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Type 1 Diabetes and Increased Risk of Subsequent Asthma: A Nationwide Population-Based Cohort Study.

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Type 1 Diabetes and Increased Risk of

Subsequent Asthma

A Nationwide Population-Based Cohort Study

Yung-Tsung Hsiao, MD, Wen-Chien Cheng, MD, Wei-Chih Liao, MD, Cheng-Li

Lin, MSc,

Te-Chun Shen, MD, Wei-Chun Chen, MD, Hung Chen, MD, and

Chia-Hung Kao, MD

INTRODUCTION

A

sthma is the most common chronic inflammatory illness in childhood and a major cause of morbidity in adults, affecting 9.3% of children in the United States1 and 20.7% of school

children in recent Taiwan epidemiological study (according to the Taiwan Association of Asthma Education2. International

Study of Asthma and Allergies in Childhood (ISAAC) study

showed the overall prevalence and rising trend of physiciandiagnosed asthma in Taiwanese school significantly increased

from 4.5% in phase I to 6.0% in phase III (prevalence odds ratio¼1.4, 95% CI 1.2–1.5).3 Asthma is characterized by a

chronic inflammatory reaction mediated by T helper type 2 (Th2)-dominant cells. Another common chronic childhoodimmune disease, type 1 diabetes mellitus (T1DM), is

Th1-dominant, in which Th1 and Th 2 cells reciprocally counteract each other and the balance between their responses provides a possible explanation.4 Several studies have also demonstrated

an inverse relationship between asthma, atopic diseases, and the risk of developing T1DM.5,6 In Taiwan, a recent report conducted

by pediatricians showed that patients with T1DM have lower prevalence of atopic symptoms than those without T1DM.7 However, a previous finding by Stene and Nafstad

showed a strong positive association between the occurrence of T1DM and asthma at the population level in Europe.8 This

unexpected finding led them to attempt to identify the risk factors and etiologies involved in these 2 disorders. Another

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recent study revealed asthma to be associated with an increased risk of diabetes mellitus (DM) (hazard ratio [HR]¼2.11; 95% confidence interval [CI]¼1.43–3.13; P<0.001).9 The

hygiene hypothesis suggests that lower microbial exposure in

early life may contribute to increased prevalence of immunemediated diseases, such as asthma and T1DM.10,11 The Th1 and

Th2 secretory pattern of patients with T1DM and asthma combines features of both diseases, suggesting a unique Th1/ Th2 balance, including a lower Th1/Th2 ratio compared with patients with T1DM only.12 The relationship between asthma

and T1DM among young people has not been thoroughly investigated. Positive glycemic control can prevent the onset of

diabetic complications in children.13 How poor glycemic control

or high hemoglobin A1c levels deteriorate into asthma

remains unclear. The association between T1DM and asthma is controversial and has led to new interest in these 2 disorders. This study examined the associations among young people with T1DM and asthma and offers a clinical demonstration of the balance between Th1 and Th2 responses.

METHODS

Data Source

The Taiwan National Health Insurance (NHI) program

offers comprehensive, universal health insurance to all residents of Taiwan since 1995. The NHI program covers >99% of

the residents of Taiwan and is contracted with 97% of

medical providers (http://www.nhi.gov.tw/english/index.aspx). The National Health Research Institutes (NHRI) was commissioned to construct and maintain the National Health Insurance

Research Database (NHIRD) for researchers. The study patients were identified from 2 subsets of the NHIRD: the Registry of

Catastrophic Illnesses Patient Database (RCIPD) and the Longitudinal Health Insurance Database 2000 (LHID 2000). The NHI

program specifies 30 categories of catastrophic illness (eg, cancers, hemophilia, and autoimmune diseases, including type 1 diabetes). Eligible patients can apply for catastrophic illness certificates, and if approved, are exempted from copayment of related medical costs. Both outpatient and inpatient claims of beneficiaries with a catastrophic illness certificate are

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collected in the RCIPD (http://www.nhi.gov.tw/webdata/ webdata.aspx?menu¼&menu_id¼&wd_id¼&webdata_id¼ 3180). The LHID 2000 comprises detailed claims data of 1 million people randomly sampled from the population of Taiwanese in 2000. No significant difference exists in sex, age, or health care costs between cohorts in the LHID 2000 and all insurants in the NHIRD (http://w3.nhri.org.tw/nhird/ date_01.html). Diagnostic codes were in the format of the International Classification of Diseases, Ninth Revision, Clinical Modification (ICD-9-CM). This study was approved by the Research Ethics Committee of China Medical University (CMUH-104-REC2–115). The patients were diagnosed of

T1DM or asthma by clinical physicians and objective laboratory report.

Sampled Participants

The T1DM cohort was identified from the RCIPD, including patients in the age group of 1 to 20 years, newly diagnosed with T1DM (ICD-9-CM codes 250.x1 and 250.x3) between 1998 and 2011. The date of application for T1DM was defined as the index date. Patients suffering from asthma (ICD-9-CM code 493) or with missing age or sex information at the baseline were excluded. The control cohort was identified from the LHID 2000. For each T1DM case, 4 insurants without a history of T1DM or asthma were identified as the control cohort, frequency matched by age (in 10-y bands), sex, and index year.

The same exclusion criteria were also applied to the control patients. The T1DM cohort comprised 3545 patients and the

control cohort comprised 14,180 patients. The cumulative censoring rate >14 years (1998–2011) was 2.06% in the T1DM cohort, which was slightly lower than that in the control cohort (1.37%). The possible reasons for the discontinuity of National Health Insurance include death, withdrawal of insurance, immigration, prison sentence, and so on.

Outcome

Patients in both the T1DM and control cohorts were

followed from the index date to the date of asthma occurrence or censoring because of loss of follow-up, withdrawal from the NHI program, or until the end of 2011.

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Variables of Interest

Some sociodemographic variables including sex, age, urbanization level, and parental occupation were used in this

study for further adjustment. The detailed definitions of urbanization level and parental occupation have been well described

according to the previous publications.14,15 Certain important

and potential risk factors were also included [atopic dermatitis (ICD-9-CM codes 691), rhinitis (ICD-9-CM codes 472.0 and 477), hypertension (ICD-9-CM codes 401–405), hyperlipidemia (ICD-9-CM code 272), depression (ICD-9-CM codes

296.2, 296.3, 300.4, 301.12, 309.0, 309.1, and 311), and anxiety (ICD-9-CM code 300)] to be the co-morbidities.

Statistical Analysis

The distribution of demographic data and comorbidities

(sex, age, urbanization level, parental occupation, comorbidities of atopic dermatitis, rhinitis, hypertension, hyperlipidemia, depression, and anxiety) were compared between the TIDM cohort and control cohort. Differences were examined using the chi-square test for categorical variables and Student’s t test for continuous variables. The incidence densities (per 1000 persony)

were estimated according to sex, age, comorbidity, and follow-up time in both the cohorts. Univariate and multivariate

Cox proportional hazard regressions were used to compare the risk of developing T1DM-associated asthma in the T1DM cohort and control cohort. Variables in the multivariable model included age, sex, urbanization level, parental occupation, and

comorbidities of atopic dermatitis, rhinitis, hypertension, hyperlipidemia, depression, and anxiety. The HR and 95% CI were

estimated using the Cox model, which was also used to assess the association between asthma and the frequency of TIDMrelated medical visits. The Kaplan–Meier method was used to

plot the cumulative incidence of asthma between the 2 cohorts, and a log-rank test was used to compare the cohorts. All analyses were performed using the statistical package SAS for Windows (Version 9.3, SAS Institute Inc, Carey, NC).

RESULTS

The cohort consisted of 3545 T1DM cases and 14,180 controls established during the 2002 to 2011 period. Of the

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3545 T1DM patients, 55.1% were girls and 26.5% were in the age group of <8 years (Table 1 Table 1). The mean ages of participants in the T1DM and control cohorts were 11.30 (_5.04) and 12.40 (_5.10) years, respectively. Both cohorts tended to reside in urbanized areas (59.5% vs 57.0%) and half of the participants’ parental occupations were classified as white-collar workers (55.1% vs 57.0%). The patients in the T1DM cohort tended to have a higher prevalence of atopic dermatitis, rhinitis, hypertension, hyperlipidemia, depression, and anxiety than those in the control cohort. The mean followup time for the T1DM and control cohorts was 6.65 (standard deviation [SD]¼4.04) and 6.64 (SD¼4.01) years, respectively. Figure 1 shows that the cumulative incidence of asthma was significantly higher in the T1DM cohort than in the control cohort (log-rank test, P<0.001).

The incidence densities of asthma and the HR between the T1DM and control cohorts are shown in Table 2. The overall incidence of asthma was 47% higher in the T1DM cohort than in the control cohort (6.49 vs 4.42 per 1000 person-y), with an adjusted HR of 1.34 (95% CI¼1.11–1.62). The incidence of asthma was greater in boys than in girls in both cohorts. The gender-specific hazard of asthma in the T1DM cohort relative to that in the control cohort was significant for both girls (adjusted HR¼1.40, 95%CI¼1.21–1.91) and boys (adjusted HR¼1.56, 95% CI¼1.09–2.22). The highest incidence of asthma was in T1DM patients < 8 years of age (17.9 per 1000 person-y). However, the adjusted HR of the age-specific T1DM patients to the control participants was the highest for all age groups (adjustedHR¼1.52, 95%CI¼1.21–1.91 for age_8 y; adjusted HR¼1.56, 95% CI¼1.09–2.22 for age > 8 y). Among the patients without comorbidity, the risk of asthma was 1.92-fold higher in the T1DM cohort than in the control cohort (95% CI¼1.44–2.58). The highest incidence of asthma was in T1DM patients in the first follow-up year (18.6 per 1000 person-y). The adjustedHRof asthmawas significantly higher in the first followup year (adjusted HR¼2.10, 95% CI¼1.54–2.86).

Table 3 shows the incidence densities and HRs of asthma for T1DM patients associated with the frequency of emergency

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room (ER) visits and hospitalizations. Compared with the control cohort, T1DM patients with > 2 ER visits for their diabetes had a higher adjusted HR of 17.4 (95% CI¼12.9– 23.6) for developing asthma. The adjusted HR of asthma was 38.6 (95% CI¼28.5–52.2) in T1DM patients who had been hospitalized more than twice for their diabetes.

DISCUSSION

T1DM is a heterogeneous disorder and one of the most common chronic diseases in childhood, characterized by absolute insulin deficiency following autoimmune-mediated destruction of pancreatic beta cells. Large epidemiologic studies have indicated that the incidence of T1DM has been

increasing by 3% per year worldwide and that the estimated incidence rate is 6.4/100,000 for 0- to 9-year-old Asians and Pacific Islanders.16 The prevalence is _ 1 in 300 in the United

States, by 18 years of age.17 A progressive increase in the

prevalence of T1DM and asthma has been noted in populations in developed countries. We attempted to identify the factors involved in these 2 disorders and to assess the increasing prevalence. A recent study has raised questions regarding a

possible link between these 2 chronic illnesses and their treatments. A previous European study showed that the risk of

asthma significantly decreased in children with T1DM, with an odds ratio of 0.64 (95% CI¼0.51–0.82).18 Lancet revealed a

negative association between asthma symptoms and T1DM, and that nondiabetic siblings are prone to the protective effect may be due to environmental factors encountered in early life or genetic risk factors.19 The protective mechanisms induced by

infection are unknown but thought to be related to the production of regulatory T-cells. The complex interactions

between the immune system components that balance the Th1/Th2-cell responses play a role in the development of either disease. The Th1 and Th2 secretory patterns of patients with T1DM and asthma combines features of both diseases, suggesting a unique Th1/Th2 balance of a lower Th1/Th2 ratio compared with patients with T1DM alone.12 Animal studies

have suggested that Th1 and Th2 cytokines can be expressed in the same Th cell simultaneously.20 According to the crossregulatory

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properties of Th1 and Th2 cells, we hypothesized

that the 2 disorders overlap in patient populations. Previously, Th2 immune processes in the airways of people with asthma. Numerous factors may be involved in the development of non-Th2 asthma, including infection-related elements, Th1 and Th17 immunity, non-Th2-associated smooth-muscle changes including genetics and oxidative stress, and the development of neutrophilic inflammation. The asthma phenotype is a popular mechanism, and previous studies have described numerous

asthma classifications based on age of onset, type of inflammation, and pattern of severity. Various phenotypes may be

associated with T1DM in young people.

In our study, we observed a significantly higher incidence of asthma in patients with T1DM than in the general population (6.49 vs 4.42 per 1000 person-y; Table 2). Analyses indicated that T1DM-associated asthma risk was the highest in patients < 8 years of age (17.9 per 1000 person-y). A possible explanation may be that older patients tended to have more comorbidities, which may be risk factors for late-onset asthma. Moreover, T1DM patients with more ER visits or hospitalizations for

diabetes were at higher risk for asthma, according to our results. A frequency of more than 2 annual visits (for T1DM) implied a higher HR of asthma risk compared with that of children without T1DM (adjusted HR¼17.4 [95% CI¼12.9–23.6]

for ER visits, HR¼38.6 [95% CI¼28.5–52.2] for hospitalization, respectively; Table 3). In contrast, T1DM patients who

had once or twice emergency room visits or hospitalizations did not seem to have increased risk of asthma compared with control group statically. Among T1DM patients, more emergency room visits or hospitalizations indeed increased risk of

asthma. It may suggest that poor glycemic control was associated risk of asthma. Poor glycemic control that primes chronic

inflammation may upset the balance between Th1/Th2 cell responses. A possible explanation for this finding is that

T1DM-dominated Th1 cells mediated the shift to Th2 expression. These data demonstrate that Th1 and Th2 diseases can

coexist. Current cross-sectional analysis from the SEARCH for Diabetes in Youth study conducted by Pediatrics 2011 on

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asthma and glycemic control indicated that the prevalence of asthma among all young people with T1DM was 10.0% (95% CI¼8.6–11.4%). Among young people with T1DM, those with asthma had higher mean hemoglobin A1c levels than did those without asthma.21 Several studies have demonstrated poorer

pulmonary function among people with diabetes compared with nondiabetic controls.22 The existence of Th1-dominated disease

does not reduce the incidence of asthma, indicating a common environmental factor behind the disease processes. A deficiency in microbial exposure may cause a reduced number of infections or delayed compositional development of the intestinal

microflora.23 The hygiene hypothesis provides an explanation

for these complex associations and proposes that infections in early childhood may reduce the risk of allergic diseases and induce the Th2 profile to move toward the Th1 phenotype.10

The decline of tuberculosis incidence could be related to rising rates of allergy and T1DM between tuberculin responses and atopic disorders in Japanese school children.24

These 2 disorders may share risk factors. The body mass

index (BMI) has been observed to have a crucial association with asthma risk among young people with T1DM,21 suggesting that

they have concomitant asthma. Because the symptoms of early stage asthma are not prominent, clinical diagnosis may be difficult. The differences in diagnosis time of these 2 disorders might result in a gradual increase in the cumulative incidence of asthma for patients with T1DM compared with patients

without T1DM.

However, we acknowledge some limitations in our study.

First, the NHIRD does not contain detailed information regarding smoking habits, BMI, reproductive function, medical drug history, and family history of systemic diseases. Second, these data did not allow us to assess changes in asthma severity and the condition about glycemic control. Third, we could not list all the possible risk factors of asthma as confounders to adjust the HR between the T1DM group and the control group. However, Taiwan launched an NHI program operated by a single-payer, the government, in 1995. All insurance claims are scrutinized by medical reimbursement specialists and subject to peer review.

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Therefore, the data regarding the diagnoses for T1DM and asthma were reliable.

In conclusion, our study does not argue the hypothesis of the characteristic mutual inhibition of the Th1/Th2 immune system. However, our findings imply that general shifts in the Th1/Th2 balance at the population level are likely to be a major explanation of the change. Our patients with T1DM had a significantly higher risk of developing asthma than the control group did. A further study is required to clarify the pathophysiological mechanisms of T1DM and asthma.

參考文獻

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