The major cytotoxic agent with most current photosensitizers used in photodynamic therapy(PDT)is widely believed to be singlet oxygen(^(1)O_(2)).Determination of the ^(1)O_(2) quantum yields for porphyrin-based photos...The major cytotoxic agent with most current photosensitizers used in photodynamic therapy(PDT)is widely believed to be singlet oxygen(^(1)O_(2)).Determination of the ^(1)O_(2) quantum yields for porphyrin-based photosensitizers,including hematoporphyrin derivative(HiPorfin),hematoporphyrin monomethyl ether(HMME)and photocarcinorin(PsD-007)in air-saturated dimethylformamide(DMF)solutions were performed by the direct measurement of their near-infrared luminescence.In addition,^(1)O_(2) quencher sodium azide was employed to confirm the ^(1)O_(2) generation from the investigated photosensitizers.The maximal ^(1)O_(2) luminescence occurs at about 1280 nm with full width at half maximum of 30 nm.The ^(1)O_(2) quantum yields were found to be 0.61±0.03,0.60±0.02 and 0.59±0.03 for HiPorfin,HMME and PsD-007,respectively.These results provide that these porphyrin-based photosensitizers produce ^(1)O_(2) under irradiation,which is of significance for the study of their photodynamic action in PDT.展开更多
Action-potential encoded optical second harmonic generation(SHG)has been recently proposedfor use in det ecting the axonal damage in patients with demnyelinat ing diseases.In this study,thecharact erization of signal ...Action-potential encoded optical second harmonic generation(SHG)has been recently proposedfor use in det ecting the axonal damage in patients with demnyelinat ing diseases.In this study,thecharact erization of signal conduction along axons of two different levels of denyelination wasstudied via a modified Hodgkin Huxley model,because some types of demyelinating disease,i.e.primary progressive and secondary progesive multiple scleross,are dificult to be distinguishedby magnetic resonance imaging(MRI),we focused on the diferences in signal conduction between two diferent demyelinated axons,such as the first-level demyelination and the second.level demyelination.The spatio-temporal distribution of action potentials along denyelinatedaxons and conduction properties including the refractory period and frequency encoding in theset wo patterns were investigated.The results showed that denyelination could induce the decreaseboth in the amplitude of action potentials and the ability of frequency coding,Furthermore,t hesignal conduction velocity in the second-level dernyelination was about 21%slower than that inthe first-level demyelination.The refractory period in the second-level demyelination was about32%longer t han the first-level.Thus,detecting the signal conduction in demnyelinat ed axons byaction-potential encoded optical SHG could greatly improve the assessment of demyelinatingdisorders to classify the patients.This technique also offers a potential fast and noninvasiveoptical approach for monitoring membrane potential.展开更多
基金supported by the Program for New Century Excellent Talents in Fujian Province University。
文摘The major cytotoxic agent with most current photosensitizers used in photodynamic therapy(PDT)is widely believed to be singlet oxygen(^(1)O_(2)).Determination of the ^(1)O_(2) quantum yields for porphyrin-based photosensitizers,including hematoporphyrin derivative(HiPorfin),hematoporphyrin monomethyl ether(HMME)and photocarcinorin(PsD-007)in air-saturated dimethylformamide(DMF)solutions were performed by the direct measurement of their near-infrared luminescence.In addition,^(1)O_(2) quencher sodium azide was employed to confirm the ^(1)O_(2) generation from the investigated photosensitizers.The maximal ^(1)O_(2) luminescence occurs at about 1280 nm with full width at half maximum of 30 nm.The ^(1)O_(2) quantum yields were found to be 0.61±0.03,0.60±0.02 and 0.59±0.03 for HiPorfin,HMME and PsD-007,respectively.These results provide that these porphyrin-based photosensitizers produce ^(1)O_(2) under irradiation,which is of significance for the study of their photodynamic action in PDT.
基金supported by the National Nature Science Foundation of China under Grant No.61335011Program for Changjiang,Scholars and Innovative Research Team in University under Grant No.IRT1115the Fund from Fujian Normal University under Grant No.2008100218.
文摘Action-potential encoded optical second harmonic generation(SHG)has been recently proposedfor use in det ecting the axonal damage in patients with demnyelinat ing diseases.In this study,thecharact erization of signal conduction along axons of two different levels of denyelination wasstudied via a modified Hodgkin Huxley model,because some types of demyelinating disease,i.e.primary progressive and secondary progesive multiple scleross,are dificult to be distinguishedby magnetic resonance imaging(MRI),we focused on the diferences in signal conduction between two diferent demyelinated axons,such as the first-level demyelination and the second.level demyelination.The spatio-temporal distribution of action potentials along denyelinatedaxons and conduction properties including the refractory period and frequency encoding in theset wo patterns were investigated.The results showed that denyelination could induce the decreaseboth in the amplitude of action potentials and the ability of frequency coding,Furthermore,t hesignal conduction velocity in the second-level dernyelination was about 21%slower than that inthe first-level demyelination.The refractory period in the second-level demyelination was about32%longer t han the first-level.Thus,detecting the signal conduction in demnyelinat ed axons byaction-potential encoded optical SHG could greatly improve the assessment of demyelinatingdisorders to classify the patients.This technique also offers a potential fast and noninvasiveoptical approach for monitoring membrane potential.