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Predicting population level hip fracture risk: a novel hierarchical model incorporating probabilistic approaches and factor of risk principles.

Daniel R MartelMartin LysyAndrew C Laing
Published in: Computer methods in biomechanics and biomedical engineering (2020)
Fall-related hip fractures are a major public health issue. While individual-level risk assessment tools exist, population-level predictive models could catalyze innovation in large-scale interventions. This study presents a hierarchical probabilistic model that predicts population-level hip fracture risk based on Factor of Risk (FOR) principles. Model validation demonstrated that FOR output aligned with a published dataset categorized by sex and hip fracture status. The model predicted normalized FOR for 100000 individuals simulating the Canadian older-adult population. Predicted hip fracture risk was higher for females (by an average of 38%), and increased with age (by15% per decade). Potential applications are discussed.
Keyphrases
  • hip fracture
  • public health
  • risk assessment
  • randomized controlled trial
  • climate change