An embodiment of the invention is a soft tissue impact assessment device. The device includes a skin that is shaped or moldable to a human-like form. A positional force or pressure sensor within the skin measures force or pressure and location of impact or contact with the skin and provides data regarding the force or pressure and location of impact or contact with the skin. In preferred embodiments, the skin includes a top layer made of a material and thickness that simulates the protection provided by particular human skin to underlying tissue. A pressure or force sensor sheet closely contacts the top layer in a manner that avoids any substantial movement between the top layer and the pressure or force sensor sheet during a range of anticipated force or pressure conditions to be experienced by the human surrogate during testing. A lining layer is suitable to be in close contact with a surface of a human like form. A preferred method for assessing potential for soft tissue injuries is implemented in software and includes accepting victim or human subject soft tissue injury data being assessed and comparing it to a database including objective data to determine compatibility between the stated cause of event and resulting soft tissue injuries. The database in preferred embodiments includes information organized by category of potentially injurious events, human age, and objective data relating magnitude of force or pressure, and location of impact(s) or contact(s) relative to various body regions.
