SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3174348045> ?p ?o ?g. }

Showing items 1 to 100 of ±147 with 100 items per page.

W3174348045 endingPage "34" @default.
W3174348045 startingPage "20" @default.
W3174348045 abstract "Photodynamic therapy (PDT) has been applied in clinical treatment of tumors for a long time. However, insufficient supply of pivotal factors including photosensitizer (PS), light, and oxygen in tumor tissue dramatically reduces the therapeutic efficacy of PDT. Nanoparticles have received an influx of attention as drug carriers, and recent studies have demonstrated their promising potential to overcome the obstacles of PDT in tumor tissue. Physicochemical optimization for passive targeting, ligand modification for active targeting, and stimuli-responsive release achieved efficient delivery of PS to tumor tissue. Various trials using upconversion NPs, two-photon lasers, X-rays, and bioluminescence have provided clues for efficient methods of light delivery to deep tissue. Attempts have been made to overcome unfavorable tumor microenvironments via artificial oxygen generation, Fenton reaction, and combination with other chemical drugs. In this review, we introduce these creative approaches to addressing the hurdles facing PDT in tumors. In particular, the studies that have been validated in animal experiments are preferred in this review over proof-of-concept studies that were only performed in cells." @default.
W3174348045 created "2021-07-05" @default.
W3174348045 creator A5004506758 @default.
W3174348045 creator A5043765587 @default.
W3174348045 creator A5046877113 @default.
W3174348045 creator A5047594932 @default.
W3174348045 creator A5058912860 @default.
W3174348045 creator A5069119629 @default.
W3174348045 date "2022-02-01" @default.
W3174348045 modified "2023-10-06" @default.
W3174348045 title "Overcoming the obstacles of current photodynamic therapy in tumors using nanoparticles" @default.
W3174348045 cites W1596848781 @default.
W3174348045 cites W180123612 @default.
W3174348045 cites W1968583232 @default.
W3174348045 cites W1975088956 @default.
W3174348045 cites W1979321972 @default.
W3174348045 cites W1990455420 @default.
W3174348045 cites W2002516695 @default.
W3174348045 cites W2022146849 @default.
W3174348045 cites W2026889493 @default.
W3174348045 cites W2035950553 @default.
W3174348045 cites W2048878719 @default.
W3174348045 cites W2068920186 @default.
W3174348045 cites W2083703739 @default.
W3174348045 cites W2087812848 @default.
W3174348045 cites W2095762520 @default.
W3174348045 cites W2124496728 @default.
W3174348045 cites W2129248052 @default.
W3174348045 cites W2148293218 @default.
W3174348045 cites W2322861634 @default.
W3174348045 cites W2326188833 @default.
W3174348045 cites W2542884666 @default.
W3174348045 cites W2586389631 @default.
W3174348045 cites W2601992639 @default.
W3174348045 cites W2737866071 @default.
W3174348045 cites W2772374860 @default.
W3174348045 cites W2800946834 @default.
W3174348045 cites W2804712565 @default.
W3174348045 cites W2860296076 @default.
W3174348045 cites W2891696504 @default.
W3174348045 cites W2896665158 @default.
W3174348045 cites W2901748905 @default.
W3174348045 cites W2907458715 @default.
W3174348045 cites W2922390616 @default.
W3174348045 cites W2924991351 @default.
W3174348045 cites W2925023764 @default.
W3174348045 cites W2944103495 @default.
W3174348045 cites W2944249153 @default.
W3174348045 cites W2945864203 @default.
W3174348045 cites W2946021607 @default.
W3174348045 cites W2948004964 @default.
W3174348045 cites W2965435327 @default.
W3174348045 cites W2966111662 @default.
W3174348045 cites W2969282776 @default.
W3174348045 cites W2969944646 @default.
W3174348045 cites W2979770344 @default.
W3174348045 cites W2984047554 @default.
W3174348045 cites W2993278204 @default.
W3174348045 cites W2996866278 @default.
W3174348045 cites W2998570436 @default.
W3174348045 cites W2999476017 @default.
W3174348045 cites W3000524816 @default.
W3174348045 cites W3000787753 @default.
W3174348045 cites W3004591400 @default.
W3174348045 cites W3007372193 @default.
W3174348045 cites W3007814591 @default.
W3174348045 cites W3009224743 @default.
W3174348045 cites W3017974630 @default.
W3174348045 cites W3025755290 @default.
W3174348045 cites W3026867698 @default.
W3174348045 cites W3034440822 @default.
W3174348045 cites W3036922684 @default.
W3174348045 cites W3081943925 @default.
W3174348045 cites W3084755165 @default.
W3174348045 cites W3108568990 @default.
W3174348045 cites W3126862404 @default.
W3174348045 cites W3128939072 @default.
W3174348045 cites W3133754753 @default.
W3174348045 cites W3136591792 @default.
W3174348045 doi "https://doi.org/10.1016/j.bioactmat.2021.06.019" @default.
W3174348045 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8424083" @default.
W3174348045 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34541384" @default.
W3174348045 hasPublicationYear "2022" @default.
W3174348045 type Work @default.
W3174348045 sameAs 3174348045 @default.
W3174348045 citedByCount "67" @default.
W3174348045 countsByYear W31743480452021 @default.
W3174348045 countsByYear W31743480452022 @default.
W3174348045 countsByYear W31743480452023 @default.
W3174348045 crossrefType "journal-article" @default.
W3174348045 hasAuthorship W3174348045A5004506758 @default.
W3174348045 hasAuthorship W3174348045A5043765587 @default.
W3174348045 hasAuthorship W3174348045A5046877113 @default.
W3174348045 hasAuthorship W3174348045A5047594932 @default.
W3174348045 hasAuthorship W3174348045A5058912860 @default.
W3174348045 hasAuthorship W3174348045A5069119629 @default.
W3174348045 hasBestOaLocation W31743480451 @default.
W3174348045 hasConcept C11630735 @default.