1. Introduction
Pain is defined as an emotional experience along with unpleasant senses which are associated with the potential damage of the tissue [
1]. Most periodontal diseases are instigated by chronic inflammation which also triggers periodontium damage. Different non-surgical and surgical procedures are performed in periodontitis [
2]. Fear of pain during dental treatment is commonly observed among the majority of patients. The intensity of pain and different variables that influence pain should be comprehended, as stress levels and compliance of the patients during the dental treatment could be affected by the perception of pain [
3]. Therefore, clinicians should explain to the patients the level of pain during or after any dental procedure to aid patients build their expected level of pain [
4].
Pain is a complicated sensory process. Previous studies stated that many factors such as previous experience and anxiety influence pain perception [
5,
6]. However, different dental treatments cause different pain perceptions and anxiety. The most common treatment procedure for periodontitis and gingivitis is scaling and root planing (SRP) which is perceived as a painful dental treatment [
7]. The clinicians should perceive the intensity of pain experienced by the patients [
8]. One of the most reliable and valid pain assessment tools is visual analog scales (VAS), which have been used in previous studies to assess the pain perception of patients in different types of dental treatments [
9,
10,
11]. Moreover, pain perception was also assessed in different surgical and non-surgical periodontal procedures, such as gingivectomy, SRP, implant surgery, and open flap with osseous resection, to name but a few [
4,
7,
8,
11]. However, the perception of pain also depends on other associated factors, such as the consumption of analgesics. In current times, analgesics are easily available over the counter and people used to take analgesic medications for the slightest pain [
12]. Therefore, it is imperative to assess the analgesic consumption along with the pain perception.
In addition, the treatment of any periodontal disease is based on the classification of the periodontitis. The classification of periodontal diseases and conditions was published in 1999 [
13]. However, the previous classification was modified and changes were made in 2017 [
14]. As per the literature, no previous study had been carried out to assess analgesic consumption along with the frequency and intensity of pain after nonsurgical periodontal therapy. Moreover, associating these factors with the extent and severity of the new classification of periodontitis is important. Therefore, the current study aimed to assess pain perception and analgesics consumption after SRP in patients with stage II and stage III periodontitis.
2. Materials and Methods
The current prospective study was conducted in the College of Dentistry, Prince Sattam Bin Abdulaziz University. The Standing Committee of Bioethics Research (SCBR) of Prince Sattam Bin Abdulaziz University approved this study protocol (SCBR-092-2022). Moreover, the study was conducted according to the guidelines of the Declaration of Helsinki.
All the patients included in this study followed the convenience sampling method. The following inclusion criteria were used to include all the patients in the current study: patients, aged 20 to 65 years, who were diagnosed with the Class II and Class III stages of periodontitis in at least 12 teeth, as well as patients who required oral prophylaxis and non-surgical therapy. However, patients who did not receive any prior periodontal surgical therapy were included in the current study. On the other hand, pregnant and lactating patients, patients who had taken anti-depressants or sedatives, analgesics 24 h before the treatment, mentally challenged patients, patients who had periodontal therapy with antibiotics within the last three months, smoker patients, and patients who testified acute and chronic pain before starting the treatment were excluded from the current study.
The study was explained to all the patients who fulfilled the inclusion and exclusion criteria and informed consent was obtained from all the participants. The demographic data of the patients were recorded before starting the periodontal treatment. The anxiety levels of the patients before starting the treatment were assessed using the modified dental anxiety score (MDAS) questionnaire [
15].
Routine periodontal clinical examination was performed by evaluating probing depth (PD) [
16], bleeding on probing (BOP) [
17], and clinical attachment level (CAL) [
18]. All the clinical parameters were recorded only once regardless of the number of scaling sessions. PD was measured with UNC 15 (Hu-Friedy, Chicago, USA) probe by inserting the probe parallel to the long axis of the tooth in order to grasp the deepest point of the pocket. The distance between the gingival margin and the base of the pocket was recorded. The greatest probing depth was recorded for each patient. A UNC 15 (Hu-Friedy, Chicago, IL, USA) probe was also used to measure the CAL from the distance between the cementoenamel junction and the apical end of the probe. The greatest CAL was recorded for each participant. The BOP was recorded by using a gentle insertion of the periodontal probe tip into the sulcus, followed by a gentle sweep around from the proximal surface to the proximal surface. Any bleeding seen 30 s after removing the probe tip was recorded. BOP based on the percentage of sites for all teeth of a subject other than teeth without clinical crowns was measured. All the examination was carried out by a specialist periodontist. After recording the periodontal data, subgingival scaling was performed.
A visual analog scale (VAS) was used to measure the pain after the periodontal treatment. This scale consists of a horizontal line starting from zero to 10 where zero indicates no pain and 10 indicates the intense level of pain. Patients were asked to mark their pain level on the VAS sheet after 2 h, 4 h, 8 h, 24 h, and 48 h after the periodontal treatment. The following cut-off points were used for the pain intensity in the VAS: 0 = no pain, 1–4 = mild pain, 4–6 = moderate pain, and 7–10 = severe pain [
19]. Patients were advised to take analgesics if the pain was not tolerable. The records of analgesic consumption were taken after a week of the treatment.
Statistical Analysis
All the statistical analyses were performed using the SPSS software, version 27 (IBM, Armonk, NY, USA). The normality of the data was checked using the Shapiro–Wilk test. Descriptive data were analyzed with frequency distribution. Multivariate logistic regression was performed to conduct the association of all dependent variables and the pain perception of patients. A chi-square test was performed to identify the distribution of MDAS and analgesic consumption with gender. A nonparametric Friedman test was conducted to assess pain perception at different times. When the Friedman test was significant, pairwise comparisons based on the Wilcoxon rank test were made, implemented with Bonferroni correction. Statistical significance was set at 0.05.
3. Results
A total of 52 patients including 32 males and 20 females participated in the current study with a mean age of 43.10 ± 12.33 years. A total of 33 and 19 patients were diagnosed with stage II periodontitis (63.50%) and stage III periodontitis (36.60%), respectively. Moreover, a total of 19, 21, and 12 patients were diagnosed with grade A, grade B, and grade C periodontitis, respectively. The majority of the patients were not anxious (65.4%) before the treatment and 80.80% of patients did not take analgesics after the SRP treatment. None of the patients experienced severe pain after the treatment. Mild and moderate pain were observed throughout 48 h. However, the majority of the patients recorded ‘no pain’ after the treatment. The frequency of the pain was displayed in
Figure 1. All the descriptive data of all participants was presented in
Table 1.
Multivariate analyses showed that MDAS and analgesic consumption is significantly associated with pain perception. Other clinical variables are not associated with pain perception (
Table 2). Moreover, the chi-square test revealed that male patients are less anxious than female patients; however, no significant differences were observed (
Table 3 and
Figure 2). In terms of analgesic consumption, a total of 19.20% of participants took the analgesics after treatment and the majority of the patients did not take any analgesics. No significant difference was observed between gender related to analgesic consumption (
Table 4 and
Figure 3).
The Friedman test exhibited that pain perception is significantly associated (
p < 0.05) with time (
Table 5). Therefore, a pairwise comparison was conducted and found that pain perception was significantly different (
p < 0.05) with each time difference, except for 24 H and 48 H (
Table 6).
4. Discussion
This study aimed to assess pain perception and analgesics consumption after SRP in patients with stage II and stage III periodontitis. The outcome of the study showed that analgesic consumption and dental anxiety are associated with pain. Moreover, pain is also associated with time, except for 24 H–48 H.
The current study showed that the pain perception of males and females is not significantly different at the time point. Even though it was mentioned in the previous study that the pain scale for female patients was higher than that of male patients [
20], the current study opposes that statement. The outcome of this study related to pain perception between gender is also supported by the previous studies [
15,
21]. The age of the patients Is also related to the perception of pain. It stated that older patients are less prone to experience pain compared to younger people, as the nociceptors are gradually lost with age [
11]. However, a contrasting outcome was also observed, where the VAS score was less in younger people compared to the elderly [
15]. This contrasting outcome might be due to another underlying condition which was not assessed during the study. The current study did not focus on the different age groups, though patients with a wide range of ages (20 to 65 years old) were included in this study. It showed that age is not significantly associated with pain perception in the current population.
As stated in the previous studies, female patients are more anxious about dental treatment compared to male patients [
22,
23,
24]. However, the contrasting report was also found where females showed insignificant lower MDAS scores compared to males [
15], which might be due to the sample size and the age range of female patients who participated in the study. In this study, it exhibited that female patients were more anxious, but the difference in anxiety levels between males and females was insignificant. However, the total sample between males and females is different. Male participants are more than female participants (male = 32 and female = 20), which might result in more MDAS scores in male patients compared to female patients. A similar result was observed in the study by Singh et al. [
15]. However, unlike this study, the mean age of the female participants is higher compared to the male participants in the study by Singh et al. [
15]. Due to the higher mean age of the female patients, female patients showed less anxiety than their male counterparts in a few different studies [
15,
25,
26]. Even though the MDAS score did not show any significant difference between gender, the current study showed that MDAS is significantly associated with VAS at different time points. Therefore, it could be indicated that dental anxiety is linked to the perception of pain.
The perception of pain is usually linked to the severity of the periodontal disease. The more aggressive the periodontal condition, the more pain experienced by the patients [
27]. The current study focused on stage II and stage III of periodontitis, where no advanced treatment is required other than SRP. The outcome of the study exhibited that pain scores using VAS did not show significant differences with the stages and grades of periodontitis. A similar outcome was also observed in the previous studies [
19,
28]. However, some studies on periodontal pain did not assess pain perception with periodontal conditions [
29,
30].
Periodontal treatment procedures might have associated with the level of pain which results in the consumption of analgesics oftentimes. In this study, analgesics were prescribed to patients if the pain was intolerable. It showed that 20% and 18.80% of female and male patients were taking analgesics after the SRP treatment. However, the majority of the patients did not take medication for pain. Even though more female patients were taking analgesics compared to male patients, the ratio was not significant, and no significant differences were observed between analgesic consumption and gender. Experienced practitioners play an imperative role in postoperative pain. SRP could be painful if patients are not treated sophistically which could lead to analgesic consumption. In the current study, all the professional periodontists performed the SRP procedure which might report a lower percentage of analgesic consumption. Although analgesic consumption is not related to gender, the statistical analysis of this study exhibits that analgesic consumption is significantly associated with VAS at different time points.
The current study used the VAS for assessing the pain perception of patients after the SRP treatment which is one of the most common tools measuring pain used in many previous studies not only in periodontal treatment but also in other branches of dentistry [
2,
15,
19,
28,
31]. Another pain-assessing tool numeric rating scale (NRS) also been used in different studies [
4,
9,
32,
33,
34]. However, the NRS pain assessment tool usually using for younger patients due to easy understanding. In this study all the patients were adults; hence, no precautions in choosing the scaling method were taken, and followed the extensively accepted VAS method.
The patients used the VAS questionnaire to mark their pain level at 2, 4, 8, 12, and 48 h after the treatment. It is obvious that pain would be intense at the nearest hours after the treatment and would gradually decrease. The outcome of the study also showed the same, where after two hours the mean pain score was 0.88 and decreased to 0.13 after 48 h. A similar report was also observed in the previous studies irrespective of the time point of assessing the pain [
2,
19,
31]. This study found a significant decrease in pain perception over time. Moreover, a significant decrease was observed from each time period such as two hours to four hours, four hours to eight hours, and eight hours to 24 h. No significant difference was observed between 24 h to 48 h. After 24 h of the treatment, no pain was observed by the majority of the patients.
The current study measured the BOP, CAL, and PD as a routine radiographic examination of the periodontal treatment. CAL and PD are used to identify the classification of periodontal stages and grades. Moreover, BOP is a good indicator of active periodontal disease [
14]. This study assessed the periodontal variables with pain perception at different times. However, no significant association was observed between periodontal variables and pain perception. This also justifies the insignificant outcome for the stages and grades of periodontitis, where the VAS scores such as CAL, PD, and BOP are directly linked with the stages and grades of periodontitis. A similar outcome was also found in the previous study by Palheiros et al. [
19] who assessed the periodontal variables with pain perception. However, the periodontal parameter usually only assesses for the routine examination for the periodontal treatment. The optimum pain perception of patients could be attained after active periodontal treatment. Additionally, other therapies such as ozone [
35], laser photodynamic therapy [
36], and regenerative materials [
37] could have a significant influence on the oral environment. These therapies could modify clinical and microbiological parameters in periodontal patients and could have an effect on pain assessment in combination with SRP therapy. All these variables should be considered in future trials.
The limitation of the current study regarding the sample size calculation is that all the patients were included as a convenient sampling method. However, a proper sample size calculation would have provided a precise outcome. Moreover, the age range of the included patients was extensive. A specific age range could provide an improved outcome for this study. Therefore, further studies with enlarged samples and specific age ranges should be conducted.