体重指数与后续骨折风险:一项更新FRAX的荟萃分析
Body mass index and subsequent fracture risk: a meta-analysis to update FRAX.
作者信息
Harvey Nicholas C, Johansson Helena, McCloskey Eugene V, Liu Enwu, Åkesson Kristina E, Anderson Fred A, Azagra-Ledesma Rafael, Bager Cecilie L, Beaudart Charlotte, Bischoff-Ferrari Heike A, Biver Emmanuel, Bruyère Olivier, Cauley Jane A, Center Jacqueline R, Chapurlat Roland, Christiansen Claus, Cooper Cyrus, Crandall Carolyn J, Cummings Steven R, da Silva José A P, Dawson-Hughes Bess, Diez-Perez Adolfo, Dufour Alyssa B, Eisman John A, Elders Petra J M, Ferrari Serge, Fujita Yuki, Fujiwara Saeko, Glüer Claus-Christian, Goldshtein Inbal, Goltzman David, Gudnason Vilmundur, Hall Jill, Hans Didier, Hoff Mari, Hollick Rosemary J, Huisman Martijn, Iki Masayuki, Ish-Shalom Sophia, Jones Graeme, Karlsson Magnus K, Khosla Sundeep, Kiel Douglas P, Koh Woon-Puay, Koromani Fjorda, Kotowicz Mark A, Kröger Heikki, Kwok Timothy, Lamy Olivier, Langhammer Arnulf, Larijani Bagher, Lippuner Kurt, McGuigan Fiona E A, Mellström Dan, Merlijn Thomas, Nguyen Tuan V, Nordström Anna, Nordström Peter, O'Neill Terence W, Obermayer-Pietsch Barbara, Ohlsson Claes, Orwoll Eric S, Pasco Julie A, Rivadeneira Fernando, Schei Berit, Schott Anne-Marie, Shiroma Eric J, Siggeirsdottir Kristin, Simonsick Eleanor M, Sornay-Rendu Elisabeth, Sund Reijo, Swart Karin M A, Szulc Pawel, Tamaki Junko, Torgerson David J, van Schoor Natasja M, van Staa Tjeerd P, Vila Joan, Wareham Nicholas J, Wright Nicole C, Yoshimura Noriko, Zillikens M Carola, Zwart Marta, Vandenput Liesbeth, Lorentzon Mattias, Leslie William D, Kanis John A
机构信息
MRC Lifecourse Epidemiology Centre, University of Southampton, Southampton, SO16 6YD, United Kingdom.
NIHR Southampton Biomedical Research Centre, University of Southampton and University Hospital Southampton NHS Foundation Trust, Southampton, SO16 6YD, United Kingdom.
出版信息
J Bone Miner Res. 2025 Sep 28;40(10):1144-1155. doi: 10.1093/jbmr/zjaf091.
The aim of this international meta-analysis was to quantify the predictive value of BMI for incident fracture and relationship of this risk with age, sex, follow-up time, and BMD. A total of 1 667 922 men and women from 32 countries (63 cohorts), followed for a total of 16.0 million person-years were studied. 293 325 had FN BMD measured (2.2 million person-years follow-up). An extended Poisson model in each cohort was used to investigate relationships between WHO-defined BMI categories (Underweight: <18.5 kg/m2; Normal: 18.5-24.9 kg/m2; Overweight: 25.0-29.9 kg/m2; Obese I: 30.0-34.9 kg/m2; Obese II: ≥35.0 kg/m2) and risk of incident osteoporotic, major osteoporotic and hip fracture (HF). Inverse-variance weighted β-coefficients were used to merge the cohort-specific results. For the subset with BMD available, in models adjusted for age and follow-up time, the hazard ratio (95% CI) for HF comparing underweight with normal weight was 2.35 (2.10-2.60) in women and for men was 2.45 (1.90-3.17). Hip fracture risk was lower in overweight and obese categories compared to normal weight [obese II vs normal: women 0.66 (0.55-0.80); men 0.91 (0.66-1.26)]. Further adjustment for FN BMD T-score attenuated the increased risk associated with underweight [underweight vs normal: women 1.69 (1.47-1.96); men 1.46 (1.00-2.13)]. In these models, the protective effects of overweight and obesity were attenuated, and in both sexes, the direction of association reversed to higher fracture risk in Obese II category [Obese II vs Normal: women 1.24 (0.97-1.58); men 1.70 (1.06-2.75)]. Results were similar for other fracture outcomes. Underweight is a risk factor for fracture in both men and women regardless of adjustment for BMD. However, while overweight/obesity appeared protective in base models, they became risk factors after additional adjustment for FN BMD, particularly in the Obese II category. This effect in the highest BMI categories was of greater magnitude in men than women. These results will inform the second iteration of FRAX®.
这项国际荟萃分析的目的是量化体重指数(BMI)对骨折发生的预测价值,以及该风险与年龄、性别、随访时间和骨密度(BMD)之间的关系。对来自32个国家(63个队列)的1667922名男性和女性进行了研究,总计随访1600万人年。对293325人测量了股骨颈骨密度(随访220万人年)。在每个队列中使用扩展泊松模型来研究世界卫生组织定义的BMI类别(体重过轻:<18.5kg/m²;正常:18.5 - 24.9kg/m²;超重:25.0 - 29.9kg/m²;肥胖I类:30.0 - 34.9kg/m²;肥胖II类:≥35.0kg/m²)与骨质疏松性骨折、主要骨质疏松性骨折和髋部骨折(HF)发生风险之间的关系。采用逆方差加权β系数合并各队列的结果。对于有骨密度数据的亚组,在根据年龄和随访时间进行调整的模型中,女性体重过轻与正常体重相比,髋部骨折的风险比(95%置信区间)为2.35(2.10 - 2.60),男性为2.45(1.90 - 3.17)。与正常体重相比,超重和肥胖类别中的髋部骨折风险较低[肥胖II类与正常体重相比:女性为0.66(0.55 - 0.80);男性为0.91(0.66 - 1.26)]。进一步根据股骨颈骨密度T值进行调整后,体重过轻相关的风险增加有所减弱[体重过轻与正常体重相比:女性为1.69(1.47 - 1.96);男性为1.46(1.00 - 2.13)]。在这些模型中,超重和肥胖的保护作用减弱,在两性中,关联方向在肥胖II类中逆转,骨折风险更高[肥胖II类与正常体重相比:女性为1.24(0.97 - 1.58);男性为1.70(1.06 - 2.75)]。其他骨折结局的结果相似。无论是否对骨密度进行调整,体重过轻都是男性和女性骨折的危险因素。然而,虽然超重/肥胖在基础模型中似乎具有保护作用,但在进一步根据股骨颈骨密度进行调整后,它们成为危险因素,尤其是在肥胖II类中。在最高BMI类别中的这种效应在男性中比女性更大。这些结果将为FRAX®的第二次迭代提供参考。
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