Microfracture vs. Microfracture and BMAC for Osteochondral Lesions of the Talus
Osteochondral Lesion of TalusOsteochondral lesions of the talus are thought to be due in large part to traumatic events or repetitive microtrauma that causes damage to both the articular cartilage and the subchondral bone. There are several treatment modalities for osteochondral lesions of the talus but there is no consensus as to which is the superior method for repair. Treatment modalities are aimed at regenerating articular cartilage. Microfracture is a widely accepted and utilized treatment for osteochondral lesions. This procedure results in pluripotent bone marrow stem cells filling the defect and ultimately differentiating into fibrocartilage-producing cells [1]. This technique has shown good results in both short- and medium-term follow-up for smaller lesions. Bone marrow aspirate contains mesenchymal stem cells and growth factors with cartilage regeneration potential. Bone marrow aspirate concentrate (BMAC) is a treatment modality that has shown to have to potential to produce hyaline cartilage. This study aims to analyze the effect of adding BMAC to the standard microfracture procedure in terms of clinical and radiographic outcomes in comparison to patients who only underwent microfracture treatment.
Microfracture Technique for Talar Articular Cartilage Lesions With or Without Lateral Ligament Repairment...
Lateral Ligament RepairTalar Cartilage Lesion1 moreTo study the clinical efficacy of microfracture combined with lateral ligament repairment for cartilage lesions of talus through the comparison between microfracture with and without lateral ligament repairment.
Study of Teriparatide in Stress Fracture Healing
Stress FractureParathyroid HormoneInvestigation into the use of teriparatide in the treatment of stress fractures. Primary outcome is healing on MRI, secondary outcomes are pain, time spent in rehabilitation and future stress fractures. This study will help the investigators understand how to treat stress fractures in the future.
Comparison of BioCart™II With Microfracture for Treatment of Cartilage Defects of the Femoral Condyle...
Symptomatic Cartilage Defects of the Femoral CondyleBioCart™II is a novel scaffold seeded with autologous chondrocytes to be used to repair cartilage lesions of the knee. This study is designed to compare the efficacy and safety of BioCart™II treatment compared to microfracture which is the classical method of treatment.
the Efficacy and Safety of a Modified Microfracture Using Collagen Compared to Those of a Simple...
Defect of Articular CartilageThis study was designed to evaluate the efficacy and safety of a modified microfracture using collagen, and to compare them with those of a simple microfracture in patients with cartilage defects in their ankles.
Phase III Study to Evaluate Safety and Effectiveness of NOVOCART 3D Plus vs. Microfracture in Knee...
Traumatic Articular Cartilage Defects in the Knee JointIn this phase 3 clinical trial, a second generation ACI (autologous chondrocyte implantation technique) is compared to standard of care therapy (microfracture) to treat traumatic cartilage defects of the knee for efficacy and safety. The investigated study treatment NOVOCART 3D plus is a biphasic biological scaffold which contains cultivated chondrocytes derived from the patient in a previous tissue harvest procedure. Allocation to the study treatment is done by randomization in a ration of 2:1 in favor to ACI (investigational product). Follow-up data for efficacy is collected for 2 years: follow-up visits are performed 6 weeks, 3 months, 6 months, 12 months, 18 months and 24 months after treatment; additional data for safety will be collected for up to 5 years: 36, 48, and 60 months after treatment. The study involves knee surgery (by arthroscopy, or mini-arthrotomically for implantation surgery), and blood withdrawal for safety within the first year after treatment. Initial imaging is required at baseline. Optional MRI imaging and biomarker collection is done as substudy at specific sites only.
Microfracture With/Without Collagen Augmentation in Patients Undergoing High Tibial Osteotomy
Collagen AugmentationThe quality of cartilage regeneration after marrow stimulation is well documented to be unpredictable, because they do not regenerate consistent amount of cartilage. To overcome the shortcomings of the microfracture technique, various augmentation techniques using synthetic collagen matrix, scaffolds or plug devices have been developed. However, their efficacy remains unclear. The purpose of this prospective randomized controlled study is to evaluate whether the microfracture in combination with collagen gel augmentation could improve the quality of cartilage regeneration in patients undergoing medial open wedge high tibial osteotomy (HTO) for the treatment of medial unicompartmental knee osteoarthritis (OA).
Knee Articular Cartilage Repair: Cartilage Autograft Implantation System Versus Conventional Microfracture...
Other Articular Cartilage DisordersOsteochondritis DissecansThe Cartilage Autograft Implantation System (CAIS) is a single-stage procedure in which cartilage is harvested from non-critical regions of articular cartilage, but then immediately morcellated and loaded onto a polymer membrane-scaffold, which is subsequently used to fill the chondral defect. The autograft-membrane composite is fixed to the defect with a biodegradable staple. The investigators aim to evaluate this new technique through a pilot clinical trial involving 36 patients randomized into microfracture and CAIS treatment arms (randomisation ratio 1:2), with a minimum follow-up of 1 year, using both clinical and radiological (magnetic resonance imaging) outcomes. If the results of this pilot trial are successful, the investigators plan to expand the study by recruiting more patients to achieve a suitably-powered trial. Primary hypothesis 1: That functional scores will increase by at least 0.5 SD over pre-operative values, by 1 year following the CAIS procedure Primary hypothesis 2: That articular cartilage height will have a sustained increase of at least 2 mm at 1 year following the CAIS procedure Primary hypothesis 3: That functional scores in the CAIS group will be equivalent or superior to those in the microfracture group
Calcium and Vitamin D Supplementation Decreases Incidence of Stress Fractures in Female Navy Recruits...
Stress FractureWe conducted a double-blind, placebo-controlled randomized clinical trial of calcium and vitamin D supplementation in 5201 female Naval recruits. During 8 weeks of basic training, supplementation with 2000 mg calcium and 800 IU vitamin D/day decreased incidence of stress fracture by 25%. The hypothesis was: Supplementation with calcium 2000 mg/d and vitamin D 800 IU/d will significantly reduce the incidence of stress fractures in female Navy recruits during 8 weeks of basic training.
Assessing Foot Injuries in Infantry Recruits Wearing Different Boots
BlisterAbrasion4 moreOne hundred infantry recruits will be randomly assigned to two groups. Injuries will be monitored.