Association between number of pregnancies and bone mineral density in older females
-
摘要:
目的 妊娠晚期胎儿骨骼的迅速矿化以及哺乳期钙从乳汁中持续的流失等因素容易导致孕产妇出现骨量的丢失以及骨密度的下降。然而,二胎乃至多胎是否会增加其患骨质疏松症风险的报道仍非常有限且结论并不一致。因此,本研究基于大样本数据探讨老年女性生育人数与骨密度的关联性。 方法 本项研究从2007—2010年、2013—2014年、2017—2018年美国健康与营养调查(NHANES)数据库筛选资料完整的60~80岁老年女性作为研究对象。暴露因素为老年女性生育人数,结局指标为骨密度。通过多元回归模型分析生育人数与骨密度在老年女性中的关系。 结果 共纳入2 096名研究对象,其中一胎264人[年龄为(67.5±6.1)岁]、二胎593人[年龄为(67.9±6.5)岁]、三胎506人[年龄为(69.5±6.6)岁]、四胎及以上733人[年龄为(71.7±6.5)岁]。在调整年龄、种族、婚姻状况、末次月经时间、教育水平、适度的锻炼、家庭收入贫穷比、身体质量指数、血尿素氮、血尿酸、血磷和血钙后,不同生育人数与股骨颈骨密度、股骨总骨密度和Wards三角骨密度均无相关性(均P>0.05)。 结论 生育二胎或多胎并不是女性老年时骨质疏松症的危险因素。 Abstract:Objective The rapid mineralisation of foetal bones in the third trimester and the continuous loss of calcium from breast milk during lactation may lead to the loss of bone mass and the decline of bone mineral density (BMD) in pregnant women. However, evidence regarding the association between number of pregnancies and risk of osteoporosis in older females remains limited and inconsistent. Thus, we aimed to explore the association between number of pregnancies and BMD using a population-based sample database. Methods We conducted a study on older females aged 60-80 years with complete data who participated in the National Health and Nutrition Examination Survey (NHANES) in 2007-2010, 2013-2014 and 2017-2018. The independent variable was number of pregnancies. The dependent variable was BMD. We performed multivariable regression models to evaluate the associations between number of pregnancies and BMD. Results There were 2 096 subjects in the final analysis, including 264 subjects with one child [age=(67.5±6.1) years], 593 subjects with two children [age=(67.9±6.5) years], 506 subjects with three children [age=(69.5±6.6) years] and 733 subjects with four children or more [age=(71.7±6.5) years]. In the fully adjusted model, there were no significant associations in number of pregnancies with femoral neck BMD, total femur BMD, or Ward's triangle BMD after adjusting for age, race, marital status, time of last menstrual period, education level, moderate exercise, family income to poverty ratio, body mass index, blood urea nitrogen, serum uric acid, serum phosphorus and serum calcium (all P > 0.05). Conclusion Having two or multiple births is not a risk factor for osteoporosis for women at old age. -
Key words:
- Second child /
- Multiple births /
- Bone health /
- Osteoporosis /
- Health and nutrition examination survey
-
表 1 不同生育人数老年女性一般资料比较[例(%)]
Table 1. Comparison of general data of elderly women with different fertility numbers
项目 类别 一胎(n=264) 二胎(n=593) 三胎(n=506) 四胎及以上(n=733) 统计量 P值 年龄(x±s, 岁) 68.0±6.7 68.4±6.8 69.1±6.7 70.6±6.7 16.263a <0.001 婚姻状况[例(%)] 已婚/有伴侣 109 (41.3) 305 (51.4) 270 (53.4) 311 (42.4) 7.496b <0.001 丧偶/离婚/分居 155 (58.7) 288 (48.6) 236 (46.6) 422 (57.6) 末次月经[例(%)] ≤40岁 58 (22.0) 152 (25.6) 117 (23.1) 161 (22.0) 0.850b 0.466 41~50岁 113 (42.8) 227 (38.3) 218 (43.1) 319 (43.5) ≥51岁 75 (28.4) 186 (31.4) 150 (29.6) 189 (25.8) 未记录 18 (6.8) 28 (4.7) 21 (4.2) 64 (8.7) 种族[例(%)] 白人 128 (48.5) 314 (53.0) 244 (48.2) 277 (37.8) 5.721b <0.001 黑人 61 (23.1) 121 (20.4) 86 (17.0) 158 (21.6) 墨西哥裔 19 (7.2) 44 (7.4) 67 (13.2) 180 (24.6) 其他种族 56 (21.2) 114 (19.2) 109 (21.5) 118 (16.1) 教育水平[例(%)] 高中以下 47 (17.8) 103 (17.4) 144 (28.5) 366 (49.9) 75.301b <0.001 高中 58 (22.0) 171 (28.8) 155 (30.6) 168 (22.9) 高中以上 159 (60.2) 319 (53.8) 207 (40.9) 199 (27.1) 适度的锻炼[例(%)] 是 104 (39.4) 253 (42.7) 177 (35.0) 178 (24.3) 18.559b <0.001 否 160 (60.6) 340 (57.3) 329 (65.0) 555 (75.7) 家庭收入贫穷比(x±s) 2.6±1.5 2.8±1.5 2.5±1.4 2.0±1.3 43.421a <0.001 BMI(x±s) 27.5±5.8 29.0±6.0 29.2±5.9 29.3±5.9 6.503a <0.001 血尿素氮(x±s, mmol/L) 5.6±2.4 5.6±2.0 5.8±2.8 5.8±2.5 1.168a 0.320 血尿酸(x±s, μmol/L) 307.1±80.7 312.3±83.6 319.7±85.9 316.4±79.6 1.635a 0.179 血磷(x±s, mmol/L) 1.23±0.16 1.24±0.16 1.24±0.16 1.23±0.17 1.318a 0.266 血钙(x±s, mmol/L) 2.37±0.09 2.38±0.10 2.37±0.10 2.36±0.10 2.077a 0.101 股骨颈骨密度(x±s, g/cm2) 0.69±0.12 0.71±0.12 0.70±0.13 0.70±0.14 1.078a 0.356 股骨总骨密度(x±s, g/cm2) 0.82±0.14 0.84±0.14 0.83±0.14 0.83±0.15 1.655a 0.174 Wards三角骨密度(x±s, g/cm2) 0.51±0.14 0.52±0.15 0.51±0.15 0.51±0.16 1.003a 0.390 注:a为F值,b为χ2值。 
下载: 导出CSV
表 2 分类变量的赋值方法
Table 2. Categorical variable assignment method
变量 赋值方法 婚姻状况 已婚/有伴侣=1,丧偶/离婚/分居=2 末次月经 ≤40岁=(0,0,0),41~50岁=(1, 0, 0),≥51岁=(0, 1, 0),未记录=(0, 0, 1) 种族 白人=(0,0,0),黑人=(1, 0, 0),墨西哥裔=(0, 1, 0),其他种族=(0, 0, 1) 教育水平 高中以下=1,高中=2,高中以上=3 适度的锻炼 是=1,否=0
下载: 导出CSV
表 3 不同胎数老年女性股骨颈骨密度的多元回归分析
Table 3. Multiple regression analysis of femoral neck bone mineral density in elderly women with different parity
胎数 B SE β 95% CI t值 P值 二胎 0.025 0.009 0.014 -0.002~0.029 2.833 0.085 三胎 0.021 0.009 0.014 -0.003~0.031 2.283 0.102 四胎及以上 0.008 0.009 0.010 -0.007~0.027 0.854 0.252 注:以一胎为参照。调整了年龄、种族、婚姻状况、末次月经时间、教育水平、适度的锻炼、家庭收入贫穷比、BMI、血尿素氮、血尿酸、血磷和血钙。
下载: 导出CSV
表 4 不同胎数老年女性股骨总骨密度的多元回归分析
Table 4. Multiple regression analysis of total bone mineral density of femur in elderly women with different parity
胎数 B SE β 95% CI t值 P值 二胎 0.018 0.010 0.003 -0.013~0.019 1.934 0.698 三胎 0.015 0.010 0.004 -0.013~0.021 1.462 0.656 四胎及以上 -0.008 0.010 -0.004 -0.022~0.013 -0.804 0.617 注:以一胎为参照。调整了年龄、种族、婚姻状况、末次月经时间、教育水平、适度的锻炼、家庭收入贫穷比、BMI、血尿素氮、血尿酸、血磷和血钙。
下载: 导出CSV
表 5 不同胎数老年女性Wards三角骨密度的多元回归分析
Table 5. Multiple regression analysis of Wards triangle bone mineral density in elderly women with different parities
胎数 B SE β 95% CI t值 P值 二胎 0.018 0.010 0.006 -0.013~0.024 1.747 0.534 三胎 0.020 0.011 0.015 -0.005~0.035 1.891 0.131 四胎及以上 -0.006 0.011 0.005 -0.015~0.025 -0.592 0.624 注:以一胎为参照。调整了年龄、种族、婚姻状况、末次月经时间、教育水平、适度的锻炼、家庭收入贫穷比、BMI、血尿素氮、血尿酸、血磷和血钙。
下载: 导出CSV
-
[1] HARDCASTLE S A, YAHYA F, BHALLA A K. Pregnancy-associated osteoporosis: A UK case series and literature review[J]. Osteoporos Int, 2019, 30(5): 939-948. doi: 10.1007/s00198-019-04842-w [2] NGUYEN B N, HOSHINO H, TOGAWA D, et al. Cortical thickness index of the proximal femur: A radiographic parameter for preliminary assessment of bone mineral density and osteoporosis status in the age 50 years and over population[J]. Clin Orthop Surg, 2018, 10(2): 149-156. doi: 10.4055/cios.2018.10.2.149 [3] 中华医学会骨质疏松和骨矿盐疾病分会. 原发性骨质疏松症诊疗指南(2017)[J]. 中国全科医学, 2017, 20(32): 3963-3982. doi: 10.3969/j.issn.1007-9572.2017.00.118Chinese Society of Osteoporosis and Bone Mineral Research. Guidelines for the diagnosis and treatment of primary osteoporosis (2017)[J]. Chinese General Practice, 2017, 20(32): 3963-3982. doi: 10.3969/j.issn.1007-9572.2017.00.118 [4] SHARP M K, GLONTI K, HREN D. Online survey about the STROBE statement highlighted diverging views about its content, purpose, and value[J]. J Clin Epidemiol, 2020, 123: 100-106. doi: 10.1016/j.jclinepi.2020.03.025 [5] YANG B, KONG L, HAO D. Challenges in the management of pregnancy and lactation associated osteoporosis: Literature review and retrospective study[J]. Curr Stem Cell Res Ther, 2020. DOI: 10.2174/1574888X15999200729162502. [6] WANG G, BAI X D. Barton fracture of the distal radius in pregnancy and lactation-associated osteoporosis: A case report and literature review[J]. Int J Gen Med, 2020, 13: 1043-1049. doi: 10.2147/IJGM.S278536 [7] KURABAYASHI T, MORIKAWA K. Epidemiology and pathophysiology of post-pregnancy osteoporosis[J]. Clin Calcium, 2019, 29(1): 39-45. [8] 刘洋贝, 罗敏, 马勋龙, 等. 妊娠哺乳相关骨质疏松症的诊治进展[J]. 中国骨质疏松杂志, 2020, 26(3): 464-468. doi: 10.3969/j.issn.1006-7108.2020.03.033LIU Y B, LUO M, MA X L, et al. Advancement in diagnosis and treatment of pregnancy and lactation associated osteoporosis[J]. Chinese Journal of Osteoporosis, 2020, 26(3): 464-468. doi: 10.3969/j.issn.1006-7108.2020.03.033 [9] KOVACS C S. The skeleton is a storehouse of mineral that is plundered during lactation and (fully?) replenished afterwards[J]. J Bone Miner Res, 2017, 32(4): 676-680. doi: 10.1002/jbmr.3090 [10] 许琳, 裴育. 妊娠哺乳相关性骨质疏松症诊治[J]. 中华骨质疏松和骨矿盐疾病杂志, 2019, 12(6): 631-637. doi: 10.3969/j.issn.1674-2591.2019.06.013XU L, PEI Y. Diagnosis and treatment of pregnancy and lactation-associated osteoporosis[J]. Chinese Journal of Osteoporosis and Bone Mineral Research, 2019, 12(6): 631-637. doi: 10.3969/j.issn.1674-2591.2019.06.013 [11] LEERE J S, VESTERGAARD P. Calcium metabolic disorders in pregnancy: Primary hyperparathyroidism, pregnancy-induced osteoporosis, and vitamin D deficiency in pregnancy[J]. Endocrinol Metab Clin North Am, 2019, 48(3): 643-655. doi: 10.1016/j.ecl.2019.05.007 [12] KOVACS C S. Maternal mineral and bone metabolism during pregnancy, lactation, and post-weaning recovery[J]. Physiol Rev, 2016, 96(2): 449-547. doi: 10.1152/physrev.00027.2015 [13] HADJI P, BOEKHOFF J, HAHN M, et al. Pregnancy-associated transient osteoporosis of the hip: Results of a case-control study[J]. Arch Osteoporos, 2017, 12(1): 11. doi: 10.1007/s11657-017-0310-y [14] 姜剑魁, 宋晓燕. 绝经后妇女的生殖特征和骨密度相关性研究[J]. 中国骨质疏松杂志, 2019, 25(3): 330-333, 365. doi: 10.3969/j.issn.1006-7108.2019.03.006JIANG J K, SONG X Y. Study on the correlation between reproductive characteristics and bone mineral density in postmenopausal women[J]. Chinese Journal of Osteoporosis, 2019, 25(3): 330-333, 365. doi: 10.3969/j.issn.1006-7108.2019.03.006 [15] 林晓生, 王海燕, 肖庆华, 等. 717名围绝经期妇女骨量丢失情况的流行病学调查[J]. 中国骨质疏松杂志, 2017, 23(3): 363-367. doi: 10.3969/j.issn.1006-7108.2017.03.018LIN X S, WANG H Y, XIAO Q H, et al. Epidemiological investigation of bone loss in 717 cases of peri-menopausal women[J]. Chinese Journal of Osteoporosis, 2017, 23(3): 363-367. doi: 10.3969/j.issn.1006-7108.2017.03.018 -
点击查看大图
表(5)
计量
- 文章访问数: 137
- HTML全文浏览量: 45
- PDF下载量: 4
- 被引次数: 0
