1.Epidemiological investigation on relativity of allergic rhinitis and recurring respiratory infection of preschool children in Shenzhen.
Shu LI ; Qiong YANG ; Di QIONG ; Chunsheng GAO
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2010;24(23):1060-1061
OBJECTIVE:
To understand the prevalence rate and the relativity of allergic rhinitis and recurring respiratory infection of preschool children in Shenzhen, and to investigate and analyse the prevalence rate, predisposing factor, allergen, therapy, turnover on allergic rhinitis and recurring respiratory infection of preschool children.
METHOD:
The ENT doctors examined the investigated children and recorded them, then delivered questionnaires to the children's parents and explained to them. The result was analyzed statistically.
RESULT:
The prevalence rate of allergic rhinitis of preschool children in Shenzhen was 20.1%, the prevalence rate of recurring respiratory infection was 13.7%, the prevalence rate (18.0%) of allergic rhinitis combined recurring respiratory infection was higher than that (7.80) of cases with non-allergic rhinitis combined recurring respiratory infection. The difference had a statistical significance (P < 0.05).
CONCLUSION
We initially understood the epidemiologic situation of allergic rhinitis and recurring respiratory infection of preschool children in Shenzhen, providing epidemiologic datas for the standardization of prevention and cure for allergic rhinitis.
Allergens
;
Child, Preschool
;
China
;
epidemiology
;
Humans
;
Respiratory Tract Infections
;
epidemiology
;
Rhinitis, Allergic, Perennial
;
epidemiology
;
Rhinitis, Allergic, Seasonal
;
epidemiology
;
Surveys and Questionnaires
2.Genetic epidemiological study on allergic rhinitis in Nantong region of Jiangsu Province.
Li MA ; Da-ling CHEN ; Ru-xin ZHANG ; Xiao-lei WANG ; Yun-jian SHI ; Chao JI ; Zhi-jun HUANG ; Mao-hua QIAN ; Wei-hua WANG ; Pei GUAN
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2007;42(9):643-646
OBJECTIVETo explore the effects of genetic factors on the occurrence of allergic rhinitis (AR).
METHODSThe morbidity rate of AR was surveyed by multistage sampling among 95 300 individuals (23,825 families) in Natong region, Jiangsu province. And a genetic epidemiologic investigation on AR was carried out to estimate the segregation ratio and heritability (h2) of AR by the methods of Li-Mantel-Gart and Falconer respectively.
RESULTSThe morbidity rate of AR in Natong region was 1.20% (Male 1.21%, Female 1.18%, no statistical significance between them); By the data of the AR ancestry, the segregation ratio of AR in Nantong region was 0.078, significantly less than 0.25, and the genetic model belonged to polygenetics. The 1st, the 2nd, and the 3rd generation h2 of AR were (82.6 +/- 2.19)%, (80.8 +/- 2.93)%, (78.4 +/- 7.04)%. The h2 of AR was (81.86 +/- 1.70)%. In the ancestry of AR, the morbidity rate of the 1st generation with AR was 12.11%; the 2nd generation with AR was 5.12%; the 3rd generation with AR was 2.75%; and the morbidity rate of AR in general population was 1.20%.
CONCLUSIONSThe heredity in family with AR is obvious. Several genes plus the environmental factors may cause AR, which accords with the characteristics of the polygene heredity disease.
China ; epidemiology ; Female ; Humans ; Male ; Multifactorial Inheritance ; Prevalence ; Rhinitis, Allergic, Perennial ; epidemiology ; genetics ; Rhinitis, Allergic, Seasonal ; epidemiology ; genetics
3.Self-reported prevalence of allergic rhinitis in eleven cities in China.
De-Min HAN ; Luo ZHANG ; Dan HUANG ; Yang-Feng WU ; Zhen DONG ; Geng XU ; Wei-Jia KONG ; Ji-Min BAO ; Bing ZHOU ; Shen-Qing WANG ; De-Hui WANG ; Qiu-Ping WANG
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2007;42(5):378-384
OBJECTIVEThe aim of this study is to investigate the self-reported prevalence and other epidemiological characteristics of allergic rhinitis from 11 cities throughout the mainland of China.
METHODSTelephone interviews were conducted in the two main municipalities (Beijing, Shanghai) and eight capital cities (Changsha, Changchun, Hangzhou, Guangzhou, Nanjing, Shenyang, Wuhan, Urumqi and Xi'an) of main provinces throughout the mainland of China after sampling target phone numbers by the approach of random digital dialing (RDD) via computer.
RESULTSIn total, the survey had sampled 684 blocks of telephone numbers in 11 cities, and dialed 119 319 telephone numbers. Of the 38 203 respondents, 4253 subjects reported allergic rhinitis, while the other 33 950 were screened negative in the telephone interviews. The self-reported prevalence of allergic rhinitis was lowest in Xi'an (8.0%), and highest in Urumqi (21.4%), with Nanjing having intermediate value (11.5%). The gender-adjusted prevalence ranged from 8.5% in Xi'an to 21.3% in Urumqi, while the age-adjusted prevalence of self-reported allergic rhinitis ranged from 8.7% in Beijing to 24.1% in Urumqi.
CONCLUSIONSThe study demonstrates that the self-reported prevalence of allergic rhinitis in 11 cities throughout the mainland of China has wide variations, and the strategy of prevention for allergic rhinitis should be conducted according to the epidemic features of it.
China ; epidemiology ; Female ; Humans ; Male ; Prevalence ; Rhinitis, Allergic, Perennial ; epidemiology ; Rhinitis, Allergic, Seasonal ; epidemiology ; Self Report ; Surveys and Questionnaires
4.Epidemiological investigation of allergic rhinitis in the primary school students in grade three of Shihezi city.
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2009;23(23):1074-1078
OBJECTIVE:
To investigate the epidemic features of allergic rhinitis(AR)and correlative risk factors in Shihezi city, Xinjiang province, China.
METHOD:
A questionnaire survey on AR and airway diseases was conducted among 2 300 elementary school children in 12 schools, aged from 9 to 10 years old, from july 10 to 25, 2008 . in Shihezi city, Xinjiang province. Suspects of AR was identified by the survey, then they were recommended to specialist examinations for accurate diagnosis. Allergen skin tests were performed to explore the allergenic varieties of allergic rhinitis. Diagnosis criteria of AR were that of ARIA (Allergic rhinitis and its impact on asthma). RE-SULT: Two thousand two hundred and eleven questionnaires were returned. The response rate was 96.1% and 2205 questionnaires were available. The prevalence rate of AR in children aged from 9 to 10 was 12.56% (277/2 205) in Shihezi city. The difference of prevalence between female 13.76% (153/1112) and male 11. 34% (124/1093) was insignificant statistically(CHI2 = 2.924, P > 0. 05). The positive rate of the allergen skin test was 65. 3%. The most common allergen of allergic rhinitis were plants of the mugwort and house dust mite. According to the classification criteria of ARIA in 2001, of 155 children suffered from intermittent AR, 112 cases were mild and 43 cases were moderate-severe, while 122 suffered from persistent AR,110 cases were mild and 12 cases were moderate severe. 5.4% (15/277) patients with AR also had bronchial asthma. 25. 3% (70/277) of the children with AR had inherent predisposition.
CONCLUSION
The prevalence rate of AR in children aged from 9 to 10 in Shihezi city is 12.56%. Strategy of prevention and treatment of AR can be worked out according to the epidemical feature of AR.
Allergens
;
analysis
;
Child
;
China
;
epidemiology
;
Female
;
Humans
;
Male
;
Prevalence
;
Rhinitis, Allergic, Perennial
;
epidemiology
;
Rhinitis, Allergic, Seasonal
;
epidemiology
;
Schools
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Skin Tests
5.Epidemiological investigation of allergic rhinitis in central cities and countrysides of Inner Mongolia region.
Zhuo Yi DENG ; Xiao Jia LIU ; Ri Na SA ; Hai Xia XU ; Qiang FU ; Dong Yue XU ; Xiao Bo CUI ; Ji LIU ; Bo Long SONG ; Ming ZHENG ; Yu Hui OUYANG ; Xiang Dong WANG ; Xiao Ling LIU
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2021;56(6):635-642
Objective: To investigate the prevalence of allergic rhinitis (AR) in 3 central cities (Chifeng, Hohhot, Ordos) and the surrounding rural areas of Inner Mongolia region, and to look for possible risk factors related to the disease. Methods: From March to October of 2019, a multi-stage stratified random sampling epidemiological survey was conducted in Chifeng, Hohhot, Ordos and rural areas. The AR-related factors of the population were obtained in the form of face-to-face questionnaire survey, and the skin prick test (SPT) was taken for the participants. AR disease was diagnosed according to the "Guidelines for the Diagnosis and Treatment of Allergic Rhinitis (2015, Tianjin)". The daily airborne pollen situation in the three regions was monitored during the same period. SPSS 23.0 was used to analyze all survey results. Results: A total of 6 818 questionnaires were recovered, with 6 393 valid questionnaires. The self-reported prevalence of AR was 27.72% (1 772/6 393) and the confirmed prevalence of AR was 17.10% (1 093/6 393). The prevalence of perennial AR was 1.83% (117/6 393) while the prevalence of seasonal AR was 15.27% (976/6 393). The prevalence of AR diagnosed in females was higher than that in males (19.19% vs 15.34%, χ²=16.594, P<0.001) and the prevalence of females in the two age groups of 36-45 years and 46-55 years was significantly higher than that of males (18.17% vs 9.73%, 14.13% vs 7.25%, χ2 value was 23.848, 18.772, respectively, all P<0.001). The prevalence of confirmed diagnoses in ethnic minorities was higher than that of Han nationality, and the prevalence of confirmed diagnoses in urban areas was higher than that in rural areas (23.13% vs 16.20%, 27.27% vs 9.71%, χ2 value was 24.516, 336.024, respectively, all P<0.001). The main nasal symptoms of AR patients were sneezing (91.31%), nasal congestion (85.91%) and nasal itching (85.00%). The most common concomitant disease of AR was allergic conjunctivitis (73.99%). Asthma (OR=6.629), food allergy (OR=3.236), drug allergy (OR=1.786), application of antibiotics (OR=1.553), recent home decoration (OR=2.307), and smoking (OR=1.322) were the AR related risk factors. The highest proportion of SPT positive reactions was Artemisia annua (80.15%). The peak period of clinical symptoms of AR patients in Inner Mongolia region was July to September, which was consistent with the second peak period of airborne pollen monitoring. Conclusions: The prevalence of AR in central cities and the surrounding rural areas of Inner Mongolia region is 17.10%, and Artemisia species is the most important pollen allergen in this area. History of asthma, food allergy, drug allergy, antibiotic use, home decoration and smoking history are the related risk factors for AR.
Adult
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Allergens
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China/epidemiology*
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Female
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Humans
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Male
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Middle Aged
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Pollen
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Prevalence
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Rhinitis, Allergic/epidemiology*
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Rhinitis, Allergic, Seasonal
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Urbanization
6.Sensitization characteristics of ragweed pollen in Beijing area.
Shuang SUO ; Tingting MA ; Hongtian WANG ; Ye WANG ; Xueyan WANG
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2023;37(5):380-386
Objective:To investigate the sensitization characteristics of ragweed pollen in patients with allergic rhinitis(AR) and(or) allergic asthma in Beijing area, and to provide basis for the prevention and treatment of ragweed pollen sensitized population. Methods:Patients with allergic rhinitis and/or asthma from January 2017 to December 2019 in the outpatient department of Allergy Department of Beijing Shijitan Hospital were retrospectively analyzed in this study. Skin prick test(SPT) was performed with ragweed pollen allergen reagents to compare different ages, genders and respiratory diseases allergen distribution, and to observe the sensitization characteristics of its population. All of the analyses were performed using SAS software version 9.4. Results:A total of 9 727 patients were enrolled in the end. The total positive rate of ragweed pollen SPT was 45.50%(4 426/9 727), the highest positive rate was 65.54% in 13-17 years old group; The positive rate of ragweed pollen SPT was 49.79% in allergic rhinitis combined with asthma patients, followed by 46.46% in allergic rhinitis patients, and the lowest rate was 19.42% in single allergic asthma patients. There were more females than males in both ragweed pollen sensitized and non-ragweed pollen sensitized groups(P<0.05), and the proportion was higher in 30-39 years old than in other age groups(P<0.05). Ragweed pollen sensitization was higher than non-ragweed pollen sensitization in the allergic rhinitis group(98.49% vs 94.76%, P<0.05). Ragweed pollen with other summer and autumn pollen allergens in patients with positive SPT, the top three were Chenopodium pollen, Humulus pollen and Artemisia grandis pollen, with positive rates of 90.42%, 89.63% and 85.40%, respectively. Ragweed combined with other pollen sensitization accounted for 99.57%(4 407/4 426). Allergic rhinitis was the main disease in patients sensitized with ragweed pollen alone or combined with other pollens, and there was no significant difference between the two groups(94.97% vs 98.50%, P>0.05). Conclusion:Ragweed pollen is highly sensitized in Beijing area, single ragweed pollen sensitization is rare, often combined with multiple pollen sensitization, and allergic rhinitis is the main disease.
Humans
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Male
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Female
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Adolescent
;
Adult
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Rhinitis, Allergic, Seasonal/epidemiology*
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Retrospective Studies
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Allergens
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Pollen
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Rhinitis, Allergic
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Asthma/epidemiology*
;
Skin Tests
7.The correlation of allergic rhinitis and trace elements in Ningxia region.
Ruixia MA ; Yueling SHEN ; Li HOU ; Zhichao YANG ; Ningyu FENG ; Xiaohui YAN ; Hui SHAO ; Xiaoping GAO ; Lingling DI
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2014;49(12):1017-1020
OBJECTIVETo investigate the correlation of allergic rhinitis and trace elements and to provide a reference for clinical diagnosis, treatment and prevention of allergic rhinitis.
METHODSOne hundred and six patients were diagnosed as allergic rhinitis in General Hospital of Ningxia Medical University between January and December in 2010, including 48 cases of perennial allergic rhinitis and 58 cases of seasonal allergic rhinitis. In the same time, one hundred and three healthy volunteers were selected as control. Intravenous blood 3-5 ml were obtained from all subjects both in experimental group and in control group. The content of Ca, Ni, Fe, Mg, Zn, Sr, Mn, Cu, Se in serum and hair was determined by inductively coupled plasma atomic emission spectrometry (ICP-AES). The t-test (SPSS 16.0) was used to compare the results of trace elements in serum between allergic rhinitis and control group.
RESULTSThe testing results of trace elements in AR patients serum and normal controls serum were as follows: Cu, Ni (1 002.18 ± 104.62) µg/L, (21.58 ± 5.54) mg/L were super than control group, (832.78 ± 50.45) µg/L, (17.04 ± 4.93) mg/L (t value was 15.545, 5.154, both P < 0.05). But the content of Zn, Se (793.48 ± 46.88) µg/L, (84.25 ± 12.77) µg/L lower than control group (908.53 ± 31.26) µg/L, (98.35 ± 15.21) µg/L (t value was -24.175 and -7.797, both P < 0.05) . The testing results of trace elements in AR patients hair and normal controls hair were as follows: Cu, Ni (42.43 ± 5.03) µg/g, (31.72 ± 5.49) µg/g were super than control group, (23.00 ± 4.45) µg/g, (8.94 ± 7.53) µg/g (t value was -8.633 and 4.236, both P < 0.05). But the content of Zn, Se (92.16 ± 4.54) µg/g , (0.28 ± 0.04) µg/g lower than control group (189.09 ± 8.45) µg/g, (0.39 ± 0.06) µg/g (t value was -28.71 and -8.633, both P < 0.05).
CONCLUSIONSThe content of Zn, Se in AR patients serum are lower than that in control group. But the content of Cu, Ni in AR patients serum are super than that in control group. There are no significant difference of trace elements in the serum between pennial allergic rhinitis and seasonal allergic rhinitis.
Air Pollutants ; analysis ; Air Pollution ; statistics & numerical data ; China ; epidemiology ; Hair ; Humans ; Rhinitis, Allergic ; epidemiology ; metabolism ; Rhinitis, Allergic, Perennial ; Rhinitis, Allergic, Seasonal ; Trace Elements ; analysis
8.Analysis of characteristics of Chenopodiaceae pollen induced seasonal allergic rhinitis in the Inner Mongolian grassland region of China.
Ting Ting MA ; Yan ZHUANG ; Hai Yun SHI ; Hui Yu NING ; Zhen Xiang KANG ; Bate SIQIN ; Bula HANBAN ; Xiao Liang WANG ; Hong Tian WANG ; Xue Yan WANG
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2021;56(5):471-477
Objective: To analyze the clinical characteristics of Chenopodiaceae pollen induced seasonal allergic rhinitis (SAR) as well as the distribution and sensitization characteristics of Chenopodiaceae pollen in Inner Mongolia grassland of northern China. Methods: From May 2015 to August 2015, using stratified, cluster and random sampling, a field interviewer-administered survey study and skin prick test (SPT) were conducted in six areas of Inner Mongolia grassland (Xilinhot, Erenhot, Duolun, Tongliao, Jarud, Kailu), and pollen monitoring was carried out in the above six areas from January 1 to December 31 of 2015. The clinical characteristics of Chenopodiaceae pollen induced SAR, distribution and sensitization characteristics of Chenopodiaceae pollen in these regions were observed. SAS software 9.4 was used for data processing. Results: A total of 6 043 subjects completed the study. The prevalence of Chenopodiaceae pollen induced SAR was 13.2% (795/6 043). The highest prevalence was found in the 18-39 age group. Subjects from urban areas showed higher prevalence of SAR than rural areas (61.2% vs 37.9%, P<0.001). There was significant regional difference in the prevalence rate of Chenopodiaceae pollen induced SAR among the above six areas (Xilinhot 21.5%, Erenhot 17.8%, Duolun 8.9%, Tongliao 6.9%, Jarud 15.3%, Kailu 9.7%, P<0.001). The main clinical symptoms of Chenopodiaceae pollen induced SAR were sneezing (96.5%) and nasal itching (92.2%). Eye itching was more obvious among the ocular symptoms (69.1%), while fatigue (32.1%) and drowsiness (31.5%) were more prominent among other related symptoms. Among comorbidities of Chenopodiaceae pollen induced SAR, allergic conjunctivitis accounted for 71.4% (568/795), food allergy accounted for 86.7% (689/795) and asthma accounted for 16.7% (133/795). The peak of Chenopodiaceae pollen spread was in August. The prevalence of Chenopodiaceae pollen induced SAR was positively correlated with the concentration of Chenopodiaceae pollen (R2=0.78, P=0.043). The SPT positive rate of Chenopodiaceae pollen was 21.2% (1 282/6 043), and Xilinhot had the highest rate in six regions (28.0%, 236/842). Conclusions: The prevalence of Chenopodiaceae pollen induced SAR in Inner Mongolia grassland stays at a high level. Sneezing is the most obvious symptom of SAR. The peak of Chenopodiaceae pollen spread is in August and the prevalence of Chenopodiaceae pollen induced SAR is positively correlated with the pollen concentration.
Allergens
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Chenopodiaceae
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China/epidemiology*
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Grassland
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Humans
;
Pollen
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Rhinitis, Allergic, Seasonal/epidemiology*
9.A survey of airborne pollen in Wuhan and its relationship to pollinosis.
Rongfei ZHU ; Wenjing LI ; Zhongxi WANG ; Huan CHEN ; Wei ZHANG ; Guanghui LIU
Journal of Clinical Otorhinolaryngology Head and Neck Surgery 2008;22(14):647-650
OBJECTIVE:
To study the type and drift law of airborne pollen in Wuhan, and its relationship to pollinosis.
METHOD:
From November 2003 to October 2004, an airborne pollen investigation was performed in three districts of Wuhan using gravity sedimentation technique. Meanwhile, univalent shin prick tests of pollens and the study of invasion season were performed in 1200 cases with pollenosis. Among them, 352 cases underwent the airway responsiveness measurements, and the correlation between airway responsiveness and pollen concentration were analyzed.
RESULT:
A total of 47 pollen colonies were observed and 75,525 pollens were collected. Every year the the peak time of airborne pollen occurred in two seasons: spring (March and April) and autumn (from August to October). The incidence of pollinosis is consistent to pollen peak time; there was a negative relationship between PD20 (the provocative dose to decrease FEV1 by 20% from baseline) and airborne pollen concentration.
CONCLUSION
The study provides useful information for airborne pollen epidemiology in Wuhan. It provides important insights to clinical prevention, diagnosis and treatment of pollen related allergic diseases.
Allergens
;
analysis
;
China
;
epidemiology
;
Humans
;
Incidence
;
Pollen
;
Rhinitis, Allergic, Seasonal
;
epidemiology
;
Skin Tests
10.Impacts of socioeconomic and environmental factors on self-reported prevalence of allergic rhinitis in eleven cities in China.
Luo ZHANG ; De-min HAN ; Dan HUANG ; Cheng-shuo WANG ; Xiang-dong WANG ; Bing ZHOU ; Yan ZHAO
Chinese Journal of Otorhinolaryngology Head and Neck Surgery 2007;42(6):452-456
OBJECTIVERecent findings suggest that environmental factors play important roles in the etiology of allergic rhinitis, however, data on the impacts of socioeconomic and environmental factors on self-reported prevalence of allergic rhinitis in China is sparse, which is the aim of this study.
METHODSTelephone interviews were performed in 11 cities throughout the mainland of China, and the association between environmental factors and self-reported prevalence of allergic rhinitis were evaluated by multiple linear correlation tests.
RESULTSIn total, there was no association between the adjusted self-reported prevalence of allergic rhinitis and socioeconomic factors such as GDP, GDP per capita, gross output value of industry and gross output value of industry per capita, while the adjusted self-reported prevalence of allergic rhinitis was positively correlated with the concentration of SO2, and no association was found between adjusted self-reported rate of allergic rhinitis and either meteorological factors including annual average temperature, annual average relative humidity, annual hours of sunshine and annual precipitation or other air pollution factors including NO2 and PMl0.
CONCLUSIONSThe study demonstrates that the self-reported prevalence of allergic rhinitis in 11 cities in China was positively correlated with the concentration of SO2, and the strategy of prevention for allergic rhinitis could be conducted according to the results. Prevalence;
Air Pollution ; China ; epidemiology ; Humans ; Prevalence ; Rhinitis, Allergic, Perennial ; epidemiology ; Rhinitis, Allergic, Seasonal ; epidemiology ; Risk Factors ; Self Report ; Socioeconomic Factors ; Surveys and Questionnaires