Your search keyword '"Geuna, Stefano"' showing total 21 results

1. Mice harbouring a SCA28 patient mutation in AFG3L2 develop late-onset ataxia associated with enhanced mitochondrial proteotoxicity.

Author

Mancini C, Hoxha E, Iommarini L, Brussino A, Richter U, Montarolo F, Cagnoli C, Parolisi R, Gondor Morosini DI, Nicolò V, Maltecca F, Muratori L, Ronchi G, Geuna S, Arnaboldi F, Donetti E, Giorgio E, Cavalieri S, Di Gregorio E, Pozzi E, Ferrero M, Riberi E, Casari G, Altruda F, Turco E, Gasparre G, Battersby BJ, Porcelli AM, Ferrero E, Brusco A, and Tempia F

Subjects

Animals, Female, Gene Knock-In Techniques, Membrane Potential, Mitochondrial, Mice, Inbred C57BL, Mitochondrial Proteins metabolism, Mutation, Missense, Purkinje Cells physiology, Purkinje Cells ultrastructure, Spinocerebellar Ataxias genetics, Spinocerebellar Ataxias metabolism, Spinocerebellar Ataxias pathology, ATP-Dependent Proteases genetics, ATPases Associated with Diverse Cellular Activities genetics, Disease Models, Animal, Mitochondria metabolism, Spinocerebellar Ataxias congenital

Abstract

Spinocerebellar ataxia 28 is an autosomal dominant neurodegenerative disorder caused by missense mutations affecting the proteolytic domain of AFG3L2, a major component of the mitochondrial m-AAA protease. However, little is known of the underlying pathogenetic mechanisms or how to treat patients with SCA28. Currently available Afg3l2 mutant mice harbour deletions that lead to severe, early-onset neurological phenotypes that do not faithfully reproduce the late-onset and slowly progressing SCA28 phenotype. Here we describe production and detailed analysis of a new knock-in murine model harbouring an Afg3l2 allele carrying the p.Met665Arg patient-derived mutation. Heterozygous mutant mice developed normally but adult mice showed signs of cerebellar ataxia detectable by beam test. Although cerebellar pathology was negative, electrophysiological analysis showed a trend towards increased spontaneous firing in Purkinje cells from heterozygous mutants with respect to wild-type controls. As homozygous mutants died perinatally with evidence of cardiac atrophy, for each genotype we generated mouse embryonic fibroblasts (MEFs) to investigate mitochondrial function. MEFs from mutant mice showed altered mitochondrial bioenergetics, with decreased basal oxygen consumption rate, ATP synthesis and mitochondrial membrane potential. Mitochondrial network formation and morphology was altered, with greatly reduced expression of fusogenic Opa1 isoforms. Mitochondrial alterations were also detected in cerebella of 18-month-old heterozygous mutants and may be a hallmark of disease. Pharmacological inhibition of de novo mitochondrial protein translation with chloramphenicol caused reversal of mitochondrial morphology in homozygous mutant MEFs, supporting the relevance of mitochondrial proteotoxicity for SCA28 pathogenesis and therapy development., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

2. Neuregulin1 alpha activates migration of neuronal progenitors expressing ErbB4.

Author

Fornasari BE, El Soury M, De Marchis S, Perroteau I, Geuna S, and Gambarotta G

Subjects

Animals, Cell Line, Cerebral Cortex cytology, Cerebral Cortex embryology, Cerebral Cortex metabolism, Hypothalamus cytology, Hypothalamus embryology, Hypothalamus metabolism, Neural Stem Cells physiology, Neuregulin-1 genetics, Neurogenesis, Phosphorylation, Protein Isoforms genetics, Protein Isoforms metabolism, Protein Processing, Post-Translational, Proto-Oncogene Proteins c-akt metabolism, Rats, Rats, Wistar, Receptor, ErbB-4 genetics, Cell Movement, Neural Stem Cells metabolism, Neuregulin-1 metabolism, Receptor, ErbB-4 metabolism

Abstract

Deficits in neuronal migration during development in the central nervous system may contribute to psychiatric diseases. The ligand neuregulin1 (NRG1) and its receptor ErbB4 are genes conferring susceptibility to schizophrenia, playing a key role in the control of neuronal migration both during development and adulthood. Several NRG1 and ErbB4 isoforms were identified, which deeply differ in their characteristics. Here we focused on the four ErbB4 isoforms and the two NRG1 isoforms differing in their EGF-like domain, namely α and β. We hypothesized that these isoforms, which are differently regulated in schizophrenic patients, could play different roles in neuronal migration. Our hypothesis was strengthened by the observation that both NRG1α and NRG1β and the four ErbB4 isoforms are expressed in the medial and lateral ganglionic eminences and in the cortex during development in rat. We analysed in vitro the signal transduction pathways activated by the different ErbB4 isoforms following the treatment with soluble recombinant NRG1α or NRG1β and the ability to stimulate migration. Our data show that two ErbB4 isoforms, namely JMa-cyt2 and JMb-cyt1, following NRG1α and NRG1β treatment, strongly activate AKT phosphorylation, conferring high migratory activity to neuronal progenitors, thus demonstrating that both NRG1α and NRG1β can play a role in neuronal migration., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

3. Preface. tissue engineering of the peripheral nerve: stem cells and regeneration promoting factors.

Author

Geuna S, Perroteau I, Tos P, and Battiston B

Subjects

Animals, Humans, Peripheral Nerves surgery, Stem Cell Transplantation methods, Stem Cell Transplantation trends, Tissue Engineering methods, Peripheral Nerves physiology, Regeneration physiology, Stem Cells physiology, Tissue Engineering trends

Published

2013

4. Peripheral nerve repair is no longer a matter of surgical reconstruction only.

Author

Geuna S, Perroteau I, Tos P, and Battiston B

Subjects

Animals, Humans, Neurosurgical Procedures trends, Tissue Engineering trends, Nerve Regeneration physiology, Neurosurgical Procedures methods, Peripheral Nerves surgery, Tissue Engineering methods

Published

2013

5. Future perspectives in nerve repair and regeneration.

Author

Tos P, Ronchi G, Geuna S, and Battiston B

Subjects

Animals, Brain physiology, Humans, Neuronal Plasticity physiology, Neurosurgical Procedures methods, Recovery of Function physiology, Tissue Engineering methods, Nerve Regeneration physiology, Neurosurgical Procedures trends, Peripheral Nerve Injuries surgery, Tissue Engineering trends

Abstract

After peripheral nerve injuries, the process of nerve regeneration and target reinnervation is very complex and depends on many different events occurring not only at the lesion site but also proximally and distally to it. In spite of the recent scientific and technological advancements, the need to find out new strategies to improve clinical nerve repair and regeneration remains. To reach this goal, the therapeutic strategy should thus exert its effects at different levels in order to simultaneously potentiate axonal regeneration, increase neuronal survival, modulate central reorganization, and inhibit or reduce target organ atrophy. It is expected that this multilevel approach might lead to significant improvement in the functional outcome and thus the quality of life of the patients suffering from peripheral nerve injury., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

6. Phototherapy and nerve injury: focus on muscle response.

Author

Rochkind S, Geuna S, and Shainberg A

Subjects

Animals, Humans, Peripheral Nerve Injuries complications, Low-Level Light Therapy methods, Muscle Denervation, Muscle, Skeletal radiation effects

Abstract

Preservation of biochemical processes in muscles is a major challenge in patients with severe peripheral nerve injury. In this chapter, we address the effects of laser irradiation and biochemical transformation in muscle, using in vitro and in vivo experimental models. The authors attempt to explain the possible mechanism of laser phototherapy applied on skeletal muscle on the basis of literature review and new results. A detailed knowledge of the evolution of endplates acetylcholine receptors and creatine kinase activity following laser irradiation can help to understand the therapeutic effect of laser phototherapy on muscle. This study showed that the laser phototherapy increases biochemical activity in intact muscle and thus could have direct therapeutic applications on muscle, especially during progressive atrophy resulting from peripheral nerve injury., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

7. Ghrelin: a novel neuromuscular recovery promoting factor?

Author

Raimondo S, Ronchi G, Geuna S, Pascal D, Reano S, Filigheddu N, and Graziani A

Subjects

Animals, Axons metabolism, Ghrelin therapeutic use, Humans, Nerve Regeneration physiology, Neuromuscular Agents therapeutic use, Peripheral Nerve Injuries drug therapy, Ghrelin blood, Neuromuscular Agents blood, Peripheral Nerve Injuries blood, Recovery of Function physiology

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. All rights reserved.)

Published

2013

8. The use of chitosan-based scaffolds to enhance regeneration in the nervous system.

Author

Gnavi S, Barwig C, Freier T, Haastert-Talini K, Grothe C, and Geuna S

Subjects

Animals, Humans, Tissue Engineering instrumentation, Biocompatible Materials pharmacology, Chitosan pharmacology, Nerve Regeneration drug effects, Tissue Engineering methods, Tissue Scaffolds chemistry

Abstract

Various biomaterials have been proposed to build up scaffolds for promoting neural repair. Among them, chitosan, a derivative of chitin, has been raising more and more interest among basic and clinical scientists. A number of studies with neuronal and glial cell cultures have shown that this biomaterial has biomimetic properties, which make it a good candidate for developing innovative devices for neural repair. Yet, in vivo experimental studies have shown that chitosan can be successfully used to create scaffolds that promote regeneration both in the central and in the peripheral nervous system. In this review, the relevant literature on the use of chitosan in the nervous tissue, either alone or in combination with other components, is overviewed. Altogether, the promising in vitro and in vivo experimental results make it possible to foresee that time for clinical trials with chitosan-based nerve regeneration-promoting devices is approaching quickly., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

9. Tissue engineering and peripheral nerve reconstruction: an overview.

Author

Geuna S, Gnavi S, Perroteau I, Tos P, and Battiston B

Subjects

Animals, Humans, Nerve Regeneration physiology, Neurosurgical Procedures methods, Neurosurgical Procedures trends, Peripheral Nerve Injuries physiopathology, Peripheral Nerve Injuries surgery, Peripheral Nerves physiology, Plastic Surgery Procedures trends, Tissue Engineering trends, Peripheral Nerves surgery, Plastic Surgery Procedures methods, Tissue Engineering methods

Abstract

Nerve repair is no more regarded as merely a matter of microsurgical reconstruction. To define this evolving reconstructive/regenerative approach, the term tissue engineering is being increasingly used since it reflects the search for interdisciplinary and integrated treatment strategies. However, the drawback of this new approach is its intrinsic complexity, which is the result of the variety of scientific disciplines involved. This chapter presents a synthetic overview of the state of the art in peripheral nerve tissue engineering with a look forward at the most promising innovations emerging from basic science investigation. This review is intended to set the stage for the collection of papers in the thematic issue of the International Review of Neurobiology that is focused on the various interdisciplinary approaches in peripheral nerve tissue engineering., (© 2013 Elsevier Inc. All rights reserved.)

Published

2013

10. Morphological, molecular and functional differences of adult bone marrow- and adipose-derived stem cells isolated from rats of different ages.

Author

Mantovani C, Raimondo S, Haneef MS, Geuna S, Terenghi G, Shawcross SG, and Wiberg M

Subjects

Adipocytes metabolism, Adipose Tissue metabolism, Adult Stem Cells metabolism, Animals, Animals, Newborn, Biomarkers metabolism, Bone Marrow Cells metabolism, Cellular Senescence genetics, Coculture Techniques, Gene Expression Regulation, Developmental, Mesenchymal Stem Cells metabolism, Neurites physiology, Rats, Receptor, Notch2 genetics, Receptor, Notch2 metabolism, Schwann Cells cytology, Schwann Cells metabolism, Adipocytes cytology, Adipose Tissue cytology, Adult Stem Cells cytology, Aging, Bone Marrow Cells cytology, Mesenchymal Stem Cells cytology

Abstract

Adult mesenchymal stem cells have self-renewal and multiple differentiation potentials, and play important roles in regenerative medicine. However, their use may be limited by senescence or age of the donor, leading to changes in stem cell functionality. We investigated morphological, molecular and functional differences between bone marrow-derived (MSC) and adipose-derived (ASC) stem cells isolated from neonatal, young and old rats compared to Schwann cells from the same animals. Immunocytochemistry, RT-PCR, proliferation assays, western blotting and transmission electron microscopy were used to investigate expression of senescence markers. Undifferentiated and differentiated ASC and MSC from animals of different ages expressed Notch-2 at similar levels; protein-38 and protein-53 were present in all groups of cells with a trend towards increased levels in cells from older animals compared to those from neonatal and young rats. Following co-culture with adult neuronal cells, dMSC and dASC from animals of all ages elicited robust neurite outgrowth. Mitotracker(®) staining was consistent with ultrastructural changes seen in the mitochondria of cells from old rats, indicative of senescence. In conclusion, this study showed that although the cells from aged animals expressed markers of senescence, aged MSC and ASC differentiated into SC-like cells still retain potential to support axon regeneration., (Crown Copyright © 2012. Published by Elsevier Inc. All rights reserved.)

Published

2012

11. Neuregulin1 administration increases axonal elongation in dissociated primary sensory neuron cultures.

Author

Audisio C, Mantovani C, Raimondo S, Geuna S, Perroteau I, and Terenghi G

Subjects

Animals, Brain-Derived Neurotrophic Factor metabolism, Cells, Cultured, Male, Nerve Growth Factor metabolism, Nerve Growth Factor pharmacology, Nerve Growth Factor physiology, Neuregulin-1 physiology, Neurites metabolism, Primary Cell Culture, Rats, Rats, Sprague-Dawley, Sensory Receptor Cells drug effects, Tubulin metabolism, Axons, Ganglia, Spinal cytology, Neuregulin-1 pharmacology, Sensory Receptor Cells cytology

Abstract

Neuregulin1 is a family of growth and differentiation factors involved in various functions of both peripheral and central nervous system including the regenerative processes that underlie regeneration of damaged peripheral nerves. In the present study we tested in vitro the effect of Neuregulin1 administration on dissociated rat dorsal root ganglion (DRG). Activity of neuregulin1 was compared to the activity of nerve growth factor in the same in vitro experimental model. Results showed that neurite outgrowth is enhanced by the addition of both neuregulin1 and nerve growth factor to the culture medium. While neuregulin1 was responsible for the growth of longer neurites, DRG neurons incubated with nerve growth factor showed shorter and more branched axons. Using enzyme-linked immunosorbent assay we also showed that the release of nerve growth factor, but not of brain derived neurotrophic factor is improved in DRG neuron treated with neuregulin1. On the other hand, the assay with growth factor blocking antibody, showed that effects exerted by neuregulin1 on neurite outgrowth is only partially due to the release of nerve growth factor. Taken together the results of this study provide a better understanding on the role of neuregulin1 in sensory neurons., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

12. Methylprednisolone fails to improve functional and histological outcome following spinal cord injury in rats.

Author

Pereira JE, Costa LM, Cabrita AM, Couto PA, Filipe VM, Magalhães LG, Fornaro M, Di Scipio F, Geuna S, Maurício AC, and Varejão AS

Subjects

Animals, Biomechanical Phenomena, Disability Evaluation, Disease Models, Animal, Female, Gait Disorders, Neurologic drug therapy, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic physiopathology, Glucocorticoids pharmacology, Neurologic Examination methods, Paraplegia drug therapy, Paraplegia etiology, Paraplegia physiopathology, Rats, Rats, Wistar, Recovery of Function drug effects, Recovery of Function physiology, Severity of Illness Index, Spinal Cord physiopathology, Spinal Cord Injuries physiopathology, Methylprednisolone pharmacology, Spinal Cord drug effects, Spinal Cord pathology, Spinal Cord Injuries drug therapy, Spinal Cord Injuries pathology

Abstract

Currently, methylprednisolone sodium succinate (MPSS) is the standard treatment following acute spinal cord injury (SCI) as a consequence of the results obtained from the National Acute Spinal Cord Injury Studies. However, many have questioned the efficacy of MPSS because of its marginal effects. Additionally there has been criticism of both study design and statistical interpretation. The functional consequences of experimental SCI have been assessed in many ways. The purpose of this investigation was to determine the effects of MPSS vs. saline solution (SS) following moderate T10 contusion injury in rat. Functional recovery was evaluated using the 21-point Basso, Beattie and Bresnahan (BBB) locomotor recovery scale, the inclined plane, the beam walk, footprint analysis and the horizontal ladder. To optimize the precision and accuracy of functional results we examined the locomotion on a treadmill using three-dimensional (3D) analysis. Stereology was used to estimate the amount of damaged tissue. The results of the traditional functional methods showed that administration of the NASCIS dosage of MPSS following acute spinal cord contusion did not lead to any significant differences in the functional recovery of MPSS- vs. SS-treated animals. More importantly, the results of the 3D kinematic showed that the MPSS administration did not affect the flexion/extension of the hip, knee and ankle joints during the step cycle. Finally, stereological results revealed no statistically significant differences between the two experimental groups. Altogether, our results support data previously reported by several authors, suggesting that MPSS does not lead to improved functional outcome following experimental acute SCI.

Published

2009

13. Chapter 3: Histology of the peripheral nerve and changes occurring during nerve regeneration.

Author

Geuna S, Raimondo S, Ronchi G, Di Scipio F, Tos P, Czaja K, and Fornaro M

Subjects

Animals, Humans, Nerve Fibers, Myelinated physiology, Nerve Fibers, Myelinated ultrastructure, Nerve Fibers, Unmyelinated physiology, Nerve Fibers, Unmyelinated ultrastructure, Peripheral Nerves ultrastructure, Wallerian Degeneration pathology, Nerve Regeneration physiology, Peripheral Nerves cytology, Peripheral Nerves physiology

Abstract

Peripheral nerves are complex organs that can be found throughout the body reaching almost all tissues and organs to provide motor and/or sensory innervation. A parenchyma (the noble component made by the nerve fibers, i.e., axons and Schwann cells) and a stroma (the scaffold made of various connective elements) can be recognized. Although morphological analysis is the most common approach for studying peripheral nerve regeneration, researchers are not always aware of several histological peculiarities of these organs. Therefore, the aim of this review is to describe, at a structural and ultrastructural level, the main features of the parenchyma and the stroma of the normal undamaged nerve as well as the most important morphological changes that occur after nerve damage and during posttraumatic nerve regeneration. The paper is aimed at providing the reader with the basic framework information on nerve morphology. This would enable the correct interpretation of morphological data obtained by many experimental studies on peripheral nerve repair and regeneration such as those outlined in several other papers included in this special issue of the International Review of Neurobiology.

Published

2009

14. Chapter 4: Methods and protocols in peripheral nerve regeneration experimental research: part I-experimental models.

Author

Tos P, Ronchi G, Papalia I, Sallen V, Legagneux J, Geuna S, and Giacobini-Robecchi MG

Subjects

Animals, Animals, Genetically Modified, Cell Culture Techniques, Cell Line, Coculture Techniques, Denervation, Forelimb innervation, Hindlimb innervation, Humans, Models, Animal, Neuroglia physiology, Neurons physiology, Neuropsychological Tests, Peripheral Nerve Injuries, Nerve Regeneration, Peripheral Nerves physiology

Abstract

This paper addresses several basic issues that are important for the experimental model design to investigate peripheral nerve regeneration. First, the importance of carrying out adequate preliminary in vitro investigation is emphasized in light of the ethical issues and with particular emphasis on the concept of the Three Rs (Replacement, Reduction, and Refinement) for limiting in vivo animal studies. Second, the various options for the selection of the animal species for nerve regeneration research are reviewed. Third, the two main experimental paradigms of nerve lesion (axonotmesis vs. neurotmesis followed by microsurgical reconstruction) are critically outlined and compared. Fourth, the various nerve models that have most commonly been employed are overviewed focusing in particular on forearm mixed nerves and on behavioural tests for assessing their function: the ulnar test and the grasping test which is useful for assessing both median and radial nerves in the rat. Finally, the importance of considering the influence of various factors and diseases which could interfere with the nerve regeneration process is emphasized in the perspective of a wider adoption of experimental models which more closely mimic the environmental and clinical conditions found in patients.

Published

2009

15. Chapter 11: Tissue engineering of peripheral nerves.

Author

Battiston B, Raimondo S, Tos P, Gaidano V, Audisio C, Scevola A, Perroteau I, and Geuna S

Subjects

Animals, Biocompatible Materials, Biomimetic Materials, Gene Transfer Techniques, Humans, Microsurgery methods, Muscles transplantation, Neurosurgical Procedures methods, Tissue Scaffolds, Transplantation, Autologous methods, Veins transplantation, Peripheral Nerves surgery, Peripheral Nerves transplantation, Tissue Engineering methods

Abstract

Tissue engineering of peripheral nerves has seen an increasing interest over the last years and, similarly to many other fields of regenerative medicine, great expectations have risen within the general public to its potential clinical application in the treatment of damaged nerves. However, in spite of the scientific advancements, applications to the patients is still very limited and it appears that to optimize the strategy for the tissue engineering of the peripheral nerves in the clinical view, researchers have to strive for a new level of innovation which will bring together (in a multitranslational approach) the main pillars of tissue engineering: namely (1) microsurgery, (2) cell and tissue transplantation, (3) material science, and (4) gene transfer. This review paper provides an overview of these four key approaches to peripheral nerve tissue engineering. While some of these issues will also be specifically addressed in other papers in this special issue on peripheral nerve regeneration of the International Review of Neurobiology, in this paper we will focus on an example of successful translational research in tissue engineering, namely nerve reconstruction by muscle-vein-combined nerve scaffolds.

Published

2009

16. Preface: Essays on peripheral nerve repair and regeneration.

Author

Geuna S, Tos P, and Battiston B

Subjects

Animals, Humans, Peripheral Nerve Injuries, Nerve Regeneration physiology, Peripheral Nerves physiology, Peripheral Nerves surgery, Peripheral Nervous System Diseases physiopathology, Peripheral Nervous System Diseases therapy

Published

2009

17. Chapter 14: End-to-side nerve regeneration: from the laboratory bench to clinical applications.

Author

Tos P, Artiaco S, Papalia I, Marcoccio I, Geuna S, and Battiston B

Subjects

Animals, Brachial Plexus physiology, Humans, Neurosurgical Procedures, Sensory Receptor Cells physiology, Nerve Regeneration physiology, Peripheral Nerves physiology, Peripheral Nerves surgery

Abstract

Translation of laboratory results to the patient is a critical step in biomedical research and sometimes promising basic science and preclinical results fail to meet the expectations when translated to the clinics. End-to-side (ETS) nerve regeneration is an example of an innovative neurobiological concept, which, after having generated great expectations in experimental and preclinical studies, provided very conflicting results when applied to clinical case series. A number of basic science studies have shown that ETS neurorrhaphy, in fact, is able to induce collateral sprouting from donor nerve's axons, allowing for massive repopulation of the distal nerve stump. Experimental studies have also shown that ETS neurorrhaphy can recover voluntary control of skeletal muscles and that voluntary motor function recovery can be achieved both with agonistic and antagonistic donor nerves, thus widening the potential clinical indications. However, clinical case series reported so far, did not meet these promises and results have been rather conflicting, especially regarding repair of proximally located mixed nerves. In contrast, ETS reconstruction of distal sensory nerve lesions led to a more positive outcome and, most importantly, consistent results among international centers carrying out clinical trials. Concluding, ETS is a promising microsurgical approach for nerve coaptation, based on a convincing and innovative neurobiological concept. However, conflicting clinical results and disagreement among surgeons regarding its employment suggest that this technique should still be considered an ultima ratio, reserved for cases where no other repair technique can be attempted. New data coming from neurobiological research will help further enlarge the clinical indications of ETS nerve reconstruction, explain the different results found in laboratory animals and humans, and contribute to new treatments and rehabilitation strategies aimed at improving the efficacy of nerve regeneration after ETS neurorrhaphy.

Published

2009

18. Chapter 1: Peripheral nerve repair and regeneration research: a historical note.

Author

Battiston B, Papalia I, Tos P, and Geuna S

Subjects

Animals, History, 19th Century, History, 20th Century, Humans, Peripheral Nervous System Diseases physiopathology, Peripheral Nervous System Diseases surgery, Nerve Regeneration, Neurosurgical Procedures history, Peripheral Nerves physiology, Peripheral Nerves surgery, Peripheral Nervous System Diseases history

Abstract

Although the most significant advances in nerve repair and regeneration have been acquired over the last few decades, the study of nerve repair and regeneration potential dates back to ancient times namely to Galen in the second century A.D. This brief historical note outlines the milestones which have guided us to our present knowledge. In particular, we focus on the nineteenth century and the first decades of the twentieth century, an age in which the fathers of neurosurgery and neurobiology established the basis for most of the nerve repair and regeneration concepts used today. Finally, we shine a light on the most current history to show how recent pressure to use modern interdisciplinary and translational approach represents a sort of rediscovery of the scientific habits of the fathers of modern biomedicine, who used to carry out research from an integrated and broad point of view rather than from a super-specialized and specific one as it is often used today.

Published

2009

19. Chapter 5: Methods and protocols in peripheral nerve regeneration experimental research: part II-morphological techniques.

Author

Raimondo S, Fornaro M, Di Scipio F, Ronchi G, Giacobini-Robecchi MG, and Geuna S

Subjects

Animals, Histological Techniques, Image Processing, Computer-Assisted, Microscopy, Confocal, Microscopy, Electron, Peripheral Nerves ultrastructure, Immunohistochemistry, Microscopy, Nerve Regeneration, Peripheral Nerves cytology

Abstract

This paper critically overviews the main procedures used for carrying out morphological analysis of peripheral nerve fibers in light, confocal, and electron microscopy. In particular, this paper emphasizes the importance of osmium tetroxide post-fixation as a useful procedure to be adopted independently from the embedding medium. In order to facilitate the use of any described techniques, all protocols are presented in full details. The pros and cons for each method are critically addressed and practical indications on the different imaging approaches are reported. Moreover, the basic rules of morpho-quantitative stereological analysis of nerve fibers are described addressing the important concepts of design-based sampling and the disector. Finally, a comparison of stereological analysis on myelinated nerve fibers between paraffin- and resin-embedded rat radial nerves is reported showing that different embedding procedures might influence the distribution of size parameters.

Published

2009

20. Chapter 25: Phototherapy in peripheral nerve injury: effects on muscle preservation and nerve regeneration.

Author

Rochkind S, Geuna S, and Shainberg A

Subjects

Animals, Creatine Kinase metabolism, Humans, Median Nerve injuries, Median Nerve physiology, Muscle, Skeletal enzymology, Muscle, Skeletal radiation effects, Neurons physiology, Receptors, Cholinergic metabolism, Sciatic Nerve injuries, Sciatic Nerve physiology, Muscle, Skeletal physiology, Nerve Regeneration physiology, Peripheral Nerve Injuries, Peripheral Nerves physiology, Phototherapy adverse effects, Phototherapy methods

Abstract

Posttraumatic nerve repair and prevention of muscle atrophy represent a major challenge of restorative medicine. Considerable interest exists in the potential therapeutic value of laser phototherapy for restoring or temporarily preventing denervated muscle atrophy as well as enhancing regeneration of severely injured peripheral nerves. Low-power laser irradiation (laser phototherapy) was applied for treatment of rat denervated muscle in order to estimate biochemical transformation on cellular and tissue levels, as well as on rat sciatic nerve model after crush injury, direct or side-to-end anastomosis, and neurotube reconstruction. Nerve cells' growth and axonal sprouting were investigated in embryonic rat brain cultures. The animal outcome allowed clinical double-blind, placebo-controlled randomized study that measured the effectiveness of 780-nm laser phototherapy on patients suffering from incomplete peripheral nerve injuries for 6 months up to several years. In denervated muscles, animal study suggests that the function of denervated muscles can be partially preserved by temporary prevention of denervation-induced biochemical changes. The function of denervated muscles can be restored, not completely but to a very substantial degree, by laser treatment initiated at the earliest possible stage post injury. In peripheral nerve injury, laser phototherapy has an immediate protective effect. It maintains functional activity of the injured nerve for a long period, decreases scar tissue formation at the injury site, decreases degeneration in corresponding motor neurons of the spinal cord, and significantly increases axonal growth and myelinization. In cell cultures, laser irradiation accelerates migration, nerve cell growth, and fiber sprouting. In a pilot, clinical, double-blind, placebo-controlled randomized study in patients with incomplete long-term peripheral nerve injury, 780-nm laser irradiation can progressively improve peripheral nerve function, which leads to significant functional recovery. A 780-nm laser phototherapy temporarily preserves the function of a denervated muscle, and accelerates and enhances axonal growth and regeneration after peripheral nerve injury or reconstructive procedures. Laser activation of nerve cells, their growth, and axonal sprouting can be considered as potential treatment for neural injury. Animal and clinical studies show the promoting action of phototherapy on peripheral nerve regeneration, which makes it possible to suggest that the time for broader clinical trials has come.

Published

2009

21. Toe out angle: a functional index for the evaluation of sciatic nerve recovery in the rat model.

Author

Varejão AS, Cabrita AM, Geuna S, Melo-Pinto P, Filipe VM, Gramsbergen A, and Meek MF

Subjects

Animals, Disease Models, Animal, Gait, Hindlimb physiopathology, Lameness, Animal etiology, Male, Motor Activity, Predictive Value of Tests, Rats, Rats, Wistar, Recovery of Function, Sciatic Neuropathy complications, Tarsus, Animal physiopathology, Lameness, Animal diagnosis, Sciatic Nerve physiopathology, Sciatic Neuropathy physiopathology, Severity of Illness Index

Abstract

In experimental peripheral nerve studies, the rat sciatic nerve model is widely used to examine functional outcome following nerve injury and repair. A variety of evaluation methods exist in the literature, but an adequate selection continues to be a critical point for the researcher. Rats with sciatic nerve injury typically ambulate with an external rotation of the foot. A new functional assessment instrument, the toe out angle (TOA) is quantified using computerized gait analysis. We compared Sciatic Functional Index (SFI) with TOA parameter after peripheral nerve transection and entubulation repair. We found a good correlation between SFI and TOA measurements in terms of predicting functional recovery. Moreover, the TOA provides information on the biomechanical consequences of the external rotation of the foot in the stance phase of walking.

Published

2003