Active clinical trials for "Alveolar Bone Loss"

The purpose of the study is to determine the efficacy and safety of the effects of a topical medication on bone remodeling after dental extraction, in order to establish whether such treatment can be a new therapeutic option for said pathology. The participation of 60 patients is expected, who will be divided randomly in equal proportions into two groups. Treatment groups: Group A (30 patients): medication administered topically. Group B (30 patients): placebo with characteristics equal to the drug under investigation.

The goal of this clinical trial is to test in height increment of alveolar bone and safety evaluation index. The main question it aims to answer are: • The safety and effectiveness of magnesium calcium silicate three-dimensional alveolar bone repair unit in the repair of periodontal bone defects Participants will be treated through Guided Bone Regeneration operation with calcium magnesium silicate three-dimensional alveolar bone repair unit.

The bone grafting materials currently used in dentistry are autografts, allografts, xenografts, and alloplastic grafts. Among these different types of bone graft materials, autografts are considered to have the most predictable results due to its properties of osteogenesis, osteoinduction and osteoconduction. However, bone autografts are rarely used due to the high morbidity associated with harvesting the bone graft from the patient with a second surgical site. Because of the increased risk to the patient with autogenous bone grafts, the current standard of care is an allograft, which is a bone graft harvested from cadaver sources such as Freeze-Dried Bone Allograft (FDBA). While allografts can only possess the qualities of osteoinduction and osteoconduction, they also have dramatically less morbidity due to the lack of a second surgical site. Studies have shown that autogenous dentin grafts promote all three ideal mechanisms for bone regeneration. There are two methods to generate autogenous dentin grafts. One is to collect the extracted tooth and to send it to a tooth bank for the preparation process. The second is to process the extracted tooth in a clinical setting chairside, for a graft. A dentin graft can undergo different treatments such as demineralization, mineralization, and partial-demineralization. Although the autogenous dentin graft has shown positive results for bone regeneration, the comparison between partial-demineralized, mineralized autogenous dentin grafts, and freeze-dried bone grafts in the clinical setting for immediate grafting has not been studied in humans. Thus, there is a need to study the benefits of autogenous dentin partial-demineralized and mineralized grafts versus freeze-dried bone allografts regarding clinical, radiographically (bone volume and density), and efficacy results. This research addresses these areas of need.

With alveolar ridge preservation (ARP) ridge resorption following extraction may be reduced. Several materials and techniques have been advocated for ARP. The aim of our randomised clinical trial is to evaluate the efficacy of extraction side development technique (XSD) and autogenous tooth bone graft (ATB) for ARP.

Utilization of collagen vs PRF membrane over the graft following sinus lift procedure and before suturing

The aim of the study is to evaluate the use of erythropoietin gel as an adjunct to xenograft in the surgical management of intrabony periodontal defects.

Periodontitis, a microbially-driven inflammatory disease has been shown to be the sixth most common disease of mankind. The 2009 UK Adult Dental Health Survey found that 54% of adults experience gum bleeding (gingivitis) with 45% of these suffering from periodontitis. Periodontitis begins at the gingival margins of teeth and over time, in susceptible individuals, the presence of a plaque biofilm can lead to the loss of the supporting connective tissue and alveolar bone associated with the teeth. This leads to the formation of a pathological periodontal pocket between the gingiva and tooth root, measurable by the use of a periodontal probe and recorded as the probing pocket depth (PPD). The associated loss of alveolar bone support is measurable radiographically and often leads to tooth mobility and if allowed to persist, can eventually lead to tooth loss. Periodontitis is classified into 4 stages (I-IV) based on disease severity and 3 grades (A-B-C) based on risk of disease progression. The treatment of periodontitis involves a non-specific reduction of the bacterial load below the gingival margin. This is achieved by effective oral hygiene procedures and non-surgical periodontal therapy (NSPT), both of which are aimed at the removal of calculus (tartar) deposits and the disruption of the plaque biofilm from the affected root surfaces. In some cases, this treatment may then be followed by more invasive treatments such as periodontal surgery and if successful, patients can then be followed and maintained with supportive periodontal maintenance therapy (SPT). It should be noted that certain periodontal lesions in some patients do not however always respond favourably to treatment.

A randomized controlled clinical multi center trial to assess the efficacy of a combination of autologous mesenchymal stem cells and biomaterial in jaw bone regeneration prior to dental implant placement in comparison to standard autologous bone block grafting.

Aim of the present investigation will be to evaluate the efficacy and safety of a granulate of rhBMP-2- loaded bovine bone mineral (rhBMP-2-BBM) as alveolar bone regeneration procedure following tooth extraction. Forty (40) patients (both sex; age 18 years and older) requiring extraction of one (1) hopeless tooth (incisor, canine or premolar with loss of bone height of 5 mm or more in buccal alveolar wall), followed by alveolar bone regeneration (ABR) and placement of an endosteal implant will be enrolled into the study. After exodontia, participants will be randomized and divided into two groups: in Experimental Group the socket will be grafted with rhBMP-2-BBM granules (1.0-0.25 mm); in Control Group the sockets will be grafted with Bio-Oss granules (1.0-0.25 mm) and covered with porcine collagen barrier membrane (Bio-Gide). The end of the study will be fixed at the implantation surgery, seventeen (17) weeks after exodontia an ABR. Cone beam computed tomography (CBCT) scans will be made, immediately after (0), and sixteen (16) weeks after exodontia an ABR and the gain in alveolar bone height will be estimated and used as the primary outcome for comparison of both groups. As secondary efficacy outcomes the change in alveolar bone width estimated from the CBCT scans; initial (0) and at seventeenth (17th) week after tooth extraction; the change in dental arch dimensions estimated from tridimensional models obtained from intraoral scans at one week before (-1) and sixteen (16) weeks exodontia an ABR; and the amounts of new bone, remnant material and connective tissue histomorphometrically measured in a bone biopsy collected during the implantation surgery at seventeenth (17th) week, will be considered. Healing of gingival tissues at first (1st) and second (2nd) week and incidence of adverse reactions at first (1st), second (2nd) and sixteenth (16th) week, are used as secondary safety outcomes.

This study aims to describe a new approach for the reconstruction of the alveolar process in the sinus area. This minimally invasive approach will access the maxillary sinus through the alveolar process, elevating the sinus membrane in the area immediately above it. The regeneration may be achieved in the specific area required for dental implant placement, reducing the morbidity of the procedure.