Daniel G Whitney1,2. 1. Department of Physical Medicine and Rehabilitation, University of Michigan, Ann Arbor, MI, USA. dgwhit@umich.edu. 2. Institute for Healthcare Policy and Innovation, University of Michigan, Ann Arbor, MI, USA. dgwhit@umich.edu.
Abstract
BACKGROUND: Epidemiologic evidence documenting fracture risk as children with cerebral palsy (CP) age throughout growth is lacking to inform on when to implement fracture prevention strategies. The objective was to characterize the 5-year risk of fractures by each year of age among <1-13 year olds with CP and effects by patient-level factors. METHODS: This retrospective cohort study used commercial administrative claims from 01/01/2001 to 12/31/2018 from children <1-13 years old with ≥5 years of insurance enrollment. Fractures were examined during the 5-year follow-up. For the CP cohort, the association between 5-year fracture rate and patient-level factors was assessed using Cox regression. RESULTS: Children with (n = 5559) vs. without (n = 2.3 million) CP had a higher 5-year fracture risk at the vertebral column, hip, and lower extremities at almost each year of age, but lower 5-year fracture risk at the upper extremities after 6 years old (all P < 0.05). Among children with CP, the 5-year fracture rate was elevated for co-occurring neurological conditions and non-ambulatory status at the vertebral column, hip, and lower extremities (hazard ratio [HR] range, 1.44-2.39), and higher for males at the upper extremities (HR = 1.29) (all P < 0.05). CONCLUSIONS: This study provides novel epidemiologic evidence of 5-year fracture risk for each year of age for children with CP. IMPACT: This study provides novel epidemiologic evidence of 5-year fracture risk for each year of age across important developmental stages for children with vs. without cerebral palsy (CP). Children with vs. without CP were more likely to fracture at the vertebral column, hip, lower extremities, and humerus and less likely to fracture at the forearm and hands. The age-related 5-year fracture risk was associated with clinically relevant patient-level factors, but in different ways by fracture region. Study findings may be used to enhance clinical detection of at-risk children and strategize when to implement fracture prevention efforts for children with CP.
BACKGROUND: Epidemiologic evidence documenting fracture risk as children with cerebral palsy (CP) age throughout growth is lacking to inform on when to implement fracture prevention strategies. The objective was to characterize the 5-year risk of fractures by each year of age among <1-13 year olds with CP and effects by patient-level factors. METHODS: This retrospective cohort study used commercial administrative claims from 01/01/2001 to 12/31/2018 from children <1-13 years old with ≥5 years of insurance enrollment. Fractures were examined during the 5-year follow-up. For the CP cohort, the association between 5-year fracture rate and patient-level factors was assessed using Cox regression. RESULTS: Children with (n = 5559) vs. without (n = 2.3 million) CP had a higher 5-year fracture risk at the vertebral column, hip, and lower extremities at almost each year of age, but lower 5-year fracture risk at the upper extremities after 6 years old (all P < 0.05). Among children with CP, the 5-year fracture rate was elevated for co-occurring neurological conditions and non-ambulatory status at the vertebral column, hip, and lower extremities (hazard ratio [HR] range, 1.44-2.39), and higher for males at the upper extremities (HR = 1.29) (all P < 0.05). CONCLUSIONS: This study provides novel epidemiologic evidence of 5-year fracture risk for each year of age for children with CP. IMPACT: This study provides novel epidemiologic evidence of 5-year fracture risk for each year of age across important developmental stages for children with vs. without cerebral palsy (CP). Children with vs. without CP were more likely to fracture at the vertebral column, hip, lower extremities, and humerus and less likely to fracture at the forearm and hands. The age-related 5-year fracture risk was associated with clinically relevant patient-level factors, but in different ways by fracture region. Study findings may be used to enhance clinical detection of at-risk children and strategize when to implement fracture prevention efforts for children with CP.
Authors: Daniel G Whitney; Harshvardhan Singh; Freeman Miller; Mary F Barbe; Jill M Slade; Ryan T Pohlig; Christopher M Modlesky Journal: Bone Date: 2016-10-11 Impact factor: 4.398
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Authors: Richard C Henderson; John A Kairalla; John W Barrington; Almas Abbas; Richard D Stevenson Journal: J Pediatr Date: 2005-06 Impact factor: 4.406
Authors: Jonathan P Etter; Sanjana Kannikeswaran; Edward A Hurvitz; Mark D Peterson; Michelle S Caird; Karl J Jepsen; Daniel G Whitney Journal: Bone Rep Date: 2020-10-27