Folate and Vitamin B12 Status and Related Dietary Factors among the Elderly Northern and Southern Rural Chinese Population

LIU Zhen , MAN Qing Qing , JIA Shan Shan , SONG Peng Kun , WANG Jing Zhong , WANG Xi Le ,KANG Bing Xian, YANG Li Gui, and ZHANG Jian,#

Folate and vitamin B12are involved in the carbon metabolism pathway supplying essential methyl groups for DNA and protein synthesis and play a vital role in individual health.They have also been shown to be associated with cardiovascular disease,especially stroke[1].A recent study showed that stroke was the leading cause of death and disabilityadjusted life years (DALYs) at the national level in China[2].Therefore,the nutritional status of folate and vitamin B12in the Chinese population is a concern.The elderly are more prone to develop folate and vitamin B12deficiencies due to poor appetite,dental defects,and issues with digestion.Our previous study showed that insufficient dietary folate and vitamin B12intake were particularly salient among rural elderly Chinese populations[3].However,few studies have assessed folate and vitamin B12statusin vivoin this population.

Since human cells cannot synthesize folate and vitamin B12de novo,these vitamins must be obtained from dietary sources.Hence,dietary factors play an important role in folate and vitamin B12levels.The geographical environment,food culture,and dietary habits are markedly different between southern and northern China,resulting in distinct dietary patterns and nutritional status[4].However,there are currently no relevant studies on the determinant factors in the diet that contribute to these geographical differences in folate and vitamin B12status among the elderly Chinese population.Accordingly,the objective of this study was to determine folate and vitamin B12status among the rural elderly population in the northern and southern counties of China and to elucidate the possible dietary factors related to folate and vitamin B12deficiencies in these regions.

Two rural non-impoverished counties were randomly selected in the south and the north of China from surveillance sites included in the 2015 China Chronic Disease and Nutrition Surveillance Study.These sites were Luxi County,the Honghe Hani and Yi Autonomous Region,Yunnan Province in the south and Wuyuan County,Bayannaoer,the Inner Mongolia Autonomous Region of China in the north.Using a random cluster sampling method from each county,a random sample of residents aged 60 years and older was surveyed from the two selected villages.A total of 439 participants were included in the study and analyzed.All participants signed informed consent,and the study was approved by the Ethics Committee of the National Institution for Nutrition and Health,Chinese Center for Disease Control and Prevention.

A face-to-face interview was conducted at the participants’ homes by trained interviewers using a standard questionnaire to collect individual demographic,socioeconomic,and lifestyle information.A semi-quantitative food frequency questionnaire was used to investigate the frequency and amount of food intake during the past year,and the daily consumption of various foods and crude energy intake were calculated. Anthropometric measurements were taken by highly trained staff at the local community health service centers using uniform equipment.Body mass index (BMI) was calculated as weight (kg) divided by height squared(m). Venous blood was extracted from all participants after an overnight fast of at least 10 h.Serum concentrations of folate and vitamin B12were measured by electrochemiluminescence immunoassay (ECLIA) using commercial kits (Cobas Folate,vitamin B12reagent kit,Roche Diagnostics,Mannheim,Germany) on a Cobas e601 analyzer(Roche Diagnostics,Mannheim,Germany).Based on the WHO Technical Consultation on folate and vitamin B12deficiencies[5],the cut-off value for defining deficiencies according to metabolic indicators was set at ＜ 4 ng/mL (10 nmol/L) for serum folate and ＜ 203 pg/mL (150 pmol/L) for serum vitamin B12.Throughout the test,the intraand inter-assay Coefficient of Variation (CV) across the full range of concentrations were 4%-9% for serum folate and 3%-7% for serum vitamin B12.

Data analysis was performed using SAS for Windows V9.3 (SAS Institute,Cary,NC,USA).Due to the skewed distribution,the geometric mean (GM)and the 95%CIwere used to describe the concentrations of serum folate and vitamin B12.The analysis of covariance was conducted to compare the difference of serum folate and vitamin B12concentrations among the groups after controlling for the potential confounders of age,gender,region,BMI,education level,income level,energy intake,and current drinking and smoking status.For categorical variables,the Chi-square test was used to examine differences between the groups.BMI was classified as underweight,normal weight,overweight,and obese (BMI ＜ 18.5,18.5-23.9,24-27.9,and ＞ 28.0,respectively).Food intake was categorized as quartiles,tertiles,or binary variables depending on the distribution of consumption.The factors contributing to folate and vitamin B12deficiency were determined by univariate and multivariate logistic regression analysis.APvalue ＜0.05 was considered statistically significant.

A total of 439 subjects aged ≥ 60 years were included in this study,with an average age of 71.0 years (Supplementary Table S1,available in www.besjournal.com).A total of 223 participants lived in Wuyuan County (northern rural) and 216 participants lived in Luxi County (southern rural).The northern participants were slightly older,had a higher BMI,and more were smokers compared to the southerners (P＜ 0.05).Overall,the geometric mean concentration of serum folate among the subjects was 5.99 ng/mL and the prevalence of folate deficiency was 27.3%.For vitamin B12,the geometric mean concentration was 318.6 pg/mL and the prevalence of vitamin B12deficiency was 14.1%.This indicated that folate and vitamin B12status were worse in the rural compared to the urban elderly population in China[6]as well as the elderly in the United States[7].

Supplementary Table S1. General characteristics of participants in the study

Moreover,the prevalence of folate deficiency was significantly higher among the elderly living in Wuyuan County (47.5%vs.6.4%),and the odds ratio(OR) of folate deficiency with regions was 13.072(95%CI:7.159-23.867,P＜ 0.001).The results were presented in Table 1.These findings may be attributed to the presence of several independent dietary factors.In our advanced analysis,we found that moderate vegetable intake (100-300 g/d) and nut consumption (≥ 0 g/d) were negatively associated with folate deficiency while high wheat consumption was positively associated with folate deficiency,with anORof 6.19 (95%CI:1.41-27.20,P=0.016),6.89 (95%CI:1.60-29.59,P=0.010),0.40(95%CI:0.17-0.96,P=0.031),and 0.44 (95%CI:0.20-0.99,P=0.048) (Supplementary Table S2,available in www.besjournal.com). In addition,among the northern rural elderly Chinese population,high wheat consumption (≥ 300 g/d)(OR=3.86,95%CI:1.35-11.04,P=0.012) and low vegetable consumption (≤ 100 g/d) (OR=3.48,95%CI:1.31-9.20,P=0.013) were positively associated with folate deficiency and high soybean and soybean product consumption (≥ 17.2 g/d) (OR=0.32,95%CI:0.11-0.96,P=0.041) were inversely associated with folate deficiency (Figure 1A).Green leafy vegetables,legumes,nuts,and liver are high in folates,whereas some staple foods such as wheat and tuber contain little.The traditional dietary pattern in the south includes rice as the major staple food with plenty of vegetable and pork dishes,and the traditional northern dietary pattern is comprised of a high intake of wheat,other cereals,and tubers[4].Riaz et al.demonstrated that most wheat cultivars in northern China lack folate and had a poor ability to accumulate it[8].The rural northerners in the current study tended to eat more wheat and consume less vegetables,fruits,and nuts,which might partly explain the difference in blood folate concentrations and folate deficiencies between the two regions.

On the other hand,as shown in Table 2,the southern elderly population had significantly lower serum B12concentrations than the northerners,even after controlling for confounders (P=0.0019).Accordingly,the subjects in the south had a higher prevalence of vitamin B12deficiency than those in the north (20.8%vs.7.6%) (P=0.0001).After further analysis,an inverse association was found between higher red meat (≥ 13.3 g/d) and milk consumption(＞ 0 g/d) and vitamin B12deficiency (OR=0.34,95%CI:0.13-0.87,P=0.025;OR=0.53,95%CI:0.29-0.98,P=0.042,respectively) (Supplementary Table S2).Moreover,among the southern elderly,moderate pork consumption (31.5-100.0 g/d),animal offal intake (≥ 0 g/d),and higher red meat intake (＞ 1.1 g/d) were found to be inversely related to vitamin B12deficiency (Figure 1B).Vitamin B12is synthesized exclusively by microorganisms and must be obtained by the regular intake of food rich in vitamin B12.Excellent sources of B12are foods of ruminant origin;therefore,dairy and meat products play an important role in meeting daily vitamin B12intake requirements.As expected,we found that the northern rural elderly consumed more animal food,including red meat,poultry,animal offal,seafood,dairy products,and eggs than the southern elderly population (Supplementary Table S3,available in www.besjournal.com).Beyond this,we found high levels of vegetable (≥ 600 g/d) and fruit (≥ 150 g/d)intake were positively associated with vitamin B12deficiency in the southerners,with anORof 4.15(95%CI:1.01-17.15) and 8.20 (95%CI:1.57-42.84),respectively.Vitamin B12is virtually absent in vegetables,which may have serious implications for certain populations.A previous study suggested that vitamin B12deficiency was common among vegetarians who had very low or no intake of animal food[9].This might explain the regional differences in vitamin B12levels between the two counties in our study.

Figure 1.(A) Odds ratios of dietary and demographic factors for folate deficiency among the elderly in rural northern China.(B) Odds ratios of dietary factors for vitamin B12 deficiency among the elderly in rural southern China.Models were controlled for independence variables using multivariate logistic regression analysis,with the normal folate group or normal vitamin B12 group as the reference.

Supplementary Table S2. Odds Ratio (95% CI) for prevalence of folate and vitamin B12 deficiency by quartiles of dietary food intake among the subjects*

Supplementary Table S3.Dietary intakes among the elderly in northern and southern counties

In addition,the prevalence of folate deficiency was higher among the population aged 70 years and older (34.4%vs.18.2%) and in smokers (34.2%vs.23.4%) (P＜ 0.05) (Table 1),whereas the prevalence of vitamin B12deficiency was much higher in theelderly who were non-smokers (P＜ 0.01).Dietary micronutrient deficiency is common at advanced ages owing to the interference of oral health problems,poor chewing and swallowing function,and physical and cognitive impairment.The chemical components of tobacco smoke can interact with folate,transform it into inactive compounds,reduce active concentrations in biological fluids,and possibly alter the ability of the cell to store and metabolize folate[10].Such biological reasons might explain the difference in folate deficiency between the different ages and smoking statuses.Furthermore,we also evaluated the difference in food consumption between the groups with different smoking statuses,and found significantly more animal food,such as pork,red meat,poultry,and seafood,among the elderly who smoked.The higher intake of meat and alcohol might explain the lower prevalence of vitamin B12deficiency in smokers.

Table 1.Distribution of serum folate concentration in the elderly rural Chinese population by geographic,demographic,and lifestyle factors

Table 2.Distribution of serum vitamin B12 concentrations in rural elderly Chinese by geographic,demographic,and lifestyle factors

There are several limitations to our study.First,the participants were chosen randomly from surveillance sites in the south and the north that were included in the 2015 China Chronic Disease and Nutrition Surveillance Study,which is a nationally and provincially representative survey that applies stratified multistage systematic clustered random sampling proportional to the populations at the urban,rural,and provincial levels.Thus,the subjects in this study had regional representations to some extent.However,this was only a pilot study due to the small sample size.Therefore,further studies using a multicenter design involving the northern and southern regions with an extensive sample size are necessary to confirm the results.In addition,the long-term or functional indicators of folate and vitamin B12status should be assessed in future studies,such as red blood cell folate concentrations,methyl methacrylate,and homocysteine levels.

The insufficient status of folate and vitamin B12among the rural Chinese population aged 60 years and older is a public health concern that must be addressed.In particular,the regional discrepancy in folate and vitamin B12deficiency requires our attention.Dietary interventions and strategies for implementation should therefore be designed according to these regional differences.

The authors declare no conflicts of interest.

#Correspondence should be addressed to ZHANG Jian,Tel:86-10-6623-7147;E-mail:zhjian6708@aliyun.com

Biographical note of the first author:LIU Zhen,female,born in 1981,Associate Researcher,majoring in nutrition and chronic diseases.