Volume 2012, Issue 1 158248
Research Article
Open Access

Feeding Bottles Usage and the Prevalence of Childhood Allergy and Asthma

Nai-Yun Hsu

Nai-Yun Hsu

Department of Environmental and Occupational Health, College of Medicine, National Cheng Kung University, Tainan 70403, Taiwan ncku.edu.tw

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Pei-Chih Wu

Pei-Chih Wu

Department of Environmental and Occupational Health, College of Medicine, National Cheng Kung University, Tainan 70403, Taiwan ncku.edu.tw

Department of Occupational Safety and Health, Chang Jung Christian University, Tainan 71101, Taiwan cjcu.edu.tw

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Carl-Gustaf Bornehag

Carl-Gustaf Bornehag

Public Health Sciences, Karlstad University, 651 88 Karlstad, Sweden kau.se

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Jan Sundell

Jan Sundell

International Centre for Indoor Environment and Energy, Technical University of Denmark, 2800 Lyngby, Denmark dtu.dk

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Huey-Jen Su

Corresponding Author

Huey-Jen Su

Department of Environmental and Occupational Health, College of Medicine, National Cheng Kung University, Tainan 70403, Taiwan ncku.edu.tw

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First published: 2012
Citations: 5
Academic Editor: Kuender D Yang

Abstract

This study aimed to examine the association between the length of use of feeding bottles or pacifiers during childhood and the prevalence of respiratory and allergic morbidities. A large-scale questionnaire survey was performed in day care centers and kindergartens (with children’s ages ranging from 2 to 7 years) in southern Taiwan, and a total of 14,862 questionnaires completed by parents were finally recruited for data analysis. Effects of using feeding bottles on children’s wheezing/asthma (adjusted OR: 1.05, 95% CI 1.00–1.09), allergic rhinitis (adjusted OR: 1.04, 95% CI 1.00–1.08), and eczema (adjusted OR: 1.07, 95% CI 1.01–1.2) were found. Moreover, significant dose-dependent relationships were further established after an adjustment for confounders was performed that included children’s ages, gender, gestational age, birth weight, length of breastfeeding, the age when first given infant formula or complementary foods, family history, parental educational levels, and smoking status, as well as the problem of indoor water damage. This study was the first to reveal the potential risk of using plastic consumer products such as feeding bottles on the reported health status of preschool children in Asian countries.

1. Introduction

Because of the multifactorial nature of pathogenesis, it is much clearer now that the rising prevalence and morbidity of childhood asthma and allergic diseases cannot be explained only by genetics and allergen exposure. Several chemicals from many common consumer products have been shown to have toxicity in animal studies and have also been suggested to have an impact on human health. For example, bisphenol A (BPA) is used to manufacture polycarbonate plastic and epoxy resins, which are used in a large number of products found indoors, such as epoxy, building components, and electronic equipment as well as protective coatings on food containers and baby bottles. Toxicological studies of animals have suggested that exposure to BPA is associated with morphologic, functional, and behavioural anomalies related to reproduction. Phthalate esters are stabilizers and plasticizers in commonly used consumer products [1] such as personal care products, food packaging, medical equipment, toys, and building materials. Experimental studies during the past decade have proposed their role as an adjuvant on TH2 differentiation or as having an association with the early phases of inflammatory response [2, 3].

We are commonly exposed to various chemicals with potential health concerns in our daily lives through the use of consumer products; however, there have been no studies attempting to verify whether the use of these kinds of products is associated with health status, especially in the case of the most susceptible group, young children. The current analysis was aimed at an examination of the association between the length of use of pacifiers or feeding bottles during childhood and the prevalence of respiratory and allergic disease/symptoms in a Taiwanese population.

2. Materials and Methods

2.1. Study Subjects

In 2005 and 2006, randomly selected kindergartens (n = 201) and day care centres (n = 259) in the Greater Tainan metropolitan area of southern Taiwan were asked through telephone interviews to participate in a questionnaire survey aimed at identifying the relationship between indoor environmental quality in the home to children’s health. An average of 73% of the successfully contacted schools (n = 335) agreed to participate and to help send a questionnaire to the parents of children between the ages of 2 and 6 who attended their schools. A total of 14,862 questionnaires were returned with a 68% response rate of questionnaires sent to the 355 kindergartens and day care centres. The study was approved by the Human Experiment and Ethics Committee at National Cheng Kung University Hospital in Tainan, Taiwan.

2.2. Questionnaire

Questions for assessment of the children’s asthma and allergy were adopted from the International Study of Asthma and Allergies in Childhood (ISAAC) protocol [4], including the following questions.

Core question for wheezing and asthma.
  • (i)

    Has your child ever had wheezing or whistling in the chest at any time in the past?

  • (ii)

    In the last 12 months, has your child had a dry cough at night for more than two weeks, apart from a cough associated with a cold or chest infection?

  • (iii)

    Has your child been diagnosed with asthma by a doctor?

Core question for allergic rhinitis.
  • (i)

    In the past 12 months, has your child had a problem with sneezing, or a runny, or a blocked nose when he/she DID NOT have a cold or the flu?

  • (ii)

    Has your child been diagnosed with hay fever or allergic rhinitis by a doctor?

Core question for eczema.
  • (i)

    Has your child ever had an itchy rash (eczema), which was coming and going for the last 6 months?

For the environmental condition component used on the questionnaire for this study, questions that were identical to the worldwide Dampness in Buildings and Health (DBH) study [5] were adopted. Questions regard to the length of use of pacifiers or feeding bottles in the survey were as follows.
  • (i)

    Did your child use a pacifier? If yes, at what age did your child stop using it?

  • (ii)

    Did your child use a feeding bottle? If yes, at what age did your child stop using feeding bottles?

There were eight options for answering either question, including “(1) never used, (2) stopped use before 1 year old, (3) stopped use before 2 years old, (4) stopped use before 3 years old, (5) stopped use before 4 years old, (6) stopped use before 5 years old, (7) stopped use before 6 years old, and (8) is still using.”

2.3. Data Analysis

Differences in the percentages between any of the groups shown in Table 2 were calculated using a chi-square, while the P value for trends was applied using a chi-square for the trend test (ordinary by ordinary) for ordinal data. Multivariable logistic regression was applied to examine the effect after adjusting for potential confounders. All statistical analysis was performed with the SPSS, version 17 (Chicago, IL, USA).

3. Results

Questionnaires were mostly filled out by mothers (62.3%). Table 1 presents the characteristics of 14,862 children, including their ages, gender, gestational age, birth weight, length of being breastfed, the age first given infant formula or complementary foods, family history, parental educational levels, and smoking status. Moreover, a high prevalence of reported water damage in the home (35.7%) was shown in southern Taiwan.

Table 1. Characteristics of study children.
n (%) n (%) of missing data*
Questionnaire filled out by 1,030 (6.9)
 Both father and mother 3,022 (21.8)
 Mother only 8,619 (62.3)
 Father only 1,738 (12.6)
 Grandparents 216 (1.6)
 Others 237 (1.7)
Age 1,700 (11.4)
 Less than 3 years old 489 (3.7)
 3 years old 1,631 (12.4)
 4 years old 3,740 (28.4)
 5 years old 5,021 (38.1)
 6 ~ 7 years old 2,281 (17.4)
Gender 2,278 (15.3)
 Female 6,101 (48.5)
 Male 6,483 (51.5)
Gestational age 521 (3.5)
 Before week 32 205 (1.4)
 In week 32–36 2,178 (15.2)
 In week 37–42 10,731 (74.8)
 In week 43 or later 745 (5.2)
 Unknown 482 (3.4)
Birth weight 230 (1.5)
 Less than 2500 grams 932 (6.4)
 2500–4200 grams 13,376 (91.4)
 More than 4200 grams 180 (1.2)
 Unknown 144 (1)
Breastfed totally or partly until 279 (1.9)
 Never 5,630 (38.6)
 Younger than 3 months 6,087 (41.7)
 3–6 months 1,371 (9.4)
 Older than 6 months 1,495 (10.3)
The age first given infant formula 969 (6.5)
 Never 248 (1.8)
 Younger than 3 months 9,739 (70.1)
 3–6 months 2,568 (18.5)
 Older than 6 months 1,338 (9.6)
The age first introducing complementary foods 590 (4)
 Never 111 (0.8)
 Younger than 3 months 220 (1.5)
 3–6 months 5,761 (40.4)
 Older than 6 months 8,180 (57.3)
Ever had allergic symptoms to foods 449 (3)
 Unknown 1,022 (7.1)
 Never 11,947 (82.9)
 Yes, ever had allergic reaction to 1,444 (10.0)
  seafood 768 (53.1)
  milk or dairy products 269 (18.4)
  eggs 233 (16.1)
  peanuts 136 (9.4)
  fish 124 (8.6)
  fruit 101 (7.0)
  soya, peas, beans 48 (3.3)
  vegetables 44 (3.1)
  nuts, almond 43 (3)
  flour 34 (2.4)
  others 376 (26.1)
Family history 424 (2.9)
 Paternal asthma 310 (2.1)
 Paternal allergic rhinitis or eczema 2,709 (18.8)
 Maternal asthma 408 (2.8)
 Maternal allergic rhinitis or eczema 2,733 (18.9)
 Sibling with asthma 643 (4.4)
 Sibling with allergic rhinitis or eczema 2,361 (16.4)
Paternal educational levels 336 (2.3)
 Junior and junior high school 2,348 (16.1)
 Senior high school 5,943 (40.9)
 Undergraduate degree 5,216 (35.9)
 Graduate degree 1,019 (7)
Maternal educational levels 369 (2.5)
 Lower than junior high school 2,117 (14.6)
 Senior high school 6,510 (44.9)
 Undergraduate degree 5,476 (37.8)
 Graduate degree 390 (2.7)
Parents smoked during the child’s first year of life 627 (4.9)
 Either father or mother smoked 6,303 (49.7)
Indoor problems with water damage 215 (1.7)
 In any room of the home 3,205 (35.7)
  • *The percentage of missing data among 14862 subjects.
Table 2. Prevalence of diseases or symptoms among study children.
Total population, % (n) Stratified by the age of child while questionnaire survey, % (n)
Less than 3 years old 3 years old 4 years old 5 years old 6 ~ 7 years old P value*
Wheezing/asthma
 Wheezing ever 28.6 (4090) 33.9 (161) 31.8 (507) 28.3 (1020) 27.6 (1325) 28.3 (618) 0.002
 Cough at night last 12 months 11.2 (1611) 11.3 (54) 12.5 (198) 11.1 (404) 10.7 (518) 10.5 (232) 0.326
 Doctor-diagnosed asthma 9.3 (1176) 6.2 (27) 8.6 (120) 8.7 (282) 10.2 (437) 9.6 (184) 0.021
Any one of the abovementioned 34.9 (5146) 39.0 (190) 38.3 (623) 34.5 (1283) 33.8 (1685) 33.9 (766) 0.002
Allergic rhinitis
 Rhinitis last 12 months 50.8 (7301) 44.2 (212) 49.5 (786) 49.1 (1778) 51.7 (2517) 53.9 (1187) <0.001
 Doctor-diagnosed rhinitis 19.3 (2791) 12.6 (60) 16.6 (265) 19.6 (716) 20.3 (992) 21.2 (470) <0.001
Any one of the abovementioned 53.6 (7906) 46.9 (229) 51.9 (843) 52.6 (1957) 54.4 (2714) 56.7 (1280) <0.001
Eczema
 Eczema during last 6 months 17.6 (2539) 29.2 (140) 19.9 (318) 17.4 (635) 16.4 (798) 16.3 (361) <0.001
  • *P values were calculated by Pearson Chi-Square to compare the difference of percentages among five age groups.

The lifetime prevalence of parental reporting of wheezing/asthma, allergic rhinitis, and eczema among preschool children is tabulated in Table 2. The average prevalence of doctor-diagnosed asthma, doctor-diagnosed allergic rhinitis and the reporting of eczema symptoms during the 6 months prior to this study among preschool children in Taiwan was 9.3%, 19.3%, and 17.6%, respectively. More than half of the children studied (50.8%) had rhinitis symptoms, including sneezing or a runny or blocked nose when they were absent resulting from having had a cold or a flu in the previous 12 months. The highest rate of diagnosed asthma was found at the age of 5 years old, at 10.2%. Moreover, it was apparent that the prevalence of allergic rhinitis and reported symptoms was increasing along with the age of children, whereas an inverse situation was found for eczema. As to the morbidities of wheezing/asthma and rhinitis, children with any one of related symptoms or diseases were recognized as cases. Overall, there were 34.9% and 53.6% of preschool children with reported morbidities of wheezing/asthma and allergic rhinitis, respectively, in Taiwan.

With regard to clinical data, physician-diagnosed health statuses of young children, especially in the case of asthma, were not stable and permanent until the age of 3 years. The current analysis therefore excluded subjects who were younger than 3 years old (n = 489, Table 1) and those missing age information (n = 1700, Table 1). The length of using pacifiers or feeding bottles among the study children was stratified into a quartile range as shown in Table 3. A total of 24.3% children never had used feeding bottles or had used them until they were 2 years old; 25.3% children had stopped use between 2 and 3 years old; 24.2% children had stopped use between 3 and 5 years old; the remaining 26.2% of the children had used these items until the time of this investigation. Results revealed that the prevalence rates of wheezing/asthma, allergic rhinitis, and eczema in the four groups were increasing significantly (P value for trend <0.05), with higher quartiles representing a longer length of using feeding bottles among the children who were subjects in this study. The only statistically significant trend between outcomes and the length of using pacifiers was found for the reported symptom of allergic rhinitis (P value for trend = 0.025).

Table 3. The association between the length of using feeding bottles or pacifiers and childhood allergic and respiratory morbidities.
% (n) Quartile of using length for feeding bottles or pacifiers P value P value for trend
<25th percentile 25th–50th 50th–75th >75th percentile
Length of using feeding bottle
Range of quartile Never used and stopped use before 2yrs, 24.3 (2979) Stopped use between 2 and 3yrs, 25.3 (3103) Stopped use between 3 and 5yrs, 24.2 (2960) Used until now, 26.2 (3205)
  Wheezing/asthma 33.0 (976) 34.8 (1076) 34.2 (1007) 37.5 (1199) 0.002 0.001
  Allergic rhinitis 52.3 (1550) 54.4 (1680) 54.1 (1594) 55.4 (1768) 0.102 0.025
  Eczema 15.6 (452) 17.1 (516) 16.1 (467) 19.7 (620) <0.001 <0.001
Length of using pacifiers
Range of quartile Never used, 27.7 (3433) Stopped use before 1yr, 27.0 (3345) Stopped use between 1 and 2yrs, 25.5 (3162) Stopped use between 2 and 6yrs as well as used until now, 19.9 (2465)
  Wheezing/asthma 33.0 (1129) 36.1 (1202) 35.1 (1104) 35.4 (869) 0.050 0.084
  Allergic rhinitis 51.6 (1764) 55.2 (1834) 55.4 (1745) 54.1 (1328) 0.007 0.025
  Eczema 16.5 (555) 16.9 (550) 17.3 (537) 17.8 (428) 0.636 0.194
  • P values were calculated by Pearson Chi-Square to compare the difference of percentages among four quartile groups.
  • P values for trend were calculated by Chi-Square of Ordinal by Ordinal to examine the trend of correlation between disease rates and length of use.

The relationship between the length of use of feeding bottles and the prevalence of disease was adjusted for all confounding factors shown in Table 4. Significant effects of using feeding bottles on children’s wheezing/asthma (adjusted OR: 1.05, 95% CI 1.00–1.09), allergic rhinitis (adjusted OR: 1.04, 95% CI 1.00–1.08), and eczema (adjusted OR: 1.07, 95% CI 1.01–1.12) were found. The significant dose-dependent effects (P value for trend <0.05) between higher quartiles and the risk for having diseases or symptoms remained even after the adjustment for confounders was performed. Children who had used the feeding bottle until the time of this study (higher than the 75th percentile) were associated with a significant risk for reporting outcomes of interest compared to the first quartile (less than the 25th percentile) of subjects who had never used or stopped use before 2 years old.

Table 4. The dose-effect relationship between disease prevalence and the age of stopping use of feeding bottles or pacifiers.

 Crude OR

  (95% CI)

 Adjusted OR

  (95% CI)

Quartile of using length for feeding bottles or pacifiers, adjusted OR (95% CI) P values for trend*
<25th (Ref.) 25th–50th 50th–75th >75th
Length of using feeding bottle
 Wheezing or asthma 1.06 (1.03–1.10) 1.05 (1.00–1.09) 1.00 1.10 (0.96–1.25) 1.11 (0.97–1.27) 1.16 (1.01–1.32) 0.035
 Allergic rhinitis 1.04 (1.00–1.07) 1.04 (1.00–1.08) 1.00 1.09 (0.96–1.23) 1.01 (0.89–1.14) 1.18 (1.03–1.34) 0.052
 Eczema 1.09 (1.04–1.13) 1.07 (1.01–1.12) 1.00 1.08 (0.91–1.28) 1.06 (0.89–1.25) 1.25 (1.06–1.48) 0.017
Length of using pacifiers
 Wheezing or asthma 1.03 (1.00–1.07) 1.02 (0.98–1.06) 1.00 1.11 (0.98–1.26) 1.08 (0.95–1.22) 1.07 (0.94–1.23) 0.370
 Allergic rhinitis 1.04 (1.00–1.07) 1.02 (0.98–1.06) 1.00 1.08 (0.96–1.22) 1.11 (0.98–1.25) 1.04 (0.91–1.18) 0.441
 Eczema 1.03 (0.99–1.08) 1.03 (0.98–1.09) 1.00 1.05 (0.90–1.23) 1.00 (0.85–1.17) 1.14 (0.96–1.35) 0.259
  • Crude univariable effects were calculated by logistic regression.
  • ORs were calculated using multiple logistic regression with the adjustment of all factors tabulated in Table 1, including the persons completing the questionnaire, parental educational levels and smoking status, family history, child’s gender, age, gestational age, birth weight, breastfeeding history, use of formula and complementary foods, food allergy status, and report of indoor water damage.
  • *P value for trend was calculated using the regression model while the predictor was considered as the continuous variable with the above-mentioned adjustment.

4. Discussion

This study was the first to reveal that the use of feeding bottles among children might be one of the risk factors for the development of asthma and allergic diseases in Asian countries. Overall, we observed that a longer period of use of feeding bottles indicated a higher risk of diseases/symptoms among preschool children after adjustment for various confounders, including the children’s age, gender, gestational age, birth weight, length of time being breastfed, the age first given infant formula or complementary foods, family history, parental educational levels, and smoking status, as well as the problem of indoor water damage.

Rising prevalence and morbidity of childhood asthma and allergic diseases has been observed globally [6, 7]. Taiwan has also been facing the same challenges during the past 20 years [810]. Previous studies have reported that about 80–90% of patients first succumb to allergic diseases before they are 5 years old [11]. However, none of the studies on this topic has investigated the prevalence of diseases among preschool-aged children in Taiwan. This study was the first to conduct a regional survey of children with an age range between 2 and 6 years old in order to explore the potential risk factors contributing to the development or presence of asthma and allergic diseases. From the current analysis, a prevalence of eczema was found to be the highest in children younger than 3 years old and to decrease gradually as age increased. On the contrary, the most prevalent period for allergic rhinitis was at 6 to 7 years old, while for diagnosed asthma, it was at 5 years of age. The current profile of prevalence for asthma and allergic morbidity corresponded to the theory of “atopic march,” used for describing the phenomenon of the progression of allergic disorders among predisposed children. Eczema (atopic dermatitis) is thought to be an “entry point” for subsequent allergic diseases, including asthma and allergic rhinitis [12, 13].

The issue of plastic and health has attracted enormous attention in recent years [14], and there is also a possibility that any harmful chemicals emitted from pacifiers or feeding bottles could be the causal factor associated with this relationship. Only limited literature has reported relationships between childhood allergic diseases and the use of feeding bottles, pacifiers, or toys. One study from Japan indicated that the presence of asthmatic symptoms and eczema was associated with the use of latex for newborns who were less than 1 year old [15]. Another study conducted in Pakistan has shown early bottle feeding to be associated with higher total serum IgE levels in the study children [16]. Morass et al. in Austria also reported that children who had used pacifiers exhibited a higher percentage of wheezing symptoms during the previous 12 months [17]. The most interesting point is that a positive dose-dependent relationship was established by Morass et al. [17] between the frequency of boiling pacifiers and the percentage of children with wheezing or asthma. The authors tended to explain these phenomena through the “hygiene hypothesis,” since boiling the pacifier less frequently might be a measure of generally lower hygiene levels, whereas boiling the pacifier daily might result in a decline in children’s microbial exposure and, therefore, to increases risk of developing asthma and allergic diseases [17]. However, a study in China found that BPA was released within 24 hours from four brands of baby bottles at room temperatures of 24°C, 40°C, and 100°C, while increased temperatures led to higher release of BPA from the baby bottles [18]. Kubwabo et al. also showed the level of BPA from polycarbonate (PC) bottles increased with temperature and incubation time [19]. BPA has been concluded to might enhance allergic sensitization and bronchial inflammation during perinatal exposure and responsiveness in a susceptible animal model of asthma [20, 21]. A likely potential health risk of plastic exposure through the use of feeding bottles on asthma/allergies is therefore highly speculated. On the other hand, Sugita et al. [22] reported high levels of di-2-ethylhexyl phthalate (DEHP) (average 162 mg/g, 2.0–380 mg/g) in pacifiers and other related products that were used frequently by infants. Exposure to phthalates, one of most common plasticizers used in daily life, has shown its potential to be correlated with allergies and asthma in both animal and epidemiologic studies [2, 3]. Our recent publication also revealed that levels of indoor dust-borne benzylbutyl phthalate (BBzP) and dibutyl phthalate (DBP) as well as the urinary metabolites mono-n-butyl phthalate (MBP) and mono-2-ethylhexyl phthalate (MEHP) are associated with increased risks of allergies and asthma after taking into account exposure to other indoor pollutants [23].

We understand that the evidence might not be strong enough, constrained by the nature of a cross-sectional study design, and the casual relationship could not be established. However, it is also evident that such a study is aimed to raise new hypotheses between emergent exposures and the outcomes of significant interest. After further adjustments of confounders, it is believed that potential health concern of using feeding bottles should be attended to in the future.

5. Conclusions

While people have recently had dramatically increased exposure to various emerging chemicals in large amounts, the group about which there is the most concern has been children, and the current study was the first to reveal the potential risk of using plastic consumer products, such as feeding bottles, as it was indicated from reported health status in an East Asian population. The specific underlying mechanism of feeding bottles usage resulting in the observed health outcomes warrants future investigation.

Acknowledgments

The authors are in great debt to all parents for their participation and to the in-house assistants for their most dedicated and professional contributions, including Renee Wu, Shu-Ying Su, and Wei-Ping Lin. This study was supported by a Grant from the Taiwan National Science Council, NSC 95-2314-B-006-019.

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