INTRODUCTION
Periodontal plastic surgery is defined as a surgical procedure to prevent, correct, or eliminate developmental/traumatic deformities of the gingiva and alveolar mucosa. Among its objectives are to recover the morphology, position and dimension of the periodontal tissues that surround the tooth or the dental implant1.
One of the most common indications for periodontal plastic surgery is the treatment of gingival recession1. Gingival recession has been defined as the displacement of the marginal gingiva towards the apical zone of the amelocemental junction, leading to exposure of the root surface2. Its etiology comprises a series of factors, such as poor attached gingiva, poor dental position, crowding, root prominence, bone dehiscence, high insertion of braces that facilitate traction to the apical margin of the gingiva during movements, inflammation, traumatic toothbrushing, gingival laceration, inadequate design of removable prosthesis, and uncontrolled orthodontic tooth movements1.
The indications for root coverage surgery include the presence of aesthetic problems, hypersensitivity, susceptibility to root caries, lack of attached gingiva and cervical abrasion3.
Multiple surgical modalities have been proposed to aesthetic esthetic and functional root coverage. Of these, the subepithelial connective tissue graft stands out, for it has been shown to be highly successful and predictable, due to its dual source of nutrition2,4. One of the techniques used in combination with the subepithelial connective graft is the envelope technique, showing recession coverage results close to 80%, of which 42% obtain complete coverage5. In particular, it has been shown that in Miller’s class I and II recessions treated with the envelope technique and subepithelial connective tissue grafts, a coverage of 88.7% and an increase in keratinized gingiva of 2,14 mm. has been achieved 12 months after surgery6.
Some studies indicate that root coverage surgeries using connective tissue grafts can be time-consuming, have a high learning curve, and present a high number of trans- and postoperative complications, especially when performed by inexperienced clinicians7.
Regarding synthesis, sutures have long been shown to provide adequate wound closure with a minimal rate of dehiscence. However, their use in root coverage has some disadvantages. The biggest disadvantage being an increase in the surgical time, it also traumatizes tissues, affecting vascularization and increasing the risk of tearing of the flap8. Additionally, depending on the material, it can pinch and cause discomfort to patients or favor the accumulation of plaque, increasing susceptibility to infection9.
An alternative to sutures are tissue adhesives, which are biocompatible agents that, when applied to skin or mucosa, establish a resistance to wound dehiscence through attractive forces between the tissue and adhesive molecules. Among the desirable characteristics of tissue adhesives is the capacity to hold tissues in place for as long as necessary for natural healing to occur. They should be manually removed once healing has taken place, lest a foreign body reaction is triggered, hindering wound healing10.
Cyanoacrylates correspond to a group of low-cost cyanoacrylic acid esters used in general and pediatric surgery. This adhesive has biocompatible, biodegradable, hemostatic properties, and a long half-life, making it an ideal adhesive agent for the oral environment10.
Cyanoacrylates interact with tissues in a stable way over time (about 7 to 10 days). In addition, they polymerize in contact with skin and especially with mucosa, since this process is accelerated by moisture, forming very strong bonds. This polymerization binds tissues, acting as a sealant and preventing bleeding and the accumulation of food or bacteria in the wound8. These adhesives can be found in liquid or strip form, the former being most frequently used in the medical and dental practice10.
The main disadvantage of cyanoacrylates is their low capacity to correct the position of the tissue once the adhesive has been applied. Thus, extreme care is required when placing the tissues prior to sealing10.
To the best of the authors knowledge there are no studies on the use of dental cyanoacrylate to stabilize the flap and connective tissue in root coverage surgeries. Hence, we present an unprecedented case series on the use of cyanoacrylate as an alternative to sutures for this purpose.
CASE REPORT
Case 1
A 43-year-old male, ASA I, patient sought treatment for gingival retraction and hypersensitivity in tooth 24. At clinical examination, a gingival recession type (RT) 1 (according to Cairo`s classification system8), 2 mm. in length, was diagnosed (Fig. 1). Probing depth (PD) and clinical attachment level (CAL) were 1 mm. and 4 mm., respectively (Table 1). The characteristics of the gingival margin, gingival thickness and dental morphology were compatible with a thick biotype. Scaling and hygiene instructions were performed one week before surgery. The patient was informed of the risks and benefits and signed an informed consent.
The root coverage procedure was performed using an envelope technique5, aiming to fully cover the exposed root area, reestablishing the natural gingival contour and treating the hypersensitivity.
The procedure was performed under local anesthesia. Both donor and recipient sites were anesthetized using 2% lidocaine with epinephrine 1: 100.000 (Lignospan, Septodont. France). The root scaling of the exposed surface was performed with a Gracey curette No. 5/6 (American Eagle, Missoula, USA). A partial thickness incision was done in to the sulcus of the tooth 2.4 with a microsurgical blade No. 69 (Swann-Morton Ltd., Sheffield, England). The preparation of the envelope (recipient site) was carried out using instruments specific for this purpose (TKN 1) (Medesy, Maniago, Italy).
A connective tissue graft was harvested from the palate making a 1.5 cm. incision with a 15c scalpel blade (Swann-Morton Ltd. Sheffield, England). Next, the graft was de-epithelized. Adipose tissue remnants were removed using Le Grange scissors (Medesy, Maniago, Italy). The wound area in the palate was then covered with a dental cyanoacrylate (PeriAcryl®90 HV, GluStitch Inc., Vancouver, Canada).
The connective tissue graft was inserted in the recipient bed, leaving 2 mm. exposed (final position); the surgical wound was washed with saline solution and dried with gauze. Finally, 2 layers of tissue adhesive (PeriAcryl®90 HV, GluStitch Inc., Vancouver, Canada) were applied on the surface of the tissues using a rubbing technique, until a compact and stable structure was achieved (3 layers of adhesive) (Fig. 2). The whole procedure took 20 minutes.
For post-operative care, the patient was instructed to keep a soft diet for 7 days, drink plenty of liquids, and not brush the operated areas for 4 weeks. Follow-up consultations took place at 7, 14, 60, 180 days, and 5 years post-surgery. At 14 days, the tissue adhesive was loose and the dentist removed it. If the product accidentally be swallowed, no side-effects are expected, according to the manufacturer. At 60 days, complete coverage of the recession was achieved. At 5 years, the gingival margins were stable, as clinically assessed (Fig. 3). The PD and CAL were both of 1 mm. (Table 1)
Case 2
A 51-year-old female, ASA I, patient sought treatment for receding gums in teeth 1.3 and 1.2. At clinical examination, two recessions RT1 were diagnosed: one in tooth 1.3 with 2 mm. in length, and another one in tooth 1.2 with 1mm. (Fig. 4). In tooth 1.3, the PD and CAL were 1mm. and 3 mm., respectively, while in tooth 1.2 PD and CAL were 1mm. and 2 mm. (Table 1). The characteristics of the gingival margin, thickness of the gingiva and dental morphology and transparency of the probe were compatible with a thin biotype. The surgical protocol and postoperative recommendations described above for patient 1 were followed for this patient as well (Fig.5). The aim of the surgery was to increase the gingival thickness, thus developing a thick phenotype, in order to achieve complete coverage of the recession. The patient was informed of the risks and benefits and signed an informed consent.
This time, the procedure took 23 minutes. At 14 days, the tissue adhesive detached on its own. At 60 days, complete coverage of the recession was achieved. At 5 years, the gingival margins were stable. In tooth 1.3, the PD and CAL were 1mm. and 1mm., respectively, while in tooth 1.2 PD and CAL were both 1mm. (Table 1), values that remained stable over 5 years (Fig.6).
DISCUSSION
Covering exposed root surfaces has become an integral part of periodontal surgical practice, due to an increased demand for these treatments11,12. The treatment of gingival recessions can be carried out following different surgical techniques and the available scientific evidence shows that connective tissue grafting presents the best results in terms of amount of attached gingiva formed and percentage of root coverage13.
Subepithelial connective tissue grafts are the standard when facing a gingival recession, especially if greater root coverage is needed, as it provides a good aesthetic result. It also significantly reduces the chance of graft avascular necrosis, since the receiving area receives a double vascular supply13,14.
Wound closure is critical for a successful surgery. Suboptimal suturing or postoperative care by the patient may lead to complications, like graft loss6.
In this report, the envelope technique5 was used as a basis for the surgical procedure; a coronal advancement flap was not performed, but 1 to 2mm. of connective tissue was left exposed. A systematic review with an 18-month follow-up compared connective grafts completely covered through coronal advancement flap versus partial exposure, and concluded that there was no difference in probing depth, clinical attachment level, or in the healing processes between these two techniques11. Additionally, a systematic review indicates that it is possible to expose connective tissue up to 2.8 ± 1.1mm.11. Exposed connective tissue has shown a significant increase in attached gingiva, tissue thickness, and a decrease in recurrence of the gingival recession11. Accordingly, in this case series both patient treatments presented stable results 5 years after surgery.
Regarding procedure duration, we observed a mean of 21 minutes. A study by Zuchelli et al. indicates an average chair time in root coverage surgeries of about 40 minutes15. Given the authors are highly skilled periodontist, we speculate that a time-consuming suturing process might be why it took them considerably longer. When cyanoacrylates are used, the application time is around 30 seconds.
Reports indicate that this type of surgical technique has a high learning curve, as evidenced by a high percentage of graft loss by inexperienced clinicians. They are also time-consuming and prone to complications, such as pain, bleeding and suture dehiscence, which often leads to surgical failure7,13. Some of these issues could be solved using tissue adhesives.
Tissue adhesives also create a strong adherence surface, stabilizing the graft without perforating the flap and thus ensuring a better blood supply. Moreover, they work as a protective layer, preventing food from entering the wound or the connective tissue graft from detaching, making surgical procedures more predictable10.
CONCLUSION
In the presented cases, adequate stabilization of the flap and connective tissue graft was achieved using dental cyanoacrylate, reducing surgical time and showing stable results after 5 years of follow-up. In an unprecedented manner we provide preliminary evidence of the efficacy of cyanoacrylate-based tissue adhesive for root coverage. As a next step, cohort studies with a larger sample size and a control group should follow.