No abstract available.
Glass*

This retrospective study evaluates the clinical performance of the recently introduced XiVE(R) implant(Dentsply-Friadent) with a new macro-design to improve primary stability. A total of 208 XiVE(R) implants (101 in the maxilla and 107 in the mandible) were placed in 71 patients. The average age of the patients was 49 years. Of the 208 implants, 190 (91.3%) were posterior implants and 82 (39.4%) were placed in compromised sites (grafted sites). Clinical and radiographic evaluation were made at second stage surgery for exposure and after functional loading. 192 implants in 64 patients were evaluated at exposure and 146 implants in 50 patients were loaded (average 170 days-loading) and evaluated after functional loading. Of 192 implants available for evaluation before loading, 3 implants failed (early failure) ; 1 before exposure, 1 at exposure and 1 during prosthetic procedure. 2 implants were in the maxilla and 1 was in the mandible. The success rate before loading was 98.4%. After functional loading, no implant failure was occurred in 146 implants evaluated during this period (100% interval success rate). This preliminary data with a new implant showed excellent success rate although the majority of implants evaluated in this study were placed in the posterior region of the jaw and compromised sites.
Humans ; Jaw ; Mandible ; Maxilla ; Retrospective Studies*

Bovine bone-derived bone substitutes are widely used for treatment of bone defects in dental and orthopedic regenerative surgery. The purpose of this study was to evaluate the basic characteristics of deproteinized bovine bone mineral as a bone graft substitute. Commercially available products from three different bovine bone minerals-Bio-Oss(Geistlich-Pharma, Switzerland), BBP(Oscotec, Korea), Osteograf/N-300(Dentsply Friadent Ceramed, USA) - were investigated. They were evaluated by scanning electron microscopy(SEM), energy dispersive X-ray spectrometer(EDS), surface area analysis(BET), and Kjeldahl protein analysis. Cell viability on different products was evaluated by 3-(4, 5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium bromide(MTT) assay. The results of this study indicated that each bone substitute displayed distinct surface properties. Furthermore, Kjeldahl protein analysis indicated that residual crude proteins are present in deproteinized bovine bone mineral. BBP showed relatively large amount of residual protein, which indicated that the possibility of disease transmission can not be safely ruled out. Based on the results of this study, it is suggested that active quality management is strongly needed in operations that involve processing bovine bone tissue for medical use.
Bone and Bones ; Bone Substitutes* ; Cell Survival ; Orthopedics ; Surface Properties ; Transplants*

This study investigated the effect of epigallocatechin-3-gallate (EGCG)-loaded microporous β-tricalcium phosphate (β-TCP) bone substitute in the bone healing of rabbit calvarial defects. New bone formation induced by β-TCP incorporating two different dose of EGCG [1 mg EGCG/200 mg β-TCP (TCP-1), 10 mg EGCG/200 mg β-TCP (TCP-10)] was compared with unloaded β-TCP (TCP-0). Calvarial defects 8 mm diameter created in 14 adult male New Zealand White rabbits were filled with three types of bone substitutes. The amount of newly formed bone was evaluated histomorphometrically at 4 and 8 weeks after implantation. The TCP-1 group exhibited increased bone healing capacity and numerous blood vessel formation compared with the other two groups. New bone formation was observed in the cental area of TCP-1 filled defects at 8 weeks. Histomorphometric analysis revealed significantly greater newly formed bone area in the TCP-1 group when compared with unloaded TCP-0 (p < 0.05 at 4 and 8 weeks) and 10 mg EGCG-loaded TCP-10 groups (p < 0.05 at 8 weeks). No difference was observed in new bone area between TCP-0 and TCP-10 groups. These results suggest that local delivery of 1 mg EGCG to β-TCP bone substitute by simple adsorption promotes bone regeneration in the healing of rabbit calvarial osseous defect and higher EGCG dose (in this study, 10 mg per defect) does not exert any positive effect on bone healing capacity of β-TCP. Thus, local delivery of EGCG to β-TCP bone substitute seems to be an effective approach for the treatment of osseous defects.
Adsorption ; Adult ; Blood Vessels ; Bone Regeneration ; Bone Substitutes ; Humans ; Male ; Osteogenesis ; Rabbits

Background: Endoscopic forehead lifting is one of the most common procedures in the field of upper facial surgery. The upper third of the face determines the facial expression and plays a key role in the appearance of facial youth. After the forehead, a high hairline is one of the most important features of the upper third of the face contributing to age identification. The combined evaluation of these two features should be a basic premise of upper facial surgery. Methods: The authors present a surgical sequence in which endoscopic forehead lifting and lowering of the high hairline by means of a scalp flap advancement are carried out during the same operation. The incision line is located along the hairline. After the scalp and forehead flap are moved, they are fixed using the bone tunnel fixation method. Results: In total, 194 patients were treated with endoscopic forehead lifting and simultaneous hairline lowering between August 2018 and July 2020. On average, the patients’ hairlines were 18 mm lower and their eyebrows were 5 mm higher. No patients had serious complications. Conclusions Endoscopic forehead lifting and simultaneous hairline lowering surgery make it possible to address the entire upper third of the face in a single facial rejuvenation operation.

Background: Endoscopic forehead lifting is one of the most common procedures in the field of upper facial surgery. The upper third of the face determines the facial expression and plays a key role in the appearance of facial youth. After the forehead, a high hairline is one of the most important features of the upper third of the face contributing to age identification. The combined evaluation of these two features should be a basic premise of upper facial surgery. Methods: The authors present a surgical sequence in which endoscopic forehead lifting and lowering of the high hairline by means of a scalp flap advancement are carried out during the same operation. The incision line is located along the hairline. After the scalp and forehead flap are moved, they are fixed using the bone tunnel fixation method. Results: In total, 194 patients were treated with endoscopic forehead lifting and simultaneous hairline lowering between August 2018 and July 2020. On average, the patients’ hairlines were 18 mm lower and their eyebrows were 5 mm higher. No patients had serious complications. Conclusions Endoscopic forehead lifting and simultaneous hairline lowering surgery make it possible to address the entire upper third of the face in a single facial rejuvenation operation.

The procedure that enhances osteogenesis and shortens the healing period is required for successful implant therapy. It has been introduced that osteogenesis is enhanced by the generation of electric field. Many researchers have demonstrated that application of electric and electromagnetic field promote bone formation. It also has been shown that electrical stimulation enhances peri-implant bone formation. Recently, several investigators have reported that noninvasive electrical stimulation using negatively charged electret such as polytetrafluoroethylene(PTFE) promotes osteogenesis. Therefore, we were interested in the effect of noninvasive electrical stimulation using negatively charged electret on the periimplant bone healing. After titanium implant were installed in the proximal tibial metaphysis of New Zealand white rabbit, negatively charged PTFE membrane fabricated by corana dischage was inserted into the inner hole of the experimental implant and noncharged membrane was applied into control implant. After 4 weeks of healing, histomorphometric analysis was performed to evaluate peri-implant bone response. The histomorphometric evaluations demonstrated experimental implant tended to have higher values in the total bone-to-implant contact ratio(experimental ; 49.9+/-13.52% vs control ; 37.5+/-19.44%) , the marrow bone contact ratio(experimental ; 34.94+/- 13.32% vs control ; 24.15+/-13.69%), amount of newly formed bone in the endosteal region(experimental ; 1.00+/-0.30mm vs control ; 0.61+/-0.24mm) and bone area in the medullary canal(experimental ; 13.55+/-4.98% vs control ; 9.03+/-3.05%). The mean values of the amount of newly formed bone(endosteal region) and bone area(medullary canal) of the experimental implant demonstrated a statistically significant difference as compared to the control implant(p<0.05). In conclusion, noninvasive electrical stimulation using negatively charged electret effectively promoted peri-implant new bone formation in this study. This method is expected to be used as one of the useful electrical stimulation for enhancing bone healing response in the implant therapy
Rabbits ; Animals

The procedure that enhances osteogenesis and shortens the healing period is required for successful implant therapy. It has been introduced that osteogenesis is enhanced by the generation of electric field. Many researchers have demonstrated that application of electric and electromagnetic field promote bone formation. It also has been shown that electrical stimulation enhances peri-implant bone formation. Recently, several investigators have reported that noninvasive electrical stimulation using negatively charged electret such as polytetrafluoroethylene(PTFE) promotes osteogenesis. Therefore, we were interested in the effect of noninvasive electrical stimulation using negatively charged electret on the periimplant bone healing. After titanium implant were installed in the proximal tibial metaphysis of New Zealand white rabbit, negatively charged PTFE membrane fabricated by corana dischage was inserted into the inner hole of the experimental implant and noncharged membrane was applied into control implant. After 4 weeks of healing, histomorphometric analysis was performed to evaluate peri-implant bone response. The histomorphometric evaluations demonstrated experimental implant tended to have higher values in the total bone-to-implant contact ratio(experimental ; 49.9+/-13.52% vs control ; 37.5+/-19.44%) , the marrow bone contact ratio(experimental ; 34.94+/- 13.32% vs control ; 24.15+/-13.69%), amount of newly formed bone in the endosteal region(experimental ; 1.00+/-0.30mm vs control ; 0.61+/-0.24mm) and bone area in the medullary canal(experimental ; 13.55+/-4.98% vs control ; 9.03+/-3.05%). The mean values of the amount of newly formed bone(endosteal region) and bone area(medullary canal) of the experimental implant demonstrated a statistically significant difference as compared to the control implant(p<0.05). In conclusion, noninvasive electrical stimulation using negatively charged electret effectively promoted peri-implant new bone formation in this study. This method is expected to be used as one of the useful electrical stimulation for enhancing bone healing response in the implant therapy
Rabbits ; Animals