Study of the mechanical properties of the musculoskeletal system, how it moves, and how it interacts with external forces.
Anatomy: Study of the structure and function of different parts of the body.
Physiology: Study of how the body functions and how it responds to different stimuli.
Kinesiology: The study of human movement, including the mechanics of motion, muscle action, and energy expenditure.
Cartilage Repair: The study of cartilage regeneration and repair methods in orthopedics.
Arthroscopy: The use of an arthroscope to diagnose and treat joint problems.
Sports Biomechanics: The study of the mechanics of human movement in sports.
Orthopedic Surgery: The surgical treatment of musculoskeletal disorders.
Tissue biomechanics: The study of mechanical properties of biological tissues.
Joint Replacement: The surgical replacement of damaged joints with artificial ones.
Gait Analysis: The study of the mechanics of walking or running using various tools like pressure sensors, cameras, and technology.
Rehabilitation: The process of helping patients regain strength and mobility after an injury or surgery.
Physical Therapy: The study of methods and techniques used to promote healing and recovery.
Biomechanical Modeling: The use of computer models to simulate and analyze the mechanics of human movement.
Sports Injuries: The study of common injuries in sports and how to prevent and treat them.
Spine Biomechanics: The study of the mechanics of the spine, including spinal motion, joint mechanics, and stability.
Advanced imaging techniques: MRI, CT Scan, and X-Ray for diagnosing injuries and disease of the musculoskeletal system.
Biomechanical Rehabilitation: The study of biomechanical principles used in rehabilitation protocols.
Musculoskeletal mechanics: The study of the mechanical properties of muscles, bones, ligaments, and tendons.
Elastography: The use of mechanical waves to measure the mechanical properties of tissues.
Mechanics of Fracture Healing: The study of the process of bone healing after a fracture.
Mechanobiology: The study of the interaction between mechanical forces and biological systems.
Biologic vs. Mechanical Joint Replacement: Different joint replacement types and the decision process regarding which type to use.
Accelearated Rehabilittion surgery Protocols: The study of rehabilitation protocols designed to accelerate recovery time after orthopedic surgery.
The Principles of Joint Pathology: The study of joint disorders like Osteoarthritis, Rheumatoid Arthritis, Gout, etc.
Static biomechanics: It is the study of the mechanical properties of a system that is not in motion.
Dynamics biomechanics: This type is concerned with the study of forces and motion in living systems.
Kinematics biomechanics: It describes the motion of objects and its relation to time, position, velocity, and acceleration.
Kinetics biomechanics: This type is concerned with the forces acting on a system that leads to motion or resistance to motion.
Sports biomechanics: It involves the application and analysis of mechanical principles to sports and exercise techniques.
Clinical biomechanics: It focuses on the analysis of the musculoskeletal system in the context of an individual's movement and posture, typically for diagnosis or rehabilitation.
Orthopedic biomechanics: It is the study of how the mechanical properties of bone, cartilage, and other connective tissues contribute to the normal function and pathology of the musculoskeletal system.
Occupational biomechanics: It is the examination of the biomechanical demands of work and job-related tasks to address ergonomic problems and prevent musculoskeletal disorders.
Rehabilitation biomechanics: This type focuses on the application of biomechanical principles to aid the recovery of injuries and improve patient outcomes.
Cellular biomechanics: It involves the study of mechanical principles at the cellular level, such as how cells respond to mechanical forces or how forces contribute to cell function.