Active clinical trials for "Jaw, Edentulous"

The primary objective of this study is to demonstrate non-inferiority of the Straumann Bone Level Ø 3.3 mm NC SLActive Roxolid Implants compared to Straumann Bone Level Ø 4.1 mm RC SLActive Roxolid Implants based on mean crestal bone level changes measured between surgery and 12 months post-implant placement. The secondary objectives will assess differences in clinical outcomes between the test and control implants, including implant success and survival, gingival recession, subject satisfaction and additional early bone level measurements.

The purpose of this study is to assess the change of crestal bone level at the Titanium Zirconium (TiZr) compared to Titanium (grade IV) implant between surgery and 6, 12, 24, and 36 month post surgery.

The purpose of this study is to see if OsseoSpeed™ implant 6 mm long is effective for rehabilitation of edentulism and if so, how it compares with OsseoSpeed™ implant 11 mm long. The primary hypothesis is that the alteration in bone level is equal in patients randomized to 6 mm as to patients randomized to 11 mm implants.

Purpose: To compare the loss of peri-implant tissue by means of radiographic and digital analysis of a zirconia prosthesis placed immediately and delay loading. Materials and methods: 60 consecutive patients with the need for a full-arch rehabilitation were selected and divided randomly into two groups: Group A: Conventional dental extraction, placement of 6 to 8 implants. Placement of the multi-unit prosthetic attachment and finally in the same week the placement of the definitive monolithic zirconia prosthesis on implants. Group B: Conventional dental extraction, placement of 6 to 8 implants. Placement of prosthetic and provisional attachment. After 3 months, place the definitive prosthesis. Assess volumetric changes using radiographic and optical scan techniques. The number of implant failures, prosthetic incidents and bone loss around the implants will be evaluated. The data will be evaluated 3, 6, and 12 months after the operation.

In this prospective case series study, 20 patients with an implant-borne single crown following early implant placement with simultaneous contour augmentation will be followed for 10 years. Clinical, radiologic, and esthetic parameters will be assessed. In addition, cone beam computed tomography (CBCT) will be used at 10 years to examine the facial bone wall and compared to the 6 year data.

40 consecutive adult patients, requiring the insertion of dental implants in the aesthetic area (from second premolar to second premolar) will be enrolled in the study. At the time of surgery, a full thickness flap will be elevated, the implant bed will be prepared according to the manufacturer's instruction and the implants will be then seated into the bone. T0 corresponds to the time of implant insertion, T1 to the time of healing abutment's connection (T0=T1 for single stage implants), and T2 corresponds to 1-year follow-up from healing abutment's connection. Cone Beam Computed Tomography (CBCT) scans will be taken immediately after abutment connection (T1) and 1-year after (T2). The midsagittal cut of each implant will be identified, and measurements will be made at predetermined levels. Horizontal facial bone thickness (HFBT) and Vertical facial bone level (VFBL) will be measured. HFBT will be measured at 0, 3, 6 and 9 mm apical to the implant platform. VFBL wil be the perpendicular distance from the implant platform to the most coronal point of the facial bone. Changes between T1 and T2 will be calculated.

Brånemark System® dental implant osseointegration was introduced clinically in 1965 as a novel approach to the replacement of missing teeth. Although this implant's traditional machined screw-shaped surface had excellent, well-documented short- and long-term osseointegration success, newer implant designs were introduced that could enhance biological fusion of the implant to jaw bones, allowing more rapid restoration and function. It was also claimed that such implants could lead to less bone loss with function. One such implant, Screw-Vent®, had a macrostructure very similar to that of the Brånemark implant, except that it's fixture surface was acid-etched which could enhance biological osseointegration. It also had a longer narrower smooth internal-hex interlocking flat collar that could better resist occlusal forces, leading to even less bone loss according to the manufacturer. However, no well-controlled clinical studies existed in 1990 that supported these claims. This study was undertaken, therefore, to first compare the Brånemark implant with another implant, Swede-Vent®, a copy of the Brånemark implant except for its fixture surface that was identically acid-etched as that of Screw-Vent by the same manufacturer. The effect on bone healing could then be compared between Brånemark's machined and Swede-Vent's acid-etched surfaces in the short- and long-terms. Our hypothesis was that the microtextured Swede-Vent fixture would lead to greater bone preservation. Since Screw-Vent's fixture surface was identically acid-etched as that of Swede-Vent by the same manufacturer, we could then evaluate the effect on bone healing of Screw-Vent's collar and the shorter wider machined smooth external-hex flat collar of Swede-Vent (identical to that of Brånemark). All three 2-part platform-matched parallel-wall implants were made of commercially pure titanium, had a very similar fixture macro-design, were approved by the Food and Drug Administration (USA) and Health and Welfare Canada, and were commercially available in North America. Brånemark is still available, but with an oxidized microtextured fixture surface and a shortened machined smooth external-hex flat collar. Screw-Vent is still available with its microtextured fixture surface, but its machined smooth internal-hex flat collar has also been substantially shortened. Swede-Vent is no longer available.

Comparison of early and late loading of implants supporting full each prosthesis in upper jaw, using the Cresco prosthetic system on Straumann implants. The study hypothesis is that there is no difference between the bone loss (or gain) between the groups.

The purpose of this study is to investigate the clinical efficacy of OsseoSpeed™ TX 3mm diameter implant in a Chinese population by evaluation of marginal bone level alteration, implant stability and implant survival in the posterior mandible up to 3 years after loading. Hypothesis: Early loading of the 3 mm implant is a safe and predictable procedure.

Objectives: The aim of the study was to compare histological and histomorphometric results of six bone substitute materials used as graft in two-stage maxillary sinus augmentation model, after 6-month-healing.