The Importance Of Preserving The Peri-implant Soft Tissue Barrier

09-02-2018

The On1 concept is designed to support implant success by maintaining the soft tissue/implant interface. Dr. France Lambert discusses the soft tissue barrier and how the On1 concept may minimise peri-implant complications.

In healthy teeth, periodontal soft tissue functions to stabilise teeth and provides a biological barrier between the oral cavity and the inside of the body. This dimension of soft tissue also exists around implants and has an important role in peri-implant soft tissue health. However, the soft tissue at the peri-implant interface exhibits anatomical features that differ from the soft tissue around natural teeth. If not maintained properly, the peri-implant mucosal barrier could fail and ultimately contribute to implant complications or peri-implant disease.

In this article, the characteristics and importance of the peri-implant soft tissue barrier will be discussed and recommendations for preserving the biological width will be proposed. Additionally, we introduce a soft-tissue-friendly clinical protocol using innovative implant components designed to maintain the peri-implant mucosal barrier.

 

Peri-implant soft tissue interface

In addition to osseointegration, the peri-implant soft tissue interface plays an important role in the long-term success of implant-supported restorations.1 To understand the extent to which the soft tissue barrier affects implant health, we must first understand the anatomy of the peri-implant soft tissue interface and how it functions.

Figure 1. Comparison of periodontium and peri-implant soft tissue characteristics. (a) Sharpey’s fibers attach to the cementum of natural teeth and are oriented perpendicular to the tooth surface. (b) Peri-implant connective tissue is primarily oriented parallel or circumferentially to the abutment surface. (c) Scanning electronic micrograph (SEM) images show the strong attachment between Sharpey’s fibers and cementum in natural teeth. (d) SEM image showing parallel orientation of collagen fibers around a titanium abutment (SEM images © Schüpbach Ltd). 

The mucosal barrier (biological width) around natural teeth and implant components is composed of a sulcus, a junctional epithelium and a connective interface. The epithelial portion adheres similarly to tooth cementum and implant components through various adhesive proteins. However, the connective interfaces of natural teeth and implants are very different.

Connective tissue on natural teeth anchor to the cementum using perpendicular collagen fibers called Sharpey’s fibers (Figure 1a, c).2,3 These fibers ensure a tight seal between the soft tissue and tooth, and contribute mechanically to strengthen the barrier from bacterial infiltration or other foreign body penetration. Conversely, collagen fibers adhere parallel or circumferentially on the transgingival region of abutment surfaces (Figure 1b, d), resulting in a weaker connective interface.2-4 The modest adhesion of peri-implant fibers cannot withstand mechanical forces as efficiently as the strong attachment of Sharpey’s fibers of natural teeth.1,5

Moreover, in natural teeth, the blood supply to periodontal tissue is provided by the periodontal ligament, periosteum, and connective tissue. Dental implants do not benefit from the periodontal ligament vasculature and, therefore, the surrounding tissue has a limited blood supply compared to natural teeth.1,5 Additionally, the surgical trauma of implant placement causes fibrotic tissue to form at the implant-abutment complex, which further limits vascularization to adjacent soft tissue.1,6 This reduced vascularisation can affect the defense of the peri-implant soft tissue against bacterial infiltration.1

To aid in the prevention of peri-implant disease, this fragile peri-implant soft tissue barrier must be carefully maintained through good oral hygiene and proper soft tissue handling using soft-tissue-friendly prosthodontics.

While there are many factors that contribute to the success or failure of implant-supported restorations, the quality and the quantity of existing or augmented peri-implant mucosa has a critical role to play. In addition to the features discussed above, scientific consensus supports soft tissue site development (tissue grafting) to improve implant outcomes. Especially when the initial soft tissue vertical thickness is less than 2 mm and when the keratinised oral epithelia is limited.7,8

Prosthodontic considerations for soft tissue management

Figure 2. A typical clinical case of removing an abutment and a temporary screw-retained crown. The transgingival area of the abutment was made of titanium. Disconnection occurred nine months after placement. (a) Disconnection creates a bleeding wound and exposed connective tissue. (b) Disconnection ruptured the epithelial cells adhering the abutment and connective tissue. 

When using a two-stage procedure with bone-level implants, disconnecting the healing abutment can rupture the adherent epithelial and connective tissue from underlying tissue (Figure 2). The resulting wound exposes the connective tissue (Figure 2a). Repeated abutment disconnection on bone-level implants could harm the mucosal barrier and lead to an apical migration of the biological width and consequently early peri-implant bone loss.9,10Abrahamsson et al. originally described this observation in a canine study using a platform-matched connection.10 Similar results were seen for implants with platform-shifting and internal connection but to a lesser extent.11,12 Therefore, the number of abutment disconnections should be minimised to prevent damage to the mucosal barrier and peri-implant bone resorption.

Clinical recommendations and the On1 concept as a solution

Figure 3. Comparison of a traditional prosthodontic procedure (left, a) with the On1 concept (right, b). (a) The typical prosthodontic procedure for a bone-level implant involves disconnecting the abutment. Each abutment exchange disturbs mucosa (upward arrow), which can contribute to early peri-implant bone loss. (b) By contrast, the base of the On1 abutment is installed at implant placement and is never removed. This fixed base allows the soft tissue to properly establish and maintain biological width during the treatment process. 

According to available data, it would be beneficial to minimise disruption of the soft tissue after implant placement. Unfortunately, with conventional bone-level implants, the soft tissue can be disrupted at numerous points during treatment, such as healing cap removal, impression coping, and definitive prosthesis delivery (Figure 3a). For this reason, the soft-tissue-friendly final abutment at time of implant placement approach was developed. With this method, the final abutment is installed at implant placement and left undisturbed throughout the treatment process.9,13-15

Figure 4. The On1 concept. (a) Placement of a bone-level conical connection implant using a flapless approach. (b) Placement of an On1 abutment at the time of surgery. (c) In contrast to typical healing abutments, the On1 concept’s raised prosthetic interface of the two-piece abutment leaves the soft tissue undisturbed from implant placement onward. 

Based on these principles of peri-implant soft tissue preservation, Nobel Biocare developed the On1 concept. The On1 concept has a two-piece abutment with a multi-compatible base that is fixed at implant placement (Figure 3b). The top of the base sits at tissue level, allowing the exchange of abutments and caps without disturbing peri-implant soft tissue interface(Figure 4).

The base design incorporates platform shifting and a conical connection to enhance soft tissue organisation and to maintain torque throughout abutment exchanges. To provide maximum flexibility the On1 concept is compatible with several bone-level implants. The base has a transgingival design that is available in two heights to accommodate different soft tissue thicknesses. The system includes healing caps and impression copings, temporary and final abutments, which offers full flexibility in terms of prosthetic procedures. These features incorporate the benefits of both tissue- and bone-level implants into one system.

Conclusion

Peri-implant soft tissue maintenance is important for long-term health of tissues surrounding implants and restorations. Both clinicians and manufacturers should be conscious of the anatomical and prosthodontic factors that affect the peri-implant soft tissue interface and ultimately the success of the implant. Eliminating the need to disrupt the peri-implant soft tissue interface through multiple disconnections of the abutment from the bone-level implant could also minimize undue risk to implant health.

The use of a two-piece abutment with a fixed base, such as that of the On1 base, when coupled with a bone-level conical connection implant and platform shifting, addresses many of these considerations compared to conventional one-piece abutments. This concept promotes an undisturbed peri-implant soft tissue interface while retaining prosthodontic flexibility and ease of use. 

Dr. Lambert is a Head of Clinic, Department of Periodontology and Dental Surgery and Associate Professor, Dental Biomaterial Research Unit, University of Liège and Former President of the Belgian Society of Periodontology.

Some products may not be regulatory cleared/released for sale in all markets. Please contact the local Nobel Biocare sales office for current product assortment and availability.

For References please see original text in the website.