Correlation between preoperative pressure pain assessments and anxiety and postoperative pain in impacted lower third molar surgery.

OBJECTIVES: : The aim of this study was to evaluate correlations between anxiety and preoperative pressure pain assessments and postoperative pain and analgesic requirements in impacted lower third molar tooth surgery.
MATERIALS AND METHODS: This prospective study enrolled 60 patients who underwent impacted lower third molar surgery. The preoperative State-Trait Anxiety Inventory-I (STAI-I), pressure pain threshold, and pressure pain tolerance scores were measured. At 2, 4, 6, 12, and 24 hours, and at 6 days following surgery, the patients scored their pain on the visual analogue scale and recorded their analgesic drug usage. The data were evaluated, and the results were statistically analyzed.
RESULTS: Of the 60 patients, 38 were female. Mean age was 24.62±7.42 years. The study found no relationship between preoperative pressure pain assessments and postoperative pain (P>0.05). There was also no relationship observed between preoperative STAI-I scores and postoperative pain (P>0.05). However, there was a positive correlation between operation time and total medication taken (P<0.05).
CONCLUSION: Preoperative pressure pain threshold, pressure pain tolerance, and anxiety level had no significant effects on postoperative pain and analgesic requirements in impacted lower third molar surgery.

I. Introduction

The removal of impacted third molar teeth is one of the most common oral surgical procedures[1]. Planning and surgical skills are critical during preoperative diagnosis and postoperative management[2]. Postoperative pain is a well-known phenomenon that commonly occurs after almost all oral and maxillofacial surgeries[3]. In the early postoperative period, pain reaches its maximum intensity, and analgesics are often required[4].

The pain threshold is the most variable physical marker for pain. The most convenient measurement method is algometry[5]. Emotional factors could affect a patient’s pain threshold[6]. An association has been found between preoperative anxiety and postoperative pain[7]. Preoperative anxiety may increase the subjective experience of pain, and this may lead to increased analgesic use and a prolonged hospital stay[8]. The State-Trait Anxiety Inventory (STAI) scale is the most commonly used test for measuring anxiety[9]. Current studies suggest that postoperative pain and analgesic requirements may be affected by factors such as surgery type, anxiety, depression, and preoperative pain[10,11]. The correlation between the pressure pain threshold and tolerance and postoperative pain has been evaluated in several branches of medicine[12] [-14]; however, few studies on oral and maxillofacial surgery have included these parameters. A review of the literature indicates that the current study is the first to do so.

The primary aim of this study was to investigate the effects of anxiety and preoperative pressure pain threshold and tolerance on postoperative pain and analgesic requirements in impacted lower third molar surgery. The secondary aim was to evaluate the effects of tooth retention, operation time, and previous surgical experience.

II. Materials and Methods

The research protocol was approved by the Clinical Research Ethics Committee of Kocaeli University (KÜ GOKAEK 2019/15), and written informed consent was obtained from all patients. The study followed the Declaration of Helsinki guidelines on medical ethics and protocols. This prospective study evaluated data obtained from patients who were seen at Faculty of Dentistry, Kocaeli University from January to April 2019 and required to undergo the extraction of impacted lower third molar teeth prophylactically.

A total of 60 patients who underwent impacted lower third molar surgeries were included in the study after their written consents were obtained. The inclusion criteria were the absence of: (1) alcohol or drug addiction, (2) analgesic drug use, and (3) chronic pain. Patients with medical problems that could pose limitations in the evaluation were excluded from the study. Infected and painful teeth were not included.

Preoperative anxiety and the pressure pain threshold and tolerance were measured. Anxiety was assessed using the STAI-I, and the pressure pain threshold and tolerance were measured using an algometer with a 1 cm2 probe tip (Baseline Dolorimeter, 22-lb gauge; Fabrication Enterprises, White Plains, NY, USA). The measurement site was the tip of the third finger on the right hand. Before the measurements were taken, the patients were fully informed of the research and measurement procedures. For the pressure pain threshold measurement, the patients were asked to say “stop” at the pressure value at which they first felt pain. For the pressure pain tolerance measurement, the patients were asked to say “stop” at the maximum pressure value at which they could voluntarily withstand the pain. All measurements were repeated three times at 10-minute intervals. The pressure pain thresholds and tolerances were derived from the average values of the three measurements. All measurements were made by the same physician using the same equipment in the same room at the same room temperature. The pressure pain threshold and tolerance were categorized as low and high. Patients with values below each group mean were coded as “low”, and those with values above the mean were coded as “high”.

Age, sex, previous surgical experience, and tooth retention status (mucosal or bone) were recorded for each patient. In this study, all teeth with mucosal and bone retention were in a vertical position. Only one tooth was extracted from each patient. The impacted lower third molar surgeries were performed by one surgeon.

All operations were performed under local anesthesia in the operating room of Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, Kocaeli University. Appropriate asepsis and antisepsis precautions were taken. The mucoperiosteal flap was removed within the classic framework for the extraction of impacted lower third molars. When necessary, the bone was drilled under saline washing, and tooth extraction was performed. Following bleeding control, the wound was sutured as primary. The time from the application of local anesthesia to the end of the suturing procedure was calculated and recorded as the operation time. In the postoperative period, the patients were prescribed antibiotics, analgesics, and antiseptic mouthwashes. The sutures were removed on the seventh postoperative day. Each patient received a naproxen sodium 550 mg tablet (Apranax Fort; Abdi Ibrahim Ilac, Istanbul, Turkey) prior to the surgical procedure. The same drug was prescribed after surgery. The patients were asked to note the number of painkillers they received during the postoperative period. A visual analogue scale (VAS) with values ranging from 0 to 10 was used to evaluate postoperative pain. On a form that they were provided, the patients were asked to record their VAS scores at 2, 4, 6, 12, and 24 hours and during the 6 days following surgery. They were asked to bring this form when they returned for suture removal the following week. From these data, the total number of medications (number of tablets) taken by each patient was calculated.

Statistical analyses were performed with SPSS for Windows (ver. 16; SPSS, Chicago, IL, USA). The Shapiro–Wilk test was used to test normality of the parameters. Descriptive statistics (mean, standard deviation, frequencies, and percentage) were used to evaluate the data. For the quantitative data, analysis of variance was used to compare the normally distributed parameters, and the Student’s t-test was used to compare two groups. Kruskal–Wallis and Mann–Whitney U tests were used to compare the non-normally distributed parameters of the quantitative data. Pearson’s correlation coefficient was used to compare the correlations in the normally distributed quantitative data, and Spearman’s rho was used to compare the correlations in the non-normally distributed data. The confidence interval was 95%, and statistical significance was set as P<0.05.

III. Results

A total of 60 patients were included in this study. The ages ranged from 16 to 49, with a mean age of 24.62±7.42 years. Patient demographics are presented in Table 1, and the average, minimum, and maximum values of the demographic data are provided in Table 2.

Table 1

Demographic data distribution

Variable	Value
Sex
Female	38 (63.3)
Male	22 (36.7)
Previous surgical experience
Yes	21 (35.0)
No	39 (65.0)
Tooth retention
Mucosal retention	19 (31.7)
Bone retention	41 (68.3)
Pressure pain threshold
Low	27 (45.0)
High	33 (55.0)
Pressure pain tolerance
Low	29 (48.3)
High	31 (51.7)

Values are presented as number (%).

Table 2

Descriptive statistics of demographic data

Variable	Value
Age (yr)	24.62±7.42 (16-49)
Pressure pain threshold (lbs)	12.37±3.55 (5.50-18.75)
Pressure pain tolerance (lbs)	16.79±4.01 (9.25-22.00)
STAI-I score	40.53±7.51 (25-70)
Total analgesic drug (No. of tablets)	6.52±3.48 (0-18)

(STAI-I: State-Trait Anxiety Inventory-I)

Values are presented as mean±standard deviation (range).

No significant relationships were found between the VAS scores at 2, 4, 6, 12, and 24 hours and during the 6 days following surgery. There was also no significant relationship between the low and high pressure pain threshold and pressure pain tolerance values (P>0.05). No significant relationships were found between the number of analgesic drugs used on any of the first seven days after surgery and the low and high pressure pain threshold and pressure pain tolerance values (P>0.05). There were significant positive correlations between the VAS scores on each of the first seven days after surgery and the number of analgesic drugs used (P<0.05).

There was a positive correlation between operation time and total number of medications used (r=0.276; P=0.033). However, there were no significant correlations among pressure pain threshold, pressure pain tolerance, STAI-I score, tooth retention status, previous surgical experience, and total number of medications taken (P>0.05). The STAI-I scores for patients with high pressure pain tolerance values were significantly higher than those for patients with low values (P=0.036). However, there was no significant correlation between the STAI-I score and the pressure pain threshold (P>0.05).

There were no significant differences between previous surgical experience and STAI-I score, pressure pain threshold, or pressure pain tolerance (P>0.05).

IV. Discussion

A review of the literature revealed studies in which correlations with postoperative pain were determined through evaluations of patients’ preoperative physical and psychological characteristics[12,15]. In a study similar to the current study, Hsu et al.[12] evaluated the correlations between the preoperative pressure pain threshold and tolerance and postoperative pain and total analgesics taken after lower abdominal gynecologic surgery. They found no correlations between the pressure pain threshold and tolerance and postoperative VAS scores; however, postoperative morphine use decreased as the pressure pain tolerance increased. Duan et al.[14] found a correlation between higher pain tolerance and the decreased use of postoperative analgesia in patients who underwent elective surgery under general anesthesia. However, a correlation between the pressure pain threshold and postoperative analgesia was not reported.

The widely accepted conclusions from comparisons of the efficacy of the preoperative pressure pain threshold and preoperative pain tolerance suggest that pain tolerance is a better predictor of postoperative pain[12,16]. The present study found no correlations between the preoperative pressure pain threshold and tolerance and postoperative pain or total analgesic use. The literature indicates that studies have focused mostly on major surgical procedures requiring general anesthesia, thereby leading to higher VAS scores and higher analgesic needs. The lack of statistical significance in the current study could be attributed to the use of local anesthesia. The procedures were less traumatic than those in previous studies.

Preoperative anxiety plays a critical role in the chain of events that affect postoperative pain management[8]. Anxiety has also been reported to be a factor in reducing pain threshold[17]. The current study found that pressure pain tolerance decreased as anxiety increased. Previous studies have found a positive correlation between postoperative pain and anxiety. Moreover, increased anxiety and fear have been found to lead to greater pain severity, thereby increasing postoperative analgesic requirements. This could in turn lead to excessive medication use to overcome stress and anxiety[18]. The current study found no association between anxiety and the total medication used.

The conclusions concerning the correlation between anxiety and previous surgical experience are contradictory. Kaakko and Murtomaa[19] revealed that patients with previous experience with tooth extraction had higher pre-surgery anxiety. In contrast, another study found higher anxiety among patients with no previous surgical experience[20]. The current study found no significant difference between the patients with and without previous surgical experience regarding the pressure pain threshold and tolerance, STAI-I scores, and total medication used.

Postoperative pain is associated with surgical factors, such as the surgical site, difficulty, and technique[21]. The general opinion in the literature is that postoperative pain and analgesic use are positively associated with surgical difficulty[22,23]. Lago-Méndez et al.[22] found a correlation between surgical difficulty and postoperative pain in impacted mandibular third molar extractions. Longer operation time led to greater postoperative pain. The current study found no difference in the pain and analgesic requirements after the extraction of teeth with bone and mucosal retention. However, as expected, a positive correlation was found between operation time and analgesic use.

V. Conclusion

The primary conclusion of this study is that the preoperative pressure pain threshold, pressure pain tolerance, and anxiety level had no significant effects on postoperative pain and analgesic requirements in impacted lower third molar surgery. A secondary finding was the association between operation time and postoperative analgesic use.