摘要:
A method includes determining a highest peak of an optical spectrum waveform contained within a wavelength window having a fixed wavelength range, the wavelength window having a beginning wavelength value and an ending wavelength value, and iteratively modifying the beginning and ending wavelength values, within the fixed wavelength range, to shift the wavelength window so the highest peak is centered at a first position within the wavelength window. The method may further include determining a second highest peak of the optical spectrum waveform and iteratively expanding or contracting the optical spectrum waveform, while maintaining the highest peak centered at the first position, to locate the second highest peak at a predetermined position within the wavelength window. The method may be used for window calibration to enable repeatable and precise harmonic analysis of optical spectra, such as Raman spectra.
摘要:
Nano-encapsulated photosensitizers and their use in the treatment of tumors and/or imaging is described. Preferably, the photosensitizers are encapsulated in a calcium phosphate nanoparticle (CPNP). Encapsulating the PS in a CPNP increases the half-life of the PS, increases absorption of the PS into the target cell tissue, increases the photostability of the PS, increases the photoefficiency of the PS, increases in vivo retention of the PS, or combinations thereof, ultimately making it a highly efficacious agent for use in photodynamic therapy, imaging target tissues, vessels, or tumors, and/or detecting or locating tumors.
摘要:
Nano-encapsulated photosensitizers and their use in the treatment of tumors and/or imaging is described. Preferably, the photosensitizers are encapsulated in a calcium phosphate nanoparticle (CPNP). Encapsulating the PS in a CPNP increases the half-life of the PS, increases absorption of the PS into the target cell tissue, increases the photostability of the PS, increases the photoefficiency of the PS, increases in vivo retention of the PS, or combinations thereof, ultimately making it a highly efficacious agent for use in photodynamic therapy, imaging target tissues, vessels, or tumors, and/or detecting or locating tumors.