Fitness
Relationship between bakhour use and respiratory health | IJGM
Introduction
Household air pollution (HAP) stemming from biomass fuel combustion poses a major global health concern, contributing to 4.3 million premature deaths annually.1 Microscopic particulate matter and gases emitted from these solid fuels can profoundly impact respiratory health by inflaming airways and penetrating deep into the lungs.2 The World Health Organization recognizes HAP as a leading worldwide risk factor, responsible for 3.2 million deaths annually.1
Incense burning represents another major source of indoor air pollution with deep cultural and religious traditions, especially across Asia.3,4 Despite cultural significance, incense smoke contains high levels of fine particulate matter, carbon monoxide, nitrogen oxides, sulfur dioxide, volatile organic compounds, polycyclic aromatic hydrocarbons, and metals that damage the respiratory tract and can exacerbate respiratory problems such as asthma, chronic obstructive pulmonary disease, and other breathing difficulties.3,5–7 Daily exposure to incense smoke in homes and temples is associated with poorer indoor air quality and inflammatory responses.3,8
Furthermore, research has shown that bakhour exposure can cause significant damage to lung cells, highlighting the need to investigate its impact on asthma prevalence and symptoms children.3,9,10 Cross-sectional studies in Oman found exposure to bakhour smoke increased wheezing among asthmatic children.10 Additional research in Saudi Arabia showed bakhour smoke elicited acute throat and voice symptoms in adults along with associations between daily bakhour use and chronic obstructive pulmonary disease (COPD) risk in non-smoking women.8,11,12
While evidence suggests incense burning adversely affects respiratory health, limited research exists on the relationship between bakhour smoke exposure and respiratory diseases in regions with prevalent cultural use. This cross-sectional study addresses this gap by examining associations between bakhour use characteristics and respiratory outcomes among adults in Saudi Arabia’s Jazan region where heavy bakhour use is common but respiratory effects are understudied. We provide a comprehensive investigation of bakhour-related factors alongside measured respiratory health indicators. Findings will inform public health approaches regarding this widespread cultural practice affecting respiratory wellbeing.
Materials and Methods
Study Design and Participants
This cross-sectional questionnaire-based study was conducted in the Jazan region of Saudi Arabia from October 2023 to March 2024. Adults aged 18 years and above residing in the Jazan region were eligible to participate. Individuals younger than 18 years were excluded. The target sample size was initially calculated as 384 using Raosoft’s sample size calculator, based on a 95% confidence level and 5% margin of error. Accounting for an estimated 25% non-response rate, the total required sample was adjusted to 480. To further minimize sampling bias and improve representation, the sample was expanded to 1612 participants from diverse cities and regions across Saudi Arabia. Multistage random sampling was utilized to recruit participants from varied geographic areas. The final sample size of 1612 was confirmed using the following formula:
where Z represents the Z statistic for the desired confidence level (1.96 for 95% confidence), p is the expected prevalence or response distribution (0.5 used for the most conservative estimate), and E is the margin of error.
Data Collection Tools
A structured questionnaire was developed specifically for this study to collect data on demographics, incense use, and respiratory health symptoms. The questionnaire content and structure were informed by a review of similar previous surveys on respiratory health and incense exposure. The questionnaire contained three sections – demographics, incense use, and respiratory symptoms. The demographics section collected information on age, gender, marital status, education, occupation, income, and smoking status. The incense use section asked about frequency and duration of use, type of incense, and location of use. The respiratory symptoms section included questions on chronic cough, phlegm, wheezing, breathlessness, chest tightness, nasal congestion, sneezing, and diagnosed respiratory conditions. The questionnaire was piloted among 25 participants from the target population to evaluate clarity, validity, flow, and completion time. Minor modifications were made based on pilot feedback before finalization. The final questionnaire consisted of 32 items and took approximately 10–15 minutes to complete. Data collection was conducted using an online survey platform. The questionnaire was self-administered by participants after providing online informed consent. Participation was voluntary and confidentiality was maintained by collecting no personal identifiers. Email invites with the survey link were distributed via social media platforms like WhatsApp, Telegram, and Twitter to recruit participants from the Jazan region.
Data Analysis
The completed questionnaires were exported from the online survey platform into Excel. The data was checked for errors, inconsistent values, and missing responses. Descriptive analysis was conducted to summarize sample characteristics and prevalence of respiratory symptoms. Respiratory health symptoms were assigned a score from 0–3 based on frequency (0 – never, 1 – sometimes, 2 – weekly, 3 – daily) and summed to derive a total respiratory health score (range 0–24). Participants scoring above 15 were categorized as having “poor” respiratory health while those scoring 15 or below were grouped as “good” respiratory health. Chi-squared test was used to assess associations between categorical sociodemographic factors, Bakhour use variables and respiratory outcomes. Independent t-test was applied for comparisons of respiratory health score between groups. ANOVA was used to analyze differences in respiratory score by Bakhour frequency and type. Multiple linear regression was conducted with respiratory health score as the outcome and sociodemographic and Bakhour factors as predictors. A p-value
Ethical Approval
This study received ethical approval from the Standing Committee for Scientific Research at Jazan University (reference number REC-45/05/870, dated 4/12/2023). Electronic informed consent was obtained from all participants prior to beginning the online survey. Confidentiality and privacy of data were maintained by collecting no personal identifiers. All data was reported in aggregate form. Data access was limited to the research team. Participants could voluntarily withdraw from the study at any time. Additional ethical considerations included transparency in communicating study purposes, questionnaire pre-testing, voluntary participation with informed consent, avoiding questions that could produce emotional distress, and secure data storage. This study was conducted in accordance with the Declaration of Helsinki guidelines for human subjects research.
Results
Sociodemographic Characteristics of the Sample
Table 1 outlines the sociodemographic characteristics of the study sample, comprised of 1612 participants. The mean age of the participants is 29 years, with a standard deviation of 11 years. Family size, represented by the mean number of children per household, is reported as 6.1 with a standard deviation of 2.8. Gender distribution reveals that 37% of the participants are male, while 63% are female. The vast majority of the sample is Saudi (96%), with a small non-Saudi representation (4%). The city of Jazan constitutes 77% of the participants, while the remaining 23% reside in other cities. In terms of residence, 43% of the participants live in rural areas, and 57% in urban settings. Social status varies, with 57% being single, 39% married, and 3% divorced or widowed. The income distribution indicates that 57% of the participants earn “Less than 5000”, 18% earn “5000–9999”, 14% earn “10,000–14,999”, and 11% earn “≥15,000”.
Table 1 Sociodemographic Characteristics of the Sample (n = 1612) |
Habitual and Health-Related Characteristics
Table 2 comprehensively outlines the habitual and health-related characteristics of the study cohort, consisting of 1612 participants. The mean weight is reported as 64 kg, with a standard deviation of 17 kg, while the mean height is 162 cm, with a standard deviation of 9.6 cm. The Body Mass Index (BMI) is presented with a mean of 24 kg/m² and a standard deviation of 5.6. Regarding smoking habits, 18% of participants report being smokers, with the majority (82%) being non-smokers. Among smokers (n=294), the distribution of smoking types reveals 44% using cigarettes, 36% using shisha, and 20% using vape. Health-related characteristics indicate that 5% of participants have hypertension (HTN), while the majority (95%) do not. The prevalence of diabetes mellitus (DM) is 4%, with 96% not reporting the condition. Sickle cell anemia (SCA) is noted in 3% of participants, whereas 97% do not have this condition. Additionally, thalassemia is present in 1% of participants, with 99% not exhibiting this health condition.
Table 2 Habitual and Health Related Characteristics (n = 1612) |
Table 3 delineates Bakhour-related variables among the 1612 participants included in the study. Nearly the entire cohort (98%) reported engaging in Bakhour use. Among Bakhour users, the predominant utilization method involves coal (73%), followed by both coal and electronic methods (24%), and a negligible proportion using only electronic means (1%). The types of Bakhour utilized were diverse, with Oud being the most prevalent (42%), followed by Mastic (27%), Maamoul (23%), and other types (5%). A small fraction of participants (2%) identified as non-Bakhour users. The mean Bakhour use frequency was reported as 4.5 times per week, with a standard deviation of 2.9.
Table 3 Bakhour Related Variables (n = 1612) |
Respiratory Health (Self-Reported)
The prevalence of cough is reported with 28% of participants, while 72% report no cough. The frequency distribution of cough reveals 5% experiencing it daily, 8% weekly, and 15% monthly. Cough during Bakhour use is reported by 24% of participants, with 76% indicating its absence during this activity. Shortness of Breath (SoB) is noted in 27% of participants, with 5% experiencing it daily, 10% weekly, 12% monthly, and 73% reporting no SoB. Additionally, 6% experience SoB in the morning, 21% at night, and 73% report no SoB at these times. SoB during Bakhour use is reported by 24% of participants. Wheezing is present in 13% of participants, while conditions such as asthma, COPD, and allergic rhinitis are each reported by 13% of participants. The majority (87%) report the absence of these respiratory conditions (Table 4).
Table 4 Respiratory Health (n = 1612) |
Respiratory Health Score
The respiratory health scores, as assessed by the Respiratory Symptom Experience Scale, demonstrated a broad range among participants, varying from a minimum of 0 to a maximum of 48. A lower score indicates better respiratory health, while higher scores suggest poorer respiratory health. The summary statistics reveal a central tendency with a median of 14.00 and a mean of 15.76, highlighting a relatively symmetric distribution. Given the close alignment of the median and mean, indicative of a normal distribution, we implemented a categorization strategy based on the mean value (15.76). Participants were divided into two groups: those with good respiratory health and those with poor respiratory health. This resulted in 54.09% of participants categorized as having good respiratory health (n = 872) and 45.91% as having poor respiratory health (n = 740) (Figure 1).
Figure 1 Respiratory Health Among Participants. |
Association Between Bakhour Variables and Respiratory Health
The presented findings in Table 5 provide insights into the relationships between various variables associated with Bakhour use and health outcomes, specifically cough, cough frequency, shortness of breath (SoB), SoB frequency, wheezing, and allergic rhinitis. In terms of cough, neither the use of Bakhour nor the specific processes involved (coal and electronic methods) nor the type of Bakhour used show statistically significant associations. However, the frequency of Bakhour used demonstrates a significant association with cough (p Appendix Tables 1–6.
Table 5 Association of Cough, Shortness of Breath, Wheezing, and Allergic Rhinitis with Bakhour Use* |
Association Between Bakhour Variables and Respiratory Health Score
The multiple linear regression analysis aimed to explore the relationship between Bakhour variables, sociodemographic factors, and the respiratory health score. The respiratory health score, where higher values indicate lower respiratory health, serves as the dependent variable. Among the Bakhour variables, Bakhour use, specific processes (Coal and Electronic), and different types of Bakhour (Mastic, Oud, Other) did not show statistically significant associations with the respiratory health score. Likewise, the frequency of Bakhour use exhibited a non-significant impact on the respiratory health score. Notably, the presence of cough upon Bakhour use demonstrated a significant positive association, indicating an increase in the respiratory health score (indicating poorer respiratory health) when cough is present during Bakhour use (p = 0.006). Similarly, shortness of breath (SoB) triggered by Bakhour showed a significant positive association, suggesting a higher respiratory health score in the presence of SoB during Bakhour use (p Table 6.
Table 6 Multiple Linear Regression of Bakhour Variables and Respiratory Health Score |
Discussion
While prior research shows that incense smoke adversely impacts respiratory health, limited evidence exists on its effects in populations with high cultural use. This cross-sectional study is the first to investigate associations between respiratory diseases and incense (bakhour) among adults in Saudi Arabia’s Jazan region, where bakhour use is prevalent yet respiratory health impacts are unknown. We addressed this knowledge gap by analyzing self-reported respiratory outcomes in relation to various bakhour exposure characteristics among a large sample of adults from this understudied population. The study condenses the background details, avoiding repetition from the Introduction. It highlights the lack of prior research focused on the respiratory health impacts of cultural incense use specifically in the high-exposure Jazan region. This opening clearly emphasizes the knowledge gap addressed by examining associations between bakhour use patterns and respiratory diseases in this population.
In this large sample, nearly all participants reported bakhour use. We identified significant associations between bakhour exposure characteristics and respiratory outcomes. Higher bakhour use frequency correlated with increased cough and shortness of breath. Specific types of bakhour associated with greater allergic rhinitis prevalence. These findings align with previous studies showing incense smoke irritates airways and provokes symptoms like cough and dyspnea.4,5,13 Our Results similarly demonstrate correlations between incense exposure patterns and respiratory issues, particularly increased cough and shortness of breath with frequent bakhour use among adults in Jazan. The association of certain bakhour types with rhinitis also accords with research indicating incense smoke can trigger allergic responses.14–16
Several other studies from Asian populations, where different types of incense are burnt for religious purposes, reported significant associations between exposure to incense smoke and respiratory symptoms.17–19 Our findings showing associations between bakhour use and respiratory issues align with prior studies demonstrating links between incense exposure and cough, dyspnea, wheezing, and conditions like COPD.20,21 Though specific respiratory effects and strength of associations varied across studies, past research overall indicates consistent connections between incense smoke and adverse respiratory health impacts. As it is responsible for regulating IgE and stimulating mucosal immunity, and increased activation may lead to exacerbation of allergic respiratory diseases.22
Incense smoke contains fine particulate matter and gases like PM2.5, carbon monoxide, and volatile organic compounds that can be inhaled deep into the lungs.3,23 Our study found increased risk of respiratory symptoms like cough and shortness of breath with frequent bakhour use. The particulate matter likely causes airway inflammation and irritation. Specific components may also provoke allergic responses, as we found associations between certain bakhour types and increased allergic rhinitis. This aligns with previous research finding links between incense smoke chemicals and elevated IgE levels or eosinophilic inflammation related to allergies and asthma exacerbation.3,14,24 The exact mechanisms and specific causal components still need further investigation, but the evidence indicates that chemicals in bakhour smoke negatively impact respiratory health.
Culturally appropriate education campaigns, avoidance advice for at-risk groups, smoke-free public spaces, improved ventilation standards, enhanced clinical screening, further etiological research, and increased preventive respiratory health services are warranted to curb hazardous bakhour exposures in Jazan region. Implementing multifaceted interventions informed by local cultural practices and epidemiological evidence can help mitigate bakhour smoke risks revealed by this study. Priorities include increasing public awareness, reducing exposure in public areas and homes, improving surveillance and healthcare access for affected populations, establishing exposure limits, and expanding the research basis to support regulatory policies to ultimately preserve respiratory health.
This study has strengths in its large sample size drawn from the understudied Jazan population with high cultural bakhour use. Our findings significantly contribute to the limited evidence on bakhour exposure risks, demonstrating consistent associations between use patterns and adverse respiratory health effects in this population. These results highlight the need to address this modifiable factor to promote respiratory wellbeing in Jazan region. The implications underscore the importance of implementing culturally-appropriate public health strategies to increase awareness and reduce hazardous exposures. Overall, this study generates crucial evidence to inform prevention policies and interventions to preserve respiratory health in bakhour-using populations.
Limitations
This study has certain Limitations. The cross-sectional design provides associations at one time point but cannot determine causality or long-term impacts requiring longitudinal assessments. Self-reported data may involve recall bias, emphasizing the need for objective clinical measurements in future studies. Respiratory health was evaluated based on symptoms and previous diagnoses rather than direct functional assessments. However, the study mitigates limitations through the large, diverse sample representing the target population. It includes comprehensive bakhour exposure and respiratory health indicators beyond previous studies focused only on specific outcomes like asthma. The research significantly contributes much-needed initial evidence on this topic in an understudied population. Going forward, findings would be enriched by longitudinal evaluations over extended bakhour exposure periods, measurements of lung function, and identification of specific hazardous components. This study provides a crucial foundation highlighting key associations to inform future investigations into the respiratory health impacts of cultural bakhour use.
Conclusions
The findings demonstrate consistent links between Bakhour exposure patterns and respiratory outcomes including increased cough, dyspnea, and allergic rhinitis. The results hold important public health implications for this population with prevalent Bakhour use, emphasizing the need for longitudinal investigations, explorations of mechanisms, and cultural interventions to mitigate hazardous exposures and associated respiratory risks. This research makes a significant contribution by generating key insights to inform policies and practices aimed at preserving respiratory health in the context of deeply rooted cultural traditions. Overall, the study underscores the value of evidence-based, multifaceted public health strategies to promote awareness and reduce harmful smoke exposures, supporting improved respiratory wellbeing at both individual and population levels.
Institutional Review Board Statement
This study received ethical approval from the Standing Committee for Scientific Research at Jazan University (reference number REC-45/05/870, dated 4/12/2023). Electronic informed consent was obtained from all participants prior to beginning the online survey. Confidentiality and privacy of data were maintained by collecting no personal identifiers. All data was reported in aggregate form. Data access was limited to the research team. Participants could voluntarily withdraw from the study at any time. Additional ethical considerations included transparency in communicating study purposes, questionnaire pre-testing, voluntary participation with informed consent, avoiding questions that could produce emotional distress, and secure data storage. This study was conducted in accordance with the Declaration of Helsinki guidelines for human subjects research.
Data Sharing Statement
Data available in the manuscript.
Informed Consent Statement
Written consent was taken.
Author Contributions
All authors made a significant contribution to the work reported, whether that is in the conception, study design, execution, acquisition of data, analysis and interpretation, or in all these areas; took part in drafting, revising or critically reviewing the article; gave final approval of the version to be published; have agreed on the journal to which the article has been submitted; and agree to be accountable for all aspects of the work.
Disclosure
The authors report no conflicts of interest in this work.
References
1. Raju S, Siddharthan T, McCormack MC. Indoor air pollution and respiratory health. Clinics Chest Med. 2020;41(4):825–843. doi:10.1016/j.ccm.2020.08.014
2. Gordon SB, Bruce NG, Grigg J, et al. Respiratory risks from household air pollution in low and middle income countries. Lancet Respir Med. 2014;2(10):823–860. doi:10.1016/S2213-2600(14)70168-7
3. Lin T-C, Krishnaswamy G, Chi DS. Incense smoke: clinical, structural and molecular effects on airway disease. Clin Mol Allergy. 2008;6(1):3. doi:10.1186/1476-7961-6-3
4. Lee CW, Ttt V, Wee Y, et al. The adverse impact of incense smoke on human health: from mechanisms to implications. J Inflamm Res. 2021;14:5451–5472. doi:10.2147/jir.S332771
5. Jetter JJ, Guo Z, McBrian JA, Flynn MR. Characterization of emissions from burning incense. Sci Total Environ. 2002;295(1):51–67. doi:10.1016/S0048-9697(02)00043-8
6. Lee S-C, Wang B. Characteristics of emissions of air pollutants from burning of incense in a large environmental chamber. Atmos Environ. 2004;38(7):941–951. doi:10.1016/j.atmosenv.2003.11.002
7. Al-Kassimi FA. The dangers of incense burning: COPD in Saudi Arabia. Int J Chron Obstruct Pulmon Dis. 2013;8:251–253. doi:10.2147/copd.S42057
8. Guo S-E, Chi M-C, Lin C-M, Yang T-M. Contributions of burning incense on indoor air pollution levels and on the health status of patients with chronic obstructive pulmonary disease. PeerJ. 2020;8:e9768. doi:10.7717/peerj.9768
9. Chen KF, Tsai YP, Lai CH, Xiang YK, Chuang KY, Zhu ZH. Human health-risk assessment based on chronic exposure to the carbonyl compounds and metals emitted by burning incense at temples. Environ Sci Pollut Res Int. 2021;28(30):40640–40652. doi:10.1007/s11356-020-10313-1
10. Al-Rawas OA, Al-Maniri AA, Al-Riyami BM. Home exposure to Arabian incense (bakhour) and asthma symptoms in children: a community survey in two regions in Oman. BMC Pulm Med. 2009;9(1):23. doi:10.1186/1471-2466-9-23
11. Alaithan AM, Memon JI, Rehmani RS, Qureshi AA, Salam A. Chronic obstructive pulmonary disease: hospital and intensive care unit outcomes in the Kingdom of Saudi Arabia. Int J Chron Obstruct Pulmon Dis. 2012;7:819–823. doi:10.2147/copd.S37611
12. Mesallam TA, Farahat M, Shoeib R, et al. Acute effects of inhaling Oud incense on voice of Saudi adults. Ann Saudi Med. 2015;35(2):111–119. doi:10.5144/0256-4947.2015.111
13. Maskey S, Khadgi J, Shrestha N, Acharya A, Park K, Pokhrel A. Characteristics of fine particles from incense burning at temple premises of Kathmandu Valley, Nepal. Environ Monit Assess. 2023;195(11):1382. doi:10.1007/s10661-023-11918-y
14. Nemmar A, Hoet PHM, Vanquickenborne B, et al. Passage of inhaled particles into the blood circulation in humans. Circulation. 2002;105(4):411–414. doi:10.1161/hc0402.104118
15. Nolte H, Backer V, Porsbjerg C. Environmental factors as a cause for the increase in allergic disease. Ann Allergy Asthma Immunol. 2001;87(6 Suppl 3):7–11. doi:10.1016/s1081-1206(10)62333-2
16. Almqvist C. High allergen exposure as a risk factor for asthma and allergic disease. Clin Rev Allergy Immunol. 2005;28(1):25–41. doi:10.1385/criai:28:1:025
17. Yang CY, Chiu JF, Cheng MF, Lin MC. Effects of indoor environmental factors on respiratory health of children in a subtropical climate. Environ Res. 1997;75(1):49–55. doi:10.1006/enrs.1997.3774
18. Ho C-K, Tseng W-R, Yang C-Y. Adverse respiratory and irritant health effects in temple workers in Taiwan. J Toxicol Environ Health Part A. 2005;68(17–18):1465–1470. doi:10.1080/15287390590967405
19. Cuijpers CE, Swaen GM, Wesseling G, Sturmans F, Wouters EF. Adverse effects of the indoor environment on respiratory health in primary school children. Environ Res. 1995;68(1):11–23. doi:10.1006/enrs.1995.1003
20. Custovic A, Simpson A, Woodcock A. Importance of indoor allergens in the induction of allergy and elicitation of allergic disease. Allergy. 1998;53(48 Suppl):115–120. doi:10.1111/j.1398-9995.1998.tb05011.x
21. Lebowitz MD. Health effects of indoor pollutants. Annu Rev Public Health. 1983;4(1):203–221. doi:10.1146/annurev.pu.04.050183.001223
22. Abhishek Kumar P, Krishna PA, Krishna PA. Survey of body mass index (BMI) on median motor nerve conduction velocity (NCV) in normal population of Malwa region. Indian J Clin Anatomy Physiol. 2023;10(2):104–107. doi:10.18231/j.ijcap.2023.022
23. Yadav VK, Malik P, Tirth V, et al. Health and environmental risks of incense smoke: mechanistic insights and cumulative evidence. J Inflamm Res. 2022;15:2665–2693. doi:10.2147/jir.S347489
24. Alarifi SA, Mubarak MM, Alokail MS. Ultrastructural changes of pneumocytes of rat exposed to Arabian incense (Bakhour). Saudi Med J. 2004;25(11):1689–1693.