Psychotic disorders, and particularly schizophrenia, are serious illnesses which typically first manifest during the period of adolescence and emerging adulthood.1 The first-episode psychosis (FEP) is defined as a variable syndrome, lasting continuously for at least one week, characterized by the presence of positive symptoms, predominantly hallucinations and delusional ideas, and other accompanying symptoms, including negative, affective and cognitive symptoms.2

The prevalence of tobacco use in first-episode psychosis patients is higher than in the general population.3 On the one hand, it has been observed that the higher mortality after first-episode psychosis it is partially due to cardiovascular disease and a large percentage of the excess mortality as 70% of smoking related diseases.4,5 On the other hand, the fact that tobacco dependence poses a high financial burden also contributes to the social disadvantage and consequent decline of many of these patients with psychotic illnesses.6

Several theories have been proposed to explain why individuals with psychosis are more vulnerable to initiate and maintain tobacco use. A causal role of tobacco in the first-episode psychosis has been suggested, taking into account the interpretation of results as an association between tobacco use and an increased risk of psychosis. Despite this awareness, this effect may be modest.7 In fact, there is some biological plausibility regarding this association. Tobacco contains almost 5000 different chemicals, with nicotine being the most important pharmacologically active and psychogenic component because of its interaction with nicotinic acetylcholine receptors (nAChRs).8 Nicotine exhibits distinct patterns of expression that are in parallel with major developmental events within the cholinergic system, which are in turn critical regulators of brain maturation from prenatal development to adolescence.9 Several studies on smoking suggest that nicotine may alter the signaling of the dopaminergic, cholinergic and glutamatergic neurotransmitter systems,10,11 and thus may influence brain development, as suggested by studies on nicotine exposure in adolescents.10 Excessive exposure to nicotine during early adolescence is associated with abnormal maturation of the white matter in adults12 and chronic smoking has been associated with structural brain changes, such as decreased gray matter in the prefrontal cortex, which corresponds to areas where functional changes occur and are associated with psychosis.13

In another point of view, the question has been raised if the widespread smoking behavior that is seen in this patient group is in fact a relation of cause–effect or is instead a manifestation of a common underlying physiology, with tobacco use being an attempt at self-medication. There are different types of nicotinic receptors with multiple subtypes of pentameric structures whose unique combinations form at least twelve (α2–α10, β2–β4) genetically distinct subunits.14 The existence of these different types of nAChRs leads to the consequence that different doses of nicotine will promote different pharmacological effects.15 Since inhalation of cigarette smoke results in almost immediate absorption of nicotine, it might be possible for a smoker to control their nicotine dose to achieve the desired effect(s).15 Nicotinic acetylcholine receptors appear to be associated with different functional systems, by modulating the effects of different transmitter pathways, including the cholinergic system itself (by both pre- and post-synaptic mechanisms), and the dopamine (DA), glutamate, GABA, 5-HT, norepinephrine, opioid, and histaminergic systems.16 In the case of the dopamine system, the pleasurable and reinforcing effects of nicotine are believed to arise via an interaction of the drug with the mesocorticolimbic system,15 once nicotine elicits dopamine release in the ventral tegmental area (VTA), which projects to many brain regions such as the prefrontal cortex (PFC), dorsal striatum, nucleus accumbens (NAc), ventral pallidum (VP), hippocampus and amygdala,17 and which are known to play an important role in drug addiction.14

A possible therapeutic role of nicotine for negative symptoms in psychosis has been described. This effect is thought to be due to a raise in the dopamine levels in the nucleus accumbens and prefrontal cortex.18 In fact, according to the dopaminergic theory, the negative symptoms present in this disorder are caused by hypoactivation of the dopaminergic mesocortical projections, which results in the hypostimulation of the D1 receptors. Also corroborating this hypothesis, atypical antipsychotics, which have demonstrated the potential to decrease negative symptoms, are thought to do so by serotonergic antagonistic activity (5-HT) since, by blocking these receptors, there is an increase in the release of dopamine in the mesocortical pathway.18

These dynamics have called attention to a possible common underlying physiology between nicotine and atypical antipsychotics. Still on this subject, typical antipsychotics, by blocking the D2 receptors in the mesolimbic dopaminergic pathway, reduce the positive symptoms, such as hallucinations; however, the blockade is not limited to the mesolimbic pathway, simultaneously blocking other dopaminergic pathways, which aggravates negative symptoms and promotes the onset of extrapyramidal effects by blocking D2 receptors in the nigrostriatal dopaminergic pathway. Giving rise to the self-medication theory, reports have revealed reduced rates of smoking in patients treated with atypical antipsychotics compared to those treated with typical antipsychotics.19

It is still suggested that tobacco use could serve as a marker of severity in psychotic illness,20 as it has been associated with an increase in negative21,22 and positive symptoms,23 as well as poorer global functioning24 and social adjustment.25

This systematic review reunites the current evidence of three main aims: 1) tobacco smoking as a potential risk factor to first-episode psychosis; 2) nicotine use in the form of tobacco smoking in first-episode psychosis: the self-medication hypothesis; 3) tobacco use as a marker of greater illness severity in first-episode psychosis. The major objective was to understand the true connection between tobacco use and first-episode psychosis.

The Preferred Reporting Items for Systematic Reviews and Meta-analysis (PRISMA) methodology was used.26 Pubmed and Web of Science electronic databases were searched for published articles, using the keywords “tobacco” OR “tobacco use” OR “tobacco smoking” AND “first-episode psychosis” OR “first-episode schizophrenia”. Abstracts were screened and the full texts of suitable studies were obtained. In addition, a secondary search was performed by reviewing reference lists of sources identified as relevant in the initial search to find more articles for this review. The articles were included if they were original articles and written in English. This systematic review included articles until March 2019. Studies were excluded if they were related to chronic schizophrenia patients or psychiatric populations other than first-episode psychosis and also proceeding abstracts. Two authors (AF and RC) did the search, data extraction and selected the final studies included in the systematic review. Conflicts were resolved by discussion between these two authors. In case of multiple publications deriving from the same study population, we selected the articles reporting the largest or most recent data. In case of a conflict between these last two criteria, the sample size was the priority. See Fig. 1 for the PRISMA diagram documenting this process.

Fig. 1.

Flow Chart of systematic identification of papers following PRISMA Guidance.

(0.28MB).

Selected articles were divided into three groups for rational reasons: 1) tobacco smoking as a potential risk factor to first-episode psychosis; 2) nicotine use in the form of tobacco smoking in first-episode psychosis: the self-medication hypothesis; 3) tobacco use as a marker of greater illness severity in first-episode psychosis. Ten articles were included in the systematic review. One article studied tobacco as a potential risk factor to first-episode psychosis,27 four articles examined the self-medication hypothesis28–31 and five articles studied tobacco use as a marker of greater illness severity in first-episode psychosis.32–36

A total of 2567 patients were included, the sample size ranged from 41 to 503 patients, with the mean age from 20.5 to 29.9 years, with the male percentage between 28.1% and 72.5%. Two studies are from Canada, four from Spain, one from the UK, one from Australia, one from the USA and one from Poland. Three studies were published between 2008 and 2012 and seven between 2015 and 2019, which reveals the growth of interest in this field of knowledge. Table 1 resumes the major findings of included studies.

The current systematic review provides convincing evidence of high rates of tobacco use in first-episode psychosis, being in agreement, in fact, with the prior knowledge from previous studies.3 A meta-analysis of worldwide studies suggests that smoking begins before the first referral for treatment38 and two prospective cohort studies have indicated that smoking may begin before the onset of psychosis.39,40

Regarding the first topic, tobacco smoking as a potential risk factor for first-episode psychosis, it was observed that, in spite of the percentage of patients aged 20 years or older who smoked being greater than the percentage of teenaged patients, suggesting that a percentage of them started to smoke after the onset of the illness, in general the mean age of starting to smoke was significantly earlier than the age of functional decline and the onset of psychosis. In addition, smoker patients indicated nonsignificant better functioning compared to non-smoker patients. Those patients who started smoking had better premorbid social functioning than those who did not smoke, which is contrary to what would be expected if smoking had been initiated in response to early prodromal features of illness.27 These results make it possible to have a cause–effect relationship instead of tobacco smoking simply being a consequence of first-episode psychosis, which is in line with the literature.38–40

Interestingly, Cannon and colleagues provided evidence for a relationship between an increased rate of conversion to psychosis and any substance use when entered in a prediction algorithm along with other predictors, although in multivariate analyses no specific substance class of the seven tested (alcohol, hypnotics, cannabis, amphetamines, opiates, cocaine, and hallucinogens) dominated.41 In this regard, it is possible that the importance of substance use can be because of its interactive effects with other substances, symptom severity or the current level of functioning, and therefore the role of tobacco use for risk of conversion may be better tapped by multivariate prediction algorithms, incorporating multiple variables implicated in psychosis onset.

The cognitive approach to the self-medication hypothesis is supported by several studies.42–50 By contrast, two studies found no significant differences in the general neurocognitive (non-social) functioning between nicotine user and non-user patients with psychosis.51,52 In addition, regarding social cognition, one study published in 2013 did not find nicotine effects on social cognitive tasks (facial affect recognition) or on social competence53; however, the sample of schizophrenia patients in this study unexpectedly did not perform significantly worse in the facial affect recognition task than the healthy controls. Therefore, a precondition for indicating performance-enhancing effects of nicotine in schizophrenia patients was not given, which may have contributed to the lack of a nicotine effect on facial affect recognition.

Regarding the second topic, nicotine use in the form of tobacco smoking in first-episode psychosis: the self-medication hypothesis, the results of the current systematic review were, in the overall analysis, against the proposed hypothesis and the knowledge gained from previous studies. On the one hand, one study verified the association between severe dependence and lower severity of negative symptoms,29 supporting the self-medication hypothesis. On the other hand, another study included did not support the theory once no significant difference in cognitive ability was found between smokers and non-smokers30 and yet another concluded that tobacco smoking had no effect on psychopathology at initial presentation or on treatment response at six weeks.31 Lastly, one of the included studies does not allow us to fully draw conclusions about this concern, as it indicated that tobacco use in FEP patients was not related to better non-social or social cognitive performance; meanwhile, there was a lack of IQ matching between patients and healthy controls, with the control group having higher IQs.28 So future longitudinal studies with healthy controls with similar IQs and also measures of pre- and post-substance use and FEP-onset cognitive function could overcome this limitation.

Previously, published studies on tobacco use as a marker for greater illness severity in first-episode psychosis were inconsistent. Some studies have demonstrated that current smokers with schizophrenia exhibit greater working memory impairments than non-smokers54 and worse cognitive and functional outcomes than past smokers or those who had never smoked.55 In addition, in a cohort of 542 inpatients with psychosis who were followed for 10 years after first hospitalization, smokers exhibited greater functional impairment than non-smokers, and depressive symptoms positively covaried with cigarette smoking over a 10-year period.56 One study suggested that severe forms of schizophrenia with poor outcome were associated with heavy smoking.20

Despite these findings, the clinical outcomes of patients who are chronically ill, as the populations in the studies mentioned above, may not be representative of the first-episode psychosis population. In this systematic review, as we have seen, this third topic was in line with the findings from chronically ill psychosis patients. The first study mentioned in this review on this topic reached the conclusion that, although cognitive performance was better in patients with FEP who smoked than in non-smoking patients in terms of selective attention and working memory soon after the first stabilization, in a different way, six months after the initiation of antipsychotic treatment, the baseline differences in terms of selective attention and working memory parameters were no longer significant between smokers and non-smokers, with the exception of Stroop-I mean RT, and after one year performance was similar between the groups.32 This could be explained if non-smokers might obtain more benefit from practice effects, since they start with a more disadvantageous performance than smokers, as various studies have pointed out that worse baseline scores predict greater cognitive improvement.57,58 Another explanation for the improvements in non-smokers might be because of the therapeutic effects of SGA on cognition. Olanzapine and risperidone, for example, have been reported to provide a modest cognitive improvement during the early phase,59 so this may have led non-smokers to achieve a baseline cognitive performance superior to smokers, which was probably obtained through nicotinic stimulation. In this case, once nicotine use leads to a cognitive benefit also achievable from antipsychotic medication during the early course of the illness (6–12 months), it could support the self-medication hypothesis. In addition, once smokers seem to have difficulty to benefit from practice effects from medication, it gives strength to the hypothesis that smoking may be a marker for more severe illness.

Another point that deserves attention is that smokers did not demonstrate any cognitive response to SGA, with no synergic effects observed for nicotine and antipsychotics. Explanations for the lack of an additional cognitive benefit in smokers promoted by the SGA can be a possible ceiling effect of the agonist activity that may be obtained by smoking and/or SGA or the possibility of an etiologically differentiated system with more marked alterations among smokers, which might prevent smokers from benefitting from practice effects, suggesting that smoking may be a marker for more severe illness and/or its neurodevelopmental phenotype, as was suggested by some authors.15,20 Also supporting this hypothesis, although the results of this study indicate that the initial clinical presentation is the same for the two groups, it was found that negative symptoms worsened significantly in smokers.32

With respect to the exploration of the association between smoking and the symptoms and side effects of medication, these study results do not support that FEP patients smoke in order to reduce the side effects of antipsychotic drugs, since smokers did not exhibit fewer extrapyramidal side effects comparative to non-smokers.32 A second study documented that cigarette smoking was consistently associated with higher ratings of psychiatric symptoms and functional impairment, more missed pills and lower ratings of quality of life,33 also encouraging the hypothesis of tobacco being a marker for greater illness severity. In yet other study included in this systematic review,34 the results also agree with this assumption, demonstrating that in fact nicotine dependence in the first year after psychosis onset affects medication adherence, poor medication adherence predicts non-remission and, lastly, nicotine dependence in the first year after psychosis onset is associated with an increased probability of non-remission by the one-year follow-up, suggesting the role of poor medication adherence as a causal pathway by mediating this connection. This study evaluated the impact of substance use, both premorbid and after psychosis onset, on medication adherence, and the conclusion was that premorbid substance use does not affect medication adherence at the one-year follow-up, but its use during the year after psychosis onset predicted poor medication adherence at follow-up. Moreover, one study indicated that substance use increases the risk of non-remission, with a more than twofold increased likelihood of not achieving remission in the case of nicotine-dependent patients.60 These results may suggest a possible new explanation for the association between tobacco use and worse outcomes at follow-up, which is poor medication adherence as a causal pathway by mediating this connection.

In the study of Grossman and colleagues,35 it was observed that neurocognitive and functional impairments are more prominent in light/moderate and heavy cigarette smokers with FEP relative to non-smoking patients at initial presentation for treatment, also reinforcing this theory. The last study was the only one which disproved the hypothesis since, after adjustment for cofounders, the conclusion was that there is no impact of smoking on clinical outcomes in individuals after a first-episode psychosis.36 One possible explanation for this disagreement is that the first-episode psychosis study population that participated in this study may not be truly representative of this psychiatric population.

Based on this research study's analysis, the evidence supporting the existence of an association between tobacco use and first-episode psychosis patients is undeniable. The discrepancy in the nature of this association, mainly in relation to the first two hypotheses – “Tobacco smoking as a potential risk factor to first-episode psychosis” and “Nicotine use in the form of tobacco smoking in first-episode psychosis: the self-medication hypothesis” – makes it difficult to clearly understand which hypothesis contributes more to the aforementioned relationship, although, according to this review, there is a trend toward a greater contribution by the first proposed hypothesis. The third hypothesis, “Tobacco use as a marker for greater illness severity in first-episode psychosis,” seems to be the one that can be asserted with the greatest confidence. One of the studies included suggested a possible new explanation for the association between tobacco use and worse outcomes at follow-up, which is poor medication adherence as a causal pathway by mediating this connection.

It is clear that more studies will be needed to overcome some of the limitations of the previous studies that have been mentioned; however, the conclusion of this systematic review, if duly proven, may be very useful in clinical practice, primarily in view of prevention through anti-smoking measures in risk groups. Furthermore, tobacco use may be used as an accessory marker of staging of the disease, with a probable prognostic value. It is evident that primary and secondary preventive strategies in respect of tobacco use would be useful in first-episode psychosis, and should be included in early intervention in psychosis teams.

This research did not receive any specific grant from funding agencies in the public, commercial or not-for-profit sectors.

The authors have no conflict of interest to declare.