Achilles Tendon Regeneration can be Improved by Amniotic Epithelial Cell Allotransplantation

Barboni, Barbara; Russo, Valentina; Curini, Valentina; Mauro, Annunziata; Martelli, Alessandra; Muttini, Aurelio; Bernabò, Nicola; Valbonetti, Luca; Marchisio, Marco; Giacinto, Oriana Di; Berardinelli, Paolo; Mattioli, Mauro

doi:10.3727/096368912x638892

Cited by 74 publications

(143 citation statements)

References 67 publications

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“…Similar to our result, Barboni et al 12 observed, in Achilles tendon, that immature collagen fibers were completely replaced by mature ones in 28 days. And, stated that the increase in maturity of tendon was due to the stimulus induced by cells derivate from amniotic membrane, which provide a positive paracrine environment, thus accelerating the recovery of normal tendon microstructure and biomechanical properties.…”

supporting

confidence: 81%

“…Organization of the collagen fibers was used to generate a score in order to evaluate the alignment of these fibers in the different groups and experimental times based on the score system used by Barboni et al 12 . The analysis was made on the injured tendon area with an increase of x20, totaling 5 samples per group of all experimental times studied.…”

Section: ■ Methodsmentioning

confidence: 99%

“…In addition to these biological properties, others such as biocompatibility, permeability, highly flexibility, transparency, and stability make the MA a tissue with reasonable mechanical properties and, thus a potential scaffold the growth, cell adhesion and migration, characteristics required for tissue engineering 6 . Pre-clinical studies have successfully used the amniotic epithelial cells (AECs) [12][13] to accelerate the repair process in tendinopathies. However, cell culture can result in a loss of some of its own cellular factors, such as cytokines as well as growth and differentiation factors, which are present in the AM microenvironment.…”

Section: ■ Introductionmentioning

confidence: 99%

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Amniotic membrane as an option for treatment of acute Achilles tendon injury in rats

et al. 2017

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1 5-Experimental SurgeryActa Cir Bras. 2017;32(2):125-139 Abstract Purpose: To evaluate the effect of human amniotic membrane (hAM) fragment on inflammatory response, proliferation of fibroblast and organization of collagen fibers in injured tendon. Methods: Sixty rats were divided into 3 groups: C -surgical procedures without tendon lesion and with simulation of hAM application; I -surgical procedures, tendon injury and simulation of hAM application; T -surgical procedures, tendon injury and hAM application. These groups were subdivided into four experimental times (3, 7, 14 and 28 days). The samples underwent histological analysis and ATR-FTIR spectroscopy. Results: Histological analysis at 14 days, the T group showed collagen fibers with better alignment. At 28 days, the I group presented the characteristics described for the T group at 14 days, while this group presented aspects of a mature connective tissue. FT-IR analysis showed a clear distinction among the three groups at all experimental times and groups T and I presented more similarities to each other than to group C. Conclusion: Acute injury of tendon treated with human amniotic membrane fragment showed a faster healing process, reduction in inflammatory response, intense proliferation of fibroblasts and organization of collagen fibers.

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supporting

confidence: 81%

Section: ■ Methodsmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

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Amniotic membrane as an option for treatment of acute Achilles tendon injury in rats

et al. 2017

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“…The opportune time of implantation, together with the higher plasticity and proliferative capacity of AMCs compared to BM-MSCs [8], represents the main features of interest for this novel heterologous approach for the treatment of equine tendon diseases. In addition, recent studies of in vivo transplantation of ovine amniotic membrane-derived epithelial cells into the ovine Achilles tendon [12] or into spontaneous equine tendon injuries [13], demonstrated production of ovine collagen, thereby supporting the possibility of applying amniotic epithelial cells for tenocyte regeneration. In regard to the use of MSCs, it is still unclear as to whether the major contribution of MSCs to the tendon-healing process is through their ability to differentiate into tenocytes, whether they instead act mainly to supply immunomodulatory and trophic factors [14,15], or whether a combination of these two mechanisms occurs [16,17].…”

Section: Introductionmentioning

confidence: 98%

Conditioned Medium from Horse Amniotic Membrane-Derived Multipotent Progenitor Cells: Immunomodulatory Activity In Vitro and First Clinical Application in Tendon and Ligament Injuries In Vivo

Consiglio

Rossi

Tassan³

et al. 2013

Stem Cells and Development

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We have recently demonstrated that heterologous transplantation of horse amniotic membrane-derived mesenchymal cells (AMCs) can be useful for cell therapy applications in tendon diseases, and hypothesized that these cells may promote tendon repair via paracrine-acting molecules targeting inflammatory processes. To test this hypothesis, here we examined the immunomodulatory characteristics of AMCs and of their conditioned medium (AMC-CM) in vitro, and studied the potential therapeutic effect of AMC-CM in thirteen different spontaneous horse tendon and ligament injuries in vivo. Our results demonstrate that AMCs are capable of inhibiting peripheral blood mononuclear cell (PBMC) proliferation after allogenic stimulation either when cocultured in cell-to-cell contact, or when the two cell types are physically separated by a transwell membrane, suggesting that soluble factors are implicated in this phenomenon. Our hypothesis is further supported by the demonstration that PBMC proliferation is inhibited by AMC-CM. In our in vivo studies, no significant adverse effects were observed in treated tendons, and clinical and ultrasonographical evaluation did not reveal evidence of inappropriate tissue or tumor formation. Clinical outcomes were favorable and the significantly lower rate (15.38%) of reinjuries observed compared to untreated animals, suggests that treatment with AMC-CM is very efficacious. In conclusion, this study identifies AMC-CM as a novel therapeutic biological cell-free product for treating horse tendon and ligament diseases.

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“…Moreover, these cells can be stored thanks to cryopreservation and used for allogeneic transplantation in veterinary medicine. Previous experimental studies, in mechanically-induced acute tendon injuries in large animals species (sheep), have shown their good tolerance by the host, due to their low immunologic potential, and their efficacy in regenerating tendon 6,17 . Very good clinical results have been also obtained after transplantation into equine SDF acute tendinopathies, with restoration of a quite normal US pattern of tendon fibers orientation 17 Amniotic epithelial cell and tendinopathy: ultrasound and histological results In the regenerating area a higher nuclei concentration and a lower density of the extracellular matrix fibers in comparison with the healthy tendon are evident.…”

Section: Discussionmentioning

confidence: 99%

Pilot experimental study on amniotic epithelial mesenchymal cell transplantation in natural occurring tendinopathy in horses.

Muttini¹

2015

MLTJ

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were grafted, in sterile conditions and under ultrasound control, into the most damaged area. Ultrasound controls were performed at 30, 60, 90, 120, 150 and 180 days after cells implantation; after horse euthanasia (180 days) tendon samples were collected and submitted to histological examination (cellularity, extracellular matrix fiber organization, blood vessels). Results: at baseline, in the acute cases, the ultrasound exam showed a focal, dis-homogeneous, hypo-echoic area into the superficial digital flexor tendon, with loss of the normal fibrillar pattern, while in the chronic cases the damaged tendon area appeared thickened and completely hyperechoic. At the final follow-up tendon echotexture was more regular, the cross-sectional area similar to the contra-lateral limb, and the collagen fibers were oriented in parallel to the longitudinal axis of the tendon both in the acute and chronic cases, suggesting a positive healing response. These findings were supported by the histological analyses which showed an almost complete restoration of normal tendon architecture with an optimal alignment of tendon fibers. Conclusions: the present pilot study supports the hypothesis that amniotic epithelial cells are provided of an excellent healing potential and shows a very good correlation between the ultrasound findings and the histologic features.KEY WORDS: amniotic epithelial cell, histology, tendon, ultrasound, xenotrasplantation. IntroductionAdult tendons do not heal thorough a regenerative process 1 , but with the formation of a fibrotic scar, which is characterized by an abnormal collagen fiber alignment and weakened biomechanical properties 2,3 . For this reason, re-injury rate following superficial digital flexor tendon (SDFT) lesions in horses is very high and can reach 43% 4,5 . Because the poor outcome is likely to be related to the limited regenerative capacity of tenocytes 6 , an increasing interest has been devoted to stem cells based therapies 7 . At this purpose, Hertel first reported positive results with an implant of whole bone marrow (BM) into suspensory ligament lesions in horses 8 . After this seminal work, the autologous implantation of in vitro cultured BM-derived mesenchymal stem cells (BM-

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Achilles Tendon Regeneration can be Improved by Amniotic Epithelial Cell Allotransplantation

Cited by 74 publications

References 67 publications

Amniotic membrane as an option for treatment of acute Achilles tendon injury in rats

Amniotic membrane as an option for treatment of acute Achilles tendon injury in rats

Conditioned Medium from Horse Amniotic Membrane-Derived Multipotent Progenitor Cells: Immunomodulatory Activity In Vitro and First Clinical Application in Tendon and Ligament Injuries In Vivo

Pilot experimental study on amniotic epithelial mesenchymal cell transplantation in natural occurring tendinopathy in horses.

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