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Brazilian Dental Journal

Print version ISSN 0103-6440On-line version ISSN 1806-4760

Braz. Dent. J. vol.18 no.2 Ribeirão Preto  2007

http://dx.doi.org/10.1590/S0103-64402007000200014 

Electro–acupuncture efficacy on pain control after mandibular third molar surgery

 

 

Marconi Gonzaga TavaresI; Ana Paula MachadoI; Breno Gutierrez MottaI; Maria Cristina BorsattoII; Adalberto Luiz RosaI; Samuel Porfírio XavierI

IDepartment of Oral Maxillofacial Surgery and Periodontology, School of Dentistry of Ribeirão Preto, University of Sao Paulo, Ribeirão Preto, SP, Brazil
IIDepartment of Pediatric Clinic, Preventive and Community Dentistry, School of Dentistry of Ribeirão Preto, University of Sao Paulo, Ribeirão Preto, SP, Brazil

Correspendence

 

 


ABSTRACT

The aim of this study was to evaluate the efficacy of electro–acupuncture (EAC) on postoperative pain control after mandibular third molar surgery. Twenty four young patients (12 male and 12 female) with symmetrically impacted mandibular third molars were selected. Each patient was submitted to two separate surgical procedures under local anesthesia. At one side, extraction was carried out employing both prior (24h) and immediately postoperative application of EAC, while on the contralateral side surgery was carried out without any treatment. EAC was applied on 6 bilateral systemic and 2 auricular points with a WQ10Dl appliance using 40–60Hz frequency for 20 min and individually adjusted intensity. Postoperative pain intensity was rated on a 100 mm visual analog scale (VAS) between 2 and 72 h and recording the amount of analgesics intake after surgery. Statistical analysis was performed using theWilcoxon test. Postoperative pain VAS scores were significantly lower for the EAC group (p<0.05) and analgesic intake decreased (p<0.05) for all evaluated periods (p<0.05). Under the tested conditions EAC therapy is efficient was proved controlling postoperative pain following mandibular third molar surgical removal.

Key Words: electro–acupuncture, oral surgery, mandibular third molars, postoperative pain.


RESUMO

O objetivo desta pesquisa foi verificar a eficácia da aplicação de eletro–acupuntura (EAC) na redução da dor após a exodontia de terceiros molares inferiores inclusos. Foram selecionados 24 pacientes jovens (12 homens e 12 mulheres) com inclusão bilateral de terceiros molares inferiores em posição similar. Cada paciente foi submetido aleatoriamente a dois procedimentos cirúrgicos em dias diferentes: em um deles o dente foi extraído com uma sessão pré–operatória (24 h) e uma pós–operatória imediata de EAC enquanto no outro a extração foi feita sem EAC. A EAC foi aplicada em 6 pontos sistêmicos bilaterais e 2 auriculares com um aparelho WQ10D1 utilizando freqüência de 40–60 Hz por 20 min com intensidade ajustada individualmente. A dor foi avaliada desde 2h até 72h pós–operatórias utilizando a escala visual análoga (EVA) de 100 mm e pelo consumo de analgésicos. Os dados foram comparados pelo teste deWilcoxon. Os escores de dor da EVA foram significantemente menores para o tratamento com EAC (p<0,05) enquanto o consumo de analgésico diminuiu (p<0,05) em todos os períodos (p<0,05). O tratamento com EAC mostrou–se eficiente no controle da dor pós–operatória após cirurgia de extração de terceiros molares inferiores inclusos.


 

 

INTRODUCTION

Surgical removal of impacted mandibular third molars is one of the routine aspects of oral–maxillofacial surgery and is well known to result in morbidity including pain, swelling and trismus, associated to intense inflammatory response.

Third molar surgical extractions are pain models to evaluate analgesic efficacy due to the following characteristics: surgeries are elective; patients are routinely ambulatory and healthy with few confounding disease states; procedures are consistent and postoperative pain typically begins within 1 to 3 h after surgery and ranges from moderate to severe intensity, requiring use of analgesics (1).

Postoperative pain and swelling are usually controlled by administering drugs to patients before and after surgery in order to decrease the natural inflammatory response. Nonsteroid antiinflammatory drugs (NSAIDs) are the most commonly used drugs due to their inhibitory effect on the cyclooxygenase enzyme. However, nonselective NSAIDs are associated to increased surgical bleeding and important gastrointestinal (GI) effects, including ulceration. Cyclooxygenase–2 (COX–2) selective inhibitors effectively treat pain and inflammation in both acute and chronic conditions, while presenting minimum inhibitory effect on COX–1 at full therapeutic doses (2). Because of this selective inhibition, side effects are minimal. On the other hand, higher costs might decrease its use.

The advantages of EAC as an analgesic therapy applicable to oral surgery have been reported (3,4). Simmons and Oleson (5) verified increased dental pain threshold after auricular EAC application. Scientific interest promoted it to a supplementary therapy for oral pain control with no significant side effects (6).

Tsui and Leung (7) showed that EAC is superior to conventional (manual) acupuncture on pain relief while treating patients with chronic tennis elbow. Kim et al. (8), evaluating analgesic effects in rats concluded that manipulation (rotation or alteration in the depth of needle insertion) combined with EAC produces a more potent antinociception as compared to EAC only.

Conversely, there are studies showing increase, decrease or statistical similarity in postoperative pain after third molar surgeries. Ekblom et al. (9) concluded that acupuncture application before or immediately after surgical removal of impacted mandibular third molars raised the pain levels during postoperative period. However, acupuncture treatment was applied either before or after surgical procedure and electrical stimulation was not used in this study.

Lao et al. (10) demonstrated the effectiveness of acupuncture as a supplementary therapy for pain control after impacted third molar surgery and lack of relationship between pain scores and patient expectation. This study was also carried out without electrical stimulation at the acupunctured points. A minimum of 4 points were used as a protocol ipsilaterally to remove a partially impacted lower tooth.

Evaluation of analgesic effects of EAC on postoperative third molar surgery was performed by Kitade and Ohyabu (11). They found either an increase tendency, though not significant, or a decrease in pain measurements, depending on the difficulty of tooth removal. They also concluded that application of EAC after and before surgery had a slightly more marked analgesic effect than only postoperative EAC treatment. Information about the frequency of VAS periods and analgesic administration is missing. Only four acupuncture points were stimulated ipsilaterally or on both sides and the frequency used for stimulation (3 Hz), was not within the ideal range (40–60 Hz).

Due to missing data and different protocols used in previous studies with contradicting results and lack of consistency in evaluating EAC efficacy on pain control after impacted lower third molar surgery, new studies are required to address this point unequivocally.

The aim of this study was to evaluate the efficacy of EAC on postoperative pain control after mandibular third molar surgery.

 

MATERIAL AND METHODS

Patient Selection

This study was approved by the local ethics committee and all patients signed an informed consent form. A total of 24 patients (12 male and 12 female) were selected by the following inclusion criteria: ASA grade 1, age between 18 and 25 years and bilateral symmetrically impacted mandibular third molars advised for extraction. Orthopantomographic radiograms were obtained to ensure similarity of the impaction type. Patient exclusion criteria were self–prescription of any medication that could alter pain evaluation, such as analgesic or antiinflammatory drugs within 24 h of surgery or during the postoperative measurements; pregnant women; history of allergy to paracetamol or local anesthetics; history of prior treatment with EAC.

Before the operative procedures, all patients were acquainted with the visual analog pain scoring method and analgesic drug administration.

Electro–Acupuncture Treatment

One single experienced acupuncturist undertook the EAC treatment. After cleaning with 70% alcohol, disposable acupuncture KS (Korean Style) needles (Suzhou Huanqiu Acupuncture Medical Appliance Co. Ltd., 218, China) were inserted up to specific depth according to each point. The exact depth of each systemic point was determined either when "Qi" induced response was reported by the patient or the maximum advised depth was reached. Lao et al. (10) defined "Qi" as a sensation of soreness, numbness or distention at the acupuncture point. Insertion into auricular points was more superficial, as the cartilage was reached but not surpassed. Needles were inserted bilaterally into systemic points and ipsilaterally to the extraction side into auricular points.

A total of 14 needles were used on each patient. Twelve needles (0.25 mm diameter x 30 mm long) were applied at systemic points and 2 needles (0.17 mm diameter x 17 mm long) at auricular points.

Needles remained in place for 20 min and were then removed. All needles were twisted every 10 min: at the beginning of the procedure, after 10 min of treatment and at the end. A Multiple Electronic Acupunctoscope (MEA) WQ–IOD1 model (Beijing Hoidian District Danghua Electronic Instrument Factory, China) was used for electrical stimulation on systemic points only. The ideal frequency ranges from 40 to 60 Hz (12). Needles were then stimulated electrically at 50 Hz and zero intensity. The intensity was then slowly raised until reaching maximum level based on the patient's comfort.

Acupuncture points were established according to specific literature, which demonstrates direct relationship to impacted lower third molar surgery. These points were chosen based on "Point Function" theory, which determines that each point has its own function (13). This theory allowed for a specific and reproducible combination of points that was used for each patient.

The following acupuncture points were used in each patient: Hegu (IG 4), Taichong (F3), Neiting (E44), Xuanzhong (VB39); Ermen (TA21); Kunlun (B60); Shenmen and "Ponto Total".

Surgical Procedure

All patients were operated by the same surgeon under local anesthesia, between 8:00 and 12:00 am and using standard oral surgical procedures. The extractions were done at two different occasions: the second operation was carried out 4 weeks after the first.

On one side, extraction was carried out using both prior (24 h) and immediately postoperative application of EAC (EAC), while on the contralateral side surgery was done with no treatment (control). Treatment modality was randomly selected for each patient.

2% mepivacaine with 1:100,000 nor–epinephrine (Scandicaine 2%, DFL, Rio de Janeiro, RJ, Brazil) was used for inferior alveolar and buccal nerve blocks. A standard incision was used, from the anterior border of the ramus to the distobuccal corner of second molar following the buccal gingival sulcus along the second molar. A vertical incision was made from the mesiobuccal corner of the second molar to the mucogingival line. After periosteal elevation, bone on buccal and distal sites was removed with round bur using abundant saline irrigation. In all cases, the third molar was split using a tungsten fissure bur and a straight elevator. The tooth was carefully removed in several pieces. The alveolus was inspected and gently curetted for granulation tissue followed by abundant saline irrigation. Closure was done with 3 4/0 silk sutures. A gauze pack was pressed against the surgical site and the patient was instructed to bite on it for 30 min.

The duration of operation was recorded as the period between the first incision and the last suture. Patients were given routine postoperative instructions, and sutures removed 7 days after surgery.

Data

Pain scores were obtained using a 100 mm visual analog scale (VAS: 0 = no pain; 100 = worst pain possible), which is a reliable and sensitive method to measure pain. In the first 12 h, the patients were instructed to write down pain level every 2 h. Then, pain was evaluated every 6 h until 72 postoperative h.

Analgesic (paracetamol 750 mg) intake was recorded for the first 72 h after surgery by the total amount of consumed tablets and administration time. The advised dose was 1 tablet every 6 h for the first 3 days after surgical procedure, in case of pain.

Statistical analysis was performed by Wilcoxon test. Data were statistically significant when p<0.05.

 

RESULTS

Six patients were excluded due to intake of non–prescribed drugs or inappropriate filling out the forms. These subjects were replaced by other patients. 24 patients returned their forms correctly filled. No patient had any serious complication or related any side effect.

Both treatments were comparable for their operative characteristics. An equal number of male and female patients were enrolled in this study, without ethnic specification. The mean age of the subjects was 20.42 years (± sd = 1.44 years, range = 18 to 24 years). According to Winter's classification of tooth inclination, the obtained data were: 18 vertical, 14 mesioangular, 8 horizontal and 8 distoangular.

There was no significant difference between both operations, as regards duration of surgery and the amount of local anesthetic administered.

Five patients under EAC treatment and 2 control patients did not take analgesics in the postoperative period. Twelve subjects under control treatment took at least one tablet in the first 2 h after surgery, while on EAC group only 7 patients took analgesics in this period.

The VAS of pain was significantly lower for the EAC group for all times (p<0.05) (Fig. 1).

 

 

There was significant difference between the two treatments in postoperative analgesics consumption (p<0.05) (Fig. 2). Subjects in the control group (total intake 110 tablets) had a mean of 4.58 tablets (± sd = 3.87). Subjects in the EAC group (total intake 46 tablets) had a mean of 1.92 tablets (± sd = 2.04).

 

 

DISCUSSION

Lao et al. (6) pointed out the increased acceptance of acupuncture by the western culture, but an appropriate methodology to scientifically evaluate the effect of acupuncture remains undefined. These authors (6) published a well controlled study on the efficiency and safety of acupuncture using acceptable methods and pain models.

This study employed a method where one side of each patient was included in the control group and the other side (randomly selected) was in the EAC group. In this EAC model, the patient becomes his/her own control, in order to eliminate any individual response differences towards acupuncture treatment. In addition, only one surgeon, auxiliary and acupuncturist were chosen; one single local anesthesia was established to avoid any anesthetic drug interference and no other tooth was extracted in the same procedure.

A major problem with EAC research is the difficulty in designing appropriate control groups (6). Mock transcutaneous nerve stimulation and placebo EAC could be used, but none of them was considered appropriate (6). An investigation into placebo acupuncture (14) failed to show any significant differences between "true acupuncture" and placebo. In view of this, no placebo control was used in this experiment.

Studies have shown that EAC does reduce postoperative pain (general or oral) (6). Lin et al. (15) found that preoperative EAC treatment can reduce postoperative analgesic requirements and associated side effects after abdominal surgery. Sim et al. (16) concluded that preoperative EAC reduces intra–operative analgesic intake after gynecologic lower abdominal surgery.

In oral surgery, controversial results can be found. Thomas and Thomas (17) reported that prophylactic acupuncture for tooth extraction enhanced postoperative pain. Kitade and Ohyabu (11) found a similar pattern on "easy to extract" teeth, though not significant when compared to a control group. But most of the reports show that EAC tends to reduce postoperative pain and analgesic consumption (6,11).

Steroids can decrease pain and edema scores after third molar surgery. Since acupuncture is known to increase blood cortisol levels after application (18), it may diminish pain and swelling.

In the control group, analgesic intake was more than twice the amount in the EAC group (control/EAC = 110/46 tablets) and almost twice as many patients in the control group had the first tablet in the subsequent 2 h after surgery, compared to the EAC group (control/EAC = 12/7 individuals). Thus, EAC treatment significantly reduced both total amount of analgesics taken and number of patients who required the drug earlier.

In this study, EAC significantly reduced pain scores for all evaluated times (p<0.05). An estimated 63.5% of the patients experienced severe pain at some time during the first day after surgery. According to Bjornsson et al. (19), pain is most severe in the first 6 h after surgery. EAC treatment significantly reduced pain in the first 6 h after surgery. Two hours after surgery, the decrease in VAS pain score was from 37.63 mm to 28.71 mm, on the average. After 4 h, it decreased from a mean of 34.33 mm to 24.04 mm. After 6 h, from 30.08 mm to 19.04 mm on the average. These differences represent, respectively, a 23.70%, 30% and 36.7% reduction, which is clinically significant according to Campbell and Patterson (20).

In conclusion, this study provides a viable and simple method for scientific evaluation of EAC and its outcomes on pain measurements, without a placebo control group. EAC did reduce analgesic intake and was more effective on pain control than the control. Thus, it can be widely used as an adjunctive therapy for pain control after third molar surgery, without any associated side effects to it.

 

ACKNOWLEDGEMENTS

The authors acknowledge financial support from FAPESP

 

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Correspondence:
Prof. Dr. Samuel Porfírio Xavier
Faculdade de Odontologia de Ribeirão Preto, USP
Avenida do Café s/n, 14040–904 Ribeirão Preto, SP, Brasil
Tel: +55–16–3602–3980. Fax: +55–16–3633–0999
e–mail: spx@forp.usp.br

Accepted March 6, 2007

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