A belated to welcome to our two new postdoctoral fellows!
Rachelle Palchesko recently received her PhD in Chemistry from Duquesne University. She is working on regeneration of the corneal endothelium and is a OTERO (Ocular Tissue Engineering and Regenerative Ophthalmology) Fellow funded by the Fox Center for Vision Resotration.
Ling Zhang has a background in biomaterials and neural tissue engineering. She is working on engineered neural networks and investigating axonal cytoskeletal failure following traumatic injury.
Congratulations to Gabe Diamond for being awarded a CMU Summer Undergraduate Research Fellowship (SURF) to study the mechanical properties of laminin nanofibers in the lab this summer.
A skeletal muscle myotube derived from the C2C12 cell line. Credit to Yan Sun and Ashley Lee.
Dr. Feinberg is a co-author on the recently published article entitled “Hierarchical architecture influences calcium dynamics in engineered cardiac muscle” in the Experimental Biology and Medicine.
Pong, T., W. J. Adams, et al. (2011). “Hierarchical architecture influences calcium dynamics in engineered cardiac muscle.” Proceedings Of The Society For Experimental Biology And Medicine: ebm.2010.010239.
The Carnegie Mellon Research Experience for Undergraduates (REU) program in Materials Research is accepting applications until February 22, 2011. Undergraduates must be from a university other than CMU. Opportunities exist to do cutting edge research in the Regenerative Biomaterials & Therapeutics Group as well as many other excellent laboratories at CMU. Please apply directly to the REU program here, http://reu.materials.cmu.edu/.
The Regenerative Biomaterials and Therapeutics Group welcomes Dr. Yan Sun to the lab. Dr. Sun is an Associate Professor in the School of Biological Science and Medical Engineering, Beijing University of Aeronautics and Astronautics (BUAA) and will be a Visiting Scientist in the group for the next year.
The Regenerative Biomaterials and Therapeutics Group welcomes graduate student Quentin Jallerat and undergraduates Gabriel Diamond, Anshul Dhankher and Tomas Dardet to the lab.
Immediate opening for a Postdoctoral Fellow in the area of Neural Tissue Engineering and Traumatic Brain Injury
A postdoctoral position is available in tissue engineered neural networks for the study of traumatic brain injury. Research efforts will be focused on the development of patterned 3-D neural networks embedded in hydrogels and integration into a 6-axis nanodeformation system for delivering simulated blast injury. Based in the Departments of Biomedical Engineering and Materials Science and Engineering at Carnegie Mellon University, the postdoctoral fellow will have access to world-class research facilities and dedicated resources. Professional training opportunities include career mentoring, interaction with the Pittsburgh Tissue Engineering Initiative and the McGowan Institute for Regenerative Medicine, and dedicated funds for travel to scientific conferences. The appointment will be for 1 year with additional years available based on performance and funding. Salary and benefits are nationally competitive, with consideration given for the experience-level of the candidate. The position is available immediately and applications will be reviewed as received, so interested candidates are encouraged to apply as soon as possible.
Applicants should have an MD or a PhD (or equivalent) in biomedical, mechanical, chemical, or materials engineering or related fields and a strong interest in multidisciplinary biomedical research. Existing expertise in cell culture, optical microscopy, microfabrication, soft-lithography, molecular biology, and/or neuroscience are highly desirable. Additional requirements include a strong experimental background, academic history, and publication record, as well as excellent verbal and written communication skills. Interested candidates should email (firstname.lastname@example.org) their CV, a description of research interests, up to three first author publications, and the names and contact information of 3 references as a single PDF file.