Rib sample sizes by age and body size from adult PMHS
Download scientific diagram | Rib sample sizes by age and body size from adult PMHS from publication: A Novel Approach to Scaling Age-, Sex-, and Body Size-Dependent Thoracic Responses using Structural Properties of Human Ribs | Thoracic injuries are frequently observed in motor vehicle crashes, and rib fractures are the most common of those injuries. Thoracic response targets have previously been developed from data obtained from post-mortem human subject (PMHS) tests in frontal loading conditions, | Ribs, Thoracic and Rib Fractures | ResearchGate, the professional network for scientists.
PDF) Age-related changes in stiffness in human ribs
Amanda AGNEW, Professor (Full), PhD, The Ohio State University, OH, OSU, Injury Biomechanics Research Center
Full article: Comparison of small female PMHS thoracic responses to scaled response corridors in a frontal hub impact
PDF) A Novel Approach to Scaling Age-, Sex-, and Body Size-Dependent Thoracic Responses using Structural Properties of Human Ribs
Rib sample sizes by age and body size from adult PMHS
Frontiers Influences of human thorax variability on population rib fracture risk prediction using human body models
Effects of sex, age, and two loading rates on the tensile material properties of human rib cortical bone - ScienceDirect
Differential Cortical Volumetric Bone Mineral Density within the Human Rib - ScienceDirect
Federal Register :: Anthropomorphic Test Devices; Q3s 3-Year-Old Child Side Impact Test Dummy, Incorporation by Reference
a) A broken rib under the scapula was exposed by two retractors and
Generic finite element models of human ribs, developed and validated for stiffness and strain prediction – To be used in rib fracture risk evaluation for the human population in vehicle crashes - ScienceDirect
Frontiers Rib Cortical Bone Fracture Risk as a Function of Age and Rib Strain: Updated Injury Prediction Using Finite Element Human Body Models
Development and preliminary validation of computationally efficient and detailed 50th percentile female human body models - ScienceDirect