Your search keyword '"Geuna, Stefano"' showing total 25 results

1. Chitosan conduits enriched with fibrin-collagen hydrogel with or without adipose-derived mesenchymal stem cells for the repair of 15-mm-long sciatic nerve defect

Author

EL SOURY, MARWA MOHAMED EMADELDIN ALI MAHMOUD, Óscar Darío García-García, Tarulli, Isabella, Jesús, Chato-Astrain, Perroteau, Isabelle, Geuna, Stefano, Raimondo, Stefania, Gambarotta, Giovanna, and Víctor, Carriel

Subjects

Adipose-derived stem cells, neuregulin 1, chitosan conduit, nerve repair, fibrin and collagen hydrogel, sciatic nerve, Fibrin and collagen hydrogel, Sciatic nerve, Nerve regeneration, adipose-derived stem cells, nerve regeneration, peripheral nerve, Developmental Neuroscience, Neuregulin 1, Chitosan conduit, Nerve repair

Abstract

Hollow conduits of natural or synthetic origins have shown acceptable regeneration results in short nerve gap repair; however, results are still not comparable with the current gold standard technique “autografts”. Hollow conduits do not provide a successful regeneration outcome when it comes to critical nerve gap repair. Enriching the lumen of conduits with different extracellular materials and cells could provide a better biomimicry of the natural nerve regenerating environment and is expected to ameliorate the conduit performance. In this study, we evaluated nerve regeneration in vivo using hollow chitosan conduits or conduits enriched with fibrin-collagen hydrogels alone or with the further addition of adipose-derived mesenchymal stem cells in a 15 mm rat sciatic nerve transection model. Unexpected changes in the hydrogel consistency and structural stability in vivo led to a failure of nerve regeneration after 15 weeks. Nevertheless, the molecular assessment in the early regeneration phase (7, 14, and 28 days) has shown an upregulation of useful regenerative genes in hydrogel enriched conduits compared with the hollow ones. Hydrogels composed of fibrin-collagen were able to upregulate the expression of soluble NRG1, a growth factor that plays an important role in Schwann cell transdifferentiation. The further enrichment with adipose-derived mesenchymal stem cells has led to the upregulation of other important genes such as ErbB2, VEGF-A, BDNF, c-Jun, and ATF3., Spanish "Plan Nacional de Investigacion Cientifica, Desarrollo e Innovacion Tecnologica, Ministerio de Economia y Competitividad (Instituto de Salud Carlos III) FIS PI14-1343 FIS PI17-0393 FIS PI20-0318, Fondo Europeo de Desarrollo Regional ERDF-FEDER European Union, Plan Andaluz de Investigacion, Desarrollo e Innovacion (PAIDI2020), Consejeria de Transformacion Economica, Industria, Conocimiento y Universidades, Junta de Andalucia, Espana P18-RT-5059, Programa Operativo FEDER Andalucia 2014-2020, Universidad de Granada, Junta de Andalucia, Espana A-CTS-498-UGR18, European Commission

Published

2022

2. The Impact of the Molecular Weight of Degradation Products with Silicon from Porous Chitosan–Siloxane Hybrids on Neuronal Cell Behavior.

Author

Shirosaki, Yuki, Fregnan, Federica, Muratori, Luisa, Yasutomi, Saki, Geuna, Stefano, and Raimondo, Stefania

Subjects

SILOXANES, POROUS silicon, DORSAL root ganglia, NERVOUS system regeneration, TIME-of-flight mass spectrometry, MOLECULAR weights

Abstract

Silicon (Si) is an essential trace element in the human body and it exists in connective tissue as aqueous orthosilicic acid. Porous chitosan–3-glycidoxypropyltrimethoxysilane (GPTMS) hybrids can regenerate nerve tissue and recover sensor and motor functions. However, the structures and roles of the degradation products with Si extracted from the hybrids in nerve regeneration are not clear. In this study, we prepared porous chitosan–GPTMS hybrids with different amounts of GPTMS to amino groups of chitosan (chitosan:GPTMS = 1:0.5 and 1:1 molar ratios). The structures of the degradation products with Si from the hybrids were examined using time-of-flight mass spectrometry, and biological assessments were conducted in order to evaluate their potential use in the preparation of devices for nerve repair. Glial and motor cell lines and ex vivo explants of dorsal root ganglia were used in this study for evaluating their behavior in the presence of the different degradation products with Si. The structure of the degradation products with Si depended on the starting composition. The results showed that glial cell proliferation was lower in the medium with the higher-molecular-weight degradation products with Si. Moreover, motor cell line differentiation and the neurite outgrowth of dorsal root ganglion explants were improved with the lower-molecular-weight degradation products with Si. The results obtained could be useful for designing a new nerve regeneration scaffold including silicon components. [ABSTRACT FROM AUTHOR]

Published

2023

3. Chitosan conduits enriched with fibrin-collagen hydrogel with or without adipose-derived mesenchymal stem cells for the repair of 15-mm-long sciatic nerve defect.

Author

El Soury, Marwa, Darío García-García, Óscar, Tarulli, Isabella, Chato-Astrain, Jesús, Perroteau, Isabelle, Geuna, Stefano, Raimondo, Stefania, Gambarotta, Giovanna, and Carriel, Víctor

Published

2023

4. Potential Effects of Stem Cells Derived from the Peripheral Nerve and Adipose Tissue after the Nerve Crush Injury in Control and Obese Rats.

Author

Kayhan Kustepe, Elif, Altunkaynak, Berrin Zuhal, Alkan, Işınsu, Kivrak, Elfide Gizem, Yildiran, Alişan, and Geuna, Stefano

Subjects

PERIPHERAL nervous system, NERVE tissue, CRUSH syndrome, STEM cells, ADIPOSE tissues

Abstract

Aim of this study is to investigate effects of stem cells derived from the peripheral nerve and adipose tissues following the nerve crush injury in control and obese rats. For this aim, 41 Wistar Albino female rats were separated into eight equal groups; non-obese control (NOC) obese control (OC), non-obese injury (NOH), obese injury (OH), non-obese adipose (NOY), obese adipose (OY), non-obese nerve (NOPS), obese nerve (OPS). At the end of 8 weeks, all experimental animals without control groups were subjected to nerve crush procedure and sciatic nerve or fat stem cell homogenates were injected on the treatment group rats, and then, recovery process has been observed and histopathological, stereological, electrophysiological analyses and bioinformatic evaluation were made on removed sciatic nerves. Stereological results showed that adipose homogenate gave more successful results than peripheral nerve homogenates in the NOY group in comparison to the NOPS group in terms of myelinated axon number. Peripheral nerve homogenate has shown more successful results in the OPS group in comparison to the OY group. The number of unmyelinated axons was increased following treatment with adipose tissue homogenate in NOY and OY groups. In terms of myelin sheath thickness; we detected that treatments by peripheral nerve and especially adipose tissue homogenates lead to increase in the thickness of the axons of the peripheral nerves belong to the control and obese injury groups. All results showed that mesenchymal stem cell treatment by fresh tissue homogenates is successful in peripheral nerve regeneration and fat tissue is a considerable source of the stem cells for clinical applications. [ABSTRACT FROM AUTHOR]

Published

2022

5. Preclinical study of peripheral nerve regeneration using nerve guidance conduits based on polyhydroxyalkanaotes.

Author

Lizarraga‐Valderrama, Lorena R., Ronchi, Giulia, Nigmatullin, Rinat, Fregnan, Federica, Basnett, Pooja, Paxinou, Alexandra, Geuna, Stefano, and Roy, Ipsita

Subjects

NERVOUS system regeneration, PERIPHERAL nervous system, LABORATORY rats, BIOPOLYMERS, SCHWANN cells, POLYHYDROXYALKANOATES, MEDIAN nerve

Abstract

Nerve guidance conduits (NGCs) are used as an alternative to the "gold standard" nerve autografting, preventing the need for surgical intervention required to harvest autologous nerves. However, the regeneration outcomes achieved with the current NGCs are only comparable with autografting when the gap is short (less than 10 mm). In the present study, we have developed NGCs made from a blend of polyhydroxyalkanoates, a family of natural resorbable polymers. Hollow NGCs made from a 75:25 poly(3‐hydroxyoctanoate)/poly(3‐hydroxybutyrate) blend (PHA‐NGCs) were manufactured using dip‐molding. These PHA‐NGCs showed appropriate flexibility for peripheral nerve regeneration. In vitro cell studies performed using RT4‐D6P2T rat Schwann cell line confirmed that the material is capable of sustaining cell proliferation and adhesion. PHA‐NGCs were then implanted in vivo to repair 10 mm gaps of the median nerve of female Wistar rats for 12 weeks. Functional evaluation of the regenerated nerve using the grasping test showed that PHA‐NGCs displayed similar motor recovery as the autograft, starting from week 7. Additionally, nerve cross‐sectional area, density and number of myelinated cells, as well as axon diameter, fiber diameter, myelin thickness and g‐ratio obtained using the PHA‐NGCs were found comparable to an autograft. This preclinical data confirmed that the PHA‐NGCs are indeed highly promising candidates for peripheral nerve regeneration. [ABSTRACT FROM AUTHOR]

Published

2021

6. Combined Influence of Gelatin Fibre Topography and Growth Factors on Cultured Dorsal Root Ganglia Neurons

Author

Gnavi, Sara, Morano, Michela, Fornasari, BENEDETTA ELENA, Riccobono, Claudio, Chiara, TONDA-TURO, Zanetti, Marco, Gianluca, Ciardelli, Gambarotta, Giovanna, Perroteau, Isabelle, Geuna, Stefano, and Raimondo, Stefania

Subjects

Histology, Sensory Receptor Cells, neuronal subtypes, Evolution, Neuronal Outgrowth, Primary Cell Culture, Nanofibers, Behavior and Systematics, Cell Movement, Ganglia, Spinal, growth factors, Neurites, Animals, Nerve Growth Factors, Rats, Wistar, nerve regeneration, electrospinning, NGF, Tissue Scaffolds, Ecology, BDNF, GDNF, gelatin fibres, Anatomy, Biotechnology, Ecology, Evolution, Behavior and Systematics, Culture Media, gelatin fibres, electrospinning, nerve regeneration, neuronal subtypes, growth factors, NGF, BDNF, GDNF, Biomarkers

Abstract

Nerve guidance channels facilitate nerve regeneration and represent an attractive alternative to nerve graft. Actually, nano- and microstructured biomaterials for nerve reconstruction have gained much attention, thanks to recent discoveries about topography effects on cell behavior and morphology. Electrospun fibres have been proposed as filler or structural component for nerve guidance channels, principally due to their similarity with extracellular matrices which facilitate nerve regeneration. Among several tested biomaterials, gelatin has been used to prepare fibres able to support Schwann cell migration and neurite outgrowth. In this work, the effects of gelatin fibre size on axon elongation and Schwann cell migration have been tested using dorsal root ganglia cultures. Moreover, we analyzed how fibres might affect the expression of specific neuronal subtype markers in sensory neuron cultures and how the combined effect of substrate and biological cues affects neurite growth and gene expression. Data show that fibre topography differentially affects both neurite outgrowth and gene expression and suggest that fibre size and topography associated to specific growth factor exposure might be used to select neuron subpopulations and favor the axonal growth of specific neurons. Anat Rec, 301:1668-1677, 2018. © 2018 Wiley Periodicals, Inc.

Published

2018

7. Evaluation of Vascular Endothelial Growth Factor (VEGF) and Its Family Member Expression After Peripheral Nerve Regeneration and Denervation

Author

Muratori, Luisa, Gnavi, Sara, Fregnan, F., Mancardi, Anabella, Raimondo, Stefania, Perroteau, Isabelle, and Geuna, Stefano

Subjects

Vascular Endothelial Growth Factor A, Histology, Evolution, median nerve transaction, Median Neuropathy, Down-Regulation, Crush Injuries, Behavior and Systematics, Cell Movement, Peripheral Nerve Injuries, Animals, Rats, Wistar, VEGF receptors, crush injury, Cell Proliferation, Ecology, VEGF, Denervation, peripheral nerve regeneration, Neuropilin-1, Median Nerve, Nerve Regeneration, Neuropilin-2, Up-Regulation, end-to-end repair, neuropilin, Anatomy, Biotechnology, Ecology, Evolution, Behavior and Systematics, Receptors, Vascular Endothelial Growth Factor, Female, Schwann Cells

Abstract

Vascular endothelial growth factor (VEGF) represents one of the main factors involved not only in angiogenesis and vasculogenesis but also in neuritogenesis. VEGF plays its function acting via different receptors: VEGF receptor1 (VEGFR-1), VEGF receptor2 (VEGFR-2), VEGF receptor3 (VEGFR-3), and co-receptors Neuropilin-1 (NRP1) and Neuropilin-2 (NRP2). This study reports on the first in vivo analysis of the expression of VEGF and VEGF family molecules in peripheral nerve degeneration and regeneration: for this purpose, different models of nerve lesion in rat were adopted, the median nerve crush injury and the median nerve transaction followed or not by end-to end microsurgical repair. Results obtained by real time polymerase chain reaction showed that VEGF and VEGF family molecules are differentially expressed under regenerating and degenerating condition, furthermore, in order to study the modulation and involvement of these factors in two different regenerative models, crush injury and end-to-end repair, protein expression analysis was evaluated. In addition, immunohistochemical analysis allowed to state a glial localization of VEGF and VEGFR-2 after peripheral nerve crush injury. Finally in vitro assay on primary Schwann cells culture show that VEGF165 stimulation increases Schwann cells migration, a major process in the promotion of neurite outgrowth. Anat Rec, 301:1646-1656, 2018. © 2018 Wiley Periodicals, Inc.

Published

2017

8. Evaluation of PVA biodegradable electric conductive membranes for nerve regeneration in axonotmesis injuries: the rat sciatic nerve animal model

Author

Ribeiro, Jorge, Caseiro, Ana Rita, Pereira, Tiago, Armada da Silva, Paulo Alexandre, Pires, Isabel, Prada, Justina, Amorim, Irina, Leal Reis, Inês, Amado, Sandra, Santos, José Domingos, Bompasso, Simone, Raimondo, Stefania, Varejão, Artur Severo Proença, Geuna, Stefano, Luís, Ana Lúcia, and Maurício, Ana Colette

Subjects

Male, carbon nanotubes, morphometric analysis, axonotmesis, functional analysis, nerve regeneration, nerve-guides, neurogenic atrophy, polypyrrole, polyvinyl alcohol, Ceramics and Composites, Biomaterials, Biomedical Engineering, 2506, Membranes, Artificial, Sciatic Nerve, Nerve Regeneration, Rats, Rats, Sprague-Dawley, Polyvinyl Alcohol, Absorbable Implants, Animals

Abstract

The therapeutic effect of three polyvinyl alcohol (PVA) membranes loaded with electrically conductive materials - carbon nanotubes (PVA-CNTs) and polypyrrole (PVA-PPy) - were tested in vivo for neuro-muscular regeneration after an axonotmesis injury in the rat sciatic nerve. The membranes electrical conductivity measured was 1.5 ± 0.5 × 10

Published

2016

9. Ghrelin: A novel neuromuscular recovery promoting factor?

Author

Raimondo, Stefania, Ronchi, Giulia, Geuna, Stefano, Pascal, Davide, Reano, Simone, Filigheddu, Nicoletta, GRAZIANI, ANDREA, Raimondo, S, Ronchi, G, Geuna, S, Pascal, D, Reano, S, Filigheddu, N, Graziani, A, Perroteau, I, Tos, P, Battiston, B, Raimondo, Stefania, Ronchi, Giulia, Geuna, Stefano, Pascal, Davide, Reano, Simone, Filigheddu, Nicoletta, and Graziani, Andrea

Subjects

Animal, Ghrelin, Injury, Peripheral nerve, Regeneration, Skeletal muscle, Animals, Axons, Humans, Nerve Regeneration, Neuromuscular Agents, Peripheral Nerve Injuries, Recovery of Function, Neurology (clinical), Cellular and Molecular Neuroscience, Peripheral Nerve Injurie, Axon, Human, Neuromuscular Agent

Abstract

Promoting neuromuscular recovery after neural injury is a major clinical issue. While techniques for nerve reconstruction are continuously improving and most peripheral nerve lesions can be repaired today, recovery of the lost function is usually unsatisfactory. This evidence claims for innovative nonsurgical therapeutic strategies that can implement the outcome after neural repair.Although no pharmacological approach for improving posttraumatic neuromuscular recovery has still entered clinical practice, various molecules are explored in experimental models of neural repair. One of such molecules is the circulating peptide hormone ghrelin. This hormone has proved to have a positive effect on neural repair after central nervous system lesion, and very recently its effectiveness has also been demonstrated in preventing posttraumatic skeletal muscle atrophy. By contrast, no information is still available about its effectiveness on peripheral nerve regeneration although preliminary data from our laboratory suggest that this molecule can have an effect also in promoting axonal regeneration after nerve injury and repair.Should this be confirmed, ghrelin might represent an ideal candidate as a therapeutic agent for improving posttraumatic neuromuscular recovery because of its putative effects at all the various structural levels involved in this regeneration process, namely, the central nervous system, the peripheral nerve, and the target skeletal muscle. © 2013 Elsevier Inc.

Published

2013

10. New basic insights on the potential of a chitosan‐based medical device for improving functional recovery after radical prostatectomy.

Author

Muratori, Luisa, Fregnan, Federica, Ronchi, Giulia, Haastert‐Talini, Kirsten, Metzen, Jennifer, Bertolo, Riccardo, Porpiglia, Francesco, and Geuna, Stefano

Subjects

MEDICAL equipment, PERIPHERAL nervous system, CANCER cell proliferation, MEDIAN nerve, NERVE tissue

Abstract

Objectives: To evaluate: (i) the neuro‐regenerative potential of chitosan membrane (CS‐Me) on acutely axotomised autonomic neurones in vitro; (ii) to exclude the possibility that a pro‐regenerative biomaterial could interfere with the proliferation activity of prostate cancer cell lines; (iii) to provide an in vivo proof of the biocompatibility and regeneration promoting effect of CS‐Me in a standardised rat model of peripheral nerve injury and repair; (iv) finally, to evaluate the tissue reaction induced by the degrading material; as previous studies have shown promising effects of CS‐Me for protection of the neurovascular bundles for potency recovery in patients that undergo nerve‐sparing radical prostatectomy (RP). Materials and Methods: Addressing aim (i), the neuro‐regenerative potential, organotypic cultures derived from primary sympathetic ganglia were cultured on CS‐Me over 3 days and neurite extension and axonal sprouting were evaluated. Addressing aim (ii), effects of CS on cancer cells, different human prostate cancer cell lines (PC3, DU‐145, LN‐Cap) were seeded on CS‐coated plates or cultured in the presence of CS‐Me dissolution products. Addressing aims (iii) and (iv), functional recovery of peripheral nerve fibres and tissue reaction with the biomaterial, CS‐Me and CS nerve guides were used to repair a median nerve injury in the rat. Functional recovery was evaluated during the post‐recovery time by the behavioural grasping test. Results: CS‐Me significantly stimulated axon elongation from autonomic ganglia in comparison to control conditions in organotypic three‐dimensional cultures. CS coating, as well as the dissolution products of CS‐Me, led to a significantly lower proliferation rate of prostate cancer cell lines in vitro. Tissue reaction towards CS‐Me and standard CS nerve guides was similar in the rat median nerve model, as was the outcome of nerve fibre regeneration and functional recovery. Conclusion: The results of this study provide the first experimental evidence in support of the clinical safety of CS‐Me and of their postulated effectiveness for improving functional recovery after RP. The presented results are coherent in demonstrating that acutely axotomised autonomic neurones show increased neurite outgrowth on CS‐Me substrate, whilst the same substrate reduces prostate cancer cell line proliferation in vitro. Furthermore, CS‐Me do not demonstrate any disadvantage for peripheral nerve repair in a standard animal model. [ABSTRACT FROM AUTHOR]

Published

2019

11. Correlation analysis of histomorphometry and motor neurography in the median nerve rat model

Author

Manoli, Theodora, Werdin, Frank, Gruessinger, Hannes, Sinis, Nektarios, Schiefer, Jennifer Lynn, Jaminet, Patrick, Geuna, Stefano, and Schaller, Hans-Eberhard

Subjects

neurography, Journal Article, median nerve, electrophysiology, nerve regeneration, morphometry

Abstract

Objective: Standard methods to evaluate the functional regeneration after injury of the rat median nerve are insufficient to identify any further differences of axonal nerve regeneration after restitution of motor recovery is completed. An important complementary method for assessing such differences is a histomorphometric analysis of the distal to lesion nerve fibers. Recently, an electrophysiological method has been proposed as a sensitive method to examine the quality of axonal nerve regeneration. Methods: A linear regression analysis has been performed to correlate histomorphometric and neurographic data originating from 31 rats subjected to neurotmesis and immediate reconstruction of their right median nerve. Results: A significant linear correlation between the velocity of neuromuscular conduction and the total number of nerve fibers (P = .037) as well as between the amplitude of compound muscle action potential and the total number of nerve fibers (P = .026) has been identified. Interestingly, a significant correlation between the velocity of neuromuscular conduction and the square root of the cross-sectional area of the nerve could be found (P = .008). This corresponds to a linear correlation between the velocity of neuromuscular conduction and the radius of the nerve. Conclusion: These results contribute in a better interpretation of morphological predictors of nerve regeneration and verify the previously described electrophysiological assessment in the median nerve rat model as a valid method.

Published

2014

12. Nerve Repair Using Decellularized Nerve Grafts in Rat Models. A Review of the Literature.

Author

Lovati, Arianna B., D'Arrigo, Daniele, Odella, Simonetta, Tos, Pierluigi, Geuna, Stefano, and Raimondo, Stefania

Abstract

Peripheral nerve regeneration after severe traumatic nerve injury is a relevant clinical problem. Several different strategies have been investigated to solve the problem of bridging the nerve gap. Among these, the use of decellularized nerve grafts has been proposed as an alternative to auto/isografts, which represent the current gold standard in the treatment of severe nerve injury. This study reports the results of a systematic review of the literature published between January 2007 and October 2017. The aim was to quantitatively analyze the effectiveness of decellularized nerve grafts in rat experimental models. The review included 33 studies in which eight different decellularization protocols were described. The decellularized nerve grafts were reported to be immunologically safe and able to support both functional and morphological regeneration after nerve injury. Chemical protocols were found to be superior to physical protocols. However, further research is needed to optimize preparation protocols, including recellularization, improve their effectiveness, and substitute the current gold standard, especially in the repair of long nerve defects. [ABSTRACT FROM AUTHOR]

Published

2018

13. A long-term posttraumatic study in the rat median nerve crush injury model

Author

Geuna, Stefano, Muratori, Luisa, Ronchi, Giulia, Raimondo, Stefania, Fornaro, Michele, and Giacobini-Robecchi, Maria G.

Subjects

crush injury, nerve regeneration, median nerve, quantitative morphology, rat

Abstract

The possibility that posttraumatic regeneration may eventually lead rat peripheral nerve fibers back to normal is still under debate. While it has been shown that, after a sufficiently long posttraumatic time, the number of regenerated rat peripheral nerve fibers can return to normal levels and the animal can regain normal pre-lesion function, no information regarding long-term changes in size parameters of regenerated nerve fibers is still available. To fill this gap, 24-week posttraumatic changes in myelinated axon and nerve fiber diameter, myelin thickness and g-ratio (axon diameter/fiber diameter), distal to a nerve crush (axonotmesis lesion) of the rat median nerve were assessed by stereology. Results showed that, while as expected fiber number returned to normal values at week-24, both axon and fiber diameter and myelin thickness were still significantly lower at week-24 in comparison to pre-lesion values. Finally, g-ratio, which persisted unmodified along the regeneration process, eventually resulted to be significantly reduced at week-24 in comparison to pre-lesion value. Based on these results, the hypothesis that regenerated rat peripheral nerve fibers are able to spontaneously return to normal, provided that a sufficiently long time recovery post-axonotmesis is allowed, is rejected., Italian Journal of Anatomy and Embryology, Vol 116, No 1 (Supplement) 2011

Published

2011

14. Experimental and clinical employment of end-to-side coaptation: our experience

Author

Tos, Pierluigi, Geuna, Stefano, Papalia, I, Conforti, Lg, Artiaco, S, and Battiston, B.

Subjects

Adult, Male, Suture Techniques, Peripheral Nervous System Diseases, Recovery of Function, Middle Aged, Neurosurgical Procedures, Nerve Regeneration, Rats, Disease Models, Animal, Young Adult, Animals, Humans, Female, Rats, Wistar, Follow-Up Studies, Retrospective Studies

Abstract

The last 15 years have seen a growing interest regarding a technique for nerve repair named end-to-side coaptation. Since 2000, we have carried out experimental studies on end-to-side nerve repair as well as employed this technique to a series of selected clinical cases. Here we report on the results of this experience.For experimental studies, we have used the model represented by median nerve repair by end-to-side coaptation either on the ulnar (agonistic) or the radial (antagonistic) nerve. For time course assessment of median nerve functional recovery we used the grasping test, a test which permits to assess voluntary control of muscle function. Repaired nerves were processed for resin embedding to allow nerve fibre stereology and electron microscopy. Results showed that, in either experimental group, end-to-side-repaired median nerves were repopulated by axons regenerating from ulnar and radial donor nerves, respectively. Moreover, contrary to previously published data, our results showed that voluntary motor control of the muscles innervated by the median nerve was progressively recovered also when the antagonistic radial nerve was the donor nerve.As regards our clinical experience, results were not so positive. We have treated by end-to-side coaptation patients with both sensory (n = 7, collateral digital nerves) and mixed (n = 8, plexus level) nerve lesions. Results were good, as in other series, in sensory nerves whilst they were very difficult to investigate in mixed nerves at the plexus level.Take together, these results suggest that clinical employment of end-to-side coaptation should still be considered at the moment as the ultima ratio in cases in which no other repair technique can be attempted. Yet, it is clear that more basic research is needed to explain the reasons for the different results between laboratory animal and humans and, especially, to find out how to ameliorate the outcome of end-to-side nerve repair by adequate treatment and rehabilitation.

Published

2010

15. The use of sheep as a model for studying peripheral nerve regeneration following nerve injury: review of the literature.

Author

Diogo, Camila Cardoso, Camassa, José Arthur, Pereira, José Eduardo, Costa, Luís Maltez da, Filipe, Vítor, Couto, Pedro Alexandre, Geuna, Stefano, Maurício, Ana Colette, and Varejão, Artur Severo

Abstract

Peripheral nerve injury and regeneration is a challenging scientific field with relevant clinical implications. Most peripheral nerve regeneration studies have been mainly carried out on rodents. However, it is important to note that the validity of the rodent as a model to study nerve injury and regeneration and translate these results into clinical practice has been questioned by several researchers. To overcome this problem, some investigators have used companion animals and large animal species as models for experimental peripheral nerve regeneration studies. Live sheep are often used in biomedical research because of availability, simplicity of care and housing, cost and body weight similar to humans and acceptance by society as a research animal. Despite these advantages, studies on nerve regeneration and repair in sheep have only been undertaken a few decades ago and compared to rat and mice experimental studies, there are much fewer investigations. The authors have compiled and sorted the available literature on experimental ovine nerve studies in order to guide the peripheral nerve investigator in choosing clinically relevant and interpretable models for studies on neural regeneration that are much needed in order to make progress towards new surgical and medical treatment of peripheral nerves. [ABSTRACT FROM PUBLISHER]

Published

2017

16. Evaluation of PVA biodegradable electric conductive membranes for nerve regeneration in axonotmesis injuries: the rat sciatic nerve animal model.

Author

Ribeiro, Jorge, Caseiro, Ana Rita, Pereira, Tiago, Armada‐da‐Silva, Paulo Alexandre, Pires, Isabel, Prada, Justina, Amorim, Irina, Leal Reis, Inês, Amado, Sandra, Santos, José Domingos, Bompasso, Simone, Raimondo, Stefania, Varejão, Artur Severo Proença, Geuna, Stefano, Luís, Ana Lúcia, and Maurício, Ana Colette

Abstract

The therapeutic effect of three polyvinyl alcohol (PVA) membranes loaded with electrically conductive materials - carbon nanotubes ( PVA-CNTs) and polypyrrole ( PVA-PPy) - were tested in vivo for neuro-muscular regeneration after an axonotmesis injury in the rat sciatic nerve. The membranes electrical conductivity measured was 1.5 ± 0.5 × 10−6 S/m, 579 ± 0.6 × 10−6 S/m, and 1837.5 ± 0.7 × 10−6 S/m, respectively. At week-12, a residual motor and nociceptive deficit were present in all treated groups, but at week-12, a better recovery to normal gait pattern of the PVA-CNTs and PVA-PPy treated groups was observed. Morphometrical analysis demonstrated that PVA-CNTs group presented higher myelin thickness and lower g-ratio. The tibialis anterior muscle, in the PVA-PPy and PVA-CNTs groups showed a 9% and 19% increase of average fiber size area and a 5% and 10% increase of the 'minimal Feret's diameter,' respectively. No inflammation, degeneration, fibrosis or necrosis were detected in lung, liver, kidneys, spleen, and regional lymph nodes and absence of carbon deposits was confirmed with Von Kossa and Masson-Fontana stains. In conclusion, the membranes of PVA-CNTs and PVA-PPy are biocompatible and have electrical conductivity. The higher electrical conductivity measured in PVA-CNTs membrane might be responsible for the positive results on maturation of myelinated fibers. © 2017 Wiley Periodicals, Inc. J Biomed Mater Res Part A: 105A: 1267-1280, 2017. [ABSTRACT FROM AUTHOR]

Published

2017

17. Strategies to improve cavernous nerve regeneration after radical prostatectomy.

Author

Muratori, Luisa, Fregnan, Federica, Crosio, Alessandro, Zen, Federica, Manfredi, Matteo, Tonazzini, Ilaria, Meziere, Juliette, Porpiglia, Francesco, Geuna, Stefano, and Raimondo, Stefania

Abstract

The article focuses on strategies to improve cavernous nerve regeneration after radical prostatectomy, with a specific focus on the use of chitosan membranes, which have been shown to promote nerve regeneration in clinical and experimental settings.

Published

2023

18. Epineurial Window Is More Efficient in Attracting Axons than Simple Coaptation in a Sutureless (Cyanoacrylate-Bound) Model of End-to-Side Nerve Repair in the Rat Upper Limb: Functional and Morphometric Evidences and Review of the Literature.

Author

Papalia, Igor, Magaudda, Ludovico, Righi, Maria, Ronchi, Giulia, Viano, Nicoletta, Geuna, Stefano, and Colonna, Michele Rosario

Subjects

NERVOUS system regeneration, AXONS, CYANOACRYLATES, MORPHOMETRICS, MEDICAL literature reviews, ORGAN donors, HEALTH

Abstract

End-to-side nerve coaptation brings regenerating axons from the donor to the recipient nerve. Several techniques have been used to perform coaptation: microsurgical sutures with and without opening a window into the epi(peri)neurial connective tissue; among these, window techniques have been proven more effective in inducing axonal regeneration. The authors developed a sutureless model of end-to-side coaptation in the rat upper limb. In 19 adult Wistar rats, the median and the ulnar nerves of the left arm were approached from the axillary region, the median nerve transected and the proximal stump sutured to the pectoral muscle to prevent regeneration. Animals were then randomly divided in two experimental groups (7 animals each, 5 animals acting as control): Group 1: the distal stump of the transected median nerve was fixed to the ulnar nerve by applying cyanoacrylate solution; Group 2: a small epineurial window was opened into the epineurium of the ulnar nerve, caring to avoid damage to the nerve fibres; the distal stump of the transected median nerve was then fixed to the ulnar nerve by applying cyanoacrylate solution. The grasping test for functional evaluation was repeated every 10–11 weeks starting from week-15, up to the sacrifice (week 36). At week 36, the animals were sacrificed and the regenerated nerves harvested and processed for morphological investigations (high-resolution light microscopy as well as stereological and morphometrical analysis). This study shows that a) cyanoacrylate in end-to-side coaptation produces scarless axon regeneration without toxic effects; b) axonal regeneration and myelination occur even without opening an epineurial window, but c) the window is related to a larger number of regenerating fibres, especially myelinated and mature, and better functional outcomes. [ABSTRACT FROM AUTHOR]

Published

2016

19. Discrepancies in quantitative assessment of normal and regenerated peripheral nerve fibers between light and electron microscopy.

Author

Ronchi, Giulia, Jager, Sara Buskbjerg, Vaegter, Christian Bjerggaard, Raimondo, Stefania, Giacobini-Robecchi, Maria Giuseppina, and Geuna, Stefano

Subjects

AUTOGRAFTS, COMPARATIVE studies, ELECTRON microscopy, PERIPHERAL nervous system, NEURONS

Abstract

Quantitative estimation of myelinated nerve fiber number, together with fiber size parameters, is one of the most important tools for nerve regeneration research. In this study we used a design-based stereological method to evaluate the regenerative process in two experimental paradigms: crush injury and autograft repair. Samples were embedded in resin and morphometric counting and measurements were performed using both light and electron microscopes. Results show a significant difference in myelinated fiber number estimation between light and electron microscopes, especially after autograft repair; light microscope significantly underestimates the number of fibers because of the large number of very small axons that can be detected only in electron microscope. The analysis of the size parameters also shows a higher number of small fibers in electron microscopic analysis, especially in regenerated nerves. This comparative study shows that the integration of data obtained in light microscope with those obtained in electron microscope is necessary in revealing very small myelinated fibers that cannot be detected otherwise. Moreover, the difference in the estimation of total number of myelinated fibers between light and electron microscopes must be considered in data analysis to ensure accurate interpretation of the results. [ABSTRACT FROM AUTHOR]

Published

2014

20. Local administration of DFO-loaded lipid particles improves recovery after end-to-end reconstruction of rat median nerve.

Author

Sinis, Nektarios, Di Scipio, Frederica, Schönle, Phillip, Werdin, Frank, Kraus, Armin, Koopmanns, Guido, Masanneck, Carmen, Hermanns, Susanne, Danker, Timm, Guenther, Elke, Haerle, Max, Schaller, Hans-Eberhard, Geuna, Stefano, and Mueller, Hans-Werner

Subjects

RATS, PERIPHERAL nervous system surgery, NERVOUS system regeneration, SUTURES, IRON chelates, MEDIAN nerve, LIPIDS, IMMUNOCYTOCHEMISTRY

Abstract

Purpose: The improvement of regeneration and functional recovery after peripheral nerve injury is a major challenge in neurosurgery. Although microsurgical techniques for nerve reconstruction have seen great advancements over the last years, the clinical outcome with patients is often unsatisfactory. The aim of the present study was to investigate if administration of the iron chelator Deferroxamine (DFO), can improve postoperative outcome in the rat median nerve reconstruction model. Methods: After complete transection, the right median nerve was repaired by end-to-end neurorrhaphy. The suture site was wrapped by a 1-cm-long external jugular vein segment, either empty or filled with DFO-loaded lipid particles (Perineurin© or with a vehicle (unloaded lipid particles) alone. Functional testing was carried out weekly by means of the grasping test. At the time of withdrawal, 12 weeks post-operatively, muscle tropism recovery was assessed by weighing flexor digitorum sublimis muscle that is innervated by the median nerve only. Before harvesting of the nerve specimens electrophysiological analyses were performed with measuring the latency, the threshold and the conduction velocity. Finally, the repaired nerves were withdrawn for immunocytochemistry with a neurofilament antibody and axon quantitative morphology. Results: The comparison between the groups showed that intraoperative application of the DFO-loaded lipid particles at the neurorrhaphy site led to a significant increase in the density of regenerating axons as well as to an accelerated recovery of both muscle tropism and motor function. The electrophysiological results demonstrated a decrease of the threshold, a lower latency, and a higher conduction velocity in the Perineurin©-treated animals. Conclusions: The results of the present study suggest that local administration of Perineurin© might have a therapeutic potential for improving the postoperative outcome after microsurgical nerve reconstruction in patients. [ABSTRACT FROM AUTHOR]

Published

2009

21. End-to-side (terminolateral) nerve regeneration: A challenge for neuroscientists coming from an intriguing nerve repair concept

Author

Geuna, Stefano, Papalia, Igor, and Tos, Pierluigi

Subjects

*NERVOUS system regeneration, *DEVELOPMENTAL neurobiology, *NEUROPLASTICITY, *NERVE fibers

Abstract

Abstract: The last 15 years have seen a growing interest regarding a technique for nerve repair named end-to-side (terminolateral) neurorrhaphy. This technique is based on the concept that nerve fiber regeneration along the distal stump of a transected nerve, the proximal stump of which was lost, can be obtained by just suturing the proximal end of its distal stump to the epinerium of a neighbor healthy and undamaged donor nerve. A large body of experimental studies have shown that end-to-side neurorrhaphy, in fact, is able to induce collateral sprouting from donor nerve''s axons which is at the basis of the massive repopulation of the distal nerve stump. The regenerating nerve fibers eventually reinnervate the periphery of the severed nerve leading to a recovery of the lost function the degree of which varies depending on factors that still have to be elucidated. Surprisingly, this puzzling concept of nerve regeneration has attracted very little attention from basic neuroscientists so far and, thus, the present paper is intended to call for more biological research on it by overviewing the relevant literature and indicating the several unanswered questions that this concept asks to the neuroscience community. [Copyright &y& Elsevier]

Published

2006

22. Fibroblasts Colonizing Nerve Conduits Express High Levels of Soluble Neuregulin1, a Factor Promoting Schwann Cell Dedifferentiation.

Author

Fornasari, Benedetta E., El Soury, Marwa, Nato, Giulia, Fucini, Alessia, Carta, Giacomo, Ronchi, Giulia, Crosio, Alessandro, Perroteau, Isabelle, Geuna, Stefano, Raimondo, Stefania, and Gambarotta, Giovanna

Subjects

SCHWANN cells, FIBROBLASTS, NEURONS, NERVES, PERIPHERAL nervous system, NERVOUS system regeneration

Abstract

Conduits for the repair of peripheral nerve gaps are a good alternative to autografts as they provide a protected environment and a physical guide for axonal re-growth. Conduits require colonization by cells involved in nerve regeneration (Schwann cells, fibroblasts, endothelial cells, macrophages) while in the autograft many cells are resident and just need to be activated. Since it is known that soluble Neuregulin1 (sNRG1) is released after injury and plays an important role activating Schwann cell dedifferentiation, its expression level was investigated in early regeneration steps (7, 14, 28 days) inside a 10 mm chitosan conduit used to repair median nerve gaps in Wistar rats. In vivo data show that sNRG1, mainly the isoform α, is highly expressed in the conduit, together with a fibroblast marker, while Schwann cell markers, including NRG1 receptors, were not. Primary culture analysis shows that nerve fibroblasts, unlike Schwann cells, express high NRG1α levels, while both express NRG1β. These data suggest that sNRG1 might be mainly expressed by fibroblasts colonizing nerve conduit before Schwann cells. Immunohistochemistry analysis confirmed NRG1 and fibroblast marker co-localization. These results suggest that fibroblasts, releasing sNRG1, might promote Schwann cell dedifferentiation to a "repair" phenotype, contributing to peripheral nerve regeneration. [ABSTRACT FROM AUTHOR]

Published

2020

23. Chitosan films for regenerative medicine: fabrication methods and mechanical characterization of nanostructured chitosan films.

Author

De Masi, Alessia, Tonazzini, Ilaria, Masciullo, Cecilia, Mezzena, Roberta, Chiellini, Federica, Puppi, Dario, and Cecchini, Marco

Abstract

Regenerative medicine is continuously facing new challenges and it is searching for new biocompatible, green/natural polymer materials, possibly biodegradable and non-immunogenic. Moreover, the critical importance of the nano/microstructuring of surfaces is overall accepted for their full biocompatibility and in vitro/in vivo performances. Chitosan is emerging as a promising biopolymer for tissue engineering and its application can be further improved by exploiting its nano/microstructuration. Here, we report the state of the art of chitosan films and scaffolds nano/micro-structuration. We show that it is possible to obtain, by solvent casting, chitosan thin films with good mechanical properties and to structure them at the microscale and even nanoscale level, with resolutions down to 100 nm. [ABSTRACT FROM AUTHOR]

Published

2019

24. Preclinical Validation of SilkBridgeTM for Peripheral Nerve Regeneration

Author

Federica Fregnan, Luisa Muratori, Giulia A. Bassani, Alessandro Crosio, Marco Biagiotti, Valentina Vincoli, Giacomo Carta, Pasquale Pierimarchi, Stefano Geuna, Antonio Alessandrino, Giuliano Freddi, and Giulia Ronchi

Subjects

0301 basic medicine, Histology, Materials science, functional recovery, lcsh:Biotechnology, Biomedical Engineering, Nerve guidance conduit, Fibroin, Bioengineering, 02 engineering and technology, mechanical properties, biodegradation, 03 medical and health sciences, Electrical conduit, In vivo, Peripheral nerve, Biological property, lcsh:TP248.13-248.65, nerve conduit, nerve regeneration, Original Research, long-term biocompatibility, in vivo, silk fibroin, Bioengineering and Biotechnology, 021001 nanoscience & nanotechnology, Median nerve, 030104 developmental biology, 0210 nano-technology, Biotechnology, Lumen (unit), Biomedical engineering

Abstract

Silk fibroin (Bombyx mori) was used to manufacture a nerve conduit (SilkBridge(TM)) characterized by a novel 3D architecture. The wall of the conduit consists of two electrospun layers (inner and outer) and one textile layer (middle), perfectly integrated at the structural and functional level. The manufacturing technology conferred high compression strength on the device, thus meeting clinical requirements for physiological and pathological compressive stresses. As demonstrated in a previous work, the silk material has proven to be able to provide a valid substrate for cells to grow on, differentiate and start the fundamental cellular regenerative activitiesin vitroand,in vivo, at the short time point of 2 weeks, to allow the starting of regenerative processes in terms of good integration with the surrounding tissues and colonization of the wall layers and of the lumen with several cell types. In the present study, a 10 mm long gap in the median nerve was repaired with 12 mm SilkBridge(TM)conduit and evaluated at middle (4 weeks) and at longer time points (12 and 24 weeks). The SilkBridge(TM)conduit led to a very good functional and morphological recovery of the median nerve, similar to that observed with the reference autograft nerve reconstruction procedure. Taken together, all these results demonstrated that SilkBridge(TM)has an optimized balance of biomechanical and biological properties, which allowed proceeding with a first-in-human clinical study aimed at evaluating safety and effectiveness of using the device for the reconstruction of digital nerve defects in humans.

Published

2020

25. The ulnar test: A method for the quantitative functional assessment of posttraumatic ulnar nerve recovery in the rat

Author

Papalia, Igor, Tos, Pierluigi, Scevola, Anna, Raimondo, Stefania, and Geuna, Stefano

Subjects

*ULNAR nerve, *EXTREMITIES (Anatomy), *NERVOUS system, *BRACHIAL plexus

Abstract

Abstract: The assessment of recovery of the neuromuscular function following nerve lesion and repair is one of the main goals of peripheral nerve researchers. The forelimb model has recently seen an increase in its employment for experimental nerve repair studies especially because of the availability of the grasping test for assessing the functional recovery of one of its major nerves, the median nerve. Nerve repair studies sometimes require the use of more than one nerve to simulate severe clinical situations and, in this case, the ulnar nerve is often used together with the median nerve. However, a test for assessing ulnar nerve functional recovery is yet not available. To fill this gap, we have developed and experimentally tested a method for the functional assessment of posttraumatic ulnar nerve recovery in the rat. Animal testing using this method is simple, quick and provides the animal with minimal distress. The method proved to be effective in detecting the date on which recovery starts after ulnar nerve impairment and in following its improvement, over time. The availability of this new test is expected to further increase the employment of forelimb experimental nerve models instead of the more disabling hindlimb models. [Copyright &y& Elsevier]

Published

2006