University of Connecticut BME Dr. Feng 现招两名博士后,专业不限,实验室主要研究如何减缓痛觉以及痛觉相关的机理研究,通过传统电生理记录以及GCaMP成像方式记录神经动作电位,观察电刺激或者超声刺激对神经的影响。机理研究会用到分子生物相关方法,single-cell PCR, immunochemistry, tissue clearing等(详细招生信息如下)。如果你对痛觉研究感兴趣,请发送邮件至: fengb@uconn.edu
Two post-doctoral positions available to study chronic pain and management
Two NIH-funded postdoctoral research associate positions are available at the Neuroengineering & Pain Research (NPR) lab in the University of Connecticut (UConn). A particular interest of the lab is to study sensory afferent neurophysiology and biomechanics of the visceral organs to reveal their contributing roles in mechanical visceral nociception; mechanical stimuli is the major modality to evoke pain from the visceral organs. Another research focus is to advance the science of neuromodulation as a non-drug alternative for managing chronic pain. The lab implements an integrative approach to study the neural encoding of sensory afferent endings, macro- and microscale biomechanics of distal colon and rectum, transcriptome assay of sensory afferent somata coupled with functional characterization, and multi-scale computational simulation of colorectal mechanical neural encoding. NPR lab benefits from being located in UConn School of Engineering to implement cutting-edge technologies in pain research, including customized fast GCaMP imaging system and data processing, microfabrication of electrode arrays for afferent recordings, nonlinear imaging with second harmonic generation, and machine learning-based signal processing. NPR lab also collaborates extensively with the Physiology & Neurobiology Department at UConn to implement state-of-the-art neuroscience research techniques, including mouse behavior assay of visceral pain, single-fiber extracellular recordings, sharp-electrode intracellular recordings, patch-clamp electrophysiology, cell culture, optogenetics, single-cell transcriptome assay, optical tissue clearing and immunohistochemistry.
Candidates should have a PhD in neuroscience, biomedical engineering, neurophysiology or a related discipline at the time of appointment. Exceptional candidates from other disciplines will be considered. Candidates are expected to have a fundamental understanding of the sensory nervous system. Highly preferred skill-sets include electrophysiological recordings from mammalian nervous systems, biomechanics, and/or single-cell molecular biology.
The responsibilities of the post-doctoral research associate will include: project development, data acquisition, analysis and evaluation, manuscript preparation, and presentation of findings at lab meetings and scientific conferences. The post-doctoral associate will also gain experience with grant writing and with mentoring more junior lab members. Appointment is for 1-3 years, with each year contingent upon satisfactory progress. Salary is commensurate with the NIH postdoctoral fellow pay scale. To apply, please send a cover letter briefly describing your research experience, a detailed CV, and the names and contact information for 3 references to Dr. Bin Feng at fengb@uconn.edu. Review of applications will begin immediately and will continue until both positions are filled.
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Bin Feng, PhD
Assistant Professor
Department of Biomedical Engineering
University of Connecticut, Storrs, CT, USA
Email: fengb@uconn.edu
The Biomedical Engineering Department (BME) at UCONN is top tiered and ranked 23rd among 171 similar programs in the USA by “Best Engineering Colleges” in 2015. Many of our current 43 core faculties are internationally renowned for their academic contributions. The BME Department also provides highly collaborative environment for faculties to work closely with other engineering and life science departments on the Storrs campus. As a part of Bioscience Connecticut, UCONN has partnered with the Jackson Laboratory for Genomic Medicine which will foster closer research collaborations with BME faculty at Storrs and the UCONN Health at Farmington campus. In addition, the BME benefits the most among all engineering departments from the Next Generation Connecticut and Bioscience Connecticut initiatives and currently inhabits 12,000 sq. ft. of research space in the Engineering & Science Building (ESB) on the Storrs campus newly completed in July 2017, including the Neuroengineering & Pain Research Lab.