1. FRAX-based fracture probabilities in South Africa
- Author
-
S.L. Brown, Ozayr Mohamed, Nicholas C. Harvey, Eugene V. McCloskey, Johannes D. Jordaan, John A. Kanis, Bilkish Cassim, Mkhululi Lukhele, Pariva Chutterpaul, Farhanah Paruk, Magda Conradie, Mattias Lorentzon, Helena Johansson, Sapna S. Dela, Enwu Liu, Asgar Ali Kalla, and Liesbeth Vandenput
- Subjects
Male ,FRAX ,Epidemiology ,Osteoporosis ,Standard score ,Risk Assessment ,Hip fracture ,South Africa ,Bone Density ,Risk Factors ,Medicine ,Humans ,Orthopedics and Sports Medicine ,Risk factor ,Femoral neck ,Aged, 80 and over ,business.industry ,Femur Neck ,Hip Fractures ,Mortality rate ,Incidence (epidemiology) ,Middle Aged ,medicine.disease ,Fracture probability ,medicine.anatomical_structure ,Original Article ,Female ,business ,Osteoporotic Fractures ,Demography - Abstract
Summary The hip fracture rates in South Africa were used to create ethnic-specific FRAX® models to facilitate fracture risk assessment. Introduction The aim of this study was to develop FRAX models to compute the 10-year probability of hip fracture and major osteoporotic fracture and assess their potential clinical application. Methods Age- and sex-specific incidence of hip fracture and national mortality rates were incorporated into a FRAX model for the White, Black African, Coloured and Indian population of South Africa. Age-specific 10-year probabilities of a major osteoporotic fracture were calculated in women to determine fracture probabilities at a femoral neck T score of -2.5 SD, or those equivalent to a woman with a prior fragility fracture. Fracture probabilities were compared with those from selected countries. Results Probabilities were consistently higher in Indian than in Coloured men and women, in turn, higher than in Black South Africans. For White South Africans, probabilities were lower than in Indians at young ages up to the age of about 80 years. When a BMD T score of −2.5 SD was used as an intervention threshold, FRAX probabilities in women age 50 years were approximately 2-fold higher than in women of the same age but with an average BMD and no risk factors. The increment in risk associated with the BMD threshold decreased progressively with age such that, at the age of 80 years or more, a T score of −2.5 SD was no longer a risk factor. Probabilities equivalent to women with a previous fracture rose with age and identified women at increased risk at all ages. Conclusions These FRAX models should enhance accuracy of determining fracture probability amongst the South African population and help guide decisions about treatment.
- Published
- 2021