Table 2.

Summary of epidemiological studies on health effects of wood smoke in sub-Saharan Africa.

Reference (Country)	Design (Exposure setting)	Population (sample size)	Source of wood smoke (Comparison)	Method of Exposure assessment	Outcome(s) (Method of Assessment)	Health effect (Risk estimate)	Quality score
Respiratory outcomes
Ellegard [35] (Maputo Mozambique)	CSS (suburban)	Women who are household cooks (n = 1200)	Firewood and charcoal for domestic cooking (Electricity/LPG users)	Interview: principal fuel, defined as the fuel used most often to cook the main meal; measurement of personal PM10.	Cough, Dyspnea, Wheezing, Inhalation and exhalation difficulties (questionnaire); PEFR (mini-wright peak flow meter	Wood users had a significantly higher cough index (2.42 ± 0.104) and lower PEF rates (365 ± 3.4 L/min) than charcoal users (cough index: 1.77 ± 0.108; PEF rates: 382 ± 4.0 L/min) and users of modern fuels (cough index: 1.75 ± 0.198; PEF rates: 379 ± 7.4 L/min). There were no significant differences between the fuel user groups with respect to the non-cough respiratory symptom index.	6
Ezziati and Kammen [33,34] (Laikipia, Kenya)	LCS (Rural)	55 households made up of Infants (n = 93), Individuals aged 5–49 years (n = 229), Individuals aged >50 years (n = 23).	Firewood and charcoal for domestic cooking (PM10 ≤ 1000 vs. PM10 > 1000 μg/m3); (PM10 ≤ 200 vs. PM10 > 200 μg/m3).	Personal exposures to PM10 calculated from Indoor PM10 measurement data and time activity budget.	ARI, ALRI (WHO protocols for clinical diagnosis of ARI).	Risk of ARI and ALRI increased with higher PM10 exposure. For example, with reference to PM10 of <200, the adjusted odds ratio for ARI was 2·42 (1·53–3·83) in children <5 years with PM10 200–500.	7
Ibhazehiebo et al. [74] (Edo, Nigeria)	CSS (Rural and urban)	Women aged 20–70 years. Active wood users (n = 350); non-wood users (n = 300)	Wood use for cooking. (non-wood users)	Questionnaire: number of years of use of wood as cooking fuel; number of times of such cooking per day.	PEFR (mini-wright peak flow meter), Respiratory symptoms (cough with sputum production, dyspnea, wheezing, chest tightness and chest pain)	Respiratory symptoms were markedly elevated in the subjects compared to controls. Mean PEFR value for the wood users (289 ± 19.6 L/min) was significantly lower than non-wood users (364 ± 17.2 L/min), P < 0.05. PEFR decreased with increase in years of exposure to wood smoke.	3
Kilabuko et al. [51] (Bagamoyo, Tanzania)	CSS (Rural)	100 households	Wood use for cooking. (Regular women cooks and children under age 5 Vs unexposed men and non-regular women cooks)	Observation; Kitchen, living room and outdoor measurement of PM10, CO and NO2.	ARI (questionnaire)	The risk of having ARI was higher for cooks and children under age 5 (exposed group) than the unexposed group (OR: 5.5; 95% CI: 3.6–8.5)	3
Fullerton et al. [57] Malawi	CSS (Rural and urban areas)	Adults (n = 374)	Firewood vs. Charcoal users	Questionnaire: type of biomass fuel used for cooking	Lung function (spirometry).	Wood users had significantly worse lung function than charcoal users {FEV1, ml: 2430 (670) Vs 2780 (680) P < 0.001; Percent predicted FEV1: 99 Vs 106, P < 0.008; FVC, ml: 3190 (830) Vs 3490 (870); FEV1/FVC ratio: 76.54 (9.11) Vs 79.80 (7.48) P = 0.001} for firewood and charcoal users, respectively.	5
Ekaru et al. [52] (Moi, Kenya)	Hospital-based CSS (NS)	Children Aged 0–5 years (n = 181)	Use of firewood/charcoal for domestic cooking (Use vs. non-use of firewood/charcoal)	Care-giver reported use of firewood and charcoal for cooking	Pneumonia (clinical diagnosis)	Use of firewood/charcoal were risk factors for mild pneumonia (OR 4.23, CI 3.9–4.6) and severe pneumonia (OR 1.1, CI 1.02–1.26).	4
Taylor and Nakai (Sierra Leone)	CSS (rural and peri-urban)	Women aged 15–45 years (n = 520); children under 5 years of age (n = 520).	Use of firewood/charcoal for domestic cooking (Wood vs. Charcoal use)	Questionnaire: Type of biomass fuel normally used for cooking	ARI (interview: cough and rapid breath in the last 2 weeks preceding study as proxy for ARI)	Relative to charcoal use, wood use was associated with ARI in children but not in women (adjusted OR = 2.03, 95%CI: 1.31–3.13) and (adjusted OR = 1.14, 95%CI: 0.71–1.82), respectively. ARI prevalence was higher for children in homes with wood stoves (64%) compared with homes with charcoal stoves (44%).	4
Oloyede et al. [58] (Nigeria)	Comparative CSS (NS)	Children aged 6–16 years. Those living in fishing port (n = 358) and those living in farm settlements (n = 400)	Firewood use in fish drying (Residence vs. Non-residence in fishing port)	Observation: Living in fishing port	Lung function (spirometry).	Children living in fishing port had reduced lung function (FVC: 1.32 ± 0.67; FEV1: 1.22 ± 0.62) compared with those living in farm settlements (FVC: 1.45 ± 0.43; FEV1: 1.41 ± 0.41. Decline in lung function was associated with increase in duration of exposure to fish drying.	5
Ibhafidon et al. [59] (Ile-Ife, Nigeria)	CSS (NS)	Male and female Individuals including firewood users (n = 35), kerosene users (n = 34) and LPG users (n = 21).	Firewood for cooking (firewood vs. LPG users)	Modified BMRC questionnaire: predominant cooking fuel	Respiratory symptoms (Modified BMRC questionnaire); lung function (spirometry).	Firewood users reported more respiratory symptoms, compared with LPG users. 95.2% of LPG users had normal lung function (FEV1/FVC > 0.7 and predicted FEV1 of at least 80%), 71.4% of firewood users, respectively.	4
Sanya et al. [56] (Kampala, Uganda)	Case. Control study (NS)	Asthma patients aged >13 years. Those with exacerbations (n = 43); Those without exacerbations (n = 43)	Wood and charcoal use for cooking (in-house vs. no in-house wood/charcoal stoves)	Questionnaire: use of in-house wood/charcoal stoves	Asthma exacerbations (clinical assessment)	In-house wood/charcoal use was not associated with increased risk of asthma exacerbations (OR = 0.882, 95% CI: 0.329–2.36, P = 0.802)	4
Umoh and Peters [20] (Akwa-Ibom, Nigeria)	CCSS (Rural)	Women involved in fish- smoking activities (n = 324) and women involved in fishing but not fish smoking (n = 346)	Wood use in fish smoking (Fish-smokers vs. non fish-smokers)	BMRC Respiratory disease Questionnaire: based report of involvement Fish-smoking	Lung function (spirometry)	Fish smokers had lower lung function (Mean FEV1/FVC = 68.8 ± 15.3 %) than non-fish smokers (FEV1/FVC = 78.3 ± 9.6 %), P < 0.001.	5
Ngahane et al. [60] (Bafoussam, Cameroon)	CSS (Semi-rural)	Women >40 years. Those using wood (n = 145) and those using other fuel sources (n = 155) for cooking.	Wood for domestic cooking (wood vs. other fuel [charcoal, gas, electricity] users)	Questionnaire-based report of cooking fuel.	Lung function (spirometry) Respiratory symptoms (questionnaire)	Use of wood as a cooking fuel was associated with impairment of lung function (Adjusted mean difference in FEV1= –120; 95% CI: –205, –35; P = 0.005). Prevalence of chronic bronchitis was higher (7.6%) in wood smoke group than the other fuels (0.6%).	3
Dienye et al. [50] (Rivers State, Nigeria)	CCSS (rural)	Women age ≥15 years. Those involved in fish smoking (n = 210) and those not involved in fish smoking (n = 210)	Wood use for fish smoking (involvement vs. non-involvement in fish smoking)	Self-reported involvement in fish smoking	Respiratory symptoms (questionnaire). PEFR (mini-wright peak flow meter).	Fish smoking was associated with increased risk of sneezing (OR = 2.49, 95% CI: 1.62–3.82; P < 0.001), catarrh (OR = 3.77; 95% CI: 2.44–5.85, P < 0.001), cough (OR = 3.38, 95% CI: 2.22–5.15, P < 0.001) and chest pain (OR = 6.45, 95% CI: 3.22–13.15, P < 0.001). The mean PEFR of 321 ± 58.93 L/min among the fish smokers was significantly lower than 400 ± 42.92 L/min among the controls (p = 0.0001).	4
PrayGod et al. [54] (Mwanza, Tanzania)	Case-control (NS)	Children. Under 5 years Cases (n = 45), controls (n = 72).	Firewood and charcoal (Firewood/charcoal users vs. Gas/Electricity users); (indoor vs outdoor cooking).	Questionnaire: Source of cooking fuel; location of cook stove.	Clinical/Laboratory diagnosis of pneumonia	Firewood and charcoal use were not associated with increased risk of pneumonia (Unadjusted OR = 2.1; 95% CI: 0.2–27 and OR = 1.9 95% CI: 0.2–18, respectively). An increased risk of severe pneumonia was associated with cooking indoors (OR = 5.5, 95% CI: 1.4–22.1)	5
Awopeju et al. [38] (Ile-Ife, Nigeria)	CCSS (NS)	Women >20 years. Those who worked as street cooks for more than 6 months (n = 188); those who have never been street cooks (n = 197)	Firewood and charcoal for street cooking (street cooks vs. Non-street cooks.	Questionnaire: number of hour-years of exposure to street cooking; hours spent cooking daily with biomass fuel at home. Quantification of volatile organic compounds (VOCs) in a sub-sample of the women.	Respiratory symptoms (Questionnaire); pulmonary function (spirometry)	The odds of reported cough (adjusted OR: 4.4, 95% CI: 2.2–8.5), phlegm (AOR: 3.9, 95% CI: 1.5–7.3) and airway obstruction, FEV1/FVC < 0.7 (adjusted OR of 3.3 (95% CI 1.3 to 8.7) were significantly higher among the street cooks than controls.	5
North et al. [61] (Rural Uganda)	Prospective cohort study (Rural)	HIV-infected adults aged >18 years (N = 734; 223 males 511 females)	Use of Firewood/charcoal for domestic cooking. (Firewood Vs Charcoal)	Interview: main cooking fuel	cough of ≥4 weeks duration (self-report).	Cooking with firewood was associated with increased risk of chronic cough among females (adjusted OR = 1.41, 95% CI: 1.00–1.99; p = 0.047).	3
Okwor et al. [21] (Ogun, Nigeria)	CCSS (Rural)	Females aged 13–60 years in two occupations: garri processors (n = 264) and petty traders (n = 264).	Firewood use in garri processing (occupational exposure vs. non-exposure to wood smoke; ≥10years vs <10 years of occupational exposure.	Observation: Working in garri production site	Respiratory symptoms (self-report); pulmonary function (spirometry).	Prevalence of obstructive pulmonary defect (FEV1/FVC < 70%) among the cassava processors was 21.3% compared to 6.4% among petty traders (P < 0.001). Occupational biomass (wood) fuel use (OR = 6.101, 95% CI 3.212–11.590) and working as a cassava processor for ≥ 10 years (OR 14.916, CI 5.077–43.820) were associated with increased risk of obstructive pulmonary defect).	4
Tazinya et al. [55] (Bameda, Cameroon)	CSS (NS)	Children under 5 years of age (n = 512)	Exposure to firewood smoke >30 minutes/day. non-exposure to firewood smoke	Questionnaire: Exposure to firewood smoke	ARI (WHO guideline for diagnosis management of pneumonia in children	Exposure to wood smoke was associated with ARI (adjusted OR: 1.85, 95% CI: 1.22–2.78).	5
Cardiovascular outcomes
Alexander et al. [62]a. (Ibadan, Nigeria)	RCT (Peri-urban)	Pregnant women (N = 108; randomized to firewood (n = 51); randomized to ethanol (n = 58)	Firewood use in domestic cooking (Firewood vs. Ethanol).	Interview: primary cooking fuel	Blood pressure (standard method).	There was no statistical difference in DBP (model 1: χ25 = 5.24; P = 0.39; model 2: χ23 = 2:09; P = 0.55) and SBP pressure (model 1: χ25 = 4.69; P = 0.45; model 2: χ23 = 3.44; P = 0.33) between the women randomized to firewood and those randomized to ethanol.	4
Quinn et al. [36] (Ghana)	CSS (rural)	Pregnant women enrolled in GRAPHS (n = 817)	Firewood and charcoal use in domestic cooking (1 ppm increase in CO exposure)	72-hour personal CO monitoring	Blood pressure (watch automatic BP monitor).	CO exposure was significantly associated with diastolic blood pressure (each 1ppm increase in exposure to CO was associated with 0.43 mmHg higher DBP [95% CI: 0.01, 0.86] and 0.39 mmHg higher SBP (95% CI: –0.12, 0.90).	7
Quinn et al. [37] (Ghana)	RCT (rural)	Non- Pregnant women enrolled in GRAPHS (N = 44). Randomized to firewood (n =23), Improved biomass stove (n = 5) and LPG (n =16)	Firewood for domestic cooking. (Firewood vs. Improved biomass stove and LPG)	Observation: use of firewood, improved biomass stoves or LPG stoves for cooking; Personal 72-hour CO exposure monitoring	Ambulatory blood pressure measurement (ABPM)	ABPM revealed that peak CO exposure (defined as ≥4.1 ppm) in the 2 hours prior to BP measurement was associated with elevations in hourly systolic BP (4.3 mmHg [95% CI: 1.1, 7.4]) and diastolic BP (4.5 mmHg [95% CI: 1.9, 7.2]), as compared to BP following lower CO exposures. Use of improved cookstoves was not significantly associated with lower post-intervention SBP and DBP (within-subject change in SBP and DBP of –2.1 mmHg, 95% CI: -6.6, 2.4 and –0.1, 95% CI: –3.2, 3.0, respectively).	7
Ofori et al. [63] (Rivers State, Nigeria)	CSS (rural)	Women aged 18 and above (n = 389)	Firewood and charcoal (BMF vs. non-BMF)	Questionnaire: predominant cooking fuel	Blood pressure, lipid profile, carotid intima media thickness (all were measured using standard protocols).	Use of BMF was significantly associated with 2.7mmHg higher systolic blood pressure (p = 0.04), 0.04mm higher CIMT (P = 0.048), increased odds of pre-hypertension (OR:1.67, 95% CI: 1.56, 4.99, P = 0.035), but not hypertension OR: 1.23, 95% CI: 0.73, 2.07, P = 0.440)	5
Reproductive outcomes
Amegah et al. [64] Ghana	CSS (urban)	Mothers and their new born	Charcoal use in domestic cooking. (Charcoal vs. LPG)	Questionnaire: type of cooking fuel used	Birth weight (from hospital records); low birth weight (birth weight ≤2500g)	Exposure to charcoal was associated with reduction in birth weight (adjusted β: –381, 95% CI: –523, –239 and –278, 95% CI: –425, –131 p = 0.000) for all births and term births, respectively. Exposure to charcoal smoke was also associated with increased risk of low birth weight in all births (adjusted RR: 2.41, 95% CI: 1.34, 4.35, P = 0.003), but not term births (adjusted RR: 1.79, 95% CI: 0.81, 3.94, P = 0.112)	6
Demelash et al. [66] (Ethiopia)	CCS (rural and urban)	Mothers with singleton live birth. Cases: those who gave live births weighing less than 2500g, n =136) controls (those who gave live births weighed more than 2500g (n = 272).	Firewood use in domestic cooking. (Firewood vs. Electricity)	Questionnaire: type of energy used for cooking	Low birth weight (birth weight ≤2500g).	Use of firewood for cooking was associated with low birth weight (Adjusted OR: 2.7; (95% CI:1.00–7.17)	5
Whitworth et al. [67] (South Africa)	CSS (rural)	Women (n = 420	Firewood use in domestic cooking. (Open wood fires vs. Electricity)	Questionnaire: type of cooking fuel mainly used.	Plasma concentrations of anti-Müllerian hormone (ELISA Method)	Compared with women who used an electric stove, no association was observed among women who cooked indoors over open wood fires (Adjusted β: –3, 95% CI: –22, 21 and –9, 95% CI: –24, 9 for outdoor wood users and indoor wood users, respectively).	5
Amegah et al. [65] Ghana	CSS (urban and rural)	Women aged 15–49 years (n = 7183)	Use of Biomass fuel (charcoal, firewood and straw/shrubs/grass) for domestic cooking. (biomass fuel vs. Non-biomass fuel (electricity, LPG and natural gas)	Questionnaire: type of fuel used by households for cooking.	Lifetime experience of stillbirth (questionnaire).	Biomass fuel use mediated 17.7% of the observed effects of low maternal educational attainment on lifetime stillbirth risk	3
Cancer outcomes
Patel et al. [68] (Kenya)	CCS (NS)	Cases: patients with oesophageal squamous cell carcinoma (n = 159); Controls: Healthy individuals without oesophageal squamous cell carcinoma (n = 159).	Firewood and charcoal use in domestic cooking. [Other fuels (kerosene electricity LPG)]	Questionnaire: type of cooking fuel	Oesophageal squamous cell carcinoma (histological diagnosis)	Cooking with firewood or charcoal was independently associated with Oesophageal cancer (OR: 2.32, 95% CI: 1.41–3.84)	4
Kayamba et al. [69] (Lusaka, Zambia)	CCS (Rural and urban)	Cases: patients with oesophageal squamous cell carcinoma (n = 77); Controls: Healthy individuals without oesophageal squamous cell carcinoma (n = 145).	Firewood and charcoal use in domestic cooking. (non-use of Firewood/charcoal)	Questionnaire: type of cooking fuel	Oesophageal squamous cell carcinoma (histological diagnosis)	Cooking with firewood or charcoal increased the risk of developing Oesophageal squamous cell carcinoma (adjusted odds ratio: 3.5, 95% CI: 1.4–9.3)	5
Mlombe et al. [70] Malawi	CCS (NS)	Cases: Adult patients with oesophageal squamous cell carcinoma (n = 96); Controls: Healthy individuals without oesophageal squamous cell carcinoma (n = 180).	Firewood/charcoal use in domestic cooking. (Firewood vs. Charcoal)	Questionnaire: type of cooking fuel	Oesophageal squamous cell carcinoma (histological diagnosis)	The odds of oesophageal cancer were 12.6 times higher among those who used firewood compared to those who used charcoal (Adjusted OR: 12.6, 95% CI: 4.2–37.7).	5
Other health outcomes
Das et al. [73] (Malawi)	CSS (Rural and urban)	Household cooks (n = 655)	Use of firewood, charcoal and crop residue for domestic cooking. (Firewood or crop residue vs. Charcoal)	Interview: cooking technologies and fuels used.	Five categories of health outcomes: cardiopulmonary, respiratory, neurologic, eye health, and burns. (questionnaire).	Use of low quality firewood or crop residue was associated with significantly higher odds of shortness of breath at rest (Adjusted OR: 1.02; 95% CI: 0.24–4.32 and 6.22; 95% CI: 1.13–34.17, respectively), chest pains (Adjusted OR: 3.00; 95% CI: 0.91–9.86 and 4.46; 95% CI: 0.92–21.66, respectively), night phlegm (Adjusted OR: 5.39; 95% CI: 1.06–27.45 and 11.59; 95% CI: 1.38–97.31, respectively), forgetfulness (Adjusted OR: 4.48; 95% CI: 1.42–14.19 and 9.13; 95% CI: 1.86–44.95, respectively) and dry irritated eyes (Adjusted OR: 1.64; 95% CI: 0.54–4.99 and 3.75; 95% CI: 0.81–36, respectively).	4
Owili et al. [39] (23 Countries in SSA)	CSS	Children under 5 years of age (n = 783,691)	Use of Charcoal as cooking fuel. (Charcoal vs. Clean fuels [electricity, natural gas, biogas or liquefied petroleum gas]).	Questionnaire: type of cooking fuel	All-cause under-five mortality	Use of charcoal as cooking fuel was significantly associated with the risk of under-five mortality in SSA before and after controlling for other indicators. (Crude HR: 1.97, 95% CI: 1.80, 2.16; Adjusted HR: 1.21, 95% CI: 1.10, 1.34).	3
Belachew et al. [72] Ethiopia	CSS (NS)	The entire population mate (N = 3405); male: 1567 Female: 1838	Use of charcoal for domestic cooking. (Charcoal use vs. No charcoal use)	Questionnaire/observation: charcoal use for cooking	Sick-building syndrome (questionnaire)	Sick-building syndrome was significantly associated with charcoal use as cooking energy source (Adjusted OR: 1.4, 95% CI: 1.02–1.91)	3
Mbuyi-Musanzayi et al. [71] (Lubumbashi, Congo)	CCS (NS)	Cases: New born with Non-syndromic cleft lip and/or cleft palate (n = 162) Controls: clinically normal newborn (n = 162)	Use of Charcoal as cooking fuel. (Indoor Vs No indoor cooking with charcoal)	Questionnaire: inhouse cooking with charcoal (yes or no)	Non-syndromic cleft lip and/or cleft palate (clinical diagnosis)	Indoor cooking with charcoal was significantly associated with non-syndromic cleft lip and/or cleft palate (OR = 6.536, 95% CI: 1.229, 34.48. p = 0.0001)	3

CSS = Cross-sectional study; CCSS = Comparative cross-sectional study; LCS = Longitudinal cohort study; CCS = Case-control study; RCT = Randomized controlled trial; NS = Not stated; ISAAC = International Study of Asthma and Allergies in Childhood; BMRD = British Medical Research Council; PEFR = Peak Expiratory Flow Rate; GRAPHS = Ghana Randomized Air Pollution and Health Study; ^a = only data for baseline firewood users were included in this review.