Mild prevalent and incident vertebral fractures are risk factors for new fractures

SummaryThis prospective four-year study indicates that post-menopausal osteoporotic women with mild prevalent and incident vertebral fractures have an increased risk of incident fractures.IntroductionMild vertebral fractures are under diagnosed as there is disagreement about their clinical significance. Our aim was to assess the risk of subsequent fractures induced by both prevalent and incident mild vertebral fractures in osteoporotic post-menopausal women.Patients and methodsThree thousand three hundred and fifty-eight patients, aged 74 ± 6 years, with post-menopausal osteoporosis included in the placebo groups of two clinical trials of strontium ranelate were followed for 4 years. A Cox regression model adjusted on age, body mass index and bone mineral density was used to calculate the relative risk (RR) of fracture in subjects with only mild fractures as compared to patients without fracture, and to patients with at least one grade ≥ 2 fracture. These calculations were made for prevalent and then incident fractures.ResultsThe RR of vertebral fracture in 4 years was 1.8 (1.3–2.4) p < 0.001, and 2.7 (2.3–3.3) p < 0.001 for patients having only mild vertebral fractures and at least one grade ≥ 2 fracture at baseline respectively. The RR of vertebral fracture in the 3rd and 4th years of follow-up was 1.7 (1.1–2.6) p = 0.01, and 1.9 (1.3–2.6) p < 0.001 for patients having during the first 2 years incident mild fractures only, and for patients having at least one grade ≥ 2 incident fracture respectively. The RR of non-vertebral fracture in 4 years was 1.3 (0.9–1.9) p = 0.15 and 1.7 (1.4–2.1) p < 0.001 for patients having only mild or at least one grade ≥ 2 vertebral fracture at baseline respectively. For patients aged more than 70 years, these RR were 1.45 (0.99–2.11) (p = 0.06), and 1.72 (1.36–2.18) p < 0.001 respectively. The RR of non-vertebral fracture in the 3rd and 4th years was 1.68 (1.36–2.09) p < 0.001 for patients having at least one grade ≥ 2 incident fracture during the 2 first years of follow-up.ConclusionMild vertebral fractures are a risk factor for subsequent vertebral and non-vertebral fracture in postmenopausal women with osteoporosis; 1 out of 4 patients with an incident mild vertebral fracture in 2 years will fracture again within the 2 next years.

[1]  Mark Lunt,et al.  Characteristics of a prevalent vertebral deformity predict subsequent vertebral fracture: results from the European Prospective Osteoporosis Study (EPOS). , 2003, Bone.

[2]  S. Silverman,et al.  Association of severe vertebral fractures with reduced quality of life: reduction in the incidence of severe vertebral fractures by teriparatide. , 2004, Arthritis and rheumatism.

[3]  H. Genant,et al.  Prognostic utility of a semiquantitative spinal deformity index. , 2005, Bone.

[4]  S. Gehlbach,et al.  Recognition of Vertebral Fracture in a Clinical Setting , 2000, Osteoporosis International.

[5]  L. Melton,et al.  Influence of baseline deformity definition on subsequent vertebral fracture risk in postmenopausal women , 2006, Osteoporosis International.

[6]  C. Roux,et al.  Reporting of vertebral fractures on spine X-rays , 2005, Osteoporosis International.

[7]  P Geusens,et al.  Risk of new vertebral fracture in the year following a fracture. , 2001, JAMA.

[8]  C. Roux,et al.  The severity of vertebral fractures and health-related quality of life in osteoporotic postmenopausal women , 2005, Osteoporosis International.

[9]  T. Spector,et al.  Perinatal outcome of singletons and twins after assisted conception: a systematic review of controlled studies , 2004, The New England journal of medicine.

[10]  H. Genant,et al.  Severity of prevalent vertebral fractures and the risk of subsequent vertebral and nonvertebral fractures: results from the MORE trial. , 2003, Bone.

[11]  J. Reeve Determinants of the Size of Incident Vertebral Deformities in European Men and Women in the Sixth to Ninth Decades of Age: The European Prospective Osteoporosis Study (EPOS) , 2003, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[12]  J. Reeve,et al.  The European prospective osteoporosis study , 2005, Osteoporosis International.

[13]  P. Ross,et al.  Vertebral fracture and other predictors of physical impairment and health care utilization. , 1996, Archives of internal medicine.

[14]  P. Geusens,et al.  Aging of the thoracic spine: distinction between wedging in osteoarthritis and fracture in osteoporosis--a cross-sectional and longitudinal study. , 1994, Bone.

[15]  J. Reginster,et al.  Strontium ranelate reduces the risk of nonvertebral fractures in postmenopausal women with osteoporosis: Treatment of Peripheral Osteoporosis (TROPOS) study. , 2005, The Journal of clinical endocrinology and metabolism.

[16]  R. Lindsay,et al.  Longitudinal progression of fracture prevalence through a population of postmenopausal women with osteoporosis , 2005, Osteoporosis International.

[17]  R. Eastell,et al.  Comparison of methods for the visual identification of prevalent vertebral fracture in osteoporosis , 2004, Osteoporosis International.

[18]  J. Eisman,et al.  Asymptomatic Vertebral Deformity as a Major Risk Factor for Subsequent Fractures and Mortality: A Long‐Term Prospective Study , 2005, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[19]  T. Abbott,et al.  Patients with Prior Fractures Have an Increased Risk of Future Fractures: A Summary of the Literature and Statistical Synthesis , 2000, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[20]  J. Cauley,et al.  Risk of Mortality Following Clinical Fractures , 2000, Osteoporosis International.

[21]  S. Cummings,et al.  The Association of Radiographically Detected Vertebral Fractures with Back Pain and Function: A Prospective Study , 1998, Annals of Internal Medicine.

[22]  C. Wu,et al.  Comparison of semiquantitative and quantitative techniques for the assessment of prevalent and incident vertebral fractures , 2005, Osteoporosis International.

[23]  H K Genant,et al.  Contribution of vertebral deformities to chronic back pain and disability , 1992, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[24]  S. Cummings,et al.  Comparison of semiquantitative visual and quantitative morphometric assessment of prevalent and incident vertebral fractures in osteoporosis , 1996 .

[25]  J. Reginster,et al.  Vertebral Fracture Risk Reduction With Strontium Ranelate in Women With Postmenopausal Osteoporosis Is Independent of Baseline Risk Factors , 2006, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[26]  J. Adams,et al.  Identification of vertebral fractures: An update , 2005, Osteoporosis International.

[27]  H K Genant,et al.  Defining Incident Vertebral Deformity: A Prospective Comparison of Several Approaches , 1999, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[28]  J. Cauley,et al.  Prevalent Vertebral Deformities Predict Mortality and Hospitalization in Older Women with Low Bone Mass , 2000, Journal of the American Geriatrics Society.

[29]  J. Cauley,et al.  What Proportion of Incident Radiographic Vertebral Deformities Is Clinically Diagnosed and Vice Versa? , 2005, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[30]  M. Nevitt,et al.  Vertebral fracture assessment using a semiquantitative technique , 1993, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.

[31]  H. Genant,et al.  Underdiagnosis of Vertebral Fractures Is a Worldwide Problem: The IMPACT Study , 2004, Journal of bone and mineral research : the official journal of the American Society for Bone and Mineral Research.