医学
骨质疏松症
骨矿物
内科学
弗雷克斯
观察研究
儿科
骨质疏松性骨折
作者
Francesco Tovoli,Guido Zavatta,Giovanni Monaco,Dante Pio Pallotta,Kinga Skoracka,Alberto Raiteri,Agnese Pratelli,Maria Boe,Iwona Krela‐Kaźmierczak,Uberto Pagotto,Alessandro Granito
标识
DOI:10.14309/ajg.0000000000003750
摘要
Background: Patients with celiac disease (CeD) have an increased risk of osteoporosis and fractures, but the ideal timing for bone mineral density (BMD) assessment remains unclear due to conflicting recommendations. This study evaluated the optimal timing for Dual Energy X-ray Absorptiometry (DXA) screening considering different clinical targets: early detection of BMD alterations, osteoporosis diagnosis, or fracture risk stratification. Methods: Observational study prospectively enrolling 627 CeD patients (>25 years) who underwent DXA scans of the lumbar spine and hip as part of standard care. Data on clinical presentation, serology, histology, and fracture risk were analyzed. Logistic regression identified risk factors for low BMD and osteoporosis. The reliability of the National Osteoporosis Guidelines Group (NOGG) guidelines for avoiding unnecessary DXAs was assessed. Results: Low BMD for age was present in 17.2% of patients, with significant prevalence in the 25–34 age group (13.4%), further increasing in the 45–54 age group. Osteoporosis was detected in 17.9% of patients, with prevalence increasing significantly in patients over 45 years of age. Risk factors included weight loss, underweight status, and iron-deficiency anemia. Using the NOGG criteria, 67% of patients could have avoided DXA, with a 0.5% risk of missing clinically significant findings requiring treatment (but also losing 15.7% patients with low BMD for age). Conclusions: The ideal timing for DXA screening in CeD patients depends on the clinical objective. DXA at diagnosis maximizes the early detection of low bone mass, while the NOGG criteria effectively identified patients at high-risk of fractures, reducing unnecessary scans. However, their use should be weighed against an underdetection of clinically relevant BMD alterations. Tailoring DXA timing to healthcare resources and patient demographics may optimize outcomes and resource allocation.
科研通智能强力驱动
Strongly Powered by AbleSci AI