Your search keyword '"Ronchi, Giulia"' showing total 6 results

1. Identification of oxysterol synthetic analogs as a novel class of late-stage inhibitors of herpes simplex virus 2 replication

Author

Civra, Andrea, Costantino, Matteo, Ronchi, Giulia, Pontini, Lorenzo, Poli, Giuseppe, Marinozzi, Maura, and Lembo, David

Published

2023

2. Repairing nerve gaps by vein conduits filled with lipoaspirate-derived entire adipose tissue hinders nerve regeneration.

Author

Papalia, Igor, Raimondo, Stefania, Ronchi, Giulia, Magaudda, Ludovico, Giacobini-Robecchi, Maria G., and Geuna, Stefano

Subjects

NEUROSURGERY, NEUROLOGICAL disorders, THERAPEUTICS, AQUEDUCTS, ADIPOSE tissues, NERVOUS system regeneration, ALTERNATIVE medicine

Abstract

Summary: In spite of great recent advancements, the definition of the optimal strategy for bridging a nerve defect, especially across long gaps, still remains an open issue since the amount of autologous nerve graft material is limited while the outcome after alternative tubulization techniques is often unsatisfactory. The aim of this study was to investigate a new tubulization technique based on the employment of vein conduits filled with whole subcutaneous adipose tissue obtained by lipoaspiration. In adult rats, a 1cm-long defect of the left median nerve was repaired by adipose tissue–vein-combined conduits and compared with fresh skeletal muscle tissue-vein-combined conduits and autologous nerve grafts made by the excised nerve segment rotated by 180°. Throughout the postoperative period, functional recovery was assessed using the grasping test. Regenerated nerve samples were withdrawn at postoperative month-6 and processed for light and electron microscopy and stereology of regenerated nerve fibers. Results showed that functional recovery was significantly slower in the adipose tissue-enriched group in comparison to both control groups. Light and electron microscopy showed that a large amount of adipose tissue was still present inside the vein conduits at postoperative month-6. Stereology showed that all quantitative morphological predictors analyzed performed significantly worse in the adipose tissue-enriched group in comparison to the two control groups. On the basis of this experimental study in the rat, the use of whole adipose tissue for tissue engineering of peripheral nerves should be discouraged. Pre-treatment of adipose tissue aimed at isolating stromal vascular fraction and/or adipose derived stem/precursor cells should be considered a fundamental requisite for nerve repair. [Copyright &y& Elsevier]

Published

2013

3. Chapter 5 Methods and Protocols in Peripheral Nerve Regeneration Experimental Research: Part II—Morphological Techniques.

Author

Raimondo, Stefania, Fornaro, Michele, Di Scipio, Federica, Ronchi, Giulia, Giacobini‐Robecchi, Maria G., and Geuna, Stefano

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. [Copyright &y& Elsevier]

Published

2009

4. Chapter 4 Methods and Protocols in Peripheral Nerve Regeneration Experimental Research: Part I—Experimental Models.

Author

Tos, Pierluigi, Ronchi, Giulia, Papalia, Igor, Sallen, Vera, Legagneux, Josette, Geuna, Stefano, and Giacobini‐Robecchi, MariaG.

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. [Copyright &y& Elsevier]

Published

2009

5. Chapter 3 Histology of the Peripheral Nerve and Changes Occurring During Nerve Regeneration.

Author

Geuna, Stefano, Raimondo, Stefania, Ronchi, Giulia, Di Scipio, Federica, Tos, Pierluigi, Czaja, Krzysztof, and Fornaro, Michele

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. [Copyright &y& Elsevier]

Published

2009

6. Chitosan-film enhanced chitosan nerve guides for long-distance regeneration of peripheral nerves.

Author

Meyer, Cora, Stenberg, Lena, Gonzalez-Perez, Francisco, Wrobel, Sandra, Ronchi, Giulia, Udina, Esther, Suganuma, Seigo, Geuna, Stefano, Navarro, Xavier, Dahlin, Lars B., Grothe, Claudia, and Haastert-Talini, Kirsten

Subjects

*CHITOSAN, *POLYMER films, *NERVOUS system regeneration, *PERIPHERAL nervous system, *NERVE grafting, *AUTOTRANSPLANTATION, *PLASTIC surgery, *LABORATORY rats

Abstract

Biosynthetic nerve grafts are developed in order to complement or replace autologous nerve grafts for peripheral nerve reconstruction. Artificial nerve guides currently approved for clinical use are not widely applied in reconstructive surgery as they still have limitations especially when it comes to critical distance repair. Here we report a comprehensive analysis of fine-tuned chitosan nerve guides (CNGs) enhanced by introduction of a longitudinal chitosan film to reconstruct critical length 15 mm sciatic nerve defects in adult healthy Wistar or diabetic Goto-Kakizaki rats. Short and long term investigations demonstrated that the CNGs enhanced by the guiding structure of the introduced chitosan film significantly improved functional and morphological results of nerve regeneration in comparison to simple hollow CNGs. Importantly, this was detectable both in healthy and in diabetic rats (short term) and the regeneration outcome almost reached the outcome after autologous nerve grafting (long term). Hollow CNGs provide properties likely leading to a wider clinical acceptance than other artificial nerve guides and their performance can be increased by simple introduction of a chitosan film with the same advantageous properties. Therefore, the chitosan film enhanced CNGs represent a new generation medical device for peripheral nerve reconstruction. [ABSTRACT FROM AUTHOR]

Published

2016