Bone replacement grafts with guided tissue regeneration in treatment of grade II furcation defects: a systematic review and meta-analysis

Optimizing natural human-derived decellularized tissue materials for periodontal bone defect repair

Periodontal disease is a major contributor to tooth loss worldwide in adults. Particularly, periodontal bone defect is a common clinical condition, yet current therapeutic strategies exhibit limited effectiveness. Recently, natural bone graft materials have attracted considerable interest for enhancing bone defect repair due to their superior biocompatibility and osteogenic capabilities. Nevertheless, clinically applicable human-derived biomaterials to boost bone regeneration are currently not accessible. Here, enlightened by the decellularization technique, we successfully prepared the human decellularized alveolar bone and tooth dentin tissues from healthy individuals and obtained micro-sized bioactive decellularized extracellular matrix (dECM) particles for treatment of periodontal bone defects. After characterizing the two representative dECM tissues and particles by multiple physiochemical approaches, we revealed that both human decellularized alveolar bone matrix particles (hDABMPs) and human decellularized tooth dentin matrix particles (hDTDMPs) possessed excellent biocompatibility. Furthermore, both biomaterials significantly enhanced the proliferation and osteogenic differentiation of human dental follicle stem cells, potentially contributing to periodontal bone formation. Indeed, in a rat model, both types of dECM microparticles were found to facilitate tissue regeneration at periodontal bone defect sites, demonstrating comparable efficacy for promoting bone defect repair. Collectively, this study provides an important basis for clinical exploration of natural human-derived micro-sized biomaterials for periodontal bone defect repair and opens a new path for periodontal disease treatment strategies.

CALCIUM PHOSPHATE GRAFTS COMBINED WITH GUIDED TISSUE REGENERATION IN THE TREATMENT OF PERIODONTAL BONY DEFECTS- A SYSTEMATIC REVIEW AND META-ANALYSIS

BACKGROUND

The objective of this systematic review is to assess the clinical outcomes of intrabony and furcation defects treated using a regenerative approach with calcium phosphate (CP) grafts combined plus guided tissue regeneration (GTR) membrane in comparison to open flap debridement (OFD).

METHOD

A review protocol was created under PRISMA checklist to find randomized clinical trials (RCTs) in English that compared CPs plus GTR with OFD in humans with intrabony and/or furcation defects. Both electronic and manual searches were conducted. The studied outcomes were probing pocket depth (PD) and clinical attachment level (CAL). To evaluate the treatment effect, a random effects model using restricted maximum likelihood method was performed to estimate the pooled effect size and corresponding 95% confidence interval. The quality assessment of the included studies was performed using Cochrane risk of bias tools version 5.1.0.

RESULTS

Out of the 451 records identified, 7 studies were subjected to meta-analysis after discarding duplicates and excluding the studies that did not meet the inclusion criteria. While treated sites were intrabony defects in 5 papers, 2 studies focused on furcation defects. Based on the findings of the meta-analysis, the weighted mean difference (WMD) of 1.536 mm (95% CI -0.933 to 2.139) and 1.601 mm (95% CI -0.727 to 2.474) was obtained for CAL gain and PD reduction, respectively, in intrabony defects. The differences between CP grafts plus GTR groups and OFD groups for CAL gain and PD reduction were statistically significant. Similarly, for furcation defects, the application of CP grafts with GTR resulted in adjunctive advantages over OFD in terms of CAL gain (WMD of 1.807 mm; 95% CI 0.346-3.268), and PD reduction (WMD of 1.519 mm, 95% CI 1.215-4.253). The analysis on the limited number of study on furcation treatment revealed a statistically significant difference in CAL gain between CP grafts plus GTR groups and OFD groups, but a nonsignificant difference for PD reduction.

CONCLUSION

The results revealed that calcium phosphate grafts combined with GTR are superior to OFD in the healing of periodontal intrabony and furcation defects, considering the limitations of the present systematic review.

Native vs. ribosome-crosslinked collagen membranes for periodontal regeneration: A randomized clinical trial

AIM

To evaluate whether the ribosome-crosslinked collagen membrane (RCCM) is non-inferior to the natural collagen membrane (NCM) used in regeneration surgery in terms of clinical attachment level (CAL) gain at 6 months.

METHODS

Eighty patients diagnosed as generalized periodontitis presenting with isolated infrabony defect (≥4 mm deep) were enrolled and randomized to receive regenerative surgery, either with NCM or RCCM, both combined with deproteinized bovine bone mineral (DBBM). CAL, pocket probing depth (PPD), and gingival recession (GR) were recorded at baseline, 3, and 6 months postoperatively. Periapical radiographs were taken at baseline, immediately, and 6 months after surgery. Early wound healing index (EHI) and patients' responses were recorded at 2 weeks postoperatively.

RESULTS

At 6 months post-surgery, the mean CAL gain was 3.1 ± 1.5 mm in the NCM group and 2.9 ± 1.5 mm in the RCCM group, while the mean PPD was 4.3 ± 1.1 mm in the NCM group and 4.2 ± 1.0 mm in the RCCM group. Both groups demonstrated a statistically significant improvement from the baseline (p < .01). RCCM was non-inferior to NCM concerning the primary outcome (CAL gain at 6 months). The GR at 6 months postoperatively was 1.3 ± 1.2 and 1.2 ± 1.1 mm, which showed no difference compared with baseline. At 6 months follow-up, the radiographic linear bone fill (RLBF) was 6.5 ± 2.8 and 5.5 ± 2.6 mm (p > .05), while the bone fill percentage (BF%) was 102.3 ± 53.5% and 92.3 ± 40.1% (p > .05), in the NCM and RCCM groups, respectively. There was no significant difference in EHI and postoperative responses between two groups.

CONCLUSION

RCCM + DBBM resulted in no-inferior clinical and radiographic outcomes to NCM + DBBM for the treatment of isolated infrabony defect in 6 months.

Porcine-derived soft block bone substitutes for the treatment of severe class II furcation-involved mandibular molars: a prospective controlled follow-up study

PURPOSE

No evidence exists regarding the advantages of periodontal regeneration treatment for furcation defects using soft block bone substitutes. Therefore, this randomized controlled trial aimed to assess the clinical and radiographic outcomes of regenerative therapy using porcine-derived soft block bone substitutes (DPBM-C, test group) compared with porcine-derived particulate bone substitutes (DPBM, control group) for the treatment of severe class II furcation defects in the mandibular molar regions.

METHODS

Thirty-five enrolled patients (test group, n=17; control group, n=18) were available for a 12-month follow-up assessment. Clinical (probing pocket depth [PPD] and clinical attachment level [CAL]) and radiographic (vertical furcation defect; VFD) parameters were evaluated at baseline and 6 and 12 months after regenerative treatment. Early postoperative discomfort (severity and duration of pain and swelling) and wound healing outcomes (dehiscence, suppuration, abscess formation, and swelling) were also assessed 2 weeks after surgery.

RESULTS

For both treatment modalities, significant improvements in PPD, CAL, and VFD were found in the test group (PPD reduction of 4.1±3.0 mm, CAL gain of 4.4±2.9 mm, and VFD reduction of 4.1±2.5 mm) and control group (PPD reduction of 2.7±2.0 mm, CAL gain of 2.0±2.8 mm, and VFD reduction of 2.4±2.5 mm) 12 months after the regenerative treatment of furcation defects (P<0.05). However, no statistically significant differences were found in any of the measured clinical and radiographic parameters, and no significant differences were observed in any early postoperative discomfort and wound healing outcomes between the 2 groups.

CONCLUSIONS

Similar to DPBM, DPBM-C showed favorable clinical and radiographic outcomes for periodontal regeneration of severe class II furcation defects in a 12-month follow-up period.

TRIAL REGISTRATION

Clinical Research Information Service Identifier: KCT0007305.

Bacterial cellulose-based composites as vehicles for dermal and transdermal drug delivery: A review

In recent years, a significant amount of drugs have been taken orally, which are not as effective as desired. To solve this problem, bacterial cellulose-based dermal/transdermal drug delivery systems (BC-DDSs) with unique properties such as cell compatibility, hemocompatibility, tunable mechanical properties, and the ability to encapsulate various therapeutic agents with the controlled release have been introduced. A BC-dermal/transdermal DDS reduces first-pass metabolism and systematic side effects while improving patient compliance and dosage effectiveness by controlling drug release through the skin. The barrier function of the skin, especially the stratum corneum, can interfere with drug delivery. Few drugs can pass through the skin to reach effective concentrations in the blood to treat diseases. Due to their unique physicochemical properties and high potential to reduce immunogenicity and improve bioavailability, BC-dermal/transdermal DDSs are widely used to deliver various types of drugs for disease treatment. In this review, we describe the different types of BC-dermal/ transdermal DDSs, along with a critical discussion of the advantages and disadvantages of these systems. After the general presentation, the review is focused on recent advances in the preparation and applications of BC-based dermal/transdermal DDSs in various types of disease treatment.

Periodontal bone regeneration with a degradable thermoplastic HA/PLCL bone graft

Strategic bone grafts are required to regenerate periodontal bone defects owing to limited self-healing. Current bioceramic particle or deproteinized bovine bone (DBB) products are not able to ideally meet clinical requirements, such as insufficient operability and slow degradation rates. Herein, a strong-interacted bone graft was designed and synthesized by modifying hydroxyapatite (HA) with a lactide-caprolactone copolymer (PLCL) to improve component homogeneity and mechanical properties. The physical-chemical analysis indicated that HA particles were homogenously distributed in HA/PLCL bone grafts, possessed outstanding thermoplasticity, and facilitated clinic operability and initial mechanical support. The in vitro study suggested that HA/PLCL bone graft degraded in a spatiotemporal model. Micropores were formed on the non-porous surface at the beginning, and interconnected porous structures were gradually generated. Furthermore, HA/PLCL bone grafts exhibited excellent biocompatibility and osteogenic ability as revealed in vitro cell culture and in vivo animal experiments. When applied to rat periodontal bone defects, the HA/PLCL bone graft showed a non-inferior bone regeneration compared to the commercial DBB. This study proposes a potential bone graft for periodontal bone repair with thermoplastic, spatiotemporal degraded, and osteogenic characteristics.

Efficacy of bone graft as monotherapy and in combination with platelet concentrates in grade II furcation defect - A systematic review and meta-analysis

Background

The use of autologous platelet concentrates (PC) in addition to bone graft (BG) in open flap debridement (OFD) has been investigated to improve the efficacy and outcomes of regenerative therapy for furcation defects. This systematic review evaluated efficacy of added benefits of PC to bone grafts in treatment of grade II furcation defects.

Methods

A thorough literature search on PubMed, Cochrane Library and Google Scholar databases was conducted. Data on outcomes were extracted only from randomized controlled clinical trials on humans with a minimum follow up of 6 months comparing BG alone and BG + PC in treatment of mandibular grade II furcation defect.

Results

36 of the 518 screened articles and abstracts were read in full-text, nine of which have been included in the meta-analysis. The addition of PC to BG has resulted in improvement in PD, GR (with smaller effect); V-DBD and H-DBD showed smaller change in experimental group whereas VCAL and HCAL exhibited overall larger changes with smaller effect.

Conclusion

Bone regeneration in terms of defect fill with the addition of platelet concentrates to bone graft remains debatable considering the minimal benefits in the treatment of grade II mandibular furcation defect.

Overview of the Effect of Different Regenerative Materials in Class II Furcation Defects in Periodontal Patients

The aim of this review was to give an overview of the outcomes of the use of different regenerative materials to treat molars with class II furcation defects in patients with periodontitis in comparison with open flap debridement (OFD). A search of five databases (PubMed-Medline, Embase, Cochrane, Scopus and Web of Science) was conducted up to and including January 2022. According to the PICOS guidelines, only randomized control trials (S) considering periodontal patients with at least one molar with a class II furcation involvement (P) treated with regenerative materials (I) in comparison to OFD as control treatment (C) and a minimum follow-up period of 6 months were included. Vertical clinical attachment level (VCAL) was considered as the primary outcome (O), while horizontal clinical attachment level (HCAL), horizontal probing depth (HPD) and vertical probing depth (VPD) were considered as secondary outcomes. The search through the databases initially identified 1315 articles. Only 25 of them met the eligibility criteria and were included. The studies were grouped in four macro-categories according to the material used: absorbable and non-absorbable membranes, blood derivatives and a combination of different materials. The greater part of the included studies reported a statistically significant difference in using regenerative materials when compared to OFD. The blood derivatives groups reported a range of mean changes in VCAL of 0.86-4.6 mm, absorbable membrane groups reported -0.6-3.75 mm, non-absorbable membranes groups reported -2.47-4.1 mm, multiple materials groups reported -1.5-4.87 mm and enamel matrix derivatives reported a mean change in VCAL of 1.45 mm. OFD showed a range of mean VCAL changes of -1.86-2.81 mm. Although no statistical analysis was performed, the use of regenerative materials may be considered moderately beneficial in the treatment of molars with grade II furcation involvement. However, the substantial heterogeneity in the protocols' design does not allow us to draw definitive conclusions. In addition, low levels of evidence for morbidity and patient-centered outcomes were reported.

The added benefit of L-PRF to autogenous bone grafts in the treatment of degree II furcation involvement in mandibular molars

BACKGROUND

Tissue regeneration within the periodontally involved furcation area is one of the most challenging aspects of periodontal surgery. The aim of this study was to evaluate the additional benefit of leukocyte and platelet-rich fibrin (L-PRF) to autogenous bone grafts (ABGs) in the treatment of mandibular molar degree II furcation involvement, comparing the clinical outcomes with those from open flap debridement (OFD)+ABG and OFD alone treatments.

METHODS

Fifty-four patients, exhibiting one buccal or lingual mandibular molar furcation defect, were randomly assigned to three treatment groups: OFD+ABG+L-PRF(n = 18); OFD+ABG (n = 18); and OFD (n = 18). Clinical [probing pocket depth (PPD), horizontal clinical attachment level (HCAL), vertical clinical attachment level (VCAL), gingival recession (GR)] and radiographic [vertical bone level (VBL)] parameters were evaluated at baseline and 6 months after treatment. HCAL change was the primary outcome.

RESULTS

No significant differences within each group were reported for GR changes, but statistically significant improvements in HCAL, VCAL, PPD and VBL were observed in all groups, except for VBL in the OFD group. At 6 months, the mean HCAL gain was 2.29±0.18 mm in the OFD+ABG+L-PRF group, which was significantly greater than that in the OFD+ABG (1.61±0.18 mm) and OFD (0.86±0.18 mm) groups. Both OFD+ABG+L-PRF and OFD+ABG therapies produced a significantly greater clinical and radiographic improvement than OFD.

CONCLUSION

The addition of L-PRF to ABG produces a significantly greater HCAL gain and PPD reduction as compared to OFD+ABG treatment in mandibular degree II furcation involvements. This article is protected by copyright. All rights reserved.

Recent progress in materials development and biological properties of GTR membranes for periodontal regeneration

Chronic periodontal is a very common infection that instigates the destruction of oral tissue, and for its treatment, it is necessary to minimize the infection and the defects regeneration. Periodontium consists of four types of tissues: (a) cementum, (b) periodontal ligament, (c) gingiva, and 4) alveolar bone. In separated cavities, regenerative process also allows various cell proliferations. Guided tissue regeneration (GTR) is a potential procedure that favors periodontal regrowth; however, some limitations (such as ineffective hemostatic property, poor mechanical property, and improper biodegradation) are also associated with it. This review mainly emphasizes on the following areas: (a) a summarized overview of the periodontium and its immunological situations, (b) recently utilized treatments for regeneration of distinctive periodontal tissues; (c) an overview of GTR membranes available commercially, and the latest developments on the characterization and processing of GTR membrane material; and 4) the function of the different non-polymeric/polymeric materials, which are acting as drug carriers, antibacterial agents, nanoparticles, and periodontal barrier membranes to prevent periodontal inflammation and to improve the strength of the GTR membrane.

Clinico-radiographic comparative evaluation of 1% metformin gel plus platelet-rich fibrin over platelet-rich fibrin alone in treatment of Grade II furcation defects: A randomized controlled double-blind clinical trial

BACKGROUND

The present study was aimed to evaluate and compare the effects of 1% MF plus PRF over PRF alone in treatment of Grade II furcation defects, clinically and radiographically by using cone-beam computed tomography.

METHODS

This split-mouth clinical trial randomly allotted 21 patients with 42 bilateral Grade II furcation defects into two groups. Group I was treated with PRF alone while Group II with 1% MF gel and PRF. The primary outcome parameters were clinical attachment level (CAL) and horizontal probing depth (HPD) while the secondary outcome parameters were probing depth (PD) and defect volume (DV). The clinical parameters were evaluated at 3, 6, and 12 months and the radiographic parameters at 12 months.

RESULTS

Both the study groups yielded improvements in assessed parameters; however, significantly greater mean reduction of PD, HPD, and CAL gain was observed in Group II (3.90 ± 0.78 mm, 2.94 ± 0.80 mm, and 3.42 ± 0.93 mm) in comparison with Group I (3.23 ± 0.90 mm, 1.96 ± 0.80 mm, and 2.67 ± 0.88 mm) at 12 months, respectively. A significant reduction of DV was exhibited radiographically in Group II (12.61 ± 4.01 mm³ ) as compared with Group I (9.14 ± 4.31 mm³ ) at the end of 12 months.

CONCLUSIONS

Better clinical and radiographic findings in terms of reduction in PD, HPD, CAL gain, and significant reduction in DV in Group II patients indicated that the combination therapy of 1% MF + PRF promotes regenerative ability within the periodontal tissues in Grade II furcation defects to a greater extent.