Evaluation of Marginal Bone Loss (MBL) 12 Months Post-loading of Implants Supporting Individual Crowns, Based on the Height of the Intermediate Abutment and Its Placement Time. Immediate Abutments of 2 or 3 Mm Show the Lowest MBL, Whereas 1.5 Mm or Delayed Abutments Are Associated with Higher MBL.

Overview

Objectives:To determine which combination of abutment height and timing of placement is most effective in reducing marginal bone loss (MBL). Materials and Methods: 54 patients received at least one single screw-retained crown on an implant replacing a posterior tooth (60 implants). The implants were divided into six treatment groups based on the height (1.5 mm; 2 mm; 3 mm) and timing of placement (immediate: surgery 1; delayed: surgery 2) of the intermediate abutment: group 1 (height 3; surgery1), group 2 (height 2; surgery1), group 3 (height 1.5; surgery1), group 4 (height 3; surgery2), group 5 (height 2; surgery2), group 6 (height 1.5; surgery2). Mesial and distal linear radiographic measurements (from the implant shoulder to the bone crest) were performed at five follow-up times: implant surgery, crown placement (T1), and at 3 (T2), 6 (T3), and 12 months after loading (T4). Partial and total MBL were compared among the treatment groups.

All installed implants were BTI UnicCa® implants with a flat tetragonal internal connection (BTI Implant System, Vitoria, Spain) of universal (4.1 mm) or wide (5.5 mm) diameter. On all implants, anti-rotational intermediate abutments Ti Golden® UNIT (BTI Implant System, Vitoria, Spain) of universal (4.1 mm) or wide (5.5 mm) width and 1.5 mm, 2.0 mm, or 3.0 mm height were connected, either immediately during the installation surgery (protocol in one phase: one abutment - one time) or delayed during the second surgery procedure 8 weeks after installation (protocol in two phases: submerged implant). (Figure 1). For all patients, standardized digital intraoral radiographs with a silicone key and Rhin ring positioner were recorded during the surgical installation of the implant (baseline), during the placement of the prosthetic crown (8 weeks after surgery), and at 3, 6, and 12 months after prosthetic loading. * Surgical Procedures. Patients received a complete clinical (periodontal chart) and radiographic (intraoral radiographs, orthopantomography, and CBCT) examination. All surgical procedures were performed by the same surgeon (JQH) under local anesthesia (Artinibsa®; Inibsa Dental SLU, Barcelona, Spain). The implant size was selected based on digital planning with CBCT (Planmeca Romexis Software) according to the quantity and quality of bone. Prior to surgery, the thickness of the soft tissue (from the mucosal surface to the crestal bone) at the implant placement site was measured with a periodontal probe (15 mm, PCP UNC 15; HuFriedy). A conventional placement protocol was followed, with delayed installation of the implant in a fully healed socket (minimum 16 weeks of healing after tooth extraction). Osteotomy was performed without irrigation at low revolutions (100 rpm) following the defined protocol according to implant size and bone density. All implants were placed 1.5 mm subcrestally. All patients received pharmacological prescription with antibiotics (Amoxicillin 1 g every 12 hours for 7 days) or clindamycin in case of allergy, anti-inflammatory medication (Dexketoprofen 25 mg every 8 hours for 3 days), and probiotics (1 sachet per day for 1 week), in addition to postoperative care instructions: pressure with gauze for 5 minutes, application of ice for 10 minutes, soft and cold diet for the first 24 hours, and rinses with 0.12% chlorhexidine (Perioaid; Dentaid SL; Cerdanyola, Spain) twice a day for 7 days. Sutures were removed after 7 days. * Restorative Procedures. Eight weeks after the implant installation surgery, the platforms of the submerged implants were exposed and the intermediate abutment was connected with a torque of 35 Ncm. Ten weeks after surgery and after increasing the intermediate abutment torque to 35 Ncm on the non-submerged implants, the prosthetic phase began for all cases. All definitive implant-supported prostheses were unitary screw-retained metal-ceramic crowns. Records for the laboratory were obtained in all cases through digital intraoral scanning (iTero®; Align Technology Inc; San José; California, USA). The CAD design of the restorations was done using Exocad Software. The CAM fabrication of the restorations involved milling the metal framework and layering the ceramic covering on a printed model. The unitary crowns were screwed in 2 weeks after the scanning phase with a prosthetic screw torque of 20 Ncm (conventional loading for all cases: 12 weeks after implant placement surgery). The screw channels were sealed with Teflon and compact composite (GrandioSo; Voco GmbH; Cuxhaven, Germany). Occlusion was adjusted, and the adequacy of contact points and gingival sealing was checked. * Radiographic Evaluation. Standardized digital intraoral radiographs with a silicone key and Rhin ring positioner (Planmeca Prox + Planmeca Prosensor HD; Planmeca Oy; Helsinki, Finland) were obtained at implant placement (baseline), at definitive crown placement (T1), and at 3 months (T2), 6 months (T3), and 12 months (T4) after functional loading. For MBL measurement, the Planmeca Romexis dental imaging software platform was used. Linear measurements were taken in each intraoral radiograph from the most mesial and distal point of the implant shoulder to the crestal bone. The magnification of the radiographs was corrected based on the radiographic measurement of the height and width of each implant, from which each linear MBL measurement was calibrated and recalculated.