Abstract
Introduction: Telomere biology disorders (TBDs) are caused by germline pathogenic or likely pathogenic variants in telomere maintenance genes and result in multisystem manifestations, including impaired bone health. Patients with TBDs experience reduced bone mineral density (BMD), avascular necrosis, and increased rates of fragility fractures. However, the underlying mechanisms of these bone complications remain poorly understood, and no TBD-specific treatments for bone health currently exist. Our objective was to characterize the clinical features, management, and outcomes of TBD-related bone health issues, including fractures and reduced BMD.
Methods: We conducted a retrospective, multicenter, international cohort study using data from 232 patients with TBDs enrolled across 12 centers participating in the Clinical Care Consortium of Telomere-Associated Ailments. Medical records were reviewed for fracture history and BMD assessments by dual-energy X-ray absorptiometry (DXA). The primary endpoint was fracture incidence; secondary endpoints included BMD assessment and fracture management. Data were stratified by pediatric (≤18 years) and adult (>18 years) age groups. Analyses were based on data availability; specific denominators are provided where applicable.
Result: Data were available for 53 (23%) pediatric and 179 (77%) adult patients. TERT mutations were the most frequently identified variants in both groups (28% pediatric, 23% adult). Fractures occurred in 25% (13/53) of pediatric patients and 35% (62/178) of adults. In contrast, fractures are estimated to occur in 10-15% of the general pediatric population. The median age at first fracture was 8.2 years (range 2.5–17) in children and 29.2 years (range 18.3–66.9) in adults. Among those with fracture data (n=20 pediatric, n=22 adult), fragility fractures were more common in adults (57%) versus predominantly traumatic fractures in children (61%). Multiple fractures occurred in 65% of affected pediatric patients and 45% of affected adults. Fracture management also differed: non-surgical treatments were used in 60% of pediatric fractures (n=12/20) versus 36% (n=8/22) of adult fractures; surgical interventions were more common in adults (36%).
The inheritance pattern (autosomal dominant versus recessive or X-linked) was not associated with fracture risk but the subset of patients with CTC1 mutations were associated with increased fracture risk (n=5 of 124 patients with fracture history, 4% vs n=2 of 247 patients with no fracture history, 0.8%; p=0.04). We also assessed whether vascular manifestations were associated with fracture risk comparing patients with and without fractures. Pulmonary arteriovenous malformations (AVMs) were significantly more common in patients with fractures (17%, 7/42) versus those without (5.4%, 6/112; p=0.04). No significant differences were found in rates of retinal vasculopathy or hemorrhage (13% vs 7.2%, p=0.23) or gastrointestinal bleeding (22% vs 16%, p=0.35).
DXA data were available for 171 patients (22 pediatric, 149 adult). The median age at first DXA was 11.4 years (range 4–17.7) for children and 58.2 years (range 20.8–79.4) for adults. Among pediatric patients, the median lumbar spine Z-score was –1.2 (IQR –3.0 to –0.2, n=18), with 39% (7/18) showing a Z-score < –2. Among adults, the median femoral neck T-score was –1.1 (IQR –1.7 to –0.5, n=118), with 21% (29/138) demonstrating T-scores < –2, indicating low BMD.
Conclusions: Fractures and reduced BMD are common in both pediatric and adult patients with TBDs, with a substantial burden of early-onset and recurrent fractures. Our findings underscore the importance of early bone health screening and surveillance in TBDs and suggest a possible link between vascular abnormalities and skeletal fragility in this population that requires further study.
