View clinical trials related to Periodontal Bone Loss.
Filter by:To evaluate the clinical effect of site preservation after third molars extraction by using tooth extraction of third molars with site preservation using bio-oss and bio-guide in preventing the formation of deep periodontal pockets in the distal of second molars.
This study is being performed to compare different methods of visualization during routine gum surgery. The gum surgery is standard of care. This study will compare the use of a small camera (videoscope) in conjunction with magnification glasses during surgery vs. surgery only using magnification glasses. Both methods are routinely used and are standard of care methods of visualization. The small camera (videoscope) is a device which allows us to see the area under high magnification and projects live video feed on a computer screen. The study is a split-mouth design pilot study. The patients are only receiving treatment that was previously diagnosed prior to entering the study. The treatment performed is standard treatment that fits in the routine standard of care. No interventional treatment is being performed. The only difference is the method of visualization/observation by the practitioner used during the surgical procedure. One side of the mouth will be treated with just loupes while the other side of the mouth will be treated with loupes and the videoscope.
The aim of the research is to evaluate the clinical outcome of short dental implants, characterized by a new macro-structural design and inserted in the upper or lower jaw in patients with reduced bone volume. The clinical outcomes will be compared for different surface treatments of implant neck and those of prosthetic components.
The goal of this split-mouth clinical trial is to evaluate the effects of Manuka honey applied into periodontal pockets after initial periodontal therapy (NSPT) in the treatment of stage 3 periodontitis. The main question it aims to answer is: • does the adjunct of Manuka honey improve the outcome of the non-surgical periodontal treatment. The intervention in this study was conducted in a split-mouth design, meaning that after completing the NSPT for each subject, Manuka honey was administered as an adjunct to the periodontal treatment in two randomly selected quadrants of the oral cavity around the teeth with a specially designed cannula. This was followed by oral hygiene instructions and training. The home-performed oral hygiene procedures were focused on interdental cleaning using dental floss and toothbrushing with regular fluoride-containing toothpaste. The subjects were also instructed not to use any form of oral antiseptic (e.g., chlorhexidine) or antibiotic during the follow-up period.
The objective of this study will be to evaluate a new protocol for the surgical treatment of periodontal disease with two novelties: to make a single incision in the midline of the interproximal area to respect the vascular supply and preserve the granulation tissue with regenerative potential. The investigators will carry out a controlled and randomized clinical trial with a control group (n=25; modified Kirkland flap) and a test group (n=25; experimental surgical protocol: incision in the mid-interproximal area of the papilla and preservation of the granulation tissue). Clinical parameters will be taken at the time of surgery and 12 months follow-up: bleeding on probing (BoP), clinical attachment level (CAL), residual probing depth (rPD),Probing pocket depth reduction (PPDr), recession (REC), interproximal gingival recession (iGR), width of keratinized gingiva (KT), gain of supra-alveolar clinical attachment (SUPRA-AG), early wound healing index (EHI).
For patients having periodontal intrabony lesions, three treatment modalities were executed to evaluate the effect of protecting Leukocyte rich -Platelet Rich Fibrin harvests (applied in the bony defects) with resorbable collagen membranes. Clinical Outcomes recorded were the Plaque index (PI), Gingival index (GI), probing depth reduction (PD), Clinical attachment level (CAL), and radiographic defect depth changes. For the biochemical evaluation: levels of PDGF-BB and VEGF obtained from crevicular fluid by Perio-Paper strips were assessed using ELIZA.
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.
The aim of the present investigation will be evaluate the healing of periodontal intraosseous defects following Minimally Invasive Non Surgical Debridement (MINSD) and application of amelogenins, compared to MINSD alone. A total of 22 patients will be enrolled, selected by inclusion and exclusion criteria and randomly divided in two groups: amelogenin (A) and no-amelogenin group (B).
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.
The aim of the present investigation will be evaluate the healing of periodontal intraosseous defects following Minimally Invasive Non Surgical Debridement (MINSD) and application of a hyaluronic acid-based gel, compared to MINSD alone. A total of 22 patients will be enrolled, selected by inclusion and exclusion criteria and randomly divided in two groups: hyaluronic acid group (HA) and no-hyaluronic acid group (No-HA).