The effect of fluence rate and wavelength on the formation of protoporphyrin IX photoproducts.

IF 2.7 3区 化学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY Photochemical & Photobiological Sciences Pub Date : 2024-09-01 Epub Date: 2024-09-08 DOI:10.1007/s43630-024-00611-9
Sochi J Ogbonna, Katsuyoshi Masuda, Hisanao Hazama
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Abstract

Photodynamic diagnosis and therapy (PDD and PDT) are emerging techniques for diagnosing and treating tumors and malignant diseases. Photoproducts of protoporphyrin IX (PpIX) used in PDD and PDT may be used in the diagnosis and treatment, making a detailed analysis of the photoproduct formation under various treatment and diagnosis conditions important.Spectroscopic and mass spectrometric analysis of photoproduct formation from PpIX dissolved in dimethyl sulfoxide were performed under commonly used irradiation conditions for PDD and PDT, i.e., wavelengths of 405 and 635 nm and fluence rates of 10 and 100 mW/cm2. Irradiation resulted in the formation of hydroxyaldehyde photoproduct (photoprotoporphyrin; Ppp) and formyl photoproduct (product II; Pp II) existing in different quantities with the irradiation wavelength and fluence rate. Ppp was dominant under 635 nm irradiation of PpIX, with a fluorescence peak at 673 nm and a protonated monoisotopic peak at m/z 595.3. PpIX irradiation with 405 nm yielded more Pp II, with a fluorescence peak at 654 nm. A higher photoproduct formation was observed at a low fluence rate for irradiation with 635 nm, while irradiation with 405 nm indicated a higher photoproduct formation at a higher fluence rate.The photoproduct formation with the irradiation conditions can be exploited for dosimetry estimation and may be used as an additional photosensitizer to improve the diagnostics and treatment efficacies of PDD and PDT. Differences in environmental conditions of the present study from that of a biological environment may result in a variation in the photoproduct formation rate and may limit their clinical utilization in PDD and PDT. Thus, further investigation of photoproduct formation rates in more complex biological environments, including in vivo, is necessary. However, the results obtained in this study will serve as a basis for understanding reaction processes in such biological environments.

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荧光率和波长对原卟啉 IX 光产物形成的影响。
光动力诊断和治疗(PDD 和 PDT)是诊断和治疗肿瘤和恶性疾病的新兴技术。PDD和PDT中使用的原卟啉IX(PpIX)的光产物可用于诊断和治疗,因此详细分析各种治疗和诊断条件下光产物的形成非常重要。在PDD和PDT常用的辐照条件下,即波长为405和635 nm,通量为10和100 mW/cm2,对溶解在二甲亚砜中的PpIX形成的光产物进行了光谱和质谱分析。辐照导致羟醛光产物(光原卟啉;Ppp)和甲酰基光产物(产物 II;Pp II)的形成,其数量随辐照波长和通量的变化而不同。在 635 纳米波长照射 PpIX 时,Ppp 占主导地位,荧光峰在 673 纳米波长处,质子化单异构峰在 m/z 595.3 处。用 405 纳米波长照射 PpIX 会产生更多的 Pp II,荧光峰在 654 纳米波长处。用 635 纳米波长照射时,在低荧光率下形成的光致产物较多,而用 405 纳米波长照射时,在高荧光率下形成的光致产物较多。本研究的环境条件与生物环境不同,可能会导致光致产物形成率的变化,并可能限制其在 PDD 和 PDT 中的临床应用。因此,有必要进一步研究在更复杂的生物环境(包括体内)中的光产物形成率。不过,本研究获得的结果将为了解此类生物环境中的反应过程奠定基础。
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来源期刊
Photochemical & Photobiological Sciences
Photochemical & Photobiological Sciences 生物-生化与分子生物学
CiteScore
5.60
自引率
6.50%
发文量
201
审稿时长
2.3 months
期刊介绍: A society-owned journal publishing high quality research on all aspects of photochemistry and photobiology.
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