View clinical trials related to Connective Tissue.
Filter by:A randomized controlled non-inferiority trial will be conducted with 24 individuals aged 18 or older, who are periodontally healthy and require root coverage in bilateral multiple RT1-type recessions involving at least two teeth on each side of the mouth. The number of teeth to be covered must be equal on both sides to avoid imbalance in patient-centered comparisons. Patients included in the study will undergo the bilateral multiple root coverage technique with coronally repositioned flap (Zucchelli and De Sanctis) in both groups. The donor areas for connective tissue will be the hard palate region, with grafts harvested using the linear technique on one side and the free de-epithelialized gingival graft technique on the other side. Each patient will undergo a preparatory phase for study inclusion, consisting of supragingival scaling, polishing, and oral hygiene instructions at least 3 weeks before study inclusion. Patients will be instructed on personalized and proper use of toothbrush, dental floss, and/or interdental brush. All surgical procedures in both groups will be performed by the same operator (CCO). Randomization will determine the side to be operated on first. The other side will be operated on after 30 days or until the patient reports complete absence of symptoms in the area of the first surgery to avoid confusion in patient-centered outcomes regarding pain and satisfaction with the techniques. Outcomes evaluated at 3, 6, 9, and 12 months include: gingival recession depth, probing depth, visible plaque, bleeding on probing, width of keratinized tissue, three-dimensional tissue assessment from intraoral scanning, and quality of life related. Linear and logistic generalized estimating equation models considering the longitudinal nature of the study will be used for data analysis. INCLUSION CRITERIA Patients aged 18 or older requiring root coverage in bilateral multiple recessions involving at least two teeth on each side of the mouth will be included. The number of teeth to be covered must be equal on both sides to avoid imbalance in patient-centered comparisons. Recessions should be RT1 type according to the 2017 Workshop on the Classification of Periodontal Conditions and Diseases (Jepsen et al. 2018) and without non-carious cervical lesions. EXCLUSION CRITERIA Individuals will not be considered eligible if they: - Present any form of immunological compromise; - Have diseases or systemic conditions contraindicating surgical procedures or affecting periodontal healing pattern, such as diabetes and autoimmune diseases; - Present active periodontitis, defined by presence of >=10% subgingival bleeding and probing depth and clinical attachment loss proximal >4mm (Tonetti et al. 2018); - Are current or ex-smokers; - Have allergies to ibuprofen and chlorhexidine digluconate. Research Objective: PRIMARY OBJECTIVE The overall objective of this study is to compare free gingival graft and subepithelial connective tissue graft in outcomes related to multiple recession coverage. SECONDARY OBJECTIVE Compare the two grafts in terms of clinical outcomes of root coverage; Compare the two grafts in terms of digital outcomes of root coverage obtained in scanning and tomography; Compare the two grafts in terms of patient-centered outcomes.
The purpose of this study is to test whether a natural product supplement can potentiate the increase in collagen synthesis following the ingestion of collagen protein. The investigators have developed a model of natural (GRAS certified) products that stimulate collagen synthesis, in vitro. The investigators will determine whether the natural product supplement can potentiate the collagen synthetic response to the ingestion of collagen protein. Basal and fed serum will be isolated and these samples will be used to treat human engineered ligaments.
Soft tissue contour and radiographic evaluation of alveolar ridge preservation using different techniques Background: Following tooth extraction, the alveolar ridge undergoes an inevitable remodeling process which influences future implant therapy or prosthetic rehabilitation in the edentulous area. In an attempt to attenuate the loss of hard and soft tissue after tooth loss, alveolar ridge preservation (ARP) immediately after complete tooth extraction could minimize the need for ancillary ridge augmentation or soft tissue grafting. Different techniques and barrier membranes has been proposed to achieve the sealing of extraction socket. Aim: To investigate the effect of different techniques and barrier membranes for the soft tissue contour and morphological change of alveolar ridge after ARP Methods: The study was designed as a randomized controlled trial and recruited patients, who require ARP for the purpose of implant placement or prosthodontic rehabilitation. After the tooth extraction, patients were randomly allocated to one of the following groups: ridge preservation with a xenogeneic bone substitute and (a) spontaneous healing (control), (b) covered with a free palatal graft, (c) or covered with pedical palatal graft, (d) covered with a collagen membrane, (e) covered with a non-resorbable high-density polytetrafluoroethylene membrane. 2 weeks, 4 weeks, 12 weeks, and 24 weeks following tooth extraction and ARP, clinical profilometric and radiographic evaluations were performed to analyze the change of hard and soft tissue contour. Moreover, and the need for additional guided bone regeneration (GBR) or soft tissue augmentation were assessed prior implants or fixed prosthesis placement.
The proposed study aims to shed light on the function/importance/relevance of exercise-induced changes in exosomes to connective tissues. Exosomes are known to increase robustly in response to exercise. We have previously shown that serum isolated from subjects after they lift heavy weights increases human engineered ligament collagen content and mechanics more than serum from before they lift weight. Further, we showed that exercise-induced changes in hormones could not explain the change in ligament structure or function. These data indicate that there is a significant gap in our understanding of muscle-connective tissue crosstalk. To address this gap, the current proposal seeks to: i) isolate and sequence exosomal RNA (long non-coding, miR, and mRNA) and ii) determine whether exosomes isolated from serum after exercise increase engineered ligament mechanics and collagen content.
The aim of the study is to evaluate the myofascial chain lines in addition to the general evaluation parameters in patients with patellofemoral pain syndrome (PFPS) and to determine whether deviations from normal in the myofascial structure have an effect on the development of PFPS. There will be two groups in this study. One of the groups will consist of 28 patients aged between 25-50 years. The other group will consist of 28 healthy individuals between the ages of 25-50 years. Postural problems that can be seen in the superficial anterior myofascial chain line will be evaluated. These problems: forward head, q-angle, genu varum, genu valgum, foot postural problems (pes planus, pes kavus vb.) and pelvic tilt. In addition to all these assessments, knee pain and the biomechanical properties of the anterior myofascial tissue will be evaluated.
The purpose of this study was to compare the effectiveness of microsurgical and macrosurgical approaches on CPFs plus SCTGs for the treatment of localized gingival recession defects (Miller class I or II) over the course of 6 months based on clinical periodontal parameters, periodontal phenotypes, and the postoperative complaints and satisfaction levels of the patients. We hypothesized that root coverage achieved through microsurgery in Miller I or II gingival recessions would improve clinical periodontal outcomes and the periodontal phenotype, with greater postoperative comfort and aesthetic satisfaction in comparison with conventional macrosurgical techniques. Miller Class I and II gingival recession defects, at least 3.0 mm deep, were selected and randomly assigned to receive micro or macrosurgical techniques. Both techniques were performed using a coronally positioned flap with a subepithelial connective tissue graft. Plaque and gingival indices, gingival recession depth and width, probing pocket depth, bleeding on probing, clinical attachment level, width of keratinized gingiva, aesthetic score and percentage of root coverage, postoperative complaints, and satisfaction of the participants completing the study were evaluated at follow-up 1st, 3rd and 6th months.
Alveolar preservation seek to avoid multiple surgical interventions to the patient and decrease costs to the patient. In particular, in a Brazilian population where the need for extraction is great, the development of techniques that safely allow a higher quality of rehabilitation is of paramount importance. Thus, this analysis is of great scientific and therapeutic importance. Within the above, the objective is to use an autogenous connective tissue graft in order to eliminate the need to raise the full-thickness flap and compensate for soft tissue deficiencies, which may reduce dimensional losses after extraction, in addition to reducing the cost of the technique.
Tendons are essential structures for transmitting muscle forces to skeletal structures. A stiffer tendon will transmit muscle force faster, and then allow faster movement. Moreover, tendons are a living tissue and respond to mechanical forces by changing their metabolism as well as their structural and mechanical properties. The aim of the present study is to answer essential questions remaining unanswered that are necessary in order to optimize physical activity with ageing in humans, and thus improve quality of life in elderly. The main questions are: What is the minimal training intensity leading to tendon adaptations? What is the time-course of tendon adaptations? Does the same loading protocol lead to similar tendon adaptations for different tendons (Achilles vs Patellar) and does the same training program lead to identical tendon adaptations with age (25yrs vs 75yrs)? To answer these questions, tendon architecture and mechanical properties will be investigated in humans of different age and applying different training intensities. The kinematic of the tendon adaptations due to these different training characteristics will also be investigated. The training protocol will be applied on plantar flexors and knee extensors. MRI and ultrasound techniques as well as the use of ankle and knee ergometers will allow the quantification of possible modifications in tendon architecture and mechanical properties (tendon stiffness and Young's Modulus). This will be assessed in vivo, using ultrasound images to assess tendon displacement during an incremental maximal contraction.
The purpose of this study is to develop a measure - the needle torque test - capable of detecting connective tissue abnormalities associated with musculoskeletal disorders.