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Now more than ever, our guiding principles are helping us in our search for exceptional talent - candidates who align with our unique workplace culture and who want to maximize the abundant opportunities for growth and success.
 
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HSS is consistently among the top-ranked hospitals for orthopedics and rheumatology by U.S. News & World Report. As a recipient of the Magnet Award for Nursing Excellence, HSS was the first hospital in New York City to receive the distinguished designation. Whether you are early in your career or an expert in your field, you will find HSS an innovative, supportive and inclusive environment.

Working with colleagues who love what they do and are deeply committed to our Mission, you too can be part of our transformation across the enterprise.

Emp Status

Regular Full time

Work Shift

Day (United States of America)

Compensation Range

The base pay scale for this position is $48,500.00 - $74,375.00. In addition, this position will be eligible for additional benefits consistent with the role. The salary of the finalist selected for this role will be determined based on various factors, including but not limited to: scope of role, level of experience, education, accomplishments, internal equity, budget, and subject to Fair Market Value evaluation. The hiring range listed is a good faith determination of potential compensation at the time of this job advertisement and may be modified in the future.

What you will be doing

JOB DESCRIPTION: Post-Baccalaureate Trainee (Carl Imhauser/Biomechanics Department)
 

DEPARTMENT/SERVICE: Biomechanics/Arthroplasty/Sports

START DATE: May 1, 2026

JOB SUMMARY:

The Post Baccalaureate Researcher Program at HSS (www.hss.edu/post-baccalaureate-training-program.asp) offers training in clinical and translational science. The program provides opportunities to engage in translational research experiences highly relevant for individuals interested in furthering their career through medical school, graduate school, or other clinical or research training. The Post-Bacc trainee will gain aptitude in techniques of patient-centered clinical research, physiology, biomechanical testing, physics-based computer simulation, and data analysis and interpretation. The trainee will build skills in scientific communication in oral and written form by presenting to his peers and mentors at monthly research meetings; by formulating abstracts for presentation at major clinical and scientific conferences; and by preparing publications for submission to well-ranked orthopaedic specialty journals. Clinical shadowing experiences, attending Grand Rounds of clinical services, and participating in laboratory meetings of the Biomechanics Department will enrich the clinical and translational experience in preparation for graduate or medical school. A minimum 12-month commitment is preferred. The trainee will contribute immediately to ongoing clinical research as part of an interdisciplinary clinical and translational research team consisting of arthroplasty surgeons, mechanical engineers, statisticians, and epidemiologists.

The Post-Baccalaureate Fellow will join an interdisciplinary research team comprising members from the Department of Biomechanics, The Arthroplasty Service, and The Sports Medicine Institute. The trainee will contribute to two ongoing translational research projects. The first focuses on patellofemoral mechanics after total knee arthroplasty (TKA). The long-term goal of this work is to alleviate persistent anterior knee pain after TKA, which is believed to arise in part from abnormal mechanics of the reconstructed extensor mechanism. The project integrates experimental biomechanics and computational modeling to develop a platform for predicting patient-specific patellofemoral mechanics. The trainee will assist with a cadaveric biomechanics study examining the mechanical effects of patellofemoral joint thickness (“over- and under-stuffing”) on patellofemoral and tibiofemoral kinematics; extensor mechanism force requirements patellofemoral load measurement; and retinacular soft-tissue strain. The project integrates experimental biomechanics and computational modeling to develop a platform for predicting patient-specific patellofemoral mechanics. The trainee will work closely with a postdoctoral fellow who leads the computational modeling component, contributing experimental data that will be used to validate subject-specific knee models.

The trainee will also contribute to a second ongoing clinical and translational research project entitled: “Predicting graft failure in ACL reconstruction: a quantitative imaging, knee stability, and patient-specific knee modeling approach.” A second ACL injury is a devastating outcome following reconstruction. The long-term goal of this research program is to reduce ACL reinjury through evidence-based improvements in surgical decision-making and rehabilitation strategies. This project integrates: quantitative MRI imaging of ACL graft structure; computational modeling of knee function; knee stability measurements; biomechanical analysis of knee anatomy and mechanics; patient-reported outcomes. The trainee will participate in data collection, analysis, and research coordination within a highly productive clinical and translational research team.

Overall, the trainee will gain hands-on experience in mechanical testing, biomechanics experimentation via cadaveric and computational modeling, clinical research methods, quantitative data analysis, and scientific communication, while working closely with surgeons, engineers, radiologists, statisticians, and rehabilitation specialists.

The trainee will work as part of a highly productive team of translational scientists and clinicians employing novel approaches pioneered at HSS. Additional opportunities to contribute to on-going projects are possible as well. The Post-Bacc trainee will be embedded within the Arthroplasty Service, The Sports Medicine Institute, and the Department of Biomechanics and will be closely connected with the clinical practices of participating surgeons offering a unique opportunity for clinical and scientific mentorship.

MINIMUM REQUIREMENTS

• Education:

• Bachelor’s degree in:
  • Mechanical Engineering
  • Biomedical Engineering
  • Bioengineering
  • Physics or related field
• Strong quantitative and analytical skills
• Interest in orthopaedic biomechanics or musculoskeletal medicine
• Ability to work effectively in a multidisciplinary research team

Preferred

• Experience with MATLAB, Python, or similar programming tools
• Coursework in biomechanics, mechanics, or physiology
• Interest in pursuing medical school or graduate school
• Previous laboratory research experience

ADDITIONAL SKILLS AND ATTRIBUTES

• Prior exposure to cadaveric biomechanical testing
• Prior clinical research experience
• Exceptional organizational skills and adherence to study protocols
• Self-motivated and able to work both independently and as part of a team
• Strong written and verbal communication ability
• Proficient use of computers and software including Microsoft Excel, Word, PowerPoint
• Familiarity with statistical analysis and testing and scientific data processing tools

CONTACT PERSON:

Carl Imhauser, PhD

Associate Scientist, Research Division, Hospital for Special Surgery

Associate Professor of Applied Biomechanics in Orthopaedic Surgery

Department of Orthopaedics, Weill Cornell Medicine

[email protected]

Non-Discrimination Policy
Hospital for Special Surgery is committed to providing high quality care and skilled, compassionate, reliable service to our community in a safe and healing environment. Consistent with this commitment, Hospital for Special Surgery provides care, admits, and treats patients and provides all services without regard to age, race, color, creed, ethnicity, religion, national origin, culture, language, physical or mental disability, socioeconomic status, veteran or military status, marital status, sex, sexual orientation, gender identity or expression, or any other basis prohibited by federal, state, or local law or by accreditation standards.