Biomed Consulting
Biomedical engineering consulting firm focused on engineering solutions for musculoskeletal and foot/ankle clinical problems. Combines computational modeling, device design, movement analysis and data-driven methods (statistical modeling, machine learning) to develop diagnostic instruments, prototypes, and predictive models for clinical and research use. Team includes biomedical engineers, software developers and clinicians with academic and translational research experience.
Industries
Nr. of Employees
small (1-50)
Biomed Consulting
415 Main Street, 7D New York, NY 10044
Products
Clinical instrument for first-ray mobility and position measurement
Electromechanical clinical instrument that measures first-ray mobility and position bilaterally, providing wireless data capture and secure records in under one minute to support clinical decisions.
Arch Height Index measurement device
Mechanical device to measure arch height index and arch height flexibility bilaterally for adults and children, enabling reliable foot-structure assessment without ionizing radiation.
First metatarsophalangeal joint flexibility measurement device
Electromechanical jig for bilateral measurement of first metatarsophalangeal joint flexibility in adults to assess joint mechanics related to osteoarthritis and other pathologies.
Prototype intermittent pneumatic graduated compression boot
Prototype compression boot with microcomputer-based controller and mobile app to regulate airflow cycles and pressures across foot regions; includes Doppler-based verification of augmented venous flow.
Clinical instrument for first-ray mobility and position measurement
Electromechanical clinical instrument that measures first-ray mobility and position bilaterally, providing wireless data capture and secure records in under one minute to support clinical decisions.
Arch Height Index measurement device
Mechanical device to measure arch height index and arch height flexibility bilaterally for adults and children, enabling reliable foot-structure assessment without ionizing radiation.
First metatarsophalangeal joint flexibility measurement device
Electromechanical jig for bilateral measurement of first metatarsophalangeal joint flexibility in adults to assess joint mechanics related to osteoarthritis and other pathologies.
Prototype intermittent pneumatic graduated compression boot
Prototype compression boot with microcomputer-based controller and mobile app to regulate airflow cycles and pressures across foot regions; includes Doppler-based verification of augmented venous flow.
Services
Engineering-based solutions for patient evaluation and treatment using predictive modeling, movement analysis, device design, and instrumentation.
Development and application of validated data-driven algorithms to detect disease and inform clinical decisions.
Patient-specific finite element model development to evaluate tissue and implant stresses for device design and surgical planning.
Statistical analysis of healthcare and biomechanical data to detect patterns and relationships that inform treatments.
AI/ML solutions for mining large medical datasets to improve diagnosis accuracy and personalize treatment plans.
Kinetic and kinematic evaluation using cameras, force plates, plantar pressure and EMG to study pathology and treatment effects.
Engineering-based solutions for patient evaluation and treatment using predictive modeling, movement analysis, device design, and instrumentation.
Development and application of validated data-driven algorithms to detect disease and inform clinical decisions.
Patient-specific finite element model development to evaluate tissue and implant stresses for device design and surgical planning.
Statistical analysis of healthcare and biomechanical data to detect patterns and relationships that inform treatments.
AI/ML solutions for mining large medical datasets to improve diagnosis accuracy and personalize treatment plans.
Kinetic and kinematic evaluation using cameras, force plates, plantar pressure and EMG to study pathology and treatment effects.
Expertise Areas
- Finite element analysis for biomechanics
- Predictive analytics and machine learning for healthcare
- Medical device design and prototyping
- Movement and gait analysis
Key Technologies
- Finite element analysis (FEA)
- Machine learning / artificial intelligence
- Statistical modeling (including GEE)
- 3D imaging (MRI/CT) for subject-specific modeling
News & Updates
Presentation on plantar loading in individuals with first ray hypermobility and participation in international panel on lower limb biomechanics.
Presentation covering financial planning strategies for the audience.
Awarded NIH-NIAMS SBIR Phase I (1R43AR080486-01A1) to develop a standardized clinical instrument to measure first ray mobility and position and an administrative supplement for commercialization planning via an I-Corps program.
Presentation on plantar loading in individuals with first ray hypermobility and participation in international panel on lower limb biomechanics.
Presentation covering financial planning strategies for the audience.
Awarded NIH-NIAMS SBIR Phase I (1R43AR080486-01A1) to develop a standardized clinical instrument to measure first ray mobility and position and an administrative supplement for commercialization planning via an I-Corps program.