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Three-Dimensional Evaluation of the Effects of Kinesio Taping on Postoperative Swelling and Pain after Surgically Assisted Rapid Palatal Expansion J Oral Maxillofac Res 2018;9(4):e3 doi:10.5037/jomr.2018.9403 Abstract | HTML | PDF | XML |
Three-Dimensional Evaluation of the Effects of Kinesio Taping on Postoperative Swelling and Pain after Surgically Assisted Rapid Palatal Expansion
1Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, İzmir Katip Çelebi University, İzmir, Turkey.
2Oral and maxillofacial surgeon, private practice, İzmir, Turkey.
Corresponding Author:
Aydınlıkevler mh., Cemil Meriç blv., Çiğli/İzmir
Turkey
Phone: +905426738078
Fax: +90(232) 386 08 88
E-mail: muratulu81@hotmail.com, murat.ulu@ikc.edu.tr
ABSTRACT
Objectives: The purpose of the present study was to evaluate the effects of kinesio taping on pain and swelling after surgically assisted rapid palatal expansion.
Material and Methods: A total of 21 (12 male and 9 female) patients with transverse maxillary deficiency were enrolled in the study. Kinesio taping (KT) was applied unilaterally in each patient, whereby sides of the face with KT application were included into the (a) KT group and the other sides were included into the (b) non-KT group. Changes in facial volume were evaluated on digital images using the 3dMD Face System. Pain scores were assessed at postoperative days 1, 2, 3, 4, 5, 6, and 7 using the visual analog scale (VAS). Two-way repeated measures analysis of variance and Mann Whitney U test were used for statistical analyses.
Results: Swelling was significantly lower in the KT group compared to the non-KT group from T0 to T1 (36.42 [SD 19.71] mm3 vs. 183.84 [SD 49.33] mm3) and was significantly greater in the non-KT group compared to the KT group from T0 to T2 (70.88 [SD 15.73] mm3 vs. 21.46 [SD 13.39] mm3) (P < 0.001 for both). The VAS scores were significantly lower in the KT group compared to the non-KT group at all time points (P < 0.05).
Conclusions: The application of kinesio taping after maxillofacial surgery reduced the pain and swelling in the postoperative period. Kinesio taping can be used as an alternative to other methods that are used for the reduction of postoperative complaints.
J Oral Maxillofac Res 2018;9(4):e3
doi: 10.5037/jomr.2018.9403
Accepted for publication: 14 December 2018
Keywords: edema; kinesio tape; maxillary expansion; pain; three-dimensional image.
INTRODUCTION
Transverse maxillary deficiency (TMD) is among the most important dentofacial dysplasias encountered in clinical practice. This skeletal dysplasia was first treated by Angell in 1860 by expanding the maxillary transverse width through midpalatal suture opening by using orthodontic appliances [1,2]. However, the treatment of TMD with orthodontic appliances alone is not always possible as it depends on the severity of malocclusion, patient age, and the characteristics of midpalatal suture. For such cases, a novel technique known as surgically assisted rapid palatal expansion (SARPE) has been recommended, particularly for patients with maxillary collapse and retrusion [2,3]. Proven as a successful technique, SARPE is frequently used in clinical practice and provides surgical relief in the regions resistant to expansion including midpalatal suture, nasomaxillary suture, nasomaxillary buttress, zygomaticomaxillary buttress, and pterygomaxillary buttress. After the administration of SARPE, the maxilla can be expanded in the transverse direction by using orthodontic appliances [4,5].
SARPE is a distraction osteogenesis of the deficient maxillae in the transverse direction. The osteotomy technique of SARPE is similar to that of Le Fort I osteotomy except for minor differences. In SARPE, unlike in Le Fort I osteotomy, a midline osteotomy is performed to surgically separate the palatal sutures, and a tooth-borne or bone-borne palatal distraction appliance is placed and activated to gradually expand the palate after surgery until the desired position is achieved [6,7]. Periodontal bone loss, tooth devitalization, and asymmetric expansion are most commonly reported complications after SARPE [7]. Moreover, as can be seen after any oral and maxillofacial surgery procedure, haemorrhage, oedema and, pain may also occur after SARPE. Several approaches have been reported in the literature for the reduction of postoperative oedema and pain, including anti-inflammatory and analgesic drugs, corticosteroid injection, manual lymphatic drainage, cold compression, and low-level laser therapy (LLLT) [8-12].
Kinesio taping (KT), a technique of applying elastic bandages and tapes, was first used by Dr. Kenzo Kase in the 1970s [13]. KT was developed for sports injuries and is believed to support damaged tissues (i.e. muscles and joints), thereby leading to pain relief. KT has also been shown to be an effective method in the management of lymphedema [14-16]. The general idea in KT is that the tapes used in KT lift the skin and thereby improve blood and lymph flow by reducing haemorrhage and congestion of lymphatic fluid. Additionally, after applying KT, the fluids in spaces are encouraged to move from the areas of higher pressure toward the areas of lower pressure in the desired direction of drainage under the guidance of the tape [16,17]. However, although there is a significant accumulation of clinical and practical experience in this approach, there is a limited number of published controlled studies related to KT.
The aim of this clinical study was to evaluate the effects of kinesio taping on postoperative pain and swelling after surgically assisted rapid palatal expansion. We hypothesized that the use of kinesio taping after surgically assisted rapid palatal expansion would reduce postoperative pain and swelling.
MATERIAL AND METHODS
Patients
The randomized double-blind study included 21 (12 male and 9 female) patients who underwent SARPE due to TMD at Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, İzmir Katip Çelebi University, from January 10, 2018 to September 3, 2018. Patients with TMD that cannot be treated only with orthodontic appliances were included in this study. Exclusion criteria were syndromes like craniofacial deformities, patients with systemic disorders, tobacco use and pregnancy. All the patients were treated with tooth-borne expansion devices. After the SARPE procedure, KT was applied unilaterally in each patient, whereby the sides of the face with KT application were included into the (a) KT group and the other sides were included into the (b) non-KT group. Figure 1 presents the flowchart of the research design employed in the study.
Figure 1 |
The study was approved by both the Local Ethics Committee (Clinical Research Ethics Committee of İzmir Katip Çelebi University, Faculty of Medicine) and the Ministry of Health Ethics Committee of Republic of Turkey (E.113101). An informed consent was obtained from each patient prior to the study.
Surgical technique
All the surgeries were performed under general anaesthesia with nasal intubation by the same oral and maxillofacial surgeon (MU). The operations were performed by administering a standardized protocol and the standardized intraoral approaches. A mucoperiosteal incision was made 5 mm over the mucogingival junction, from the maxillary canine to the first molar bilaterally, by using monopolar cautery with a Colorado microdissection needle (Üzümcü, Ankara, Turkey). Maxillary bone cutting was performed 5 - 7 mm over the tooth apex from the lateral nasal wall to the pterygoid plates using a microsaw (NSK, Tochigi, Japan) and osteotomes (KLS Martin, Tuttlingen, Germany) bilaterally. An additional 2 cm long incision was made between the central maxillary incisors from the mucogingival junction to the labial mucosa along the labial frenulum by using a scalpel. Midline bone cutting was performed with piezosurgery (NSK, Tochigi, Japan) and osteotomy was deepened interdentally between the maxillary incisors (Figure 2). After all osteotomies were completed, the hyrax screw was activated with a one-quarter turn for 10 times to check the mobilization of the segments. After ensuring that there was no problem, the transpalatal distractor was turned back and the mucoperiosteal flaps were closed with 4-0 vicryl suture (Dogsan, Trabzon, Turkey). The patients were discharged on the same day and all the patients received the same postoperative medication, including paracetamol 500 mg (Parol; Atabay Pharmaceutical Ltd, Istanbul, Turkey) 2 x 1 for 3 days and 100 mg doxycycline (Monodoks; Deva, Atabay Pharmaceutical Ltd, Istanbul, Turkey) 2 x 1 for 5 days orally (Deva; Istanbul, Turkey) 2 x 1 for 5 days orally. No ice pack application was performed and no intraoperative or postoperative corticosteroids were administered. The postoperative period was uneventful in all the patients.
Figure 2 |
Taping
KT was applied in all the patients by the same surgeon as described in the literature. The skin was cleaned with alcohol and in the male patients, the application area was shaved before the taping procedure. Black-colour Kinesio-Tex Gold® tapes (50 mm x 5 m) (Kinesio Holding Corporation, USA) were used in all the patients. The tapes were divided into 3 equal parts until the base. The undivided end of the tapes was positioned just above the supraclavicular nodes and 3 equal strips were placed on the skin slightly below the level of the zygomatic arch with 20% tension. Lymphatic tapes were directed at the appropriate lymphatic duct crossing the cervical, submental, mandibular, submandibular, preauricular and parotid nodes reaching the zygomatic buttress and the zygomatic arch. After application, the tapes were gently massaged to facilitate activation. The tapes were changed at postoperative day 2 in order to perform a face scan with 3dMD Face System (3dMD, Atlanta, USA) for the assessment of swelling. The tapes were maintained on the face of each patient for a total period of 7 days (Figure 3).
Figure 3 |
Assessment of swelling
Swelling was assessed at three time points: preoperatively (baseline) (T0), at postoperative day 2 (T1) and at postoperative day 7 (T2). The changes in facial volume were evaluated on digital images using the 3dMD Face System and the images were analysed using the 3dMD Vultus software (3dMD, Atlanta, USA) (Figure 4).
Figure 4 |
Assessment of pain
Pain assessment was performed using the visual analog scale (VAS). VAS is tool used for pain assessment involving a 100 mm long horizontal line with verbal descriptors at each end to express the extremes of the feeling and represents all pain sensations from none to maximum, where 0 indicates no pain, 50 moderate pain, and 100 indicates the worst pain possible. Patients were asked to place a mark along the line that corresponded to the severity of the pain they were experiencing. Pain scores were recorded at postoperative days 1, 2, 3, 4, 5, 6 and 7.
Statistical analysis
Data were analysed using IBM SPSS Statistics for Windows version 25.0 (Armonk, NY: IBM Corp). Data were expressed as mean, standard deviation (SD), median, first quartile value, and third quartile value [M (Q1 - Q3)]. Two-way repeated measures analysis of variance (ANOVA) was used to compare the changes in the facial volume at three time points (T0, T1, T2). Bonferroni correction was performed to compare the main effects of the procedure. Mann-Whitney U test was used to compare the variables with nonnormal distribution between two groups. P value of < 0.05 was considered significant.
RESULTS
Twenty-one (12 male and 9 female; age range, 17 - 26 years) patients with transverse maxillary deficiency were included in the present study.
Swelling
Swelling measurements were performed using the 3dMD Face System and the 3dMD Vultus program. A significant difference was found between the changes in the swelling measurements from T0 to T1 and from T0 to T2. Moreover, a significant difference was found between the KT and non-KT groups with regard to these changes (0.001 for all) (Table 1, Figure 5). In the KT group, the difference between the facial volume at T1 and at T0 was 36.42 (19.71) mm3 and the difference between the facial volume at T2 and at T0 was 21.46 (13.39) mm3, both of which were statistically significant (P < 0.001).
Table 1 |
Figure 5 |
In the non-KT group, the difference between the facial volume at T1 and at T0 was 183.84 (49.33) mm3 and the difference between the facial volume at T2 and at T0 was 70.88 (15.73) mm3, both of which were statistically significant (P < 0.001).
Swelling was significantly lower in the KT group compared to the non-KT group from T0 to T1 (36.42 [19.71] mm3 vs. 183.84 [49.33] mm3) and was significantly greater in the non-KT group compared to the KT group from T0 to T2 (70.88 [15.73] mm3 vs. 21.46 [13.39] mm3) (P < 0.001 for both).
Pain
The VAS scores were significantly lower in the KT group compared to the non-KT group at all time points (P < 0.05). Of note, the highest level of significance was revealed for the days 1, 2, 5, and 7 (P = 0.001) (Table 2, Figure 6).
Table 2 |
Figure 6 |
DISCUSSION
Postoperative swelling and pain are common complications occurring secondary to oral and maxillofacial surgery, both of which decrease the quality of life of the patients and affect their daily life activities. For this reason, numerous clinical studies have been conducted to reduce postsurgical discomfort [16-18]. The aim of this study was to evaluate the effects of KT application on swelling and pain after SARPE. The authors hypothesized that the use of KT would decrease the severity of swelling and pain in the early postoperative period and the results indicated that the KT application after SARPE significantly reduced the swelling and pain within the first days after surgery.
SARPE is a distraction indicated in patients with maturation of sutures that have transverse maxillary deficiency. SARPE, which was first described by Bell and Epker [19], is considered to be a reliable procedure with little risk of life-threatening complications. Through a combination of orthodontic and surgical procedures, SARPE allows maximum expansion of the maxilla. In the present study, SARPE was administered as described by Bell and Epker [19] with little modifications and all the surgeries were completed with no complications. Moreover, the desired maxillary expansion was achieved in all the patients in the postoperative period.
Literature reviews indicate that numerous clinical studies have been conducted to reduce postoperative oedema and pain in the maxillofacial area. Semper-Hogg, for instance, reported that the preoperative injection of single-dose dexamethasone reduced postoperative oedema after orthognathic surgery [20]. Similarly, another study showed that the preoperative intramuscular injection of single-dose dexamethasone was an effective method for decreasing pain and swelling after third molar surgery [21]. Cooling of the face is a commonly used procedure to increase patient comfort after maxillofacial surgeries. Rana et al. [22] and Karmi et al. [23] indicated that the cooling of the face was effective in reducing postoperative swelling and pain. On the other hand, laser treatment is also frequently used for the reduction of pain and swelling after surgery. Of note, LLLT has been shown to be a beneficial method for increasing patient satisfaction in the postoperative period [17,18,24,25].
Oedema is a clinical condition basically defined as the accumulation of excessive plasma proteins in the tissue space which occurs when the lymphatic fluid exceeds the capacity of lymphatic system [26]. Manual lymphatic drainage (MLD), a technique first described by Vodder [27], is primarily used for regulating the equilibrium between the lymphatic fluid load and the drainage capacity of the lymphatic system. MLD is mostly applied in cancer patients undergoing surgery and has been recently used for the reduction of postoperative oedema and pain in the maxillofacial area. Ferreira et al. [28] evaluated the effects of MLD after alveolar bone grafting surgery and reported that MLD significantly reduced the pain and swelling in the early postoperative period. Renato et al. [27] investigated the effects of MLD on postoperative facial swelling and pain in patients undergoing bimaxillary orthognathic surgery and revealed that although MLD was effective in decreasing postoperative facial volume measurements, no difference was found between the groups with regard to the pain and swelling perceptions of the patients.
KT has long been used in the prevention and treatment of musculoskeletal pain and injuries [15]. KT has different clinical application areas and has been shown to provide favourable outcomes in patients with low-back pain [29], in pain relief and the improvement of physical functions in patients with knee osteoarthritis [30], in the treatment of carpal tunnel syndrome [31] and in the treatment of functional disorders of masticatory muscles [32]. Although KT is more frequently used in the treatment of sports injuries (i.e. joint and muscle disorders), the use of KT has recently become an alternative method in the management of lymphoedema. The popular hypothesis about KT posits that KT reduces the pain by elevating the skin and facilitating the lymph flow. In KT, the fluids are guided to move from the higher pressure areas towards the lower pressure areas into the created space and are directed by the tape to the preferred direction of drainage [15,16]. KT has been shown to be an effective method for reducing lymphedema in studies evaluating the effects of KT in the reduction of lymphedema in patients with breast cancer [33], mastectomy [34], and total knee arthroplasty [35]. However, although some other studies suggested that KT has no effect on postoperative pain reduction [36-38], Kase et al. [15] claimed that KT can reduce pain by alleviating pressure on nociceptors. In agreement with Kase et al. [15], the present study indicated that the patients in the KT group experienced significantly less pain compared to the patients in the non-KT group. Moreover, the VAS scores indicated moderate pain in both groups (50 ≤ VAS ≤ 60) at postoperative day 1, which gradually decreased over the following days. However, although the KT group had significantly less pain compared to the non-KT group, this finding may be misleading since one side of the same patient’s face was in the KT group while the other side was in the non-KT group and thus the patients might have had difficulty in identifying which side had greater pain due to the reflected pain.
There are very few clinical studies reporting on the use of KT in postoperative management of swelling and pain after maxillofacial surgeries. Ristow et al. [39] investigated the efficacy of KT after wisdom teeth extraction and reported that a significant reduction was achieved in all the postoperative parameters including swelling, pain, and trismus. Tozzi et al. [40] and Danuta et al. [41] evaluated the effects of KT on swelling after orthognathic surgery and both studies indicated that KT is a beneficial method for overcoming postoperative swelling. In two other studies, Ristow et al. [36,37] applied KT after surgical treatment of patients with zygomatico-orbital and mandibular fractures and reported that KT led to decreased swelling and increased patient satisfaction in the early postoperative period although it had no significant effect on pain control and trismus.
To the best of our knowledge, this paper is the first to investigate the effects of KT on postoperative swelling and pain after SARPE. The results of the study indicated that the application of KT after SARPE significantly reduced postoperative swelling and pain. Literature indicates that postoperative swelling reaches its maximum level within 2 - 3 days after surgery [37]. Accordingly, in our study, facial volume measurements were performed at postoperative days 0, 2 and 7 to evaluate oedema. The measurements showed that the increase in the facial volume at day 2 was 4 times greater in the non-KT group than in the KT group. However, at day 7 (the day of appointment for removing the sutures), swelling was significantly lower in the KT group than in the non-KT group. These findings indicate that the application of KT after maxillary osteotomy led to effective outcomes in the reduction of postoperative swelling, which was consistent with the literature [36,37,39-41].
A number of methods have been suggested for the measurement of postoperative changes in facial volume, including verbal response scale, linear measurements (marking reference landmarks on the face), photographic technique, and magnetic resonance imaging [37,42-44]. Craniofacial anthropometry using the 3dMD Face System is a valid and reliable technique [45]. Additionally, Fredrik et al. [46] suggested that the virtual three-dimensional models derived from the 3dMD Face System provide not only a high level of technical precision, but also high intra- and inter-observer reliability regarding landmark identification. In our study, we also used the 3dMD Face System for the measurement of postoperative changes in facial volume to obtain realistic and reliable results.
CONCLUSIONS
The application of kinesio taping after maxillofacial surgery provides lower pain and swelling in the postoperative period. Moreover, kinesio taping is a simple and economical method with no side effects. Kinesio taping can be used as an alternative or additional method to other methods that are used to increase patient comfort in the postoperative period. Further studies are needed to compare the effectiveness of kinesio taping in postsurgical recovery in combination with other methods including laser treatment or steroid therapy.
ACKNOWLEDGMENTS AND DISCLOSURE STATEMENTS
The authors would like to thank Dr. Ferhan Elmal (Department of Biostatistics, Faculty of Medicine, İzmir Katip Çelebi University) for his assistance in statistical analysis. There are no conflicts of interest related to this research. This study was completely financed by the authors.
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To cite this article: Three-Dimensional Evaluation of the Effects of Kinesio Taping on Postoperative Swelling and Pain after Surgically Assisted Rapid Palatal Expansion J Oral Maxillofac Res 2018;9(4):e3 URL: http://www.ejomr.org/JOMR/archives/2018/4/e3/v9n4e3ht.htm |
Received: 3 December 2018 | Accepted: 14 December 2018 | Published: 30 December 2018
Copyright: © The Author(s). Published by JOMR under CC BY-NC-ND 3.0 licence, 2018.