Re-rupture rates after rotator cuff repair remain high because of inadequate biological healing at the tendon-bone interface. Single-growth factor therapies to augment healing at the enthesis have so far yielded inconsistent results. An emerging approach is to combine multiple
Summary. We found an increased natural expression of the
Injury to muscles is very common. We have previously observed that basic fibroblast
Frozen shoulder is a chronic fibrosing condition of the capsule of the joint. The predominant cells involved are fibroblasts and myofibroblasts which lay down a dense matrix of type-I and type-III collagen within the capsule. This subsequently contracts leading to the typical features of pain and stiffness. Cytokines and
Objectives. Effects of insulin-like
Tendon diseases are prevalent health concerns for which current therapies present limited success, in part due to the intrinsically low regenerative ability of tendons. Therefore, tissue engineering presents a potential to improve this outcome. Here, we hypothesize that a concurrent control over both biophysical and biochemical stimuli will boost the tenogenic commitment of stem cells, thus promoting regeneration. To achieve this, we combine molecularly imprinted nanoparticles (MINPs), which act as artificial amplifiers for endogenous
Objectives. The role of mechanical stress and transforming
Recent clinical studies on targeting nerve
We studied the presence of anabolic
Due to well-known disadvantages of the autologous bone graft, many alternatives have been studied for a reliable spinal fusion. Herein, we aimed to investigate the effects of human recombinant epidermal
Nerve
The re-establishment of vascularity is an early event in fracture healing; upregulation of angiogenesis may therefore promote the formation of bone. We have investigated the capacity of vascular endothelial
Our aim was to investigate vascular endothelial
We have studied in vitro the effect of a hydroxyapatite (HA) tricalcium phosphate material coated with hepatocyte
Summary Statement. A resorbable and biocompatible polymer-based scaffold was used for the proliferation and delivery of adipose derived stromal cells, as well as delivery of a cell growth/differentiation promoting factor for improved tendon defect regeneration. Introduction. Surgeons perform thousands of direct tendon repairs annually. Repaired tendons fail to return to normal function following injury, and thus require continued efforts to improve patient outcomes. The ability to produce regenerate tendon tissue with properties equal to pre-injured tendon could lead to improved treatment outcomes. The aim of this study was to investigate in vivo tendon regeneration using a biodegradable polymer for the delivery of adipose derived stromal cells (ADSCs) and a polypeptide, growth/differentiation factor-5/(GDF-5), in a tendon gap model. Patients & Methods. Female Fischer 344 rats underwent unilateral Achilles tenotomies. Defects were left un-repaired (Group 1-control), bridged using electrospun 65:35 polylactide-co-glycolide (PLAGA) tubular scaffolds (Group 2), PLAGA/ADSCs (Group 3), or PLAGA/GDF-5 (Group 4) scaffold composites. The plantaris was left intact. Operative limbs were immobilised for 10–14 days, followed by unrestricted activity. The rats were sacrificed at 4 weeks or 8 weeks after surgery, and tendons were assessed with histological, biochemical, and mechanical analyses. Results. PLAGA, PLAGA/ADSCs, and PLAGA/GDF-5 groups showed increased collagen I gene expression at both the 4 and 8 week time points (p<0.05). Tenomodulin (Tnmd) is the mature tendon phenotype marker unique to tendon tissue. Both the PLAGA/ADSCs and PLAGA/GDF-5 groups demonstrated increased tenomodulin expression at 4 and 8 weeks (p<0.05). Ultimate tensile load strength was improved in all PLAGA groups (2, 3, and 4) versus the control. Both composite groups (2 and 3) showed improved collagen deposition, as indicated by increased Collagen Area Fraction (CAF), approaching that of normal tendon at 8 weeks (p<0.05). Scaffold resorption was evident at 4 weeks, with complete replacement of the polymer with regenerate tissue and minimal gap formation at 8 weeks without evidence of an adverse inflammatory reaction. Defects bridged using the scaffold seeded with ADSCs showed improved collagen organization and increased modulus of elasticity compared with controls as well as properties approaching those of native tendon. Discussion/Conclusions. These results demonstrate that a tubular bioresorbable scaffold can promote extracellular matrix synthesis and organization, and the formation of neo-tendinous tissue; as well as serve as a carrier of adipose stromal cells and
Tendon and ligament injuries represent highly prevalent and unmet clinical challenge that may significantly benefit from tissue engineering therapeutic strategies, once optimal cell source and biomolecules regulating tendon homeostasis are properly defined. Herein, we aimed to evaluate the expression of tendon/ligament markers in two novel cell populations, namely human dental pulp stem cells (DPSCs) and periodontal ligament cells (PDLCs), in response to supplementation with TGF-β ligands relevant for tendon development and healing, as well as under standard tri-lineage differentiation conditions. DPSCs and PDLCs were isolated from sound human permanent molars removed for orthodontic reasons. Pulp tissue and periodontal ligament were minced and digested with collagenase (3mg/mL) and cells were expanded in α-MEM supplemented with 10% fetal bovine serum (basal medium). To evaluate the susceptibility of DPSCs and PDLCs to tenogenic induction, cells were seeded at density of 1000 cells/cm2 and cultured up to 21 days in basal medium or media supplemented with TGF-β3 (10ng/ml), or GDF-5 (50 ng/ml). Cell response was evaluated weakly by analysis of expression of tendon, bone and cartilage markers, employing real time RT-PCR and immunocytochemistry. A significant increase in collagen I and collagen III expression was observed with the culture progression in all conditions, with abundant matrix being deposited by day 14. A significant upregulation of scleraxis expression was demonstrated in response to supplementation with TGF-β3 in both cell populations, when compared to basal medium and medium with GDF-5. It was concluded that TGF-β3 may represent an effective inducer of stem cell tenogenic differentiation.
Mesenchymal stem/stromal cells (MSC) have the ability to home and migrate towards injured and inflamed tissues which can be useful as a minimally invasive systemic approach to deliver MSC to the site of damaged articular surface in arthritis in human and veterinary patients. From a molecular point of view, the CXCR4/SDF-1 plays an important role in this phenomenon and can be used as a target to enhance the therapeutic efficacy of culture expanded MSC. It has been demonstrated that extensive in vitro expansion down-regulates CXCR4 expression in human, murine and canine MSCs hindering their therapeutic efficacy. Therefore, the aim of the present study was to assess the effect of hypoxia and basic fibroblast
Platelet-rich plasma is a new inductive therapy which is being increasingly used for the treatment of the complications of bone healing, such as infection and nonunion. The activator for platelet-rich plasma is a mixture of thrombin and calcium chloride which produces a platelet-rich gel. We analysed the antibacterial effect of platelet-rich gel Zones of inhibition produced by platelet-rich gel ranged between 6 mm and 24 mm (mean 9.83 mm) in diameter. Platelet-rich gel inhibited the growth of