Zhang Man, Zhang Na, Zhou Mingzhu, Ma Guansheng
Department of Nutrition and Food Hygiene, School of Public Health, Peking University, Beijing, China.
Laboratory of Toxicological Research and Risk Assessment for Food Safety, Peking University, Beijing, China.
Front Nutr. 2022 Sep 20;9:903214. doi: 10.3389/fnut.2022.903214. eCollection 2022.
To examine the association between the neighborhood food environment and dietary diversity score (DDS) among elderly people in China.
Participants were recruited from 12 communities in Beijing, China, in 2019, using a multi-stage stratified random sampling method. Participants ( = 1,764, 730 men) in this study were elderly people aged 65 to 80. A questionnaire survey was used to investigate the intake of various foods in the past 3 days, and their dietary diversity score (DDS) was calculated. Baidu Map Application Programming Interface was used to measure the neighborhood food environments, including the density of and proximity to different food outlets. Adjusted multiple linear regression was performed to estimate the association between the neighborhood food environment and DDS.
A total of 1,800 questionnaires were distributed, and 1,775 questionnaires were returned. The questionnaire response rate was 98.6%. Among them, the number of valid questionnaires was 1,764, and the valid rate was 99.4%. The mean age of the participants was 69.7 ± 4.3, and the average DDS was 7.2 ± 1.4. Among the three types of stores, convenience stores had the best access, followed by greengrocers, and finally supermarkets. Sit-down restaurants had the nearest walking distance, Chinese fast-food restaurants had the largest number, and western fast-food restaurants were the most difficult to access. Better access to supermarkets tended to be associated with higher DDS score within all the buffer zones (250 m buffer zone: β = 0.495, < 0.001; 500 m buffer zone: β = 0.341, < 0.001; 800 m buffer zone: β = 0.163, < 0.001; 1,000 m buffer zone: β = 0.243, < 0.001). However, greengrocers were negatively associated with DDS score within all the buffer zones (250 m buffer zone: β = -0.475, < 0.001; 500 m buffer zone: β = -0.161, < 0.001; 800 m buffer zone: β = -0.090, < 0.001; 1000 m buffer zone: β = -0.112, < 0.001). As for convenience stores, we only found significant results within the 250 m buffer zone (β = 0.075, = 0.002). Among the three types of restaurants, the results were inconsistent within different buffer zones. Sit-down restaurants were negatively associated with DDS score within 250 m buffer zone (β = -0.257, < 0.001), and positively associated with DDS score within 1,000 m buffer zone (β = 0.018, < 0.001). Living in areas with more Chinese fast-food restaurants tended to have higher DDS within 250 m buffer zone (β = 0.357, < 0.001); however, there was a opposite result within 1,000 m buffer zone (β = -0.044, < 0.001). Better access to western fast-food restaurants tended to be associated with lower DDS score within 500 m buffer zone (β = -0.235, < 0.001) and higher DDS score within 1,000 m buffer zone (β = 0.189, < 0.001). There was a negative correlation between the nearest distance to the supermarket and the DDS score (β = -0.002, < 0.001), and the nearest distance to the greengrocer was directly positively correlated with the DDS score (β = 0.004, < 0.001).
This study suggests that supermarkets may increase the DDS score among older adults in Beijing, while greengrocers may reduce the DDS score. However, the current results are not strong enough to draw specific conclusions. Policymakers need to rely on more evidence to make specific policy recommendations.
探讨中国老年人邻里食物环境与饮食多样性得分(DDS)之间的关联。
2019年采用多阶段分层随机抽样方法,从中国北京的12个社区招募参与者。本研究中的参与者(n = 1764,男性730名)为65至80岁的老年人。通过问卷调查过去3天各类食物的摄入量,并计算其饮食多样性得分(DDS)。利用百度地图应用程序编程接口测量邻里食物环境,包括不同食品店的密度和距离。进行调整后的多元线性回归,以估计邻里食物环境与DDS之间的关联。
共发放问卷1800份,回收1775份。问卷回复率为98.6%。其中有效问卷1764份,有效率为99.4%。参与者的平均年龄为69.7±4.3岁,平均DDS为7.2±1.4。在三类商店中,便利店的可达性最好,其次是蔬菜水果店,最后是超市。正餐餐厅的步行距离最近,中式快餐店数量最多,西式快餐店最难到达。在所有缓冲区(250米缓冲区:β = 0.495,P < 0.001;500米缓冲区:β = 0.341,P < 0.001;800米缓冲区:β = 0.163,P < 0.001;1000米缓冲区:β = 0.243,P < 0.001),更好的超市可达性往往与更高的DDS得分相关。然而,在所有缓冲区(250米缓冲区:β = -0.475,P < 0.001;500米缓冲区:β = -0.161,P < 0.001;800米缓冲区:β = -0.090,P < 0.001;1000米缓冲区:β = -0.112,P < 0.001),蔬菜水果店与DDS得分呈负相关。至于便利店,我们仅在250米缓冲区发现显著结果(β = 0.075,P = 0.002)。在三类餐厅中,不同缓冲区的结果不一致。正餐餐厅在250米缓冲区与DDS得分呈负相关(β = -0.257,P < 0.001),在1000米缓冲区与DDS得分呈正相关(β = 0.018,P < 0.001)。在250米缓冲区,居住在中式快餐店较多地区的人往往DDS较高(β = 0.357,P < 0.001);然而,在1000米缓冲区则有相反结果(β = -0.044,P < 0.001)。在500米缓冲区,更好的西式快餐店可达性往往与较低的DDS得分相关(β = -0.235,P < 0.001),在1000米缓冲区与较高的DDS得分相关(β = 0.189,P < 0.001)。到超市的最近距离与DDS得分呈负相关(β = -0.002,P < 0.001),到蔬菜水果店的最近距离与DDS得分呈直接正相关(β = 0.004,P < 0.001)。
本研究表明,超市可能会提高北京老年人的DDS得分,而蔬菜水果店可能会降低DDS得分。然而,目前的结果不足以得出具体结论。政策制定者需要依靠更多证据来提出具体的政策建议。
