北京大学学报(医学版) ›› 2024, Vol. 56 ›› Issue (5): 794-801. doi: 10.19723/j.issn.1671-167X.2024.05.007

• 论著 • 上一篇    下一篇

中国三地乳母乳汁维生素A营养状况及影响因素

秦婧1,2, 周玉博1,2,*(), 李宏田1,2, 孟莹1,2, 刘建蒙1,2,*()   

  1. 1. 北京大学生育健康研究所,国家卫生健康委员会生育健康重点实验室, 北京 100191
    2. 北京大学公共卫生学院流行病与卫生统计学系, 北京 100191
  • 收稿日期:2021-02-27 出版日期:2024-10-18 发布日期:2024-10-16
  • 通讯作者: 周玉博,刘建蒙 E-mail:zhouyubo@bjmu.edu.cn;liujm@pku.edu.cn

Nutritional status and influencing factors of breast milk vitamin A among lactating women in three regions of Chin

Jing QIN1,2, Yubo ZHOU1,2,*(), Hongtian LI1,2, Ying MENG1,2, Jianmeng LIU1,2,*()   

  1. 1. Institute of Reproductive and Child Health, Peking University; National Health Commission Key Laboratory of Reproductive Health, Beijing 100191, China
    2. Department of Epidemiology and Biostatistics, Peking University School of Public Health, Beijing 100191, China
  • Received:2021-02-27 Online:2024-10-18 Published:2024-10-16
  • Contact: Yubo ZHOU, Jianmeng LIU E-mail:zhouyubo@bjmu.edu.cn;liujm@pku.edu.cn

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摘要:

目的: 分析中国威海、岳阳、包头三地乳母乳汁维生素A(vitamin A, VitA)水平,评价乳母乳汁VitA的营养状况及其影响因素。方法: 2014年5月至7月在山东省威海市、湖南省岳阳市和内蒙古包头市于产后(42±7) d募集乳母403例,通过调查问卷收集乳母和新生儿基本信息及乳母近1个月内鱼类摄入情况,采集乳母乳汁并采用高效液相色谱法检测乳汁视黄醇浓度,以此代表VitA水平。依据视黄醇浓度,将乳母乳汁VitA营养状况分为缺乏(< 1.05 μmol/L)和充足(≥1.05 μmol/L)。采用多因素分位数回归计算调整后的乳汁视黄醇浓度,Kruskal-Wallis H检验和Mann-Whitney U检验评估不同特征人群视黄醇浓度差异情况,Logistic回归模型分析乳汁VitA缺乏的可能影响因素。结果: 中国三地乳母乳汁视黄醇M(P25, P75)为1.15 (0.83, 1.49) μmol/L。多因素分析结果显示,调整后的乳汁视黄醇浓度与乳母居住地区、年龄、民族、受教育程度、体重指数、产次、分娩孕周、分娩方式、哺乳方式、鱼类摄入量和新生儿出生体质量有关。乳母乳汁整体VitA缺乏率为41.9%,威海、岳阳和包头地区的缺乏率分别为34.8%、39.6%和51.5%。与威海地区乳母相比,包头地区乳母乳汁VitA缺乏的调整OR值为1.75 (95%CI: 1.05~2.92);与受教育程度为大专及以上乳母相比,初中及以下乳母乳汁VitA缺乏的调整OR值为2.16 (95%CI: 1.10~4.24);与鱼类摄入量少的乳母相比,鱼类摄入量多的乳母乳汁VitA缺乏的调整OR值为0.55 (95%CI: 0.36~0.84)。结论: 调查地区乳母乳汁整体VitA缺乏率为41.9%,提示乳汁VitA缺乏及婴儿VitA摄入不足情况较为普遍。包头地区、受教育程度低和鱼类摄入量少增加乳汁VitA缺乏发生风险,提示宜重点关注欠发达地区乳母的乳汁营养状况,加强健康教育,增加鱼类等含VitA的食物摄入。[关键词] 维生素A;乳母;乳汁

关键词: 维生素A, 乳母, 乳汁

Abstract:

Objective: To evaluate the nutritional status of vitamin A (VitA) in breast milk and its influencing factors among lactating women in the Weihai, Yueyang, and Baotou of China. Methods: From May to July 2014, 403 lactating mothers at (42±7) d postpartum were recruited from three Chinese cities, Weihai in Shandong Province, Yueyang in Hunan Province, and Baotou in Inner Mongolia. Basic information of lactating women and newborns and fish intake information of the lactating women in the last month were collected. The concentration of retinol in breast milk was collected and measured using high-performance liquid chromatography to determine the levels of VitA. According to the breast milk retinol concentration, the nutritional status of breast milk VitA among the lactating women was divi-ded into deficiency (< 1.05 μmol/L) and sufficient (≥1.05 μmol/L). The multivariate quantile regression was used to calculate the adjusted breast milk retinol concentrations. The Kruskal-Wallis H test and the Mann-Whitney U test were used to test the difference of breast milk retinol concentration according to the characteristics of the lactating women. The Logistic regression was used to analyze the effect of characteristics of lactating women on breast milk VitA deficiency. Results: The M (P25, P75) of breast milk retinol concentration among the Chinese lactating women was 1.15 (0.83, 1.49) μmol/L. Multivariate analysis showed that the adjusted breast milk retinol concentration was related to the regions, maternal age, ethnicity, education levels, body mass index (BMI), parity, gestational age, delivery modes, breastfeeding practice, fish intake and birth weight of the infants. The prevalence of VitA deficiency in breast milk among all the lactating women was 41.9%. In Weihai, Yueyang, and Baotou, the prevalence rates were 34.8%, 39.6%, and 51.5%, respectively. Compared with the women in Weihai, the adjusted OR for breast milk VitA deficiency among the women in Baotou was 1.75 (95%CI: 1.05-2.92). Compared with the women having college and above education, the adjusted OR for breast milk VitA deficiency among those having junior high school and below education were 2.16 (95%CI: 1.10-4.24). Compared with women with low fish intake, the adjusted OR for breast milk VitA deficiency among those with high fish intake were 0.55 (95%CI: 0.36-0.84). Conclusion: The prevalence of breast milk VitA deficiency among the Chinese lactating women was 41.9%, suggesting that breast milk VitA deficiency in lactating women and inadequate VitA intake for infants were common in China. The women in Baotou, low educational status and low fish intake increased the risk of breast milk VitA deficiency, suggesting that attention should be paid to the nutritional status of lactating women in underdeveloped regions such as inland region, and education for health should be enhanced and food containing VitA such as fish intake should be increased.

Key words: Vitamin A, Lactating women, Breast milk

中图分类号: 

  • R153.1

表1

乳母乳汁视黄醇浓度及乳汁维生素A缺乏状况"

Characteristics Cases, n (%) Retinol concentration /(μmol/L) Vitamin A deficiency
M (P25, P75) P value Cases, n (%) χ2 P value
Mothers
 1Regions 0.008 8.15 0.017
  Weihai 135 (33.5) 1.20 (0.91, 1.57)b 47 (34.8)a
  Yueyang 134 (33.3) 1.20 (0.88, 1.54)ab 53 (39.6)a
  Baotou 134 (33.3) 1.03 (0.72, 1.39)a 69 (51.5)b
 Age /years 0.113 1.91 0.384
  <25 60 (14.9) 1.05 (0.73, 1.37)   30 (50.0)
  25-<30 251 (62.3) 1.16 (0.81, 1.48) 101 (40.2)
  ≥30 92 (22.8) 1.16 (0.88, 1.68) 38 (41.3)
 Ethnicity 0.491 0.50 0.478
  Han 385 (95.5) 1.16 (0.83, 1.49) 160 (41.6)
  Others 18 (4.5) 1.05 (0.83, 1.32) 9 (50.0)
 Education levels 0.125 5.17 0.075
  College or above 270 (67.0) 1.18 (0.85, 1.55) 105 (38.9)
  High school 91 (22.6) 1.09 (0.78, 1.38) 40 (44.0)
  Middle school or less 42 (10.4) 1.01 (0.84, 1.32) 24 (57.1)
 Body mass index /(kg/m2) 0.038 5.19 0.075
  <18.5 9 (2.2) 1.40 (1.17, 1.94) 2 (22.2)
  18.5-<25 273 (67.7) 1.18 (0.85, 1.54) 107 (39.2)
  ≥25 121 (30.0) 1.05 (0.81, 1.31) 60 (49.6)
 Parity 0.958 0.06 0.812
  Nulliparous 343 (85.1) 1.15 (0.82, 1.50) 143 (41.7)
  Multiparous 60 (14.9) 1.14 (0.85, 1.43) 26 (43.3)
 Gestational age /weeks 0.060 2.80 0.277
  <37 16 (4.0) 1.37 (1.05, 1.91) 4 (25.0)
  37-<42 379 (94.0) 1.13 (0.81, 1.47) 163 (43.0)
  ≥42 8 (2.0) 1.26 (1.13, 1.51) 2 (25.0)
 Delivery modes 0.753 1.28 0.258
  Vaginal delivery 242 (60.0) 1.16 (0.84, 1.45) 96 (39.7)
  Cesarean section 161 (40.0) 1.11 (0.81, 1.54) 73 (45.3)
 Breastfeeding practice 0.002 2.29 0.130
  Exclusively breastfeeding 240 (59.6) 1.11 (0.75, 1.38)a 108 (45.0)
  Partially breastfeeding 163 (40.4) 1.20 (0.92, 1.66)b 61 (37.4)
 Fish /(g/d) <0.001 13.02 <0.001
  ≤30 203 (50.4) 1.04 (0.74, 1.34)a 103 (50.7)b
  >30 200 (49.6) 1.23 (0.93, 1.68)b 66 (33.0)a
Infants
 Gender 0.554 0.39 0.531
  Male 212 (52.6) 1.13 (0.81, 1.53) 92 (43.4)
  Female 191 (47.4) 1.17 (0.85, 1.45) 77 (40.3)
 Birth weight /g 0.591 0.81 0.760
  <2 500 5 (1.2) 0.99 (0.99, 2.63) 3 (60.0)
  2 500-<4 000 358 (88.8) 1.15 (0.83, 1.46) 150 (41.9)
  ≥4 000 40 (9.9) 1.24 (0.82, 1.65) 16 (40.0)

表2

乳母乳汁视黄醇浓度的多因素分位数回归结果"

Characteristics Adjusted M (P25, P75) P value Coefficients (95%CI) P value
Mothers
 Regions <0.001
  Weihai 1.18 (0.88, 1.56)b Ref.
  Yueyang 1.19 (0.87, 1.58)b 0.02 (-0.16, 0.10) 0.847
  Baotou 1.03 (0.70, 1.33)a -0.07 (-0.22, 0.02) 0.381
 Age/years 0.003
  <25 1.07 (0.70, 1.38)a -0.01 (-0.26, 0.08) 0.878
  25-<30 1.13 (0.81, 1.48)b Ref.
  ≥30 1.19 (0.91, 1.65)b -0.01 (-0.12, 0.15) 0.857
 Ethnicity 0.008
  Han 1.14 (0.84, 1.49)b Ref.
  Others 1.00 (0.84, 1.19)a -0.17 (-0.24, 0.06) 0.190
 Education levels <0.001
  College or above 1.21 (0.86, 1.52)b Ref.
  High school 1.02 (0.77, 1.43)a -0.17 (-0.24, -0.04) 0.033
  Middle school or less 1.01 (0.79, 1.34)a -0.22 (-0.33, 0.03) 0.051
 Body mass index /(kg/m2) <0.001
  <18.5 1.50 (1.33, 1.62)c 0.46 (0.27, 0.59) 0.012
  18.5-<25 1.18 (0.85, 1.52)b Ref.
  ≥25 1.01 (0.79, 1.36)a -0.10 (-0.20, 0.02) 0.144
 Parity 0.017
  Nulliparous 1.14 (0.83, 1.48)b Ref.
  Multiparous 1.07 (0.86, 1.59)a -0.01 (-0.18, 0.10) 0.924
 Gestational age /weeks 0.001
  <37 1.35 (1.25, 1.84)b 0.29 (0.11, 0.55) 0.088
  37-<42 1.12 (0.81, 1.48)a Ref.
  ≥42 1.22 (1.13, 1.65)ab 0.08 (-0.17, 0.48) 0.694
 Delivery modes 0.046
  Vaginal delivery 1.13 (0.86, 1.47)b Ref.
  Cesarean section 1.12 (0.77, 1.55)a 0.03 (-0.03, 0.17) 0.693
 Breastfeeding practice <0.001
  Exclusively breastfeeding 1.08 (0.77, 1.38)a Ref.
  Partially breastfeeding 1.22 (0.93, 1.70)b 0.13 (0.05, 0.25) 0.034
 Fish /(g/d) <0.001
  ≤30 1.03 (0.71, 1.37)a Ref.
  >30 1.27 (0.92, 1.60)b 0.18 (0.08, 0.28) 0.009
Infants
 Gender 0.541
  Male 1.12 (0.81, 1.47) Ref.
  Female 1.14 (0.85, 1.52) 0.01 (-0.08, 0.08) 0.824
 Birth weight/g 0.016
  <2 500 1.04 (0.99, 2.38)ab -0.24 (-0.48, 1.16) 0.736
  2 500-<4 000 1.12 (0.83, 1.48)a Ref.
  ≥4 000 1.24 (0.83, 1.63)b 0.14 (-0.10, 0.28) 0.248

表3

乳母乳汁维生素A缺乏的多因素Logistic回归结果"

Characteristics β Standard error Wald χ2 Adjusted OR (95%CI) P value
Mothers
 Regions 4.72 0.094
  Weihai Ref.
  Yueyang 0.18 0.26 0.49 1.20 (0.72, 1.99) 0.484
  Baotou 0.56 0.26 4.56 1.75 (1.05, 2.92) 0.033
 Education levels 5.04 0.080
  College or above Ref.
  High school 0.19 0.25 0.54 1.21 (0.73, 1.98) 0.462
  Middle school or less 0.77 0.35 4.95 2.16 (1.10, 4.24) 0.026
 Fish /(g/d)
  ≤30 Ref.
  >30 -0.60 0.22 7.74 0.55 (0.36, 0.84) 0.005
1 Tanumihardjo SA , Russell RM , Stephensen CB , et al. Bio-markers of nutrition for development (BOND): Vitamin A review[J]. J Nutr, 2016, 146 (9): 1816- 1848.
doi: 10.3945/jn.115.229708
2 W HO . Global prevalence of vitamin A deficiency in populations at risk 1995-2005: WHO global database on vitamin A deficiency[M]. Geneva: World Health Organization, 2009: 17.
3 Stoltzfus RJ , Underwood BA . Breast-milk vitamin A as an indicator of the vitamin A status of women and infants[J]. Bull World Health Organ, 1995, 73 (5): 703- 711.
4 Gartner LM , Morton J , Lawrence RA , et al. Breastfeeding and the use of human milk[J]. Pediatrics, 2005, 115 (2): 496- 506.
doi: 10.1542/peds.2004-2491
5 Ross JS , Harvey PW . Contribution of breastfeeding to vitamin A nutrition of infants: A simulation model[J]. Bull World Health Organ, 2003, 81 (2): 80- 86.
6 Dror DK , Allen LH . Retinol-to-fat ratio and retinol concentration in human milk show similar time trends and associations with maternal factors at the population level: A systematic review and meta-analysis[J]. Adv Nutr, 2018, 9 (Suppl 1): 332- 346.
7 方芳, 李婷, 李艳杰, 等. 呼和浩特地区母乳中脂溶性VA、VD、VE含量[J]. 乳业科学与技术, 2014, 37 (3): 5- 7.
8 Jiang J , Xiao H , Wu K , et al. Retinol and α-tocopherol in human milk and their relationship with dietary intake during lactation[J]. Food Funct, 2016, 7 (4): 1985- 1991.
doi: 10.1039/C5FO01293G
9 刘静. 呼和浩特市母乳中维生素含量的研究[J]. 食品研究与开发, 2016, 37 (16): 20- 22.
10 侯成, 冉霓, 衣明纪. 母乳中的维生素A水平及其影响因素[J]. 中华围产医学杂志, 2018, 21 (11): 783- 787.
11 Dror DK , Allen LH . Overview of nutrients in human milk[J]. Adv Nutr, 2018, 9 (Suppl 1): 278- 294.
12 Li Y , Li HT , Trasande L , et al. DHA in pregnant and lactating women from coastland, lakeland, and inland areas of China: Results of a DHA evaluation in women (DEW) study[J]. Nutrients, 2015, 7 (10): 8723- 8732.
13 Liu MJ , Li HT , Yu LX , et al. A correlation study of DHA dietary intake and plasma, erythrocyte and breast milk DHA concentrations in lactating women from coastland, lakeland, and inland areas of China[J]. Nutrients, 2016, 8 (5): 312.
14 Zhou YB , Li HT , Trasande L , et al. A correlation study of DHA intake estimated by a FFQ and concentrations in plasma and erythrocytes in mid and late pregnancy[J]. Nutrients, 2017, 9 (11): 1256.
15 杨月欣. 中国食物成分表[M]. 北京: 北京医科大学出版社, 2002: 142.
16 Tanumihardjo SA , Penniston KL . Simplified methodology to determine breast milk retinol concentrations[J]. J Lipid Res, 2002, 43 (2): 350- 355.
17 Tanumihardjo SA , Howe JA . Twice the amount of alpha-carotene isolated from carrots is as effective as beta-carotene in maintaining the vitamin A status of Mongolian gerbils[J]. J Nutr, 2005, 135 (11): 2622- 2626.
18 West KP Jr . Extent of vitamin A deficiency among preschool children and women of reproductive age[J]. J Nutr, 2002, 132 (Suppl 9): 2857- 2866.
19 WHO Expert Committee . Physical status: The use and interpretation of anthropometry[M]. Geneva: World Health Organization, 1995: 329.
20 Mcgreevy KM , Lipsitz SR , Linder JA , et al. Using median regression to obtain adjusted estimates of central tendency for skewed laboratory and epidemiologic data[J]. Clin Chem, 2009, 55 (1): 165- 169.
21 Rice AL , Stoltzfus RJ , De Francisco A , et al. Maternal vitamin A or beta-carotene supplementation in lactating bangladeshi women benefits mothers and infants but does not prevent subclinical deficiency[J]. J Nutr, 1999, 129 (2): 356- 365.
22 Kim H , Jung BM , Lee BN , et al. Retinol, α-tocopherol, and selected minerals in breast milk of lactating women with full-term infants in South Korea[J]. Nutr Res Pract, 2017, 11 (1): 64- 69.
23 Sakurai T , Furukawa M , Asoh M , et al. Fat-soluble and water-soluble vitamin contents of breast milk from Japanese women[J]. J Nutr Sci Vitaminol (Tokyo), 2005, 51 (4): 239- 247.
24 Bezerra DS , de raújo AKF , Azevêdo GM , et al. A randomized trial evaluating the effect of 2 regimens of maternal vitamin a supplementation on breast milk retinol levels[J]. J Hum Lact, 2010, 26 (2): 148- 156.
25 Abebe Z , Haki GD , Schweigert FJ , et al. Low breastmilk vitamin A concentration is prevalent in rural Ethiopia[J]. Eur J Clin Nutr, 2019, 73 (8): 1110- 1116.
26 Panpanich R , Vitsupakorn K , Harper G , et al. Serum and breast-milk vitamin A in women during lactation in rural Chiang Mai, Thailand[J]. Ann Trop Paediatr, 2002, 22 (4): 321- 324.
27 Engle-Stone R , Haskell MJ , Nankap M , et al. Breast milk retinol and plasma retinol-binding protein concentrations provide similar estimates of vitamin A deficiency prevalence and identify similar risk groups among women in Cameroon but breast milk retinol underestimates the prevalence of deficiency among young children[J]. J Nutr, 2014, 144 (2): 209- 217.
28 Souza G , Saunders C , Dolinsky M , et al. Vitamin A concentration in mature human milk[J]. J Pediatr (Rio J), 2012, 88 (6): 496- 502.
29 Jingxiong J , Toschke AM , von Kries R , et al. Vitamin A status among children in China[J]. Public Health Nutr, 2007, 9 (8): 955- 960.
30 Li Q , Tian J , Xu F , et al. Breastfeeding in China: A review of changes in the past decade[J]. Int J Environ Res Public Health, 2020, 17 (21): 8234.
31 殷泰安, 刘冬生, 李丽祥, 等. 北京市城乡乳母的营养状况、乳成分、乳量及婴儿生长发育关系的研究Ⅴ.母乳中维生素及无机元素的含量[J]. 营养学报, 1989, 1 (3): 233- 239.
32 朱大洲, 张婉, 王亚娟, 等. 乳母膳食与母婴营养关系的研究进展[J]. 中国食物与营养, 2018, 24 (9): 52- 56.
33 王宇, 李宏田, 于丽霞, 等. 中国沿海、湖区和内陆地区孕妇水产品摄入情况调查[J]. 中国生育健康杂志, 2018, 29 (2): 110- 116.
34 Greco CB , López LB , Rodríguez V , et al. Comparison of vitamin A intake from breast milk and from complementary foods in the diet of six-month old infants in Jujuy and Buenos Aires[J]. Arch Argent Pediatr, 2014, 112 (5): 439- 442.
35 Lima MS , da Silva-Ribeiro KD , Pires JF , et al. Breast milk retinol concentration in mothers of preterm newborns[J]. Early Hum Dev, 2017, 106/107, 41- 45.
36 Mello-Neto J , Rondó PH , Oshiiwa M , et al. The influence of maternal factors on the concentration of vitamin A in mature breast milk[J]. Clin Nutr, 2009, 28 (2): 178- 181.
37 Sámano R , Martínez-Rojano H , Hernández RM , et al. Retinol and α-tocopherol in the breast milk of women after a high-risk preg-nancy[J]. Nutrients, 2017, 9 (1): 14.
38 de Vriendt T , Matthys C , Verbeke W , et al. Determinants of nutrition knowledge in young and middle-aged Belgian women and the association with their dietary behaviour[J]. Appetite, 2009, 52 (3): 788- 792.
39 Xue Y , Campos-Giménez E , Redeuil KM , et al. Concentrations of carotenoids and tocopherols in breast milk from urban Chinese mothers and their associations with maternal characteristics: A cross-sectional study[J]. Nutrients, 2017, 9 (11): 1229.
40 Silvestre D , Miranda M , Muriach M , et al. Frozen breast milk at -20 degrees C and -80 degrees C: A longitudinal study of glutathione peroxidase activity and malondialdehyde concentration[J]. J Hum Lact, 2010, 26 (1): 35- 41.
41 方芳, 李婷, 司徒文佑, 等. 母乳维生素及活性成分在-80 ℃保存过程中的稳定性[J]. 乳业科学与技术, 2016, 39 (4): 32- 35.
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