Your search keyword '"Gera I"' showing total 3 results

1. Healing of human intrabony defects following regenerative periodontal therapy with a bovine-derived xenograft and guided tissue regeneration

Author

Sculean, A., Stavropoulos, A., Windisch, P., Keglevich, T., Karring, T., and Gera, I.

Published

2004

2. Histological evaluation of human intrabony periodontal defects treated with an unsintered nanocrystalline hydroxyapatite paste.

Author

Horváth A, Stavropoulos A, Windisch P, Lukács L, Gera I, and Sculean A

Subjects

Absorbable Implants, Adult, Aged, Alveolar Bone Loss pathology, Bone Regeneration physiology, Calcification, Physiologic physiology, Cementogenesis physiology, Chronic Periodontitis surgery, Connective Tissue pathology, Epithelium pathology, Female, Follow-Up Studies, Humans, Male, Middle Aged, Osteogenesis physiology, Periodontal Attachment Loss pathology, Periodontal Attachment Loss surgery, Periodontal Pocket pathology, Periodontal Pocket surgery, Subgingival Curettage methods, Surgical Flaps surgery, Treatment Outcome, Young Adult, Alveolar Bone Loss surgery, Alveolar Process pathology, Bone Substitutes therapeutic use, Durapatite therapeutic use, Guided Tissue Regeneration, Periodontal methods, Nanoparticles therapeutic use

Abstract

Objectives: The aim of the study was to clinically and histologically evaluate the healing of human intrabony defects treated with open flap surgery (OFD) and application of a new, resorbable, fully synthetic, unsintered, nanocrystalline, phase-pure hydroxyapatite (nano-HA)., Materials and Methods: Six patients, each of them displaying very advanced intrabony defects around teeth scheduled for extraction due to advanced chronic periodontitis and further prosthodontic considerations, were included in the study. Following local anaesthesia, mucoperiosteal flaps were reflected; the granulation tissue was removed, and the roots were meticulously debrided by hand and ultrasonic instruments. A notch was placed at the most apical extent of the calculus present on the root surface or at the most apical part of the defect (if no calculus was present) in order to serve as a reference for the histological evaluation. Following defect fill with nano-HA, the flaps were sutured by means of mattress sutures to allow primary intention healing. At 7 months after regenerative surgery, the teeth were extracted together with some of their surrounding soft and hard tissues and processed for histological analysis., Results: The postoperative healing was uneventful in all cases. At 7 months following surgery, mean PPD reduction and mean CAL gain measured 4.0 ± 0.8 and 2.5 ± 0.8 mm, respectively. The histological analysis revealed a healing predominantly characterized by epithelial downgrowth. Limited formation of new cementum with inserting connective tissue fibers and bone regeneration occurred in three out of the six biopsies (i.e. 0-0.86 and 0-1.33 mm, respectively). Complete resorption of the nano-HA was found in four out of the six biopsies. A few remnants of the graft particles (either surrounded by newly formed mineralized tissue or encapsulated in connective tissue) were found in two out of the six biopsies., Conclusion: Within their limits, the present results indicate that nano-HA has limited potential to promote periodontal regeneration in human intrabony defects., Clinical Relevance: The clinical outcomes obtained following surgery with OFD + nano-HA may not reflect true periodontal regeneration.

Published

2013

3. Reconstructive periodontal therapy with simultaneous ridge augmentation. A clinical and histological case series report.

Author

Windisch P, Szendroi-Kiss D, Horváth A, Suba Z, Gera I, and Sculean A

Subjects

Absorbable Implants, Alveolar Ridge Augmentation methods, Bone Regeneration, Bone Substitutes, Collagen, Dental Implantation, Endosseous, Female, Guided Tissue Regeneration, Periodontal methods, Humans, Male, Membranes, Artificial, Middle Aged, Minerals, Observer Variation, Vertical Dimension, Alveolar Bone Loss surgery, Oral Surgical Procedures, Preprosthetic methods, Periodontitis surgery

Abstract

Treatment of intrabony periodontal defects with a combination of a natural bone mineral (NBM) and guided tissue regeneration (GTR) has been shown to promote periodontal regeneration in intrabony defects. In certain clinical situations, the teeth presenting intrabony defects are located at close vicinity of the resorbed alveolar ridge. In these particular cases, it is of clinical interest to simultaneously reconstruct both the intrabony periodontal defect and the resorbed alveolar ridge, thus allowing insertion of endosseous dental implants. The aim of the present study was to present the clinical and histological results obtained with a new surgical technique designed to simultaneously reconstruct the intrabony defect and the adjacently located resorbed alveolar ridge. Eight patients with chronic advanced periodontitis displaying intrabony defects located in the close vicinity of resorbed alveolar ridges were consecutively enrolled in the study. After local anesthesia, mucoperiosteal flaps were raised, the granulation tissue removed, and the roots meticulously scaled and planed. A subepithelial connective tissue graft was harvested from the palate and sutured to the oral flap. The intrabony defect and the adjacent alveolar ridge were filled with a NBM and subsequently covered with a bioresorbable collagen membrane (GTR). At 11-20 months (mean, 13.9+/-3.9 months) after surgery, implants were placed, core biopsies retrieved, and histologically evaluated. Mean pocket depth reduction measured 3.8+/-1.7 mm and mean clinical attachment level gain 4.3+/-2.2 mm, respectively. Reentry revealed in all cases a complete fill of the intrabony component and a mean additional vertical hard tissue gain of 1.8+/-1.8 mm. The histologic evaluation indicated that most NBM particles were surrounded by bone. Mean new bone and mean graft area measured 17.8+/-2.8% and 32.1+/-8.3%, respectively. Within their limits, the present findings indicate that the described surgical approach may be successfully used in certain clinical cases to simultaneously treat intrabony defects and to reconstruct the resorbed alveolar ridge.

Published

2008