ライフサイエンスコーパス: photosensitization

1 n of organic species, either directly or via photosensitization.

2 vels and malate production when coupled with photosensitization.

3 cal stroke injury was induced by Rose Bengal photosensitization.

4 TRPV1 channels in the absence of additional photosensitization.

5 enerated by light irradiation, enhancing the photosensitization.

6 es and thereby increase the action sphere of photosensitization.

7 sults in excess uroporphyrin I, which causes photosensitization.

8 nse (P = 0.02) without affecting normal skin photosensitization.

9 ng radiation, photoionization, oxidation, or photosensitization.

10 The major side effect of PDT is cutaneous photosensitization.

11 ins was seen in parental cells 24-48 h after photosensitization.

12 ed halogen-atom abstraction and benzophenone photosensitization.

13 t, offering a new strategy to tackle overall photosensitization, a limitation often encountered in ph

14 ter (NOM) did not significantly impact pSi's photosensitization abilities.

15 ant take-home message of this review is that photosensitization allows visible light and UV-A radiati

16 SOA numbers via photosensitization alone and in the absence of ozone did

17 Photosensitization, an exaggerated sensitivity to harmle

18 w, we discuss the therapeutic application of photosensitization and advancements made in developing n

19 rotonated polymerization exclusively enables photosensitization and closely interacts with oxygen rel

20 ant by up to one order of magnitude via both photosensitization and H-donating reaction.

21 led mechanisms involving surface-catalyisis, photosensitization and H-donating reactions was integrat

22 abundant metal complexes for applications in photosensitization and luminescence.

23 e important for protochlorophyllide binding, photosensitization and photochemical conversion to chlor

24 The clinical adoption of this photosensitization approach has inspired the search for

25 gest a photooxidative mechanism of skin cell photosensitization by 3-hydroxypyridine derivatives.

26 s of A431 squamous carcinoma cells following photosensitization by administering aminolevulinic acid

27 Thus, for three different classes of drugs, photosensitization by at least two distinct mechanisms i

28 on-native photochemical oxidation, following photosensitization by covalent attachment of a photo-oxi

29 on-native photochemical oxidation, following photosensitization by covalent attachment of a photo-oxi

30 Photosensitization by derivatized carbon nanotubes from

31 ure-activity relationship study of skin cell photosensitization by endogenous pyridinium derivatives

32 UVA photodamage has been attributed to photosensitization by endogenous skin chromophores leadi

33 tration of COX-2 inhibitors enhance in vitro photosensitization by increasing apoptosis and improve i

34 he hair follicle, consistent with UV-induced photosensitization by melanin in the hair shaft.

35 f 23 +/- 3 and 21 +/- 3 for ETBE obtained by photosensitization by Pahokee Peat Humic Acid (PPHA) and

36 cterized by severe PPOX deficiency, onset of photosensitization by porphyrins in early childhood, ske

37 ia cutanea tarda is a skin disease caused by photosensitization by porphyrins whose accumulation is c

38 This is in agreement with a model photosensitization by rose bengal (RB(2-)) in deoxygenat

39 hieve a photoredox reaction are identical to photosensitization (catalyst, light source and substrate

40 FICZ photosensitization caused intracellular oxidative stress

41 induced HSP-70 expression, whereas identical photosensitization conditions with a porphyrin (Photofri

42 Photosensitivity and photosensitization could be demonstrated in freshly isol

43 ilieu to reasonably interpret and/or predict photosensitization efficacies.

44 spectroscopy, which likely prevented further photosensitization events.

45 sults in peroxidation at lipid double bonds, photosensitization experiments were performed to explici

46 TPCS2a-containing particles, suggesting that photosensitization facilitated a shift from default MHC

47 ne serum albumin, unglycated collagen showed photosensitization in CF3 fibroblasts and generation of

48 key role in the degradation of ETBE by PPHA photosensitization in deoxygenated media (Lambda = 11 +/

49 pase activation, resulting in more efficient photosensitization in HT-29 cancer cells.

50 the role of singlet oxygen, an ROS formed by photosensitization, in the regulation of survival signal

51 f and could only be attributed to a possible photosensitization induced by the previous use of paclit

52 The distinctive features of photosensitization-induced mutagenesis in the immortaliz

53 damage by UVA, submicromolar 5-MTHF inhibits photosensitization-induced strand breaks.

54 Cutaneous photosensitization is a common side effect of drug treat

55 ciceptive ion-channel activity, QAQ-mediated photosensitization is a platform for understanding signa

56 This photosensitization is greater for pheomelanin (yellow an

57 dendritic projections together indicate that photosensitization is highly selective for OFF-RGCs.

58 naphthodianthrones fagopyrins that can cause photosensitization is low.

59 Remarkably, photosensitization manifests only in animals with photor

60 hemistry, it is surprising to recognize that photosensitization mechanisms to access excited-state or

61 This article describes the photosensitization of a meso-tetraphenylporphyrin iron(I

62 We induced the self-photosensitization of a nonphotosynthetic bacterium, Moo

63 le crystalline phase nanostructures enhances photosensitization of a proton reduction catalyst for hy

64 with Na(2)CO(3) is directly responsible for photosensitization of aryl iodides (photoexcitation by 2

65 ch Zn(II) coordination allows 100% efficient photosensitization of azobenzene switching, while Cu(II)

66 Photosensitization of cultured human skin keratinocytes

67 umulation of coproporphyrin III and leads to photosensitization of Gram-positive pathogens.

68 Photosensitization of molecular catalysts to reduce CO2

69 n report the first instance of aqueous-phase photosensitization of semiconductor photocatalysts (WO(3

70 e energy transfer (FRET) dominates (82%) the photosensitization of the singlet excited state of BDP i

71 ge is found to be mainly responsible for the photosensitization of the triplet excited state of I2-BD

72 Airborne singlet oxygen obtained from photosensitization of triplet dioxygen is shown to react

73 n explored as agents for optical imaging and photosensitization of tumors in pre-clinical studies.

74 s a result of advanced glycation end product photosensitization of ultraviolet A and solar-simulated

75 agmentation (retro-Paterno-Buchi) as well as photosensitization of unsaturated lipids leading to lipi

76 Photosensitization of viral membranes is a common mechan

77 dy establishes a novel concept for plasmonic photosensitization of wide band gap semiconductors, lead

78 In this study, we have investigated the photosensitization, optical, and surface properties of p

79 Singlet oxygen was generated by photosensitization or by thermal decomposition of naphth

80 tric mode to complement the oxygen-dependent photosensitization pathways that define photodynamic the

81 could open new avenues for the assessment of photosensitization pathways.

82 ectively review current concepts relating to photosensitization, photoactivation, time of PDT applica

83 branched polymers with wide applications to photosensitization, photocatalysis, photodynamic therapy

84 ication, historically relevant to biological photosensitization processes and some forms of photochem

85 thiothymine series account for their potent photosensitization properties.

86 diated by neutrophil infiltration induced by photosensitization (PS) because the systemic depletion o

87 that direct priming of a tumor tissue using photosensitization rapidly activates neutrophil infiltra

88 The photosensitization reactions are reflective of physiolog

89 findings support the notion that UVA-induced photosensitization reactions are responsible for oxidati

90 ates that underwent photolysis or additional photosensitization reactions in response to the same blu

91 is information shows that the outcome of the photosensitization reactions is critically dependent on

92 Ras dimer formation on membranes by Type II photosensitization reactions, in which molecular oxygen

93 of this wavelength to trigger intracellular photosensitization reactions, thereby giving rise to pro

94 the UVA component of solar radiation through photosensitization reactions.

95 aps as a protectant from ultraviolet-induced photosensitization reactions.

96 Organelle-targeted photosensitization represents a promising approach in ph

97 However, retinal photosensitization requires a high dose of DENAQ and dis

98 Photosensitization, subsequent to photon absorption by c

99 photoluminescence spectroscopy, and triplet photosensitization to demonstrate intramolecular singlet

100 edifices display a phenomenon of cooperative photosensitization UC with green emission of the Tb cati

101 in vitro cytotoxic effect in tumor cells by photosensitization under two-photon irradiation.

102 as well as clarifying the exact cooperative photosensitization upconversion mechanism.

103 eroids, demonstrating that nuclear/cytosolic photosensitization using a single agent can enhance PDT

104 s allowed us to investigate its mechanism of photosensitization using an integrated approach combinin

105 iled mechanistic studies confirm the role of photosensitization via energy transfer.

106 direct irradiation is operationally simple, photosensitization via selective energy transfer enables

107 HSP-70 expression after photosensitization was associated with the concomitant i

108 Photosensitization was not observed using bovine serum a

109 singlet oxygen as the primary oxidant during photosensitization, were used in experiments under isoef

110 istic framework of this technique is type II photosensitization, where the MALDI matrix norharmane ac

111 Photosensitization with acetone and chemical quenching w

112 Photosensitization with Ru(bpy)(3)(2+) showed distinct F