Your search keyword '"Xiao L. Zheng"' showing total 2 results

1. Pulsed 808-nm infrared laser stimulation of the auditory nerve in guinea pig cochlea

Author

Nan Xia, Man Q. Wang, Xing Wang, Wen S. Hou, Zong X. Mou, Xiao L. Zheng, Xiao Y. Wu, and Xin Gu

Subjects

Male, Materials science, Infrared Rays, medicine.medical_treatment, Guinea Pigs, Stimulation, Dermatology, Deafness, Stimulus (physiology), law.invention, law, Cochlear implant, otorhinolaryngologic diseases, medicine, Animals, Cochlear Nerve, Evoked Potentials, Optical Fibers, Spiral ganglion, Cochlea, Round window, Lasers, Far-infrared laser, Anatomy, Laser, Cochlear Implants, medicine.anatomical_structure, Acoustic Stimulation, Female, Surgery, sense organs, Biomedical engineering

Abstract

Pulsed near-infrared radiation has been proposed as an alternative stimulus for auditory nerve stimulation and could be potentially used in the design of cochlear implant. Although the infrared with high absorption coefficient of water (i.e., wavelength ranged from 1.8 to 2.2 μm) has been widely investigated, the lymph in the cochlea absorbs most of the infrared energies, and only a small part can arrive at the target auditory nerves. The present study is aimed to test whether the short-wavelength near-infrared irradiation with lower absorption coefficients can penetrate the lymph fluid to stimulate the auditory nerves. An 808-nm near-infrared laser was chosen to stimulate the auditory nerve in the guinea pig cochlea. The infrared pulse was delivered by an optical fiber that was surgically inserted near the round window membrane and oriented toward the spiral ganglion cells in the basal turn of the cochlea. The 2-Hz infrared pulses were used to stimulate the cochlea before and after the deafness with different pulse durations (100-1,000 μs). Optically evoked compound action potentials (oCAPs) were recorded during the infrared radiation. We successfully recorded oCAPs from both normal hearing animals and deafened animals. The oCAP amplitude increased with the infrared radiation energy. The preliminary experiment suggests that the near-infrared with lower absorption coefficients can effectively pass through the lymph filled in the cochlea and stimulate the auditory nerve. Further studies will optimize the deafness animal model and determine the optimal stimulation parameters.

Published

2013

2. Irradiation of 850-nm laser light changes the neural activities in rat primary visual cortex

Author

Xiao Y. Wu, Xiao L. Zheng, Jun P. Yao, Wen S. Hou, Guan B. Shang, Zheng Q. Yin, and Zong X. Mou

Subjects

Materials science, genetic structures, Photic Stimulation, Infrared Rays, Stimulation, Dermatology, Stimulus (physiology), law.invention, Optics, law, medicine, Animals, Rats, Long-Evans, Irradiation, Visual Cortex, Laser diode, business.industry, Far-infrared laser, Laser, Rats, Visual cortex, medicine.anatomical_structure, Evoked Potentials, Visual, Surgery, Lasers, Semiconductor, business, Biomedical engineering

Abstract

Although infrared laser was proven to be an alternative approach for neural stimulation, there is very little known about the neural response to infrared laser irradiation in visual cortex. This study is to investigate the effect of near-infrared laser irradiation on neural activities at the cortex level. A 850-nm pigtailed diode laser was applied to stimulate the rat primary visual cortex while the horizontal black and white stripe pattern was used as standard visual stimulation to evoke visual-evoked potential (VEP). Both amplitude and latency of VEP P100 was measured with or without infrared pulse stimulation applied in rat primary visual cortex. Paired t test and one-way analysis of variance were used to evaluate the impact of infrared irradiation and its pulse width on the amplitudes and latencies of P100, respectively. The results from our preliminary study revealed that, the pulsed near-infrared laser depressed the VEP amplitude and shortened the latency of P100; with the increment of pulse width of infrared irradiation, further decline of VEP amplitude and much shortened latency of P100 were observed. The present work suggests that near-infrared laser irradiation can alter the neural activities in primary visual cortex transiently, and could provide a novel contactless artificial neural stimulus to brain cortex with high spatial selectivity.

Published

2012