Investigation on risk factors of adult allergic rhinitis in China


 OBJECTIVE: To investigate the risk factors associated with allergic rhinitis in adults. METHODS: Using the 1:1 matching principle, 1096 cases of allergic rhinitis patients aged 18-65 years were selected as the observation group, and another group of healthy medical checkups were selected as the control group, and the data related to allergic rhinitis were collected by allergen testing and questionnaire survey, and univariate and multifactorial analyses were performed respectively. RESULTS: The univariate analysis showed that allergic rhinitis may be related to temperature changes, dryness and humidity, air pressure, wind speed, seasonal changes and exposure to allergens such as dust mites and house dust mites. After allergen testing of all patients in the observation group, it was found that dust mite and house dust mite were the highest percentage of allergens, accounting for 40.51%, indicating that environmental factors play a decisive role in allergic rhinitis. Multi-factor analysis showed that exposure to dust mites, house dust mites, Penicillium punctatum, Streptomyces crossatus and Aspergillus fumigatus were independent risk factors for allergic rhinitis when it was humid, when it was cold, when it was windy and when the air pressure was low. CONCLUSION: The epidemiological status of allergic rhinitis in adults in China was initially understood, and the main allergens were house dust mite and dust mite, which provided scientific epidemiological information for the standardized prevention and treatment of allergic rhinitis in this region.

will be conducted and allergen testing will be performed on 1096 patients with allergic rhinitis in China, in order to explore the possible risk factors in the living environment and dietary habits of patients with allergic rhinitis in China, and to provide suggestions and guidance for the prevention and treatment of allergic rhinitis.
1 Object And Method 1.1 Subjects 1096 patients diagnosed with allergic rhinitis in China City between November 2014 and July 2018, aged 18-65 years old, were selected for the study (the patients all met the diagnostic criteria of the 2015 Tianjin guidelines of the Chinese Medical Association, Ear, Nose and Throat Branch), and a homemade questionnaire was used to investigate and study 1096 patients with allergic rhinitis who met the diagnostic criteria and enrollment requirements, and to compare them with 1096 healthy individuals in the outpatient physical examination center during the same period as a control.

Questionnaire
The "clinical questionnaire for allergic rhinitis" was used, including whether the symptoms were aggravated when it was cold (the temperature was more than 20 degrees below the normal body temperature), when it was hot (the temperature was higher than the normal body temperature), and whether the symptoms were aggravated when it was hot.
Whether it is aggravated in spring, summer, autumn and winter, etc. To ensure the quality of the questionnaire, all questionnaires were completed under the supervision of the attending physician.

Allergen detection
The skin allergen prick test was performed. The skin prick test was performed using standardized prick antigens from ALK, Denmark. The antigens included house dust mite, dust mite, cockroach, cat fur dander, dog fur dander, Artemisia dwarf ragweed, Penicillium punctatum mycosporeum, Aspergillus fumigatus, Streptomyces crossatus, cypress, elm, sycamore, willow, trillium, humulus, egg, milk, sh, shrimp, crab, beef, mutton, cashew nut, peanut, soybean, mango, and wheat. Histamine dihydrochloride was used as a positive control and saline was used as a negative control.

Statistical methods
SPSS19.0 software was used to perform, and the chi-square test was used to compare the count data between groups, and multi-factor logistic regression analysis was used to screen the relevant risk factors.

Informed consent and ethics
All the selected candidates signed the informed consent and were discussed and approved by the ethics committee of the hospital.

Results
2.1 General There was no statistical signi cance between the two groups in terms of age composition, gender composition, race, climatic conditions and living environment (P>0.05), and they were comparable.

Climate and season and allergic rhinitis
The questionnaire survey on climatic factors revealed that temperature changes, wind speed, dryness and humidity, and air pressure changes were all related to the aggravation of allergic rhinitis symptoms. After univariate analysis of 24 climatic and seasonal factors that may have an in uence on the development of allergic rhinitis (see Table 1), it was found that the risk factors associated with the development of allergic rhinitis were: cold, windy, humid, low air pressure, and spring and autumn.  yes  no  yes  no  yes  no  yes  no  yes  no  yes  no  yes  no  yes  no  yes  no  yes   Allergic  rhinitis  group   609  487  307  789  458  638  120  976  649  447  335  761  227  869  758  338  367  729  117   Healthy  control  group   156  940  33  1063  34  1062  28  1068  87  1009  28  1068  40  1056  129  967  50  1046

Allergens and allergic rhinitis
In order to understand the relationship between allergens and allergic rhinitis, allergen testing was performed on 1096 patients with allergic rhinitis, and it was found that house dust mite and dust mite accounted for the highest proportion of environmental factors, reaching 40.51%, and were the most important allergens for allergic rhinitis. The environmental factors followed by Penicillium punctatum, Aspergillus fumigatus, Streptomyces crossatus, accounting for 15.43%. And among the dietary factors, sh, shrimp and crab were the major allergens of allergic rhinitis, accounting for 5.38% (Table 2). These results indicate that house dust mite and dust mite among environmental factors are the main allergens of allergic rhinitis and play a major role in the development of allergic rhinitis.  In this paper, we found that cold, windy, humid, low air pressure and spring and autumn were all environmental risk factors for allergic rhinitis in 1096 patients with allergic rhinitis. In the allergen analysis, house dust mite and dust mite were found to account for the highest proportion of all allergens, indicating that the living environment plays an important role in the development of allergic rhinitis. In addition, diet also plays an important role in allergic rhinitis, and people who are allergic to sh, shrimp and crab are also those who have a higher incidence of allergic rhinitis. Our results suggest that strengthening the cleanliness of the home environment, minimizing the density of dust mites in the air, paying attention to a reasonable dietary structure, and paying attention to the climate and seasonal changes have clinical signi cance in reducing the incidence of allergic rhinitis.

Climatic and seasonal factors
There is evidence that climatic factors may indirectly cause the symptoms of allergic rhinitis, but do not necessarily increase the prevalence of allergic rhinitis. A recent study found that the prevalence of allergic rhinitis in the United States varied signi cantly by region and was associated with various climatic factors, including humidity, drought, temperature, and precipitation [7] . The highest prevalence was found in the southeastern and southern states, where both humidity and temperature are higher. Other studies have shown that global temperature changes may affect the severity of allergic rhinitis through to pollen and air. For example, temperature changes lead to a longer duration of the pollen season and thus an increase in the level of pollen allergy [8] . International Phenology has observed for almost 30 years that spring is six days earlier than in the past and the duration of the pollen season is prolonged, making the exposure of susceptible people to allergens longer, which in turn exacerbates allergic reactions [9] . Pollen is not the only climatic factor that increases the prevalence of allergic rhinitis. Temperature and humidity likewise contribute to the late metaplastic response of eosinophils [10] . In addition, warm climate shows a positive correlation with allergic rhinitis [11] . One study predicts that by 2050, the average temperature will increase by 3 degrees Celsius and thus the number of patients with allergic rhinitis due to pollen will increase to 40% [12] . Therefore, changes in climate may be a major factor in the increasing prevalence of allergic rhinitis [13] . In this paper, we found that changes in temperature, wind speed, dryness and humidity, and changes in air pressure were associated with increased symptoms of allergic rhinitis. Cold, windy, humid and low air pressure are all environmental risk factors for allergic rhinitis. In addition, the highest percentage of allergic rhinitis symptom exacerbation was found in spring and autumn, indicating that spring and autumn are also environmental risk factors for allergic rhinitis.

Allergens
An increase in the prevalence of allergic rhinitis has been shown to be associated with increased exposure to indoor allergens due to changes in housing and lifestyle [14] . Exposure to susceptible allergens is a major cause of the development of allergic rhinitis. Certain allergens, such as those from dust mites, cockroaches, molds, and pollen are linearly associated with the development of allergic rhinitis. The duration of exposure to allergens is a key factor in allergic rhinitis [15] . Increased concentration of indoor dust mite allergens is associated with the risk of allergic rhinitis. It has been noted that indoor temperature, humidity and living environment lead to increased exposure to indoor allergens, especially dust mites, and allergic rhinitis [16] . Elevated indoor temperatures, walls or carpets contribute to enhanced levels of dust mite allergens and are therefore associated with sensitivity to allergic rhinitis [17] . House dust mites are the most common dust mites found indoors and are the main allergens of allergic diseases such as allergic rhinitis. Studies have shown that Dermatophagoides pteronyssinus and Dermatophagoides Felina are the most common mites in the world. House dust mites are commonly found in products such as bedding, carpets, curtains and fabrics. House dust mite hypersensitivity is closely associated with persistent allergic rhinitis [18] . Avoiding exposure to allergens, including house dust mites, is the main treatment strategy for allergic rhinitis and asthma [3]. In this paper, the highest proportion of house dust mites and dust mites among environmental factors was found to be the most important allergens in allergic rhinitis in 1096 patients with allergic rhinitis, reaching 40.51%. Thus, reducing exposure to house dust mites indoors and dust mites outdoors is the main means to reduce the occurrence of allergic rhinitis.
In addition, mold exposure is also associated with allergic rhinitis. Indoor humidity and mold exposure are considered potential risk factors for allergic rhinitis.
Several studies have found a strong association between mold exposure and childhood asthma [9] . A 2013 retrospective analysis examined the association between mold exposure and allergic rhinitis and found that exposure to dampness and mold was associated with allergic reactions including allergic rhinitis [4] . These results suggest that preventing indoor dampness and reducing mold may reduce the risk of developing allergic rhinitis. The analysis of environmental risk factors in patients with allergic rhinitis in this paper helps to correctly understand the environmental risk factors for allergic rhinitis and provides a theoretical basis for the prevention and treatment of allergic rhinitis. Declarations 1. Ethics approval and consent to participate Ethical approval and consent to participateAnswer:The ve authors of this paper submitted ethical review to the ethics committees of their four institutions, which are named as follows: the ethics committee of Tianjin Binhai New Area Hospital of Traditional Chinese Medicine, the ethics committee of Guangdong Second People's Hospital, the ethics committee of Guangzhou University of Traditional Chinese Medicine College of Pharmacy, and the ethics committee of Jinan University College of Traditional Chinese Medicine, all four committees considered that there was no intervention in the project and that the patients did not require ethical review, and no approval document for ethical review was issued, requiring us to submit only ethical statements and presentations to SCI journals. All observers and healthy controls signed informed consent forms. Consent to publicationAnswer:All authors have given their consent for you to publish our paper.

Consent for publication
All of our authors agree to publish in your journal Allergy, Asthma & Clinical Immunology 3. Availability of data and materials