., G. M. Garbo, R. W. Keck, L. D. Eriksen and S. H. Selman (1990) Metallopurpurins and light: Effect on transplantable rat bladder tumors and murine skin. Photochem. Photobiol. 51, 589592.
  • Mullooly, V. M., A. L. Abramson and M. J. Shikowitz (1990) Dihematoporphyrin ether-induced photosensitivity in laryngeal papilloma patients. Lasers Surg. Med. 10, 349356.
  • Musser, D. A., J. M. Wagner and N. Datta-Gupta (1982) The interaction of tumor localizing porphyrins with collagen and elastin. Res Commun. Chem. Pathol. Pharmacol. 36, 251259.
  • Nelson, J. S., L.-H. Liaw, A. Orenstein, W. G. Roberts and M. W. Berm (1988) Mechanism of tumor destruction following photodynamic therapy with hematoporphyrin derivative, chlorin, and phthalocyanine. J. Natl. Cancer Inst. 80, 15991605.
  • Nseyo, U. O., R. K. Whalen, M. R. Duncan, B. Berman and S. L. Lundahl (1990) Urinary cytokines following photodynamic therapy for bladder cancer: A preliminary report. Urol. XXXVI, 167171.
  • Oseroff, A. R., D. Ohuoha, G. Ara, D. McAuliffe, J. Foley and L. Cincotta (1986) Intramitochondrial dyes allow selective in vitro photolysis of carcinoma cells. Proc. Natl. Acad. Sci. USA 83, 97299133.
  • Patterson, M. S., S. J. Madsen and B. C. Wilson (1990a) Experimental tests of the feasibility of singlet oxygen luminescence monitoring in vivo during photodynamic therapy. J. Photochem. Photobiol., B: Biol. 5, 6984.
  • Patterson, M. S., B. C. Wilson and R. Graff (1990b) In vivo tests of the concept of photodynamic threshold dose in normal rat liver photosensitized by aluminum chlorosulphonated phthalocyanine. Photochem. Photobiol. 51, 343349.
  • Potter, W. R. (1987) The theory of PDT dosimetry: Consequences of photodestruction of sensitizer. Photochem. Photobiol. 46, 97101.
  • Profio, A. E. and D. R. Doiron (1987) Transport of light in tissue in photodynamic therapy. Photochem. Photobiol. 46, 591599.
  • Ramakrishnan, N., N. L. Oleinick, M. E. Clay, M.-F. Horng, A. R. Antunez and H. H. Evans (1989) DNA lesions and DNA degradation in mouse lymphoma L5178Y cells after photodynamic treatment sensitized by chloroaluminum phthalocyanine. Photochem. Photobiol. 50, 373318.
  • Reed, M. W. R., F. N. Miller, T. J. Wieman, M. T. Tseng and C. G. Pietsch (1988) The effect of photodynamic therapy on the microcirculation. J. Surg. Res. 45, 452459.
  • Reed, M. W. R., D. A. Schuschke, D. M. Ackermann, J. I. Harty, T. J. Wieman and F. N. Miller (1989a) The response of the rat urinary bladder microcirculation to photodynamic therapy. J. Urol. 142, 865868.
  • Reed, M. W. R., T. J. Wieman, D. A. Schuschke, M. T. Tseng and F. N. Miller (1989b) A comparison of the effects of photodynamic therapy on normal and tumor blood vessels in the rat microcirculation. Radiat. Res. 119, 542552.
  • Richter, A. M., S. Cerrito-Sola, E. D. Sternberg, D. Dolphin and J. G. Levy (1990) Biodistribution of tritiated benzoporphyrin derivative (3H-Bpd-MA), a new potent photosensitizer, in normal and tumor-bearing mice. J. Photochem. Photobiol., B: Biol., 5, 231244.
  • Roberts, W. B., G.-Y. Shiau, J. S. Nelson, K. M. Smith and M. W. Berns (1988) In vitro characterization of monoaspartyl chlorin e6 and diaspartyl chlorin e6 for photodynamic therapy. J. Natl. Cancer Inst. 80, 330336.
  • Roberts, W. G., L.-H. Liaw and M. W. Berns (1989a) In vitro photosensitization II. An electron microscopy study of cellular destruction with mono-L-aspartyl chlorin e6 and Photofrin II. Lasers Surg. Med. 9, 102108.
  • Roberts, W. G., K. M. Smith, J. L. McCullough and M. W. Berns (1989b) Skin photosensitivity and photodestruction of several potential photodynamic sensitizers. Photochem. Photobiol. 49, 431438.
  • Rousseau, J., R. Langlois, H. Ali and J. E. van Lier (1990) Biological activities of phthalocyanines XII: Synthesis, tumor uptake and biodistribution of 14C-labeled disulfonated and trisulfonated gallium phthalocyanine in C3H mice. J. Photochem. Photobiol., B: Biol. 6, 121132.
  • Salet, C. and G. Moreno (1990) New trends in photobiology. Photosensitization of mitochondria. Molecular and cellular aspects. J. Photochem. Photobiol., B: Biol. 5, 133150.
  • Shumaker, B. P. and F. W. Hetzel (1987) Clinical laser photodynamic therapy in the treatment of bladder cancer. Photochem. Photobiol. 46, 899901.
  • Song, C. W. (1980) Physiological factors in hyperthermia. NCI Monograph 61. Cancer Therapy by Hyperthermia, Drugs and Radiation, pp. 172176. NCI, NIH, Bethesda , MD .
  • Specht, K. G. and M. A. J. Rodgers (1990) Depolarization of mouse myeloma cell membranes during photodynamic action. Photochem. Photobiol. 51, 319324.
  • Star, W. M., H. P. A. Marijnissen, A. E. van den Berg-Block, J. A. C. Versteeg, K. A. P. Franken and H. S. Reinhold (1986) Destruction of rat mammary tumor and normal tissue microcirculation by hematoporphyrin derivative Photoradiation observed in vivo in sandwich observation chambers. Cancer Res. 46, 25322540.
  • Svaasand, L. O. (1984) Optical dosimetry for direct and interstitial photoradiation therapy of malignant tumors. In Porphyrin Localization and Treatment of Tumors (Edited byD. R.Doiron and C. J.Gomer), pp. 91114. Alan R. Liss, New York .
  • Svaasand, L. O., C. J. Gomer and E. Morinelli (1990) On the physical rationale of photodynamic therapy. SPIE IS6, 233248.
  • Tralau, C. J., A. R. Young, N. P. J. Walker, D. I. Vernon, A. J. MacRobert, S. B. Brown and S. G. Bown (1989) Mouse skin photosensitivity with dihaematoporphyrin ether (DHE) and aluminum sulphonated phthalocyanine (AISPc): A comparative study. Photochem. Photobiol. 49, 305312.
  • Tromberg, B. J., A. Orenstein, S. Kimel, S. J. Barker, J. Hyatt, J. S. Nelson and M. W. Berns (1990) In vivo tumor oxygen tension measurements for the evaluation of the efficiency of photodynamic therapy. Photochem. Photobiol. 52, 375385.
  • Truscott, T. G., A. J. McLean, A. M. R. Phillips and W. S. Foulds (1988) Detection of haematoporphyrin derivative and haematoporphyrin excited states in cell environments. Cancer Lett. 41, 3135.
  • Weintraub, H., A. Abramovici, A. Altman, E. Ben-Hur and I. Rosenthal (1988) Toxicity, tissue distribution and excretion studies of aluminum phthalocyanine tetrasulfonate in normal mice. Lasers Life Sci. 2, 185196.
  • Weishaupt, K. R., C. J. Gomer and T. J. Dougherty (1976) Identification of singlet oxygen as the cytotoxic agent in photoinactivation of a murine tumor. Cancer Res. 36, 23262329.
  • Wilson, B. C. (1989) Photodynamic therapy: Light delivery and doseage for second-generation photosensitizers. Ciba Foundation Symposium 146: Photosensitizing Compounds: Their Chemistry, Biology and Clinical Use, pp. 6173. Wiley, New York .
  • Wilson, B. C., W. P. Jeeves and D. M. Lowe (1985) In vivo and post mortem measurements of the attenuation spectra of light in mammalian tissues. Photochem. Photobiol. 42, 153162.
  • Wilson, B. C., M. S. Patterson and D. M. Burns (1986) Effect of photosensitizer concentration in tissue on the penetration depth of photoactivating light. Lasers Med. Sci. 1, 235244.
  • Zieve, P. D., H. M. Solomon and J. R. Krevans (1966) The effect of hematoporphyrin and light on human platelets. I. Morphologic, functional and biochemical changes. J. Cell. Physiol. 67, 271280.