The use of psychoactive substances (PAS), alcohol, and cigarettes, by frequency, magnitude and severity, represents serious problems for public health, mainly in the young population.1

The World Drug Report 20162 estimates that 1 in 20 people aged 15–64, approximately 250 million people around the world, used at least one drug during 2014. Among them, there are 2.3 million young adults aged 15–34 who have used drugs in the last year.

On the other hand, in Colombia, the Drug Report 20153 states that Medellín is the city with the highest usage rates, with a prevalence of 8.2%, followed by Pereira (6.8%) and Risaralda (6.4%). Bogotá is in ninth position on this list, with a prevalence of 3.5%.

In relation to the use of substances considered legal, it was found that the number of smokers in the world is 1.1 billion,4 and that more than 8 million deaths occur per year, of which more than 7 million are direct users.5 Meanwhile, in the Americas, around one-third of the population reports daily tobacco use.6 On the other hand, in Colombia, the Third Preventable Mortality report shows that the department with the highest prevalence in 2008 was Amazonas (41.3%), followed by Vaupés (28.6%) and Bogota (26.3%).7

Regarding alcohol use, studies conducted by the WHO estimate that 55% of the general population present some level of alcohol consumption, which would be associated with 2.5 million deaths per year.8 Around the world, close to 2 billion people consume alcoholic beverages, which corresponds to 40% of the world population over 15 years of age.5 In Colombia, according to the National Study on the Consumption of Psychoactive Substances, the highest rates of current alcohol use are 49.2% among young people aged 18–24, and 45.4% among young people aged 25–34.6

Although these phenomena have been widely studied in different contexts,9 most have been limited to describing the phenomenon in terms of its frequency and magnitude, owing to which identifying the factors that increase or decrease the possibility of use and those that can be modified through interventions3 is essential to avoid negative consequences on health.10 Information on these exposures in the university population, and more specifically the students of Nursing programmes is still scarce, and given the insufficient local knowledge to guide the implementation of solutions in this context,11 there is a need to investigate the consumption profile of PAS, alcohol and cigarettes among said population, with the aim of identifying the factors associated with the consumption of these substances.

Quantitative, observational, analytical cross-sectional study. It was conducted with a population of students from university training programmes. The target population is undergraduate nursing students, and the eligible population is students who agreed to participate in the study.

Students from semesters I to IX who met the inclusion criteria were included in the sample. Due to logistical difficulties, students from semester X could not be accessed, but the proportion of respondents reached 53.9% of the target population, with a sample size of 310 students.

A PAS is defined as any substance of natural or synthetic origin used without a medical prescription to alter sensory perception, consciousness, or any other mental function. These substances have different classifications, but in this article, the classification will be taken based on legality; alcohol, cigarettes and caffeine are considered licit substances, and PASs, such as cocaine, marijuana, "ecstasy" or heroin, among others, are considered illicit.12

The data were collected through an anonymous, self-administered survey conducted by an interview. Participation in the study was voluntary, and once the subjects agreed to participate, they signed the consent or informed assent, as applicable, and filled out the information collection instruments, which were subsequently digitised on the RedCap 7.0.7 platform. For the statistical analysis of the quantitative variables, measures of central tendency and dispersion, such as average and standard deviation, were used after checking the normality of their distribution using the Shapiro-Wilk test. If this assumption was not verified, it was described using medians [interquartile range]. Qualitative variables were described using absolute frequencies and proportions. The comparison between user and non-user groups was analysed, taking into account a Z test for the difference between means for variables on a ratio or proportion scale with normal distribution or, failing that, non-parametric statistics (Wilcoxon rank sum test). For dichotomous qualitative variables, a Z test for the difference between proportions was used, and for polytomous variables, a χ2 test was employed when the expected values in each box were ≥5; otherwise, a Fisher's exact test was used.

The association between the exposures studied and the outcomes considered was initially estimated in a bivariate manner, using odds ratios (OR) with their 95% confidence intervals. (CI95%), followed by a χ2 test in order to establish the significance of said measurements. To adjust each association for the presence of confounding and interaction variables, adjusted ORs were obtained using an unconditioned multivariate logistic regression model. For the selection of the regressor variables, the stepwise technique was used, with an entry probability of 0.1 and an exit probability of 0.3, starting from a complete model with the variables described in the literature as effect modifiers, the statistically different ones between users and non-users, and the possible interactions that could arise. The reliability of each of these models will be appraised using re-estimation tests, deviance, and the Hosmer-Lemeshov goodness-of-fit test. For the statistical analysis, STATA software (version 14 SE; Stata Corp., United States) was used.

This research was approved by the Institutional Research Ethics Committee of the Institution in which the study was conducted, the approval code of which was PCI-2016-8786. This is a minimum risk investigation according to Resolution 008430 of 1993. The possible loss of data privacy was minimised by identifying each participant using codes and keeping the information collected under lock and key.

Table 1 shows the prevalence of PAS, alcohol and cigarette use during the 12 months prior to the survey. The prevalence of PAS consumption was 2.96% (CI95%, 1.36−5.54) and for 55.55% of those who reported some use, it was marijuana. On the other hand, 86.64% (CI95%, 83.24−91.0) of the sample of students reported having consumed at least one alcoholic beverage of any type, 47.35% of them, less than once a month. Regarding cigarette use, 87.84% of the students reported not using them, 1.35% used them daily, 1.01% used them on a weekly basis, and 9.8% occasionally.

Table 2 shows the characteristics of users and non-users of PAS, alcohol, and cigarettes. In the majority of the variables, statistically non-significant differences are obtained. Only PAS use has a statistical association with cigarette use, just as cigarette use is related to not working, the perception of physical health, cigarette use, and alcohol use. For alcohol use, a statistical significance was found with the age of entry to the programme, economic difficulties, type of housing, socioeconomic stratum, free time, and alcohol use.

Table 3 shows the factors associated with PAS use. Cigarette use was 15.4 times more frequent among those who use PASs than among non-users, the difference being statistically significant. No other factors were found to be associated with substance use.

Table 4 shows the factors associated with cigarette use. The perception of physical health as poor was 25 times more frequent among those who smoked cigarettes than among those who did not; similarly, PAS use was 18.9 times more frequent among those who used cigarettes. Alcohol use was 2.92 times more frequent for cigarette users.

Among the factors associated with alcohol use (Table 5), it was found that receiving financial support for university expenses was 69% more frequent in the group of alcohol users. Cigarette use was 3.22 times more frequent in the group of alcoholic beverage consumers.

The estimated prevalence of PAS use in the present study was 2.96% (CI95%, 1.36 %–5.54 %), a figure that is lower than those reported in other studies. In a study carried out on 7 academic programmes, Cogollo13 found a prevalence during the period (consumption in the last 12 months) of 7.9%, a figure slightly higher than that found in this study; however, estimates made by other authors may report much higher figures. Thus, for example, Castaño14 reported prevalences of 23.9, 31.5, and 39.9% during the last 30 days, 12 months, and at some point in life, respectively. These differences can be attributed to the fact that Castaño included 9 university academic programmes (n = 343) and also investigated the use of these substances at some point in life (lifetime prevalence), which is usually higher than that investigated in this study (period prevalence).

The substances most used were marijuana (55.55%), poppers (33.33%), and "ecstasy" (11.11%). In Chile, Cazenave15 conducted a study to identify the frequency of marijuana use in Nursing and Education students in the last year, finding a frequency of 54.8%, fairly close to ours. Another investigation carried out by Cáceres16 at a University in Cali found the following distribution of use in the total sample: marijuana (7.1%), ecstasy (1.8%), opiates (1.5%) and cocaine (0.9%), which coincides with ours in the most used substances. Use is more prevalent among males (66.67%), up to 98% according to Cáceres.16

Regarding the associated factors, no sociodemographic, family, academic, parental, or health conditions were found that are related to a greater or lesser probability of using PASs. Nonetheless, a clear limitation related to the number of users of these substances observed in our study must be taken into account when interpreting the results. Moral17 found that there are positive associations with social variables such as conflictive relationships with parents. (p = 0.033), friends who use other illegal drugs (p = 0.031), depression or anxiety (p = 0.041), emotional instability (p = 0.037) and attention seeking (p = 0.044). On the other hand, the interrelation between substance use has also been the subject of study. Thus, for example, Cogollo13 concludes that there is an association between alcohol use and SPA use, specifically marijuana (OR = 4.6), but this is not confirmed by our results.

On the other hand, the prevalence of cigarette use in this study was 12.16% (CI95%, 8.43%–15.88%), lower than that reported by other authors. For example, López18 found a prevalence of 24.0%, and the differences are attributed to the investigation of lifetime prevalence, as has already been explained.

When evaluating the frequency of use, it was concluded that it is lower than that found by other authors. In this study it was shown that 1.35% of the students are active smokers, since they use daily; in Navarro's study,19 daily use was 13.6%, and the frequencies of weekly and occasional use (31.8 and 50%, respectively) differ from those of this study (8.3 and 80.5%, respectively).

Regarding sociodemographic variables, the results are close to those of other studies. In terms of sex, of the students who consume cigarettes, 94.4% are females and 5.56% males. The study carried out by López18 in the same university population found that 8.6% of males and 89.6% of females were smokers; 1.8% did not answer the question.

This study shows the relationship between cigarette use and different variables, but it is not possible to contrast these results. There was found to be a close relationship between not having a job and cigarette use (OR = 1.06). This characteristic is also observed in subjects who perceive their physical health as poor, although there are no studies that evaluate these characteristics.

Regarding the use of cigarettes and other substances, the evidence derived from descriptive studies indicates a possible relationship between alcohol consumption and marijuana use. Our results would support this statistically significant relationship with PASs (OR = 18.9) and with alcohol (OR = 2.92), given that the substance most used is marijuana (55.55%); therefore, if a subject uses cigarettes, they are more likely to use marijuana, and this facilitates the use of other substances. On the other hand, statistics from the National Anti-Drug Office (ONA19 report that the main 3 starting substances are alcohol (45.99%), cigarettes (23.49%), and marijuana (21.14%).

Finally, the prevalence of alcohol use found in this study was close to those of other studies. A prevalence of 86.64% was reported (CI95%, 83.24 %–91.0 %); in contrast to two studies in the university population of the Nursing programme in Brazil, and another one in Mexico, which reported a use in the last year of 67.7%20 and 73.5%,21 respectively, similar to those of this study.

Regarding the frequency of consumption of alcoholic beverages in the last year, the results of other studies are very similar to ours. It was found that 47.35% consume less than once a month and 20.08%, 2−3 times a month. In a study conducted on Nursing students in Brazil, Tavares,20 found consumption frequencies of 34.2% for less than once a month, and of 18,6% for 2−3 times a month.

When analysing the sociodemographic characteristics, the results are similar to those of other studies. With respect to sex, alcohol use is more prevalent among males (12.23%), and it is 2.17 times more frequent in the group of uses than in non-users in relation to females (p = 0.062), similar to the finding of Moral17: it is males (34%) who consume the most types of intoxicating drinks.

Regarding the use of alcohol and other substances, a relationship was found between alcohol use and cigarettes (OR = 3.22). Some studies show that there is a relationship between alcohol use and PAS use. Betancourth22 affirmed that the greatest percentage of students prefer to use drugs at the time of consuming alcohol (14.6%), before liquor (6,1%) or after (4.4%). The existence of poly-drug use is thus determined, seeking to maximise the psychoactive experience or compensate for the adverse effects of the first substance used.22

Taking into account the data obtained in this study, there is a statistically significant difference between the substances analysed and the relationship between alcohol and cigarette use. Similarly, cigarettes are related to PAS use since the substance most used is marijuana. However, temporality cannot be established between these variables, as, given that this is a cross-sectional study, it is not possible to identify the causal variables and the outcome.

As this study is cross-sectional, one of its limitations is associated with observational studies, which prevents the temporality between the exposure and the outcome of the even from being established. Our intention is to conduct studies of greater methodological complexity, such as cohort studies, enabling us to establish a temporal association between the variables studied. Apart from the aforementioned limitations, some types of bias may occur that are directly related to the type of study, principally that of measurement. This bias results from obtaining inaccurate or incomplete data, since subjects could overestimate or underestimate use. This bias was minimised by assigning a unique code within the study to ensure the confidentiality and anonymous nature of the data provided.

No financial or personal interests were involved during this research, and the authors declare that there are no conflicts of interest.