Publications (33)67.74 Total impact
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Article: The little finger ulnar palmar digital artery perforator flap: anatomical basis.
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ABSTRACT: PURPOSE: The aim of this study was to explore the cutaneous vascularization of the hypothenar region and investigate the anatomical basis for perforator propeller flaps for coverage of the flexor aspect of the little finger. METHODS: The area between the pisiform and the base of the little finger was studied in 14 hands of fresh cadavers injected with red latex. An oval flap 1.5 cm large was raised along the axis between these two points. Perforators going into the flap were dissected up to their origin from the ulnar palmar digital artery of the little finger, and their distance from the proximal edge of the A1 pulley was recorded. RESULTS: The mean number of perforator arteries entering the flap was 5.8 (range 4-8). A constant sizeable perforator was identified within 0.7 cm from the proximal margin of the A1 pulley in all 14 specimens. In the majority of cases (64 %), the most distal perforator was located at this level. Dissection of the flap was carried out suprafascially on the most distal perforator and 180° rotation allowed the flap to reach the flexor surface of the fifth finger. The donor site was closed primarily. CONCLUSION: Distal perforators of the ulnar palmar digital artery of the little finger are constantly found. Our anatomical findings support the possibility of raising a propeller perforator flap from the hypothenar region for coverage of the flexor aspect of the little finger. Its clinical application could provide a quick and straightforward single-stage option with a negligible donor-site morbidity for reconstruction of such defects.Anatomia Clinica 02/2013; · 0.93 Impact Factor -
Article: Expression of antioxidant molecules after peripheral nerve injury and regeneration.
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ABSTRACT: Oxidative stress is considered to be one of the main causes of neural damage after injury. However, little is known about the changes in mRNA expression of antioxidant molecules that occur after injury and regeneration of the peripheral nerve. In the present study, the rat median nerve was transected, and transcriptional changes were studied at day 6 and day 12 after injury in both the proximal and the distal stumps, in the absence or presence of microsurgical repair. The expression profiles of the following genes were investigated: three metallothionein isoforms (MT-1, MT-2, and MT-3), the main antioxidant enzymes (catalase, superoxide dismutase, and glutathione-S-transferase), and the marker of cellular damage poly(ADP-ribose) polymerase-1 (PARP-1). The results showed that, in the proximal nerve stump, MT-3 mRNA expression was significantly and markedly up-regulated in the absence of surgical repair, whereas MT-1 and MT-2 showed significant down-regulation. In the distal nerve portion, mRNA expression of all MT isoforms decreased significantly in the absence of microsurgical reconstruction, whereas, after repair, MT-3 mRNA expression alone was up-regulated. Expression of all the antioxidant enzymes decreased significantly after repair in the proximal nerve portion, but a significant general increase in their mRNA expression was revealed in the distal nerve stump. PARP-1 expression was significantly up-regulated in the proximal nerve portion without repair but dramatically reduced after reconstruction. In contrast, PARP-1 expression increased markedly in the distal stump after surgical repair. Taken together, these findings indicate that antioxidant molecules are differentially modulated and might, therefore, play an important role in peripheral nerve injury and regeneration.Journal of Neuroscience Research 04/2012; 90(4):842-8. · 2.74 Impact Factor -
Article: Primary repair of crush nerve injuries by means of biological tubulization with muscle-vein-combined grafts.
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ABSTRACT: Despite extensive research and surgical innovation, the treatment of peripheral nerve injuries remains a complex issue, particularly in nonsharp lesions. The aim of this study was to assess the clinical outcome in a group of 16 patients who underwent, in emergency, a primary repair for crush injury of sensory and mixed nerves of the upper limb with biological tubulization, namely, the muscle-vein-combined graft. The segments involved were sensory digital nerves in eight cases and mixed nerves in another eight cases (four median nerves and four ulnar nerves). The length of nerve defect ranged from 0.5 to 4 cm (mean 1.9 cm). Fifteen of 16 patients showed some degree of functional recovery. Six patients showed diminished light touch (3.61), six had protective sensation (4.31), and three showed loss of protective sensation (4.56) using Semmes-Weinstein monofilament test. All the patients who underwent digital nerve repair had favorable results graded as S4 in one case, S3+ in six cases, and S3 in one case. With respect to mixed nerve repair, we observed two S4, two S3+, two S3, one S2, and one S0 sensory recovery. Less favorable results were observed for motor function with three M4, one M3, two M2, and two M0 recoveries. Altogether, the results of this retrospective study demonstrates that tubulization nerve repair in emergency, in case of short nerve gaps, may restore the continuity of the nerve avoiding secondary nerve grafting. This technique preserves donor nerve and, in case of failure, does not preclude a delayed repair with a nerve graft.Microsurgery 03/2012; 32(5):358-63. · 1.61 Impact Factor -
Article: Perforator-based propeller flaps treating loss of substance in the lower limb.
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ABSTRACT: Local flaps based on perforator vessels are raising interest in reconstructive surgery of the limbs. These flaps allow efficient coverage of large wounds without the need to sacrifice a major vascular axis. The operative technique does not require microvascular anastomosis and allows reconstruction of soft tissue defects using nearby similar tissues. The aim of this study was to evaluate the clinical results of local perforator flaps in the treatment of complex lower-limb defects. Twenty-two local perforator flaps were retrospectively studied. Loss of substance was due to postsurgical complications in seven cases, oncological resection in six, posttraumatic defect in five, pressure sores in three, and osteomyelitis in one. Postoperatively, two patients showed partial flap necrosis. In five patients, a superficial epidermolysis occurred. Minor complications were seen in three patients who showed transient venous congestion of the flap. Furthermore, transient leg edema was sometimes observed in patients with large propeller flaps. All but one patient healed without further major surgical procedures. In three cases, secondary skin grafts were performed. In most cases, the aesthetic result was optimal and patients were fully satisfied. When characteristics of the defect are suitable for treatment with a propeller-based local flap, this technique should be considered as one of reasonable options for surgical reconstruction. Microsurgical techniques facilitate the management of complex trauma in emergency and may allow planning reconstructive procedures and limb salvage in elective orthopedic surgery.Journal of Orthopaedics and Traumatology 06/2011; 12(2):93-9. -
Article: Spontaneous rupture of the flexor superficialis tendon of ring finger: a case report and review of literature.
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ABSTRACT: Compared with flexor digitorum profundus (FDP) tendon injury, the isolated rupture of flexor digitorum superficialis (FDS) tendon in a finger is a rare report in the literature. The pathogenesis is still unclear if we consider only tendon rupture without congenital anomalies or other diseases. The diagnosis is clinical, but it can be confirmed by ecography or magnetic resonance imaging (MRI). We report the case of a flexor superficialis (FS) tendon closed rupture of the ring finger of right hand in a 57-year-old patient. The diagnosis was confirmed by MRI. No surgical repair was used, given the limited clinical repercussions.MUSCULOSKELETAL SURGERY 04/2011; 95(3):245-6. -
Article: Perspectives in regeneration and tissue engineering of peripheral nerves.
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ABSTRACT: Peripheral nerve injury is a common casualty and although peripheral nerve fibers retain a considerable regeneration potential also in the adult, recovery is usually rather poor, especially in case of large nerve defects. The aim of this paper is to address the perspectives in regeneration and tissue engineering after peripheral nerve injury by reviewing the relevant experimental studies in animal models. After a brief overview of the morphological changes related to peripheral nerve injury and regeneration, the paper will address the evolution of peripheral nerve tissue engineering with special focus on transplantation strategies, from organs and tissues to cells and genes, that can be carried out, particularly in case of severe nerve lesions with substance loss. Finally, the need for integrated research which goes beyond therapeutic strategies based on single approaches is emphasized, and the importance of bringing together the various complimentary disciplines which can contribute to the definition of effective new strategies for regenerating the injured peripheral nerve is outlined.Annals of anatomy = Anatomischer Anzeiger: official organ of the Anatomische Gesellschaft 03/2011; 193(4):334-40. · 0.88 Impact Factor -
Article: Microvascular reconstructions of traumatic-combined tissue loss at foot and ankle level.
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ABSTRACT: Severe injuries at foot and ankle level with loss of soft tissues and bone are often treated by means of amputation. The transfer of composite free flaps from various donor sites may provide anatomical reconstruction of the foot and ankle and function. Ten patients who sustained severe combined tissue injuries of the foot requiring reconstruction with composite free flaps were studied with a mean follow-up of 3.4 years. A thorough clinical examination was performed, and gait analysis was carried out with kinetic and kinematic parameters. Bone integration and healing was observed with satisfactory foot morphology. All the patients returned to normal activities, although biomechanical gait analysis showed some functional disorders mainly in joint angular kinematics. Our results showed that microvascular flaps afford successful combined tissue reconstruction of the foot.Microsurgery 02/2011; 31(3):212-7. · 1.61 Impact Factor -
Article: Dorsal metacarpal artery perforator-based propeller flap for complex defect of the dorsal aspect in the index finger.
The Journal of hand surgery, European volume. 12/2009; 34(6):807-9. -
Article: Melt-extruded guides for peripheral nerve regeneration. Part I: poly(epsilon-caprolactone).
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ABSTRACT: Melt-extruded guides for peripheral nerve repair based on poly(epsilon-caprolactone) (PCL) were realised and their physico-chemical properties were evaluated. Preliminarily, PCL cast films were found to support the attachment and proliferation of Neonatal Olfactory Bulb Ensheating Cells (NOBEC). S5Y5 neuroblastoma cells were cultured inside PCL guides in their uncoated form or coated with a non-specific adhesion protein (gelatin) and a specific peptide for nerve regeneration (poly(L-lysine)). Coating increased cell density (gelatin) and/or the cell density rate on substrates (poly(L-lysine); gelatin) as compared to uncoated guides. Various in vivo tests were carried out for the repair of small (0.5 cm), medium (1.5 cm) and long (4.5 cm) size defects in the peripheral nerves of Wistar rats. For the small nerve defects, uncoated and coated PCL guides were tested. Results from in vivo tests were subjected to histological examination after 45 days, 6 and 8 months postoperative for small, medium and large defects, respectively. Regeneration was found for small and medium size defects. For 0.5 cm defects, the coating did not affect regeneration significantly. Grip-tests also evidenced functional recovery for the 1.5 cm-long defects treated with PCL guides, after 6 months from implantation. On the other hand, mechanical stiffness of PCL conduits impaired the repair of 4.5 cm-long defects in 8-month period: the lack of flexibility of the guide to rat movements caused its detachment from the implant site. The research showed that PCL guides can be used for the successful repair of small and medium size nerve defects, with possible improvements by suitable bio-mimetic coatings.Biomedical Microdevices 06/2009; 11(5):1037-50. · 3.03 Impact Factor -
Article: Preface: Essays on peripheral nerve repair and regeneration.
International Review of Neurobiology 02/2009; 87:xxi-xxii. · 2.35 Impact Factor -
Article: Chapter 4: Methods and protocols in peripheral nerve regeneration experimental research: part I-experimental models.
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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.International Review of Neurobiology 02/2009; 87:47-79. · 2.35 Impact Factor -
Article: Chapter 1: Peripheral nerve repair and regeneration research: a historical note.
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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.International Review of Neurobiology 02/2009; 87:1-7. · 2.35 Impact Factor -
Article: Chapter 11: Tissue engineering of peripheral nerves.
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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.International Review of Neurobiology 02/2009; 87:227-49. · 2.35 Impact Factor -
Article: Chapter 14: End-to-side nerve regeneration: from the laboratory bench to clinical applications.
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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.International Review of Neurobiology 02/2009; 87:281-94. · 2.35 Impact Factor -
Article: Chapter 3: Histology of the peripheral nerve and changes occurring during nerve regeneration.
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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.International Review of Neurobiology 02/2009; 87:27-46. · 2.35 Impact Factor -
Article: ErbB receptors modulation in different types of peripheral nerve regeneration.
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ABSTRACT: ErbBs are a family of receptors involved in the trophic maintenance of Schwann cells. Little is known about their expression changes during peripheral nerve regeneration. The aim of this study was thus to investigate variations in ErbBs after end-to-end and end-to-side nerve regeneration in the rat median nerve model. Expression of ErbBs was assessed at 7, 14, and 28 days postoperatively by real-time PCR. Results showed that expression of ErbB1 and ErbB4 mRNAs was downregulated, whereas ErbB3 mRNA was upregulated. No significant changes in ErbB2 mRNA were detected. Our results suggest that ErbBs changes are involved in the molecular response to peripheral nerve injuries.Neuroreport 11/2008; 19(16):1605-9. · 1.66 Impact Factor -
Article: A simple protocol for paraffin-embedded myelin sheath staining with osmium tetroxide for light microscope observation.
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ABSTRACT: Experimental investigation of peripheral nerve fiber regeneration is attracting more and more attention among both basic and clinical researchers. Assessment of myelinated nerve fiber morphology is a pillar of peripheral nerve regeneration research. The gold standard for light microscopic imaging of myelinated nerve fibers is toluidine blue staining of resin-embedded semithin sections. However, many researchers are unaware that the dark staining of myelin sheaths typically produced by this procedure is due to osmium tetroxide postfixation and not due to toluidine blue. In this article, we describe a simple pre-embedding protocol for staining myelin sheaths in paraffin-embedded nerve specimens using osmium tetroxide. The method involves immersing the specimen in 2% osmium tetroxide for 2 h after paraformaldehyde fixation, followed by routine dehydration and paraffin embedding. Sections can then be observed directly under the microscope or counterstained using routine histological methods. Particularly good results were obtained with Masson's trichrome counterstain, which permits the imaging of connective structures in nerves that are not detectable in toluidine blue-stained resin sections. Finally, we describe a simple protocol for osmium etching of sections, which makes further immunohistochemical analysis possible on the same specimens. Taken together, our results suggest that the protocol described in this article is a valid alternative to the conventional resin embedding-based protocol: it is much cheaper, can be adopted by any histological laboratory, and allows immunohistochemical analysis to be conducted.Microscopy Research and Technique 08/2008; 71(7):497-502. · 1.79 Impact Factor -
Article: Selection of the donor nerve for end-to-side neurorrhaphy.
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ABSTRACT: The authors of other studies have reported that the selection of an agonistic donor nerve is required for recovering voluntary motor control after end-to-side nerve repair. In this experimental investigation, the authors' goal was to verify this assumption by performing end-to-side neurorrhaphy of the rat median nerve on its antagonistic radial nerve. The left median nerve in 10 adult female rats was repaired by end-to-side neurorrhaphy after epineuriotomy on the radial nerve at the middle of the brachium. The time course of median nerve functional recovery was then assessed using the grasping test until postoperative Week 30. Before removing the nerve, the surgical site was carefully explored to exclude contamination by the proximal nerve stump, and the functional anatomy of median and radial nerves was assessed by electrical stimulation. Repaired nerves were then processed for resin embedding, and semithin sections were obtained for nerve fiber histomorphometry by using the dissector method. Repaired median nerves were repopulated by nerve fibers regenerating from the radial donor nerve as previously shown. Moreover, voluntary motor control of the flexor muscles innervated by the median nerve was progressively recovered beginning in postoperative Week 10 and reaching 42% of normal by Week 30. Contrary to previously reported data, recovery of voluntary motor function after end-to-side nerve repair can also be expected when an antagonistic nerve is used as a donor nerve.Journal of Neurosurgery 09/2007; 107(2):378-82. · 2.96 Impact Factor -
Article: Actualities in big segments replantation surgery.
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ABSTRACT: Replantation of an amputation is no longer a difficult technical problem. Indeed, the experience gathered over the last few decades, right from the first concepts posed by the pioneers up to the present era and the improved technical aids, all go to suggest that the majority of amputated segments may now be reconstructed. However, what we really want from a replant is not just survival but function. Indications for replantations must follow careful and objective patient selection together with the evaluation of type and site of lesion and possible complications. Furthermore, the important role of emergency organization in this type of surgery is to be emphasized. Nowadays, clean cut injuries are rarer and are being substituted by high energy trauma which may produce extensive tissue lesions that increase complications and lead to poor functional results. Consequently, some authors were induced to describe evaluation systems for decision making which still present problems which are in part due to the large number of parameters to be taken into consideration as well as to the complex functionality of the upper limb. This led us to evaluate our case series of 52 major replantations of the upper limb over the last 10 years and to compare it with other published series. The best form of reconstruction following total amputation of a major limb segment is still its replantation. The highly significant increase in the quality of life is able to justify the higher social costs and the number of operations required.Journal of Plastic Reconstructive & Aesthetic Surgery 02/2007; 60(7):849-55. · 1.49 Impact Factor -
Article: End-to-side (terminolateral) nerve regeneration: a challenge for neuroscientists coming from an intriguing nerve repair concept.
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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.Brain Research Reviews 10/2006; 52(2):381-8. · 10.34 Impact Factor
Top co-authors
Top Journals
Institutions
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2012
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Università degli Studi di Genova
Genova, Liguria, Italy
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2004–2011
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Università degli Studi di Torino
- Dipartimento di Scienze Cliniche e Biologiche
Torino, Piedmont, Italy -
Centro Traumatologico Ortopedico, Maria Adelaide
Torino, Piedmont, Italy
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2003–2007
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Università degli Studi di Messina
- • Dipartimento di Specialità Chirurgiche
- • Dipartimento di Medicina Clinica e Sperimentale
Messina, Sicily, Italy
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