Objectives. After an injury, the biological reattachment of tendon to bone is a challenge because healing takes place between a soft (tendon) and a hard (bone) tissue. Even after healing, the transition zone in the enthesis is not completely regenerated, making it susceptible to re-injury. In this study, we aimed to regenerate Achilles tendon entheses (ATEs) in wounded rats using a combination of kartogenin (KGN) and
Objectives. This study was conducted to evaluate the cytokine-release kinetics of
The use of stem cells transplanted into the intervertebral disc (IVD) is a promising regenerative approach to treat intervertebral disc degeneration (IDD). The aim of this study was to assess the effect of a hydrogel composed of hyaluronic acid (HA) and
The aim of our study was to investigate the effect of
Objectives. Triamcinolone acetonide (TA) is widely used for the treatment of rotator cuff injury because of its anti-inflammatory properties. However, TA can also produce deleterious effects such as tendon degeneration or rupture. These harmful effects could be prevented by the addition of
We performed this systematic overview on the overlapping meta-analyses that analyzed autologous
Introduction. Rotator cuff healing after an arthroscopic repair is discussible because of the high incidence of failures. Among biologic augmentations currently used,
Intra-articular injections of human mesenchymal stromal cells (MSCs) and
The objective of this study was to evaluate the safety and the effect of
Platelet Rich Plasma (PRP), either rich (L-PRP) or poor (P-PRP) of leukocytes, is frequently used as an anti-inflammatory and regenerative tool in osteoarthritis (OA). PRP contains proteins but not genes as it is derived from megakaryocytes. Proteomics but not metabolomics of PRP was recently studied. Metabolomics is a field of ‘omics’ research involved in comprehensive portrayal of the small molecules, metabolites, in the metabolome. These small molecules can be endogenous metabolites or exogenous compounds found in an organism (1). Our aim was to determine the difference between L-PRP and P-PRP. A cross-sectional clinical study was designed in six recreational male athletes between the ages of 18 and 35 years. 3 mL P-PRP and 3 mL -LPRP was prepared from 60 mL of venous blood after treating with 9 mL of sodium citrate and centrifugation at 2.700 rpm for 10 min. Half of the prepared PRP's were frozen at −20°C for a week. Fresh and frozen samples were analyzed at the Q-TOF LC/MS device after thawing to room temperature. Untargeted metabolomic results revealed that the metabolomic profile of the L-PRP and P-PRP were significantly different from each other. A total of 33.438 peaks were found. Statistically significant (p<0.05) peaks were uploaded to the MetaboAnalyst 5.0 platform. Exogenous out of 2.308 metabolites were eliminated and metabolites found significant for our study were subjected to pathway analysis. Steroid biosynthesis, sphingolipid metabolism and metabolism of lipid pathways were affected. In the L-PRP samples, Nicotinamide riboside (FC: 2.2), MHPG (FC: 3.0), estrone sulfate (FC: 7.5), thiamine diphosphate (FC: 2.0), leukotriene E4 (FC: 7.5), PC(18:1 (9Z)e/2:0) (FC: 9.8) and Ap4A (FC: 2.1) were higher compared to P-PRP. C24 sulfatide (FC: −11.8), 3-hexaprenyl-4,5-dihydroxybenzoic acid (FC: −2.8) metabolites were furthermore lower in P-PRP. Clinical outcomes of PRP application should consider these metabolic pathways in future studies (2).
Platelet-Rich-plasma (PRP) has been used in combination with stem cells, from different sources, with encouraging results both in vitro and in vivo in osteochondral defects management. Adipose-derived Stem Cells (ADSCs) represents an ideal resource for their ease of isolation, abundance, proliferation and differentiation properties into different cell lineages. Furthermore, Stem Cells in the adipose tissue are more numerous than from other sources. Aim of this study was to evaluate the potential of ADSCs in enhancing the effect of arthroscopic mesenchymal stimulation combined with infiltration of PRP. The study includes 82 patients. 41 patients were treated with knee arthroscopy, Steadman microfractures technique and intraoperative PRP infiltration, Group A. In the Group B, 41 patients were treated knee arthroscopy, Steadman microfractures and intraoperative infiltration of PRP and ADSCs (Group B). Group A was used as a control group. Inclusion criteria were: Age between 40 and 65 years, Outerbridge grade III-IV chondral lesions, Kellegren-Lawrence Grade I-II. Patient-reported outcome measures (PROMs) evaluated with KOOS, IKDC, VAS, SF-12 were assessed pre-operatively and at 3 weeks, 6 months, 1-year post-operative. 2 patients of Group A and 3 patients of Group B, with indication of Puddu plate removal after high tibial osteotomy (HTO), underwent an arthroscopic second look, after specific informed consent obtained. On this occasion, a bioptic sample was taken from the repair tissue of the chondral lesion previously treated with Steadman microfractures.Introduction and Objective
Materials and Methods
Lateral epicondylitis, also known as “tennis elbow,” is a degenerative disorder of the common extensor origin of the lateral humeral epicondyle. The mainstay of treatment is non-operative and includes physiotherapy, activity modification, bracing, nonsteroidal anti-inflammatory drugs, and injections. There is a subgroup of patients however who do not respond to non-operative measures and require operative intervention. We conducted a retrospective review of prospectively collected data to assess whether the introduction of PRP injections for lateral epicondylitis led to a reduction in patients subsequently undergoing surgical release.Introduction
Methods
The aim of this study was to evaluate the trochlear bone and cartilaginous regeneration of rabbits using a composite based on platelet rich plasma (PRP), chitosan and hydroxyapatite. The study was approved by the ethics committee of the Federal University of Campina Grande under number 72/2017. Surgical holes measuring four millimetres in diameter were performed in rabbit trochleae, one surgical hole in each animal remained empty and another one was filled with the composite. Clinical-orthopaedic and radiographic evaluations were carried out for 60 days, after which the animals were euthanized for histomorphometric evaluations. Clinical-evaluations exhibited lameness of two members of the treatment (T) group and one member of control (C) group. The radiographic evaluation of T group exhibited absence of subchondral bone reaction (33%); nonetheless, presence of moderate subchondral bone reaction was more frequently reported in group C with 67%. Microscopic evaluation revealed the presence of tissue neoformation, composed of dense connective tissue. Microscopic findings were similar in both groups, with a difference in the amount of neoformed tissue, which was confirmed after the morphometric analysis, revealing a significant difference in the quantity of newly formed tissue at the bone / cartilage / implant interface in the T group. The results indicate that the composite based on chitosan, hydroxyapatite and PRP enhanced bone and cartilage healing.
Angiogenesis is a key factor in early stages of wound healing and is crucial for tissue regeneration. Gold standard for large bone defect treatment is the transplantation of autologous bone grafts, but is not entirely satisfying (e.g. limited amount). Cell therapies and tissue engineering approaches may overcome these problems by using cells and autologous blood components obtainable by less invasive procedures. Pre-clinical studies previously showed promising results combining endothelial progenitor cells (EPCs) and mesenchymal stem cell (MSCs) in polyurethane scaffolds in presence of PRP (1). A systemic investigation of the chemical and mechanical characteristics of different PRP gels formulations suggested their potential use as sustained autologous growth factor delivery system (2). Here we investigate PRP hydrogels as autologous injectable cell delivery systems for EPCs and MSCs and their efficacy in promoting fast neo-vascularization for bone repair applications. PRP hydrogel and corresponding platelet lysate (PL) were produced from platelet concentrates as described before (3). MSCs were isolated by Ficoll-Paque centrifugation from human bone marrow (EK_regensburg12-101-0127), and cultured in alpha MEM containing 10% FCS and 5 ng/mL basic-FGF (GIBCO). EPCs (CD133+/CD34+) were isolated from MSC fractions using magnetic-activated cell sorting (MACS®) and further cultured in IMDM (GIBCO) containing 5% FCS and 5% PL. GFP positive HUVECs are from Angio-Proteomie, (Boston, USA). Prior to gel encapsulation, MSC and EPCs were pre-stained using PKH26-red® and PKH67-green® respectively. Cells in different proportions were encapsulated in 3D PRP gels, in FDA approved Fibrin gels and in Matrigel®. The gels were cultured in Ibidi microwells placed in an onstage incubator linked to an EVOS Auto Cell Imaging System. The cellular network formation capacity of HUVEC or EPCs and MSC in different proportions was analyzed for the 3 types of hydrogels using time lapse movies recorded over a period of 14 days. Parallel cultures were performed in a classical cell culture CO2 incubator and sample gels were taken at different time points for additional immunostaining and gene expression analysis. Preliminary results indicate high cell viability in all of the three tested gels. PRP hydrogels present a favorable environment for the formation of a 3 dimensional cellular network in cell co-culture. The formation of these networks was apparent as early as 4 days after seeding. Networks increase in complexity and branching over time. The same was observed when cells were embedded in Matrigel®, which is known for its pro-angiogenic properties. Further experiments are currently in process looking at the involvement of MSCs in this process and the effect of PRP 3D co-culture on their differentiation. PRP was previously shown as a potent growth factor delivery system for tissue engineering. In the present work, the high cell viability together with the 3 dimensional capillary-like networks observed at early time points suggest that PRP can also be used as an autologous cell delivery and pro-angiogenic system for bone tissue repair.
An autologous thrombin activated 3-fold PRP, mixed with a biphasic calcium phosphate at a 1mL:1cc ratio, is beneficial for early bone healing in older age sheep. The management of bone defects continues to present challenges. Upon activation, platelets secrete an array of growth factors that contribute to bone regeneration. Therefore, combining platelet rich plasma (PRP) with bone graft substitutes has the potential to reduce or replace the reliance on autograft. The simple, autologous nature of PRP has encouraged its use. However, this enthusiasm has failed to consistently translate to clinical expediency. Lack of standardisation and improper use may contribute to the conflicting outcomes reported within both pre-clinical and clinical investigations. This study investigates the potential of PRP for bone augmentation in an older age sheep model. Specifically, PRP dose is controlled to provide clearer indications for its clinical use.Summary Statement
Introduction
Various approaches have been implemented to enhance bone regeneration, including the utilization of autologous
Biofabrication is a popular technique to produce personalized constructs for tissue engineering. In this study we combined laponite (Lap), gellan gum (GG) with
Osteoarthritis (OA) is a degenerative disease that lacks regenerative treatment options. Current research focuses on mesenchymal stem cells (MSCs) and