1. Introduction
When people experience a minor ailment, the propensity to use an OTC will depend on a host of factors, including what is germane for their situation from sources such as advertisements, friends, and family, or asking a pharmacist. Thereafter, successful use will likely lead to more use, while having less luck (marginal benefit or side effects) will lead to other alternatives.
Generally, consumers perceive OTC medicines to be effective and safe for treating minor ailments [
1,
2,
3,
4,
5,
6,
7,
8]. An Australian report found that the most important factors to consumers when purchasing OTCs were effectiveness and safety, where personal experience largely predicates those outcomes [
9]. Their use has been described as low risk [
8,
10]. In fact, U.K. data suggest that consumers generally do not consider the risks of OTC use, preferring instead to focus on the benefits [
11,
12]. Attention was very much on getting better rather than expending effort to evaluate different medicines. Use has even been described as a rather mundane activity [
13], where the public assumes that regulatory authorities have the necessary safeguards in place, as was a view held by Canadians [
14].
In Canada, when 1000 adult respondents were asked to rate the safety of OTC medicines, there was broad support for them, but stopped short of stating they were
always safe [
6]. About half thought they were also effective either
often or
always, while seven percent indicated they were
seldom or
never effective.
Much of the research in this area has considered OTC medicines as a broad category. The report just cited, however, takes the analysis a step further and examined safety and effectiveness relative to specific categories of agents [
6]. On a scale of
never, seldom, sometimes, often, and
always, agents found to be
often/always safe were as follows: vitamins/minerals (64 percent), cough/cold (60 percent), pain relievers (56 percent), herbals (52 percent), upset stomach/nausea (50 percent), allergy (44 percent), and laxatives (40 percent). The majority of respondents regarded them to be at least
sometimes safe to use, while in the case of laxatives, one in five considered them to be
seldom or
never safe.
For the second parameter, the following agents were considered to be
often or
always effective: pain relievers (58 percent), vitamins/minerals (50 percent), upset stomach/nausea (45 percent), cough/cold (42 percent), laxatives (40 percent), allergy (37 percent), and herbals (33 percent). In a similar vein, Americans reported being either
very satisfied or
somewhat satisfied with OTC medicines for upset stomach/nausea (94 percent), constipation/diarrhea (94 percent), heartburn/indigestion (93 percent), headache (92 percent), muscle/joint/back pain (89 percent), allergy/sinus (88 percent), cough/cold/flu/sore throat (87 percent), and skin problems (82 percent) [
8]. This implies a reasonable level of efficacy, with minimal drawbacks.
The current study expands on assessing specific categories of agents for perceived efficacy and safety. This was part of a larger study covering a broad array of OTC-medicine-related issues.
2. Methods
The study was cross-sectional and descriptive in design. Data were gathered via an online survey of residents in one Canadian province. A total of 384 responses were needed for a margin of error of ±5 percent [
15]. The source for subjects was a citizen panel database (University of Saskatchewan survey service) of Saskatchewan residents over the age of 18 who had previously volunteered to partake in various surveys. Citizen panels have been used to gain access to various subjects [
16], including when involving OTC medicines [
17,
18]. A randomized mail survey was conducted in this province in the past [
19], but difficulties in access to phonebook addresses and rising costs precluded such an approach at this juncture. While subjects were chosen at random from the panel, as a list of volunteers, it was less likely to be reflective of the population as a whole.
Subjects were asked to consider a list of 15 OTC categories across three dimensions. Product inclusion onto that list was based on an iterative process to reflect common agents.
2.1. Effectiveness
Effectiveness had been previously defined as the ability of an OTC medicine to produce symptom relief [
3]. Questionnaire wording was adapted (and expanded) from various reports [
20,
21,
22], with one using a six-point scale (
not at all effective to
very effective) [
5]. A 10-point scale has been used to evaluate a decision-support system to improve the safe use of OTC medicines [
23]. For the current study, perceived effectiveness was determined by a 10-point scale with worded-anchoring at the poles (1 =
not effective and 10 =
very effective) and with the following wording to guide the responder:
- ▪
This section looks at the benefit of using a medicine. Medicine effectiveness can include aspects such as it helped with the problem and it worked reasonably fast.
- ▪
Feedback on the ones you have used will be relatively easy. Either they helped, or they did not.
- ▪
IF you have NOT used some on the list, we would still like your opinion. It may seem unfair to ask for feedback on something you have not used, but ‘hunches’, ‘best guesses’, even ‘gut instinct’ is still of interest to us.
- ▪
We would like to know how effective are the following OTC medicines?
- ▪
On a scale of 1 to 10, a higher number generally means MORE effective. A low number means you do not think the medicine is (or would be) that effective.
2.2. Safety
Safety and risk have been assessed in previous reports [
1,
4,
5,
24,
25]. Reisenwitz evaluated perceived purchase risk on a five-point scale (
very risky to
not at all risky) [
26], Fielding used a seven-point scale [
10], while Lynch had a six-point scale (
no risk at all to
very high risk) [
5]. Opting to use
safety rather than
risk, perceptions were measured on a 10-point scale (poles worded as 1 =
not safe and 10 =
very safe) with the following guidance for respondents:
- ▪
Safety deals with the downside of taking medicine, such as—side effects, interactions with other medicines, and concern if used by young kids or the elderly.
- ▪
Even if you have not used some on the list, we would still like your opinion. Hunches and intuition are still of interest to us.
- ▪
We would like to know how safe are the following OTC medicines?
- ▪
On a scale of 1 to 10, a higher number generally means GREATER safety—minimal side effects, less worry about interacting with other agents, safe for certain age groups. A low number means you think the medicine is (or would) NOT be that safe.
2.3. Product Familiarity
The third scale was created to quantify product familiarity with each agent. Other researchers have examined responder familiarity with OTC medicines relative to risk perceptions and to prescription medicines [
27]. The scale used here was a 10-point scale (poles worded as 1 =
not familiar and 10 =
very familiar) with the wording presented to responders as follows:
- ▪
This section looks at your general familiarity with each type of medicine. By that, we mean—your overall experience with other products like it.
- ▪
Our interest goes beyond simply knowing about one product. Considering a medicine for nausea, for example, the focus is on nausea medicines in general, not just the one you might use. How do the various medicines for nausea differ—effectiveness, side effects, taste?
- ▪
So while a person may know some things about what they use, they may not be too familiar with how other nausea medicines differ across those traits.
- ▪
Conversely, IF you just bought such medicine and looked at the different types (comparison shopped) before deciding, then you would be more familiar with them than someone who did not do all that.
- ▪
With that explanation, we would like to know how familiar are you with each type of medicine listed here?
- ▪
On a scale of 1 to 10, a higher number means you are familiar with that category of medicine. Low numbers mean you aren’t that familiar. You may not have used any, nor have you done much comparison shopping on what is available.
Familiarity with an agent was not a prerequisite for providing an opinion on product effectiveness and safety. Even if responders had not used some on the list (as stated above), their opinion was still of interest. Assessing familiarity was still deemed important, however, to estimate how informed they might be with the products when forwarding those opinions.
When opting for a 10-point scale, a mid-point anchored with wording was considered for each scale. This could have manifested, for example, as neither effective nor ineffective or effective half the time. Interpretations of those could have been 50 percent effective during each use (symptoms reduced by half) or, conversely, 100 percent effective for one use but ineffective during the next, thereby averaging out to “effective half the time”. Given that potential drawback, a mid-point (anchored with wording) was not added, but might still be important as a ‘tipping point’ along a scale during analysis.
For pilot testing, 100 people were invited, with 14 responding. Another 20 citizens provided qualitative feedback (word/phrase difficulties, time to complete, and so on).
Test–retest reliability of the safety and effectiveness scales was measured by manually quantifying the degree of change on the Likert scales from time 1 to time 2. For this, 20 responders were asked to complete the same questionnaire twice (with the second completed a month later).
Table 1 and
Table 2 show the degree of change in responses over the two time periods.
2.4. Survey Distribution
Assuming a response rate of 20 percent, the survey was sent to 3000 provincial residents on the citizens panel in December 2021. Potential subjects were contacted randomly by emails on file, explaining the survey and their rights as participants during first contact, then reiterating the nature of the survey and the questionnaire link (using Voxco survey software) at second contact. Data collection ended four weeks after commencement. The university’s survey service de-identified the data and transferred them to the research team. The study was approved (#2812) by the review board of the University of Saskatchewan in October 2021.
Data were analyzed with descriptive statistics (mean, standard deviation, percentages) and correlations using SPSS software v28. For Pearson r, aggregate scores for familiarity were generated and then correlated to the aggregate scores for safety and efficacy. Aggregate scores were a composite of scoring on the 10-point scale for all 15 categories.
3. Results
A total of 575 responses were obtained for a response rate of 19.2 percent. The average age was 63.0 years and the majority (61.6 percent) were female (
Table 3). Most (54.8 percent) had a university education, 85.8 percent had no children at home, 41.3 percent considered themselves in very good health, and 53.7 percent lived in larger cities.
On a 10-point scale from
not effective to
very effective, the medicines ranged from 5.1 (Athlete’s foot cream) to 7.3 (headache medicine) (
Table 4). All 15 types were quite narrowly grouped. Six landed between 5.0 and 5.9 and eight were within 6.0 and 6.9. A value of 5.5 would be considered the mid-point of the scale (although no verbal anchoring was used to reflect that); 11 were above that point. The three most effective agents were headache medicines (7.3), antihistamines (6.9), and fever medicine for a child (6.5). Cough syrups, whether for a child or an adult, garnered similar values.
Regarding safety, the medicines were even more closely grouped, from 6.0 to 7.4 (
Table 5). Ten were between 6.0 and 6.9. Cough syrups for children were perceived to be (on average) 0.5 units less safe than such agents for adults and attained the lowest rating on this measure. All medicines were above the mid-point score of 5.5.
Familiarity scores were on the low side, except for headache medicines (6.4) (
Table 6). All the rest fell below the mid-point of 5.5, with eight scoring in the three’s or lower.
Pearson r correlations were carried out for familiarity versus safety (r = 0.2, p < 0.05), familiarity versus effectiveness (r = 0.4, p < 0.05), and effectiveness versus safety (r = 0.6; p < 0.05), with each being statistically significant.
4. Discussion
Efficacy and safety are obviously critical properties for a medicine to possess. The perception of those parameters for the 15 OTC medicine categories here suggests some support for their use. At the very least, all scored above the scale mid-points. Responders did consider them to be more safe than effective, however, relatively speaking.
While of interest to see where the agents landed on the effectiveness scale, it is not possible to determine at which point on that scale that an agent attains effectiveness. For example, cough syrups for children ranked 0.3 points lower than such syrups for adults. Other than an inter-product comparison now being possible, the 5.3 value for pediatric syrups may still be a respectable outcome. Similarly, while a full 2.0 points lower than headache medicine, it cannot be assumed that a level of ineffectiveness is being suggested for the cough syrup. Therapeutic-wise, it is known that cough syrups are not particularly effective, nor are cold sore ointments, but azoles for athlete’s foot are considered effective.
Safety ratings ranged from 6.0 (pediatric cough syrups) to 7.4 (multivitamin). The latter value adds some support to scale validity, in that, of the 15 categories listed, a multivitamin would clearly be the safest. Taken a step further, however, if the 7.4 value sets the high mark for this measure, it is noteworthy that a simple multivitamin would not have garnered a score much closer to 10 at the pole.
Five entities scored values of 7.0 or more on safety. As seen for effectiveness, it would only be conjecture as to what minimum score might be needed for any agent to be deemed safe by the public, recognizing of course that the construct will be a gradient. Either way, given the clustering observed for scores, the public seem to consider them all to be relatively similar on this property.
The present study is innovative in that it is one of the few to consider the broad category of ‘OTC medicines’ as smaller groups. It goes a step further than those reports in a few areas. For example, ‘cough/cold medicines’ of other reports was divided into head cold and cough syrups (both pediatric and adult). ‘Skin problems’ were made more specific, such as athlete’s foot and diaper rash. In the American report [
8], constipation and diarrhea were considered together, while they were separated in the current report. That said, ‘laxatives’ was not divided into PEG 3350 and senna, nor was ‘headache medicines’ divided into acetaminophen and ibuprofen; there was a balance needed in order to not over-burden responders. Fifteen categories were utilized, with other reports going with seven or eight [
6,
8].
The current research tends to support other reports where OTC medicines have been described as effective and safe [
1,
2,
3,
4,
5,
6,
7,
8,
14]. It is also important to note, however, that safety was not rated particularly high. This perhaps reflects what was seen years ago (circa 1990) in a national survey, where OTC medicines were considered safe, but not totally so [
6]. This may be indicative of a healthy attitude on the part of responders. Likewise, others have found that consumers know there are risks [
28] and that these agents should be used with care [
29,
30].
Somewhat worrisome, OTC products have also been seen by Canadians as not particularly effective (although there was brand loyalty to those they do see as helpful). These agents have been considered as weaker, watered-down versions of prescription drugs, but still generally safe [
31]. Even more worrisome is that, in a report of 553 Americans on the acceptability of risk, 75 respondents believed that most OTCs do not have any side effects [
32]. Reisenwitz quantified the perceived risk of OTC purchases on a five-point scale (
very risky to
not at all risky), where a mean of 3.7 was established, with 35.8 percent stating there was no risk at all to them [
26]. This does not bode well for appropriate medicine use.
There was a strong positive correlation between consumer ratings of effectiveness and safety. This finding suggests that consumers who perceive OTC medicines to be effective also think of them as safe. Of course, with drug therapy, this is not always the case. An agent can be very effective but have many side effects and drug interactions. Another agent can be very safe, yet not impart much therapeutic effect. Smaller correlations were seen for product familiarity relative to both safety and effectiveness, with the trend suggesting that, as familiarity rose, so did favorable opinions of them.
The perceptions uncovered during the current study were forwarded with product experience that might be described as limited, other than for headache medicines. Given how common colds are, it was a surprise that head cold medicines and cough syrups both scored below the mid-points on familiarity, as it was to see low familiarity for laxatives, given the average age of the sample. As the sample was older in age, with children no longer home, it was not surprising that familiarity with products intended for pediatric use (fever, coughs, and diaper rash) was low.
One goal for conducting the current study was the potential value in separating the category of OTC medicines into smaller units, thus reducing the drawbacks of a class effect. One report sheds light on this. For a national Health Canada survey, Canadians were asked their opinion of OTC medicine effectiveness (as a category) [
6]. Forty-nine percent indicated they are effective
often or
always. Later, in this same survey, specific agents considered to be
often or
always effective were as follows: pain relievers (58 percent), vitamins/minerals (50 percent), upset stomach/nausea (45 percent), cough/cold (42 percent), laxatives (40 percent), allergy (37 percent), and herbals (33 percent). Thus, in this one case, it appears the class effect led to overall effectiveness being viewed in a more promising light.
The work of Lynch allows comparisons to two other medicinal categories [
5]. For two items—(a)
What do you think is the overall level of risk associated with the medicines (1 = no risk at all) to 6 (very high risk) and (b)
How effective do you think the medicines would be for your condition (1 = not at all effective to 6 = very effective)—the results were as follows. Perceived efficacy for three types of medicines was as follows: prescribed medicines (4.5), OTCs (3.8), and herbals (3.0). Perceived risk was determined to be as follows: prescribed medicines (3.1), OTCs (2.9), and herbals (2.0). People believed herbal remedies to be less effective, but less risky than OTC and prescribed medicines.
4.1. Future Research
Clinical researchers will continue their work on assessing the value of specific agents in each category, such as which second-generation antihistamine or topical intranasal steroid is most beneficial to allergy patients, or which OTC analgesic to use for headache management. Regarding the concepts raised here, how various OTC medicines are used by the public, relative to impressions held, is still in need of examination.
4.2. Practical Implications
This work adds to our understanding of patient impressions of OTC medicine safety and efficacy. For the most part, it is good news for such agents, although ratings were not overly impressive. Physicians, nurse practitioners, and pharmacists will continue to be wise to understand how OTC medicines are viewed by potential users.
4.3. Study Limitations
The limitations of the current study are ones inherent to any survey research—the distilling of complex human behavior into numerical constructs, specifically what safety and effectiveness means to any one person. Sampling error could have led to responses not reflective of the population under study, as participants were obtained from a sampling frame of volunteers used by the university. The sample reflected the opinions of more educated volunteers (as seen in other survey panel work [
18]) who were older and no longer had kids at home. There is concern for the test–retest reliability of the scale measures. For agents such as laxatives, athlete’s foot and diaper rash creams, oral agents for low back pain, heartburn medicines, and cough syrups, two to four units of change were evident from time 1 to time 2.