Prevalence, severity and risk factors of

Background: Allergic disorders are not usually life-threatening conditions but they impair the person’s ability to function. It thus adversely affects the psychological wellbeing and quality of life. These implications of allergic disorders can be minimized if strategies are planned for its early identification followed by appropriate interventions. Objectives: To find out the prevalence and risk factors of allergic disorders. Methods: Data was collected by house to house survey among participants aged 18 years and above using a standardized allergy assessment questionnaire. Results: Mean age of the 400 participants was 42.8±14.7 years. Majority 105(26.2%) were in the age group 36 to 45 years. Majority were females 287(71.7%) and were house wives 217(54.2%). Majority of participants were of upper socio economic class 98(44.7%) out of 219 and majority were from urban areas 326(81.5%). The prevalence of allergy among participants was found to be 115(28.7%). Out of these 115, 37(32.2%) had possibility of allergy, 60(52.2%) had probability of allergy and the rest 18(15.6%) had very high likelihood for allergy. People residing in semi urban areas had increased risk of allergy (p=0.024) than those from urban areas. The prevalence of asthma was 30(7.5%) and skin allergy was 23(5.8%). Most common precipitating factors for allergy were dust exposure 103(25.8%) followed by seasonal changes 71(17.8%). Family history of allergy was associated with allergy among participants (p<0.001). Usage of firewood was associated with symptoms of respiratory allergy among participants (p=0.01). Conclusion: The study revealed some important determinants of allergic disorders which have important implications to frame appropriate prevention and health educational strategies.


Introduction
An allergic condition is a hypersensitivity disorder in which the immune system reacts to substances in the environment that are normally considered harmless.3][4] Allergic disorders are believed to result from a complex interplay between genetic and environmental factors. 4,5Unfortunately there is a paucity of information and dearth of epidemiological data about allergic disorders in India. 6lergic disorders like asthma are often under-diagnosed and undertreated, creating considerable burden on individuals and families .7It is responsible for approximately 1% of all disability-adjusted life years lost worldwide. 7llergic disorders and its complications has also been reported to increase health care costs of the individual. 8herefore even though mostly a non-life threatening condition, they can impair the person's ability to function.It thus has a huge socioeconomic impact and can adversely influence psychological wellbeing and quality of life. 4,9,10resence of one allergic disorder has been found to increase the risk of other allergic disorders affecting different organ systems. 11,12These implications of allergic disorders can be minimized if strategies are planned for its early identification followed by appropriate interventions.
Therefore this study was aimed to find out the prevalence of allergy among people and to explore its re-lationship with risk factors.The results of this study would form a baseline for epidemiological surveillance of allergic disorders.This would help further to design and implement primary health care measures to prevent further disease burden.The diverse demographic, cultural and social conditions observed in South Canara district of Karnataka state in south India would be an ideal setting to explore the risk factors of allergy.

Materials and methods
This cross-sectional study was done in April 2014 in field practice areas of Department of Community Medicine of this private medical college.This comprised of urban areas namely Jeppinamogaru, Boloor, Lady Hill and a semi-urban area namely Shivanagar.The approval for conducting this study was obtained from Institutional Ethic Committee of Kasturba Medical College, Mangalore.
The minimum sample size of 243 participants was calculated at 95% confidence limits, 85% power and prevalence of allergic disorders in the community assumed to be 42.3% based on the findings of a previous survey. 13owever a total of 400 participants could be enrolled during the study period.These participants were chosen from households by systematic random sampling method.Here every 10th house starting from the first house chosen by simple random sampling technique were surveyed.In case the house was locked the next adjacent house was selected.
Any person aged ≥ 18 years, literate and consenting to participate per house was enrolled in this study.Written informed consent was obtained from each participant after explaining to them the nature and purpose of the study using an information sheet printed in local language, Kannada.The data was collected by interviewing each participant using a standardized allergy assessment questionnaire 14 translated into Kannada.The questionnaire was language validated by translation and back translation with the help of language experts.Pre testing of the tool was done among ten non randomly chosen participants who were not part of the main study.The questionnaire consisted of fifteen questions to assess allergic disorders.Participants were asked about presence or absence of these symptoms over the past one month.The questions had differential weighted scores allotted by the manufacturers and cumulative scores in the range below 8 were categorized as allergy unlikely, 8 to 12 as allergy possible, 13 to 20 as allergy probable and more than 20 as allergy very likely.Socio economic status was assessed using Modified BG Prasad Classification of 2014.Data was entered and analyzed using SPSS Inc., Chicago, IL version 11.0.Chi-square was used to test the association of various socio demographic variables with risk of developing allergy among participants.p value ≤0.05 was taken as significant association.

Results
Mean age of the 400 participants were 42.8±14.7 years.Majority 105(26.2%)were in the age group 36 to 45 years.Majority were females 287(71.7%)and were house wives 217(54.2%).Majority of participants were of upper socio economic class, 98(44.7%)out of 219 and majority were from urban areas 326(81.5%).The prevalence of allergy among participants was found to be 115(28.7%).Out of these 115, 37(32.2%)had possibility of allergy, 60(52.2%)had probability of allergy and the rest 18(15.6%)had very high likelihood for allergy (Table 1).Allergy was seen among greater proportion of people residing in semi-urban areas (p=0.024)compared to urban areas.No other socio demographic variables were associated with risk of developing allergy among participants.(Table 1) The prevalence of asthma was 30(7.5%) and skin allergy was 23(5.8%).(Table 2) Most common precipitating factors for allergy were dust exposure 103(25.8%)followed by seasonal changes 71(17.8%).Allergy to food substances was reported by 16  This comprised of 10 for sea foods, 5 for vegetables like cucumber and lady finger and one towards peanuts.Four people gave history for drug allergy.All these drugs were antibiotics namely, penicillin in one case, ciprofloxacin in two cases and sulfa drugs in three out of four cases.(Table 3)  Usage of firewood was associated with symptoms of respiratory allergy among participants (p=0.01).(Table 5) Gastro intestinal (GI) symptoms like recurrent indi-gestion, bloating, diarrhoea and constipation was seen among 20(5.5%)participants who were non vegetarians compared to 2(5.3%) who were vegetarians (X 2 =0.005, p=0.946).
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Discussion
The prevalence of allergy was 28.7% in this study compared to 42.3% self-reported by participants in another community based study done by Enroth S et al. 13 Prevalence of rhinitis was reported to be ranging from 11.3% to 61.9% in previous Asian studies 12,15-17 and 22.5% in a European study 9 and 32% in a study done in Colombia 18 compared to 16.5% reported in this study.Allergic rhinitis has been found to adversely influence quality of patients by affecting mood, work, social functioning and sleep.It has also been found to increase medical expenditure and increase indirect cost due to absenteeism and loss of productivity. 19tching and watering of the eyes was reported by 4% in a study done in Netherlands 20 and by 20% in a study done in Colombia 18 compared to 12.5% in this study.
The prevalence of asthma in other studies ranged from 2.8% to 26.7%. 12,13,15-18compared to 7.5% observed in this study.The prevalence of skin allergy was 5.8% in the present study compared to other studies where it ranged from 1.2% to 14%. 3,12,13,18,20In a study done in Netherlands GI symptoms like stomach cramps, vomiting, and diarrhea as a consequence of allergy was reported by 15% compared to 5.5% participants in this study. 20asonal change was responsible for allergy among 17.8% people in the present study.Similarly a study done in Taiwan reported that environmental factors like temperature and humidity exacerbate allergy. 12In an-African Health Sciences Vol 16 Issue 1, March 2016 other study done in Bolivia, outdoor air pollutants were responsible for asthma and allergies. 21This supports the role of environmental factors involved in occurrence of allergic disorders.
Allergy prevalence in a Swedish study was inversely correlated with number of hours spent outdoors. 13On the contrary in this study, going outdoors precipitated allergy in 10.5% cases.
In this study exposure to dust precipitated allergy in 25.8% participants.A record based study done in Iran reported that house dust mites were the predominant sensitizing allergens in 89.7% patients. 2Visiting parks or grassy areas has been found to precipitate allergy in 6% of cases in this study.This again supports the role of pollens as the major source of allergens responsible for 10 to 20% of allergic diseases in the community, the most common of which being rhinitis. 2 this study contact with animals was found to precipitate allergic symptoms in 2.8% individuals.In a study done in Bolivia, presence of farm animals were statistically significant predictors of allergic disorders like asthma symptoms, rhino conjunctivitis and eczema. 21he Isaac III study in Bogota also observed that symptoms of asthma was correlated with the presence of animals at home. 22Therefore removal of the pets from the home is recommended for sensitized patients with allergic diseases. 5 this study, 4% participants reported food allergy in comparison to findings of other studies where it ranged from 2% to 24.9%. 6,13,23,24Individuals with food allergy have reported social isolation, depression and poor quality of life. 25This could be due to anxiety associated with being continuously alert to their eating habits due to fear of allergic reactions. 20Severe food allergy adversely influences the diet and lifestyle of individuals thus posing socio-economic burden on their families.In this study sea foods were the most common food item reported to cause allergy.In other studies the most common allergenic foods where milk, eggs, peanuts and fish. 6,13,20,23Genetic factors are known to be incriminated with allergic reactions to food. 26Such individuals should take plenty of fruits and vegetables which are rich in antioxidants, hence beneficial in preventing allergic diseases. 27,28n a Swedish study, allergy prevalence was inversely correlated with age in contrast to our observations where no association was noticed. 13In this study females had slightly increased risk of allergic disorders while a study done in Taiwan found allergic disorders to be significantly more among females. 12][31] Studies have also observed that this increased risk seemed to be present no matter whichever type of allergic diseases were in family members indicating strong genetic component irrespective of varying prevalence and environmental risk factors of allergies in different societies. 4,32These genetic factors form the non-modifiable factors in causation of allergies which cannot be controlled.
In a study done in Korea, people from higher socio economic status were found to significantly suffer from allergic disorders like atopic dermatitis which was different from our observations where no association was seen. 3In this study allergic disorders were significantly more in semi urban areas compared to urban areas which was different from other studies where it was significantly more in urban areas. 3,9 this study use of fire wood was associated with respiratory allergy.Similarly in other studies, adjusted models showed that exposure to wood or coal as cooking fuel were associated with an increase in asthma symptoms over domestic gas appliances. 21,33However no association of smoking with respiratory or other allergic symptoms was observed here similar to the findings of a study done in Japan where no association between cigarette smoking and atopic eczema was reported. 34A case-control study in Taiwan on the other hand found that adult-onset atopic eczema was seen in greater proportion of smokers. 35om the observations in this study we conclude that allergic disorders are very common affecting about one in three adults in this settings.Respiratory symptoms were the most common manifestation and was significantly associated with use of firewood.Family history of allergy was significantly associated with presence of allergy among participants.People in semi urban areas were significantly more affected than people residing in urban areas.Other common risk factors for allergy reported were dust exposure and seasonal changes.The study revealed some important determinants of allergic disorders which might have important implications for development of suitable health education measures and to plan appropriate prevention strategies.Moreover a multidisciplinary team approach consisting of pulmonologist, dermatol-African Health Sciences Vol 16 Issue 1, March 2016 ogist, nurses, dietitians and health care workers would be ideal to control allergic disorders in the settings.

Limitations
The diagnosis of allergy was based on self-reported symptoms and not by laboratory investigations.Also further research is needed to identify the role of genetic factors in causation of allergy.

Table 1 : Association between socio demographic variables with risk of allergy among participants.
(4%) participants.African Health Sciences Vol 16 Issue 1, March 2016