研究目的
Investigating the synthesis, singlet oxygen generation, and passive membrane transport of new sensitizers developed on a methylpheophorbide a platform for photodynamic therapy.
研究成果
The synthesized macrocyclic compounds can generate singlet oxygen in a lipid-like phase with a moderate yield and show a strong affinity to lipid-like environments. The temperature dependence of partition coefficients is significant for hydrophobic solutes, suggesting potential implications for their application in photodynamic therapy. However, their slight solubility in aqueous phases indicates the need for developing delivery systems for effective administration.
研究不足
The study focuses on the behavior of photosensitizers in a liquid state and their interaction with model lipid-like and water-like phases. The actual behavior in biological systems may vary due to complex interactions not accounted for in the model systems.
1:Experimental Design and Method Selection:
Synthesis of pheophorbide a 17-(3) methylester and its glycol derivatives from chlorophyll, identification via visible, UV-, NMR- and MS-spectra. Study of photosensitizers' behavior in solutions with various experimental techniques.
2:Sample Selection and Data Sources:
Use of synthesized photosensitizers and standard phosphate buffer or bidistilled water for partition coefficients determination.
3:List of Experimental Equipment and Materials:
LIF-200 pulsed laser fluorimeter, nitrogen laser, FD-10 GA germanium photodetector, IKS glass band pass filter, thermostated hermetic 50 ml glass cells.
4:Experimental Procedures and Operational Workflow:
Determination of singlet oxygen quantum yield and lifetime in benzene and 1-octanol. Partition coefficients determination between 1-octanol and water or phosphate saline buffer using the method of isothermal saturation.
5:Data Analysis Methods:
Computation of partition coefficients, thermodynamic analysis of the solute transfer from water to 1-octanol.
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