育龄期不孕症女性的膳食模式现状及其影响因素分析

张雪云; 王婕妤; 王春艳; 程静娴; 吴炫烨; 罗桂英

doi:10.16766/j.cnki.issn.1674-4152.003377

育龄期不孕症女性的膳食模式现状及其影响因素分析

doi: 10.16766/j.cnki.issn.1674-4152.003377

张雪云^{1, 2},
王婕妤²,
王春艳²,
程静娴²,
吴炫烨²,
罗桂英^{1, 2, ,}

1.
安徽医科大学护理学院，安徽合肥 230032
2.
安徽医科大学第一附属医院生殖中心，安徽合肥 230000

基金项目:

安徽省高校自然科学研究项目 KJ2020A0203

安徽省高校人文社会科学研究项目 SK2020A0146

2023年度安徽医科大学护理学院研究生青苗培育项目 hlqm12023056

详细信息

通讯作者:
罗桂英，E-mail：luogyhsz@126.com

中图分类号: R711.6 R151.4
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- 文章访问数: 94
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- PDF下载量: 11
- 被引次数: 0
出版历程
- 收稿日期: 2023-08-30
- 网络出版日期: 2024-03-27

Analysis of dietary patterns and influencing factors in infertile women of childbearing age

1.
School of Nursing, Anhui Medical University, Hefei, Anhui 230032, China

摘要

摘要: 目的分析育龄期不孕症女性的膳食模式现状，并探究其膳食模式的影响因素，旨在为不孕症女性制定合理的饮食指导方案提供理论依据。方法采用便利抽样法选取2021年5月—2022年12月在安徽省某三甲医院生殖中心门诊就诊的拟行辅助生殖技术的育龄期不孕症女性，采用自行设计的问卷和3天24小时膳食回顾问卷对研究对象进行调查，利用因子分析建立膳食模式，无序多分类logistic回归法分析膳食模式的影响因素。结果育龄期不孕症女性共有4种膳食模式，分别为高油盐模式、荤素混合模式、谷类-蛋奶模式以及水果-坚果模式。多因素logistic回归分析显示，高油盐模式与年龄有相关性(OR=0.488, 95% CI: 0.254~0.938)；荤素混合模式与在职状态和BMI有相关性[OR(95% CI)分别为3.954(2.047~7.636)、3.392(1.486~7.744)]；谷类-蛋奶模式与长期居住地、不孕年限及助孕治疗有相关性[OR(95% CI)分别为2.758(1.129~6.740)、3.539(1.113~11.250)、0.400(0.172~0.929)]；水果-坚果模式与长期居住地有相关性(OR=4.884, 95% CI: 1.892~12.603)。结论育龄期不孕症女性目前更倾向于谷类-蛋奶模式，其膳食模式类型受到多种因素影响，应根据不同的膳食模式特点，为其提供针对性的饮食指导。
- 不孕症 /
- 饮食 /
- 膳食模式 /
- 影响因素
Abstract: Objective In order to provide theoretical basis for formulating rational dietary guidance program for infertile women, this paper analyzed the current situation of dietary pattern of infertile women and explored the influencing factors of dietary pattern. Methods A self-designed questionnaire and a 3-day 24-hour dietary review questionnaire were used to investigate the infertile women of childbearing age who intended to undergo assisted reproductive technology in the reproductive center outpatient clinic of a top three hospital in Anhui Province from May 2021 to December 2022. The dietary patterns were established by factor analysis, and the influencing factors of dietary patterns were analyzed by disordered multiple logistic regression method. Results There were four dietary patterns in infertile women of childbearing age, which were high oil and salt pattern, mixed meat and vegetable pattern, traditional dietary pattern and modern dietary pattern. Multiple logistic regression analysis showed that high oil and salt pattern was negatively correlated with age (OR=0.488, 95% CI: 0.254-0.938). Meat and vegetable mixing pattern was positively correlated with in-service status and BMI [OR (95% CI) were 3.954 (2.047-7.636) and 3.392 (1.486-7.744)]. Traditional dietary patterns were positively correlated with long-term residence and infertility years, but negatively correlated with pregnance-assisted treatment [OR (95% CI) were 2.758 (1.129-6.740), 3.539 (1.113-11.250), 0.400 (0.172-0.929)]. Modern dietary pattern was positively correlated with long-term residence (OR=4.884, 95% CI: 1.892-12.603). Conclusion Infertile women are more inclined to traditional dietary patterns at present, and their dietary patterns are affected by many factors. Therefore, targeted dietary guidance should be provided for infertile women of childbearing age according to the characteristics of their different dietary patterns.
- Infertility /
- Diet /
- Dietary pattern /
- Influencing factors

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表 1 不孕症女性的各类食物摄入量

Table 1. Various types of food intake in infertile women

食物类别	实际摄入量 [M(P₂₅, P₇₅), g]	摄入不足 [例(%)]	摄入正常 [例(%)]	摄入过量 [例(%)]
谷类	374.80(250.25, 523.10)	58(16.2)	59(16.5)	240(67.2)
薯类	0(0, 33.30)	318(89.1)	27(7.6)	12(3.4)
蔬菜类	212.40(143.80, 523.20)	252(70.6)	79(22.1)	26(7.3)
水果类	106.70(26.85, 203.30)	268(75.1)	62(17.4)	27(7.6)
动物性食物	231.30(152.20, 335.00)	60(16.8)	82(23.0)	215(60.2)
奶及奶制品	50.00(0，166.70)	329(92.2)	25(7.0)	3(0.8)
大豆及坚果	15.20(4.40, 32.45)	238(66.7)	41(11.5)	78(21.8)

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表 2 膳食模式类型及其因子载荷

Table 2. Dietary pattern types and their factor loads

食物类别	高油盐模式	荤素混合模式	谷类-蛋奶模式	水果-坚果模式
油	0.851	0.100	-0.143	0.033
盐	0.848	-0.049	0.142	0.057
动物性食物	0.042	0.803	0.072	0.055
蔬菜类	0.353	0.620	-0.306	0.054
蛋类	0.360	0.489	0.449	0.024
薯类	-0.148	-0.249	0.690	0.170
谷类	-0.177	0.323	0.037	0.090
奶及奶制品	0.072	0.205	0.655	-0.135
水果类	0.072	-0.044	-0.061	0.805
大豆及坚果	0.000	0.227	0.064	0.663

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表 3 不孕症女性不同膳食类型的人口学分布情况[例(%)]

Table 3. Demographic distribution of different dietary types in infertile women [cases (%)]

变量	分类	高油盐模式 (n=77)	荤素混合模式 (n=81)	谷类-蛋奶模式 (n=107)	水果-坚果模式 (n=92)	χ²值	P值
年龄(岁)	21~30	25(32.5)	35(43.2)	42(39.3)	37(40.2)	2.045	0.563
	31~40	52(67.5)	46(56.8)	65(60.7)	55(59.8)
长期居住地	城市	64(83.1)	66(81.5)	88(82.2)	84(91.3)	5.507	0.481
	农村	13(16.9)	15(18.5)	19(17.8)	8(8.7)
在职状态	在职	38(49.4)	53(65.4)	58(54.2)	39(42.4)	14.136	0.022
	非在职	39(50.6)	28(34.6)	49(45.8)	53(57.6)
不孕类型	原发不孕	46(59.7)	57(70.4)	80(74.8)	60(65.2)	8.821	0.184
	继发不孕	31(40.3)	24(29.6)	27(25.2)	32(34.8)
不孕年限(年)	＜3	34(44.2)	41(50.6)	58(54.2)	28(30.4)	21.028	0.028
	3~＜6	35(45.5)	32(39.5)	35(32.7)	51(55.4)
	6~10	8(10.3)	8(9.9)	14(13.1)	13(14.2)
助孕治疗	是	18(23.4)	21(25.9)	14(13.1)	18(19.6)	5.557	0.135
	否	59(76.6)	60(74.1)	93(86.9)	74(80.4)
不良妊娠史	是	54(70.1)	61(75.3)	80(74.8)	70(76.1)	0.908	0.824
	否	23(29.9)	20(24.7)	27(25.2)	22(23.9)
体重指数	＜18.5	5(6.5)	3(3.7)	5(4.7)	8(8.7)	6.475	0.692
	18.5~＜24.0	40(51.9)	38(46.9)	53(49.5)	39(42.4)
	24.0~＜28.0	16(20.8)	21(25.9)	32(29.9)	28(30.4)
	≥28.0	16(20.8)	19(23.5)	17(15.9)	17(18.5)

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表 4 高油盐模式影响因素的logistic回归分析

Table 4. Logistic regression analysis of the influencing factors of high oil-salt pattern

变量	B	SE	Waldχ²	P值	OR值	95% CI
年龄	-0.717	0.333	4.635	0.031	0.488	0.254~0.938
长期居住地	-0.890	0.502	3.146	0.076	0.411	0.154~1.098
在职状态	-0.574	0.320	3.210	0.073	0.563	0.301~1.055
不孕类型	-0.260	0.446	0.340	0.560	0.771	0.322~1.848
不孕年限	0.641	0.547	1.374	0.241	1.899	0.650~5.550
助孕治疗	0.189	0.390	0.235	0.628	1.208	0.563~2.595
不良妊娠史	0.578	0.466	1.536	0.215	1.782	0.715~4.444
体质指数	1.451	0.786	3.405	0.065	4.266	0.914~19.915

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表 5 荤素混合模式影响因素的logistic回归分析

Table 5. Logistic regression analysis of the influencing factors of meat-vegetable mixing pattern

变量	B	SE	Waldχ²	P值	OR值	95% CI
年龄	0.206	0.339	0.367	0.545	1.228	0.631~2.389
长期居住地	-0.894	0.478	3.494	0.062	0.409	0.160~1.044
在职状态	1.375	0.336	16.672	＜0.001	3.954	2.047~7.636
不孕类型	-0.184	0.448	0.169	0.681	0.832	0.346~2.001
不孕年限	0.099	0.531	0.035	0.852	1.104	0.390~3.127
助孕治疗	-0.035	0.378	0.008	0.927	0.966	0.460~2.028
不良妊娠史	0.384	0.470	0.666	0.414	1.468	0.584~3.687
体质指数	1.221	0.421	8.413	0.004	3.392	1.486~7.744

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表 6 谷类-蛋奶模式影响因素的logistic回归分析

Table 6. Logistic regression analysis of the influencing factors of the grain-egg milk pattern

变量	B	SE	Waldχ²	P值	OR值	95% CI
年龄	-0.353	0.330	1.143	0.285	0.703	0.368~1.342
长期居住地	1.015	0.456	4.953	0.026	2.758	1.129~6.740
在职状态	-0.252	0.322	0.614	0.433	0.777	0.414~1.460
不孕类型	0.802	0.461	3.022	0.082	2.230	0.903~5.509
不孕年限	1.264	0.590	4.587	0.032	3.539	1.113~11.250
助孕治疗	-0.916	0.430	4.540	0.033	0.400	0.172~0.929
不良妊娠史	0.138	0.478	0.083	0.773	1.148	0.450~2.927
体质指数	-0.238	0.712	0.111	0.738	0.788	0.195~3.185

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表 7 水果-坚果模式影响因素的logistic回归分析

Table 7. Logistic regression analysis of the influencing factors of the fruit-nut pattern

变量	B	SE	Waldχ²	P值	OR值	95% CI
年龄	0.362	0.334	1.180	0.277	1.437	0.747~2.762
长期居住地	1.586	0.484	10.749	0.001	4.884	1.892~12.603
在职状态	-0.485	0.322	2.260	0.133	0.616	0.327~1.159
不孕类型	-0.619	0.449	1.904	0.168	0.538	0.223~1.297
不孕年限	-0.789	0.556	2.016	0.156	0.454	0.153~1.350
助孕治疗	0.257	0.380	0.456	0.500	1.292	0.614~2.722
不良妊娠史	0.317	0.477	0.442	0.506	1.374	0.539~3.502
体质指数	0.231	0.710	0.105	0.745	1.259	0.313~5.064

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参考文献(24)

[1]	THURSTON L, ABBARA A, DHILLO W S. Investigation and management of subfertility[J]. J Clin Pathol, 2019, 72(9): 579-587. doi: 10.1136/jclinpath-2018-205579
[2]	SANDERMAN E A, WILLIS S K, WISE L A. Female dietary patterns and outcomes of in vitro fertilization (IVF): a systematic literature review[J]. Nutr J, 2022, 21(1): 5. doi: 10.1186/s12937-021-00757-7
[3]	SILVESTRIS E, LOVERO D, PALMIROTTA R. Nutrition and female fertility: an interdependent correlation[J]. Front Endocrinol (Lausanne), 2019, 10: 346. doi: 10.3389/fendo.2019.00346
[4]	SKORACKA K, RATAJCZAK A E, RYCHTER A M, et al. Female fertility and the nutritional approach: the most essential aspects[J]. Adv Nutr, 2021, 12(6): 2372-2386. doi: 10.1093/advances/nmab068
[5]	马志敏, 郝晓燕, 王东阳, 等. 中国膳食模式的特征、分布及其与健康相关性研究进展[J]. 食品工业科技, 2023, 44(10): 396-405. https://www.cnki.com.cn/Article/CJFDTOTAL-SPKJ202310050.htm MA Z M, HAO X Y, WANG D Y, et al. Evolution and distribution of dietary patterns in China and the research progress of its correlation with health[J]. Science and Technology of Food Industry, 2023, 44(10): 396-405. https://www.cnki.com.cn/Article/CJFDTOTAL-SPKJ202310050.htm
[6]	SHANG Y J, ZHOU H F, HE R H, et al. Dietary modification for reproductive health in women with polycystic ovary syndrome: a systematic review and meta-analysis[J]. Front Endocrinol (Lausanne), 2021, 12: 735954. DOI: 10.3389/fendo.2021.735954.
[7]	ABDOLLAHI S, SOLTANI S, DE SOUZA R J, et al. Associations between maternal dietary patterns and perinatal outcomes: a systematic review and meta-analysis of cohort studies[J]. Adv Nutr, 2021, 12(4): 1332-1352. doi: 10.1093/advances/nmaa156
[8]	ZEGERS-HOCHSCHILD F, ADAMSON G D, DE MOUZON J, et al. International Committee for Monitoring Assisted Reproductive Technology (ICMART) and the World Health Organization (WHO) revised glossary of ART terminology, 2009[J]. Fertil Steril, 2009, 92(5): 1520-1524. doi: 10.1016/j.fertnstert.2009.09.009
[9]	夏娟, 卓勤, 何宇纳. 24小时膳食回顾法和食物频率法评估人群脂肪摄入的比较[J]. 卫生研究, 2016, 45(3): 420-424. https://www.cnki.com.cn/Article/CJFDTOTAL-WSYJ201603013.htm XIA J, ZHUO Q, HE Y N. Comparison of 24 hour dietary recalls with a food frequency questionnaire in evaluating dietary fat intakes[J]. Journal of Hygiene Research, 2016, 45(3): 420-424. https://www.cnki.com.cn/Article/CJFDTOTAL-WSYJ201603013.htm
[10]	俞碧君, 宋迎香, 秦华珍, 等. 超重与肥胖2型糖尿病患者的膳食能量摄入调查分析[J]. 中华全科医学, 2021, 19(10): 1780-1783. doi: 10.16766/j.cnki.issn.1674-4152.002166 YU B J, SONG Y X, QIN H Z, et al. Analysis of dietary energy intake in overweight and obese patients with type 2 diabetes mellitus[J]. Chinese Journal of General Practice, 2021, 19(10): 1780-1783. doi: 10.16766/j.cnki.issn.1674-4152.002166
[11]	曹清明, 王蔚婕, 张琳, 等. 中国居民平衡膳食模式的践行: 《中国居民膳食指南(2022)》解读[J]. 食品与机械, 2022, 38(6): 22-29. https://www.cnki.com.cn/Article/CJFDTOTAL-SPJX202206004.htm CAO Q M, WANG W J, ZHANG L, et al. The practice of balanced diet model for Chinese residents: interpretation of dietary guidelines for Chinese residents(2022)[J]. Food & Machinery, 2022, 38(6): 22-29. https://www.cnki.com.cn/Article/CJFDTOTAL-SPJX202206004.htm
[12]	文慧丽, 刘晓军, 陈佳佳, 等. 主成分分析法研究深圳地区妊娠糖尿病孕妇营养素摄入及膳食模式调查[J]. 中国优生与遗传杂志, 2022, 30(11): 2073-2078. https://www.cnki.com.cn/Article/CJFDTOTAL-ZYYA202211034.htm WEN H L, LIU X J, CHEN J J, et al. Study on nutrient intake and dietary pattern of pregnant women with gestational diabetes mellitus in Shenzhen area by principal component analysis[J]. Chinese Journal of Birth Health & Heredity, 2022, 30(11): 2073-2078. https://www.cnki.com.cn/Article/CJFDTOTAL-ZYYA202211034.htm
[13]	CARSON S A, KALLEN A N. Diagnosis and management of infertility a review[J]. JAMA, 2021, 326(1): 65-76. doi: 10.1001/jama.2021.4788
[14]	郭兴萍, 张芳, 李艳梅, 等. 育龄妇女饮食习惯对原发不孕症发生的影响[J]. 中国药物与临床, 2019, 19(2): 230-233. https://www.cnki.com.cn/Article/CJFDTOTAL-YWLC201902016.htm GUO X P, ZHANG F, LI Y M, et al. Effects of dietary habits on primary infertility in women of childbearing age[J]. Chinese Remedies & Clinics, 2019, 19(2): 230-233. https://www.cnki.com.cn/Article/CJFDTOTAL-YWLC201902016.htm
[15]	张甜甜, 张欢欢, 邹晓燕, 等. 应用膳食平衡指数评价高龄不孕女性的膳食质量[J]. 营养学报, 2021, 43(2): 120-124. https://www.cnki.com.cn/Article/CJFDTOTAL-YYXX202102007.htm ZHANG T T, ZHANG H H, ZHOU X Y, et al. Assessment of dietary quality by diet balance index in elderly infertile women[J]. Acta Nutrimenta Sinica, 2021, 43(2): 120-124. https://www.cnki.com.cn/Article/CJFDTOTAL-YYXX202102007.htm
[16]	BU T, TANG D S, LIU Y H, et al. Trends in dietary patterns and diet-related behaviors in China[J]. Am J Health Behav, 2021, 45(2): 371-383. doi: 10.5993/AJHB.45.2.15
[17]	FABOZZI G, VERDONE G, ALLORI M, et al. Personalized nutrition in the management of female infertility: new insights on chronic low-grade inflammation[J]. Nutrients, 2022, 14(9): 1918. doi: 10.3390/nu14091918
[18]	丁心悦, 杨振宇, 赵丽云, 等. 膳食模式与中国2~5岁儿童营养不良关系[J]. 中国公共卫生, 2021, 37(5): 865-870. https://www.cnki.com.cn/Article/CJFDTOTAL-ZGGW202105020.htm DING X Y, YANG Z Y, ZHAO L Y, et al. Associations of dietary patterns with malnutrition among 2-5 years old children in China[J]. Chinese Journal of Public Health, 2021, 37(5): 865-870. https://www.cnki.com.cn/Article/CJFDTOTAL-ZGGW202105020.htm
[19]	SCANNELL N, MORAN L, MANTZIORIS E, et al. Efficacy, feasibility and acceptability of a mediterranean diet intervention on hormonal, metabolic and anthropometric measures in overweight and obese women with polycystic ovary syndrome: study protocol[J]. Metabolites, 2022, 12(4): 311. doi: 10.3390/metabo12040311
[20]	GASKINS A J, NASSAN F L, CHIU Y H, et al. Dietary patterns and outcomes of assisted reproduction[J]. Am J Obstet Gynecol, 2019, 220(6): 561-567.
[21]	JAHANGIRIFAR M, TAEBI M, NASR-ESFAHANI M H, et al. Dietary patterns and the outcomes of assisted reproductive techniques in women with primary infertility: a prospective cohort study[J]. Int J Fertil Steril, 2019, 12(4): 316-323.
[22]	ESKEW A M, BEDRICK B S, CHAVARRO J E, et al. Dietary patterns are associated with improved ovarian reserve in overweight and obese women: a cross-sectional study of the Lifestyle and Ovarian Reserve (LORe) cohort[J]. Reprod Biol Endocrinol, 2022, 20(1): 33. doi: 10.1186/s12958-022-00907-4
[23]	焦晓柯, 曹红霞, 王丹丹, 等. 超重/肥胖不孕症患者孕前体质量控制情况及影响因素分析[J]. 中华全科医学, 2022, 20(3): 435-437, 486. doi: 10.16766/j.cnki.issn.1674-4152.002371 JIAO X K, CAO H X, WANG D D, et al. Analysis of prepregnancy body quality control and its influencing factors in overweight/obese infertility patients[J]. Chinese Journal of General Practice, 2022, 20(3): 435-437, 486. doi: 10.16766/j.cnki.issn.1674-4152.002371
[24]	TRAJKOVSKA PETKOSKA A, TRAJKOVSKA-BROACH A. Mediterranean diet: a nutrient-packed diet and a healthy lifestyle for a sustainable world[J]. J Sci Food Agric, 2021, 101(7): 2627-2633. doi: 10.1002/jsfa.10907