2021
DOI: 10.1002/ange.202107231
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Smart 131I‐Labeled Self‐Illuminating Photosensitizers for Deep Tumor Therapy

Abstract: Stimulating photosensitizers (PS) by Cerenkov radiation (CR) can overcome the light penetration limitation in traditional photodynamic therapy. However, separate injection of radiopharmaceuticals and PS cannot guarantee their efficient interaction in tumor areas, while co‐delivery of radionuclides and PS face the problem of nonnegligible phototoxicity in normal tissues. Here, we describe a 131I‐labeled smart photosensitizer, composed of pyropheophorbide‐a (photosensitizer), a diisopropylamino group (pH‐sensiti… Show more

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Cited by 4 publications
(5 citation statements)
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“…52,54 Various studies have shown that CR can activate photosensitizers to generate ROS with several potential benefits compared with conventional PDT. 55–57 It can eliminate the need for external radiation, which can cause cellular damage. 53,54 Furthermore, after a systematic injection, many radiopharmaceuticals can accumulate specifically in tumors.…”
Section: Radiationmentioning
confidence: 99%
See 2 more Smart Citations
“…52,54 Various studies have shown that CR can activate photosensitizers to generate ROS with several potential benefits compared with conventional PDT. 55–57 It can eliminate the need for external radiation, which can cause cellular damage. 53,54 Furthermore, after a systematic injection, many radiopharmaceuticals can accumulate specifically in tumors.…”
Section: Radiationmentioning
confidence: 99%
“…53,54 Furthermore, after a systematic injection, many radiopharmaceuticals can accumulate specifically in tumors. 56–59 Despite its advantages, this therapy also faces a difficult problem, namely, radioactive decay because radioisotopes decrease consistently in the absence of external and internal stimuli. Thus, the development of activatable sensitizers for cancer is essential to avoid off-target cytotoxicity.…”
Section: Radiationmentioning
confidence: 99%
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“…We have developed a ZGC nanoplatform conjugated to 131 I-labeled ZnPc(COOH) 4 ( 131 I-ZGCs-ZnPcC4) that can support both radiotherapy as well as continuous, radiationinduced PDT through energy transfer from the ionizing radiation to ZGCs and then to ZnPc(COOH) 4 [95]. In another approach, we engineered pyropheophorbide-a containing PEG and a diisopropylamino group with an 131 I-labeled tyrosine, which self-assembled into pH-sensitive NPs [96]. These NPs exhibited minimal phototoxicity in normal tissue because of the quenched photodynamic effect, and under acidic conditions, they disassembled to promote the generation of ROS to achieve PDT and radiotherapy against deep-seated tumors (Figure 12A).…”
Section: Combination Therapymentioning
confidence: 99%
“…For instance, those superior cross-species translational abilities of rabbit myocardium may be relevant for the development and testing of novel cardiac sympathetic nerve systemtargeting therapies. Furthermore, the bigger organ size is a fundamental advantage for various biomedical assays including in vivo imaging technologies which have limited spatial resolution [10][11][12][13][14][15].…”
Section: Introductionmentioning
confidence: 99%