Characteristics of the included studies

The selected studies comprised cross-sectional (thirty-one) and cohort (three) studies. Half of the studies were from the South-East Asia region (seventeen), out of which eleven were from India followed by Bangladesh (two), Pakistan (two) and Nepal (one). Six studies were included from Scandinavian countries which were based on the impact of snus use. Five studies were from the USA and three were from African countries. These studies represented age diversity with the inclusion of primary school children, teenagers and adults (13–60 years of age). Studies described the general population with different demographic and socio-economic conditions.

Smokeless tobacco, food expenditure and food insecurity

The cause of food insecurity is not merely access and consumption but adequate absorption of the nutrients in adequate quantity and quality^{(Reference Headey17)}. For studying the association between tobacco and household food insecurity, a study from Nepal reported a higher household food insecurity among households where men either smoked or consumed SLT as compared to those households where none of the members either smoked or consumed SLT^{(Reference Sreeramareddy and Ramakrishnareddy18)}. In the USA, a study based on National Health and Nutrition Examination Survey (NHANES) from 1999 to 2014 showed that not only smoking but also the usage of alternative tobacco products including SLT has been significantly associated with household food insecurity^{(Reference Mayer, Gueorguieva and Ma19)}.

A household survey on tobacco and food expenditure patterns in Bangladesh reported that the tobacco expenditure was quite high in households with dual-tobacco users (smoking and smokeless) as compared to expenses incurred on cooking oil and other fat items^{(Reference Virk-Baker, Husain and Parascandola20)}. Further comparisons were made on the basis of food energy gain on a daily basis if the money was spent to purchase cereals among the smoking-only, smokeless-only and dual-tobacco user households. A potential gain of daily food energy found was 857, 437 and 1512 kcals, respectively^{(Reference Virk-Baker, Husain and Parascandola20)}. Another study from Mumbai, India, found higher daily expenditure on gutka (a form of SLT) as compared to food items among street children aged 6 to 8 years^{(Reference Shoba, Efroymson and FitzGerald21)}. While choosing tobacco over food, the study noted that these children were not only limiting their options to a healthy diet but also suffering from its ill effects, that is, cough, sore throat, weakness and breathing problems^{(Reference Shoba, Efroymson and FitzGerald21)}.

Smokeless tobacco and BMI

There is adequate evidence of nicotine cessation leading to weight gain among smokers due to the regulation of appetite^{(Reference Jo, Talmage and Role22)}, but there is hardly any literature on the proven linkage between the interference of SLT use and appetite or dietary outcomes. However, the reviewed literature demonstrated evidence of change in the weight and thus BMI with SLT use. For instance, a study from the USA observed that users consuming SLT for more than 30 d were found obese. Likewise, the chances of being categorised as overweight was higher for daily (OR = 1·29, 95 % CI (1·07, 1·54)), occasional (OR = 1·50, 95 % CI (1·17, 1·93)), former (OR = 1·33, 95 % CI (1·05, 1·67)) and experimental (OR = 1·13, 95 % CI (1·02, 1·24)) SLT users relative to non-SLT users^{(Reference Vander Weg, Klesges and DeBon23)}. There have also been evidence of increased weight (≥5 %) (OR = 1·31, 95 % CI (1·04, 1·65)) and incidence of obesity (BMI ≥ 30 kg/m²) (OR = 1·93, 95 % CI (1·13, 3·30)) after adjustment of other factors in males with snus use in the USA^{(Reference Hansson, Galanti and Magnusson24)}. Weight gain has been reported among the former smokers who substituted smoking with snuff^{(Reference Sundbeck, Grahn and Lönngren25)}.

Among women, SLT use was linked with lower BMI in northern rural Ghana^{(Reference Nonterah, Debpuur and Agongo26,Reference Blankson and Hall27)} . In a cross-sectional population-based sample among female snus users in Sweden, daily snus use was found to be associated with lower chances of being overweight and higher chances of being underweight and worse general health^{(Reference Lund, Kvaavik and Nygard28)}. Tobacco consumed in different forms also has an impact on weight. A population-based cohort study in Mumbai, India, found that men and women using different types of SLT had BMI less than 16·0 and had approximately twice the risk of death as compared to the non-users^{(Reference Pednekar, Gupta and Hebert29)}.

Smokeless tobacco and malnutrition

Based on BMI scores, a higher prevalence of malnutrition co-existing with poor oral health was reported amongst the primary school children consuming SLT in Pakistan^{(Reference Mustufa, Jamali and Sameen30)}. Similarly, a higher prevalence of undernutrition was found among those tribal women who were SLT users in Wayanad, India^{(Reference Mohandas, Amritesh and Lais31)}. Low consumption of fruits and vegetables (90 % below recommended levels) has been found among the SLT users in Bangladesh^{(Reference Razzaque, Nahar and Mustafa32)}. While examining the relationship between smoking and diet, it has also been also reported that tobacco users should be counselled to increase their intake of fruits, vegetables and high-fibre grains as they substantially have low intakes of foods related to cancer risk^{(Reference Subar and Harlan33)}. Increased undernourishment, dental problems and high blood pressure were also seen among the rural women consuming SLT in Burkrina Faso^{(Reference Diendere, Zeba and Nikiema34)}.

SLT is also being consumed due to a common misbelief of promoting oral health and benefits to teeth. Tobacco containing dentifrices in the form of toothpaste, tooth powder roasted and powdered tobacco, etc., are widely available in the markets. Some people in the north-eastern parts of India also believe that tobacco water (tuibur) protects from the bites of insects and possesses antiseptic and anti-snake venom properties^{(Reference Sinha, Gupta and Pednekar35)}. The use of such aqueous tobacco extracts has shown to affect the growth of some oral bacterial species that influence the healthy ecological balance of oral bacteria in humans. The growth and viability of these species were found to be affected in a concentration-dependent manner. The growth of these bacterial strains thus varies due to incongruence between nutrients and toxic compounds in SLT products^{(Reference Liu, Jin and Pan36)}. It is well understood that anthropometric data, BMI and skinfold thickness are significantly related to bone mineral density. The bone mineral density is a reflection of the nutritional status of women, and osteoporosis is higher among the malnourished^{(Reference Violeta and Violeta37)}. While the decrease in bone mineral density is evident with ageing, the decline was greater for women who were SLT users as compared to those who never had SLT in North Carolina^{(Reference Quandt, Spangler and Case38)}.

Alteration in taste has also been reported with the use of SLT which could also be one of the reasons for malnutrition. Another study has reported a significantly higher intake of cereals (β = 152·46, P < 0·0001 sugar (β = 8·16, P < 0·0001) and lower consumption of dairy and milk products (β = -17·11, P < 0·01) and oil/fat (β = -10·30, P < 0·01) in households consuming any form of tobacco (smoke, smokeless or dual form)^{(Reference Virk-Baker, Husain and Parascandola20)}. SLT has also been associated with low BMI and low haemoglobin levels in Fe deficiency anaemia among women^{(Reference Pednekar, Gupta and Shukla39,Reference Subramoney and Gupta40)} . Fe deficiency anaemia is not just limited to women SLT users but also men SLT users^{(Reference Geldsetzer, Didzun and De Neve41)}.

Smokeless tobacco and poor birth outcomes

Initiation of SLT usage can occur during pregnancy to relieve symptoms associated with high physiological stress, that is, nausea, vomiting and constipation. The pooled prevalence of SLT use among pregnant women was highest in the South-East Asia region (2·6 %) and lowest in Europe (0·1 %). SLT use during pregnancy also increases the likelihood of stillbirth in low-income countries^{(Reference Gupta and Subramoney42)}. SLT use during pregnancy is also associated with low haemoglobin levels (10·00 g/dl or less) among the population-based cohort of 918 women in Mumbai^{(Reference Subramoney and Gupta40)}. Mean haemoglobin (g %) was found significantly lesser (t = -15·24, P = 0·000) among pregnant users of Mishri (a form of SLT) (10·4 ± 0·90) compared to non-users (11·6 ± 1·05)^{(Reference Pratinidhi, Ganganahalli and Kakade43)}. In another prospective cohort of 1217 women in Mumbai, India, SLT use has been linked to a decrease in gestational age as well as the significant decrease in birth weight^{(Reference Gupta and Sreevidya44)}.Similarly, 81 % of pregnant women users that were SLT users delivered babies with birth weight of less than 2·5 kg. Complications like oligohydramnios and fetal distress were found to be significantly more among the SLT users^{(Reference Pratinidhi, Ganganahalli and Kakade43)}. Moreover, the cotinine levels among users were found to be negatively correlated with anthropometric measurements of newborn babies^{(Reference Ganganahalli, Pratinidhi and Patil45)}. In a study conducted in Papua New Guinea, initiating betel nut chewing and low BMI during pregnancy have resulted in significant birth weight reduction^{(Reference Senn, Baiwog and Winmai46)}. The primary reasons listed for chewing betel nuts were to prevent morning sickness, halitosis and addiction^{(Reference Senn, Baiwog and Winmai46)}.

Smokeless tobacco and metabolic disorders

A higher odds of developing Barrett’s oesophagus was found when a cigar or pipe was used in combination with SLT^{(Reference Westra, Lutzke and Mostafavi47)}. Snus used in the Scandinavian countries has been linked with the high risk of type 2 diabetes^{(Reference Carlsson, Andersson and Araghi48)}. Similarly, Chimo (SLT) increased the odds of type 2 diabetes associated with low-fat mass in an Andean Venezuelan population by 77 %, representing a significant public health problem^{(Reference Gonzalez-Rivas, Nieto-Martínez and García Santiago49)}. Despite the abundant consumption of marine-based food and physical activity which are considered to be cardioprotective, the use of Yup’ik (a form of SLT) may increase cardiometabolic risk amongst the Alaska Native people^{(Reference Ryman, Boyer and Hopkins50)}. Evidence of snuff use and its association with CVD is conflicted. Swedish moist snus has not been proven to be associated with the heightened risk of fatal myocardial infarction^{(Reference Hergens, Alfredsson and Bolinder3)}. However, a significant and positive association was found between metabolic syndrome and areca nut chewers with SLT additives^{(Reference Shafique, Zafar and Ahmed51)}. A population-based longitudinal study in Sweden reported a positive independent association between metabolic syndrome and snus use. High doses of snus not only increases the risk of metabolic syndrome and hypertension but also has an effect on obesity and hypertriglyceridemia^{(Reference Norberg, Stenlund and Lindahl52)}. Besides physical inactivity, non-vegetarian diet, high intake of fat, family history and SLT consumption were also found to be some of the predisposing factors for the development of gallstone disease in North India^{(Reference Dhamnetiya, Goel and Dhiman53)}.