1990-2020年低骨密度导致的全球、区域和国家负担：对《2021年全球疾病负担研究》中可改变风险因素的分析

IF 16.4 1区医学 Q1 RHEUMATOLOGY

Lancet Rheumatology Pub Date : 2025-09-16 DOI:10.1016/S2665-9913(25)00105-5

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Mean standardised femoral neck bone mineral density values were estimated by GBD location, age, and sex by meta-regression. Based on a separate meta-analysis of population-based studies from nine countries (12 unique sources), we also estimated the pooled relative risk of fractures per unit decrease in bone mineral density (g/cm2). The population-attributable fraction for low bone mineral density was calculated by comparing the observed distributions of standardised femoral neck bone mineral density to an age-specific and sex-specific counterfactual distribution, defined as the 99th percentile of five rounds of the National Health and Nutrition Examination Survey in the USA, by 5-year age group and sex. Hospital and emergency department data were used to derive the incidence of fractures for six categories of injury (road injuries, other transport injuries, falls, non-venomous animal contact, exposure to mechanical forces, and physical interpersonal violence) using ICD codes. 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引用次数: 0

摘要

背景：与骨质疏松症和低骨密度相关的骨折导致大量发病率、死亡率，并给个人和卫生系统带来成本。在这里，我们提供了最新的全球、区域和国家估计，低骨密度对跌倒骨折负担的贡献，以及来自全球疾病、伤害和风险因素负担研究（GBD） 2021的其他类别的伤害。方法：利用来自48个国家或地区（169个独特来源）的基于人口的研究数据，从1990年至2020年，根据40岁及以上个体的残疾生活年数（YLDs）、残疾调整生命年数（DALYs）和死亡率，估计低骨密度的负担。标准化股骨颈骨密度平均值根据GBD的位置、年龄和性别进行meta回归。基于对来自9个国家（12个独特来源）的基于人群的研究的单独荟萃分析，我们还估计了骨矿物质密度每单位降低（g/cm2）骨折的综合相对风险。通过将观察到的标准化股骨颈骨密度分布与特定年龄和性别的反事实分布进行比较，计算低骨密度的人口归因分数，该分布定义为美国5岁年龄组和性别的国家健康与营养检查调查的五轮第99百分位数。利用医院和急诊科的数据，利用ICD代码得出六类伤害（道路伤害、其他交通伤害、跌倒、非有毒动物接触、接触机械力和身体人际暴力）的骨折发生率。骨折造成的死亡按骨折（伤害代码的性质）比伤害代码的原因更严重的特定伤害原因造成的住院死亡的比例估计。根据以往GBD方法，确定损伤原因导致的低骨密度YLDs和DALYs。研究结果：2020年，全球40岁及以上人群中，83.2万（95% UI为5.58 - 10.84）YLDs、1720万（14.1 - 20.2）DALYs和47.7万（41.1 - 53.6万）例死亡可归因于低骨密度。在1990年至2020年期间，全球因低骨密度导致的死亡时间、伤残时间和死亡人数分别增加了91.8%（88.5 - 95.1）、89.8 - 99.5)和127.1%（108.5 - 144.5）。在此期间，由于骨密度过低而导致的年龄标准化的全球死亡年龄、伤残调整寿命和死亡率显示出适度下降。2020年，跌倒在低骨密度死亡中所占比例为76.2%(95%,74.2 - 78.3)，在低骨密度死亡中所占比例为65.2%(62.9 - 67.6)，在低骨密度死亡中所占比例为71.5%(67.4% - 72.8)，在低骨密度死亡中所占比例为12.4%(11.1 - 13.6)，在低骨密度死亡中所占比例为24.6%(22.5 - 27.1)，在低骨密度死亡中所占比例为23.1%（21.6 - 26.2）。作为所有跌倒相关负担的一部分，低骨密度占2020年YLDs的26.6% (23.2 - 28.7)，DALYs的25.6%（22.1 - 27.4）和40.6%（35.4 - 44.0）的死亡人数。在所有道路伤害相关负担中，12.6%（10.8 - 13.5）的伤残死亡、6.3%（5.4 - 6.9）的伤残死亡和8.9%（7.6 - 9.6）的死亡可归因于低骨密度。在40-59岁的男性中，道路伤害占可归因于低骨密度的伤残调整生命年的最大比例，在40-64岁的男性中占死亡的最大比例。在妇女中，道路伤害是40-44岁妇女因骨密度低而死亡的主要原因，也是40-54岁妇女因骨密度低而死亡的主要原因。在年龄较大的男性和女性群体中，跌倒是导致骨密度低的主要原因。解释：低骨密度是骨折的一个关键的可改变的危险因素，这是发病率和死亡率的重要原因，特别是在老龄化人口中。该分析强调，低骨密度不仅会导致跌倒，还会导致道路伤害。资助：盖茨基金会。

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The global, regional, and national burden attributable to low bone mineral density, 1990-2020: an analysis of a modifiable risk factor from the Global Burden of Disease Study 2021.

Background: Fractures related to osteoporosis and low bone mineral density lead to substantial morbidity, mortality, and cost to individuals and health systems. Here we present the most up-to-date global, regional, and national estimates of the contribution of low bone mineral density to the burden of fractures from falls and additional categories of injuries from the Global Burden of Diseases, Injuries, and Risk Factors Study (GBD) 2021.

Methods: The burden of low bone mineral density was estimated from 1990 to 2020 in terms of years lived with disability (YLDs), disability-adjusted life years (DALYs), and deaths, for individuals aged 40 years and older, using data from population-based studies from 48 countries or territories (169 unique sources). Mean standardised femoral neck bone mineral density values were estimated by GBD location, age, and sex by meta-regression. Based on a separate meta-analysis of population-based studies from nine countries (12 unique sources), we also estimated the pooled relative risk of fractures per unit decrease in bone mineral density (g/cm²). The population-attributable fraction for low bone mineral density was calculated by comparing the observed distributions of standardised femoral neck bone mineral density to an age-specific and sex-specific counterfactual distribution, defined as the 99th percentile of five rounds of the National Health and Nutrition Examination Survey in the USA, by 5-year age group and sex. Hospital and emergency department data were used to derive the incidence of fractures for six categories of injury (road injuries, other transport injuries, falls, non-venomous animal contact, exposure to mechanical forces, and physical interpersonal violence) using ICD codes. Deaths due to fractures were estimated as the proportion of in-hospital deaths due to the specified injury causes for which a fracture (nature of injury code) was more severe than the cause of injury code. YLDs and DALYs attributable to low bone mineral density by cause of injury were also determined according to previous GBD methods.

Findings: In 2020, 8·32 million (95% UI 5·58-10·84) YLDs, 17·2 million (14·1-20·2) DALYs, and 477 000 (411 000-536 000) deaths were attributable to low bone mineral density globally in individuals aged 40 years and older. Between 1990 and 2020, global YLDs, DALYs, and deaths attributable to low bone mineral density increased by 91·8% (88·5-95·1), 89·8% (81·5-99·0), and 127·1% (108·5-144·5), respectively. Over this period, the age-standardised global rates of YLDs, DALYs, and deaths attributable to low bone mineral density showed modest decreases. In 2020, falls accounted for 76·2% (95% UI 74·2-78·3) of YLDs, 65·2% (62·9-67·6) of DALYs, and 71·0% (67·4-72·8) of deaths attributable to low bone mineral density, and road injuries largely accounted for the remaining amount: 12·4% (11·1-13·6) of YLDs, 24·6% (22·5-27·1) of DALYs, and 23·1% (21·6-26·2) of deaths. As a proportion of all fall-related burden, low bone mineral density accounted for 26·6% (23·2-28·7) of YLDs, 25·6% (22·1-27·4) of DALYs, and 40·6% (35·4-44·0) of deaths in 2020. Of all road injury-related burden, 12·6% (10·8-13·5) of YLDs, 6·3% (5·4-6·9) of DALYs, and 8·9% (7·6-9·6) of deaths were attributable to low bone mineral density. In men, road injuries accounted for the largest proportion of DALYs attributable to low bone mineral density in those aged 40-59 years and the largest proportion of deaths in those aged 40-64 years. In women, road injuries were the leading cause of DALYs attributable to low bone mineral density in those aged 40-44 years and the leading cause of deaths attributable to low bone mineral density in those aged 40-54 years. In older age groups among both men and women, falls were the leading cause of the burden attributable to low bone mineral density.

Interpretation: Low bone mineral density is a crucial modifiable risk factor for fractures, which are an important cause of morbidity and mortality particularly in ageing populations. This analysis highlights low bone mineral density as a cause of health loss not just from falls, but also from road injuries.

Funding: Gates Foundation.

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来源期刊

Lancet Rheumatology RHEUMATOLOGY-

CiteScore

34.70

自引率

3.10%

发文量

279

期刊介绍： The Lancet Rheumatology, an independent journal, is dedicated to publishing content relevant to rheumatology specialists worldwide. It focuses on studies that advance clinical practice, challenge existing norms, and advocate for changes in health policy. The journal covers clinical research, particularly clinical trials, expert reviews, and thought-provoking commentary on the diagnosis, classification, management, and prevention of rheumatic diseases, including arthritis, musculoskeletal disorders, connective tissue diseases, and immune system disorders. Additionally, it publishes high-quality translational studies supported by robust clinical data, prioritizing those that identify potential new therapeutic targets, advance precision medicine efforts, or directly contribute to future clinical trials. With its strong clinical orientation, The Lancet Rheumatology serves as an independent voice for the rheumatology community, advocating strongly for the enhancement of patients' lives affected by rheumatic diseases worldwide.