冈山大学研究:光敏感染料刺激遗传失明患者视力
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Okayama University research: Light-responsive dye stimulates sight in genetically blind patients -
2015年3月11日,星期三 09:10 ET | Source: Okayama University
OKAYAMA, Japan, March 11, 2015 (GLOBE NEWSWIRE) -- via PRWEB - Researchers at Okayama demonstrate the promise of a new approach for stimulating neurons in the eyes of patients with dead photoreceptor cells.
"The basic concept of retinal prostheses is to replace dead photoreceptor cells with artificial devices," explain in a review of their recent research Toshihiko Matsuo, eye doctor, and Tetsuya Uchida, polymer scientist, from Okayama University, in collaboration with Kenichi Takarabe, semiconductor scientist, from Okayama University of Science in Japan. Blind patients with hereditary diseases such as retinitis pigmentosa, have dead photoreceptor cells but other neurons remain alive. The Okayama University researchers are exploiting the working functions of these living neurons to send messages to the brain by artificial stimulation from photoelectric dyes that respond to light.
Other work on retinal prostheses has focused on the use of arrays of electrodes – as in a digital camera – or photodiodes. The challenges with these approaches include miniaturising the devices, biocompatibility, low sensitivity and low currents which often demand an external power source. "The prototype of the photoelectric dye-coupled retinal prosthesis, OURePTM, is unique in using electric potentials to stimulate retinal neurons, in contrast with the other systems of retinal prostheses that generate electric currents," say the Okayama University researchers.
Kelvin probe studies confirmed the presence of electric potentials on the film surface induced in rapid response to light. The researchers also tested the effect of the dye in the eyes of Royal College of Surgeons rats. Cytotoxicity analyses proved promising and behavioural tests on the rats suggested that the treatment was effective.
In addition the researchers have plans for ways of testing the likelihood of treatment success by using optical coherence tomography to assess the level of degeneration in the patient's retina. In terms of coming work they say, "Clinical studies of photoelectric dye-based retinal prostheses, OURePTM, in patients with retinitis pigmentosa who lose sight will be planned since the manufacturing control and the quality control have been already established for the medical device."
Background
The photoelectric dye
The Okayama researchers used the dye 2-[2-[4-[dibutylamino)phenyl]ethenyl]-3-carboxymethylbenzothiazolium bromide ,which has an absorption spectra that spans the visible range from 400 nm to 600 nm. It is also stable, readily synthesised and has a low molecular weight and no obvious toxic components.
They coupled the photoelectric dye to a soft thin polyethylene film at a concentration of around 106 dye molecules per μm2. The film could also be rolled up before inserting into the subretinal area through a small opening so that a large film could be fitted providing a large field of view.
Safety
Polyethylene has been used for medical implants for some time and its safety and stability has already been proved. The researchers tested the toxicity of the dye in vitro using cultured retinal cells, as these are the cells the dye would come into contact with first. No cytotoxicity was observed. Furthermore, no toxicity has been found for OURePTM or for the photoelectric dye in any tests for biological evaluation of medical devices, based on the International Organization for Standardization (ISO) 10993.
The photoelectric dye coupled polyethylene film was then implanted into the retina of living rats. Apoptosis was reduced in the retinal neurons which were in contact with dye-coupled polyethylene film, OURePTM. The photoelectric dye may have a neuroprotective effect on retinal neurons. Further tests are needed.
Efficacy
Kelvin probe measurements of the electric potential on the dye-coupled film surface when exposed to light showed rapid responses over the same range of wavelengths as the known absorption spectrum of the dye. The sensitivity to different light intensities was also promising.
The researchers tested the dye on chick embryo retinal cells in vitro using a fluorescent dye to monitor calcium ions. They found that the dye-stimulated responses triggered the increased calcium ion concentrations. Dye coupled films were also implanted into Royal College of Surgeons rats, who were then subjected to behaviour tests. When the rats were placed in a drum with spinning walls painted in white and black vertical stripes, the rats moved in the direction of the rotating stripes, suggesting some level of sight had been retrieved. |
