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Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_1 | Pages 73 - 73
1 Jan 2017
Raggini F Boriani F Evangelista A Morselli P
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The collagenase of Clostridium Histolyticum enzyme infiltration is a mini-invasive treatment method for Dupuytren's disease which has emerged in recent years as an alternative to traditional surgery (selective aponeurectomy). Although both treatments are effective in the long term, a wider use of the enzyme is spreading worldwide. Indications and protocol of administration of collagenase are strictly regulated by the Italian Drug Administration Agency (AIFA). In the present study an off-label use of this medication has been experienced, in terms of wider indications and more numerous infiltration sites in the same cord (Multipoint technique) and in additional cords affecting other digits (Multicord technique).

All patients suffering from Dupuytren's disease and accessing the Hand Surgery outpatient at Rizzoli Institute were considered for the study, between february 2014 and february 2016. Inclusion criteria were Dupuytren's disease and a positive tabletop test. The collagenase injection was indicated for degrees of passive extension deficit (PED) higher than AIFA regulations (MCPJoints >50° and PIPJoints >45°). These patients were compared with the same PED subgroup of surgical patients who were treated through aponeurectomy. Since the drug is dispensed in vials of 0.90 mg, but according to the protocol only 0.58 mg are to be infiltrated, the injection of the remaining 0.32 mg that would otherwise remain unused was experienced. Therefore, in patients who had only one pathological cord in the hand, the first point of the cord to be treated was inoculated with 0.58 mg, according to standards, while two additional points were selected along the fibrosis and injected with the remaining 0, 32 mg. This group was compared with patients treated with the traditional 0.58 mg only on a single cord.

In patients in whom the presence of more than a single pathological cord was found, the worse lesion was injected with the usual 0.58 mg as by legislation and the second cord was infiltrated with the 0.32 mg residue and the results obtained within the second cord were compared with those achieved with the usual dose of 0.58 mg. The endpoints considered were the perioperative variations of passive extension deficit (PED) and range of motion (ROM), both expressed as degrees. Data were statistically analyzed in order to find any possible significance in the comparison of groups.

Comparing the surgical patients with those treated with collagenase, for the same degrees but higher than AIFA reference, both methods showed a reduction of contracture by at least 50% at 30 days and an improvement of ROM (p>0.05), with fewer complications in those treated enzymatically (p<0.01). Infiltrating the whole dose of collagenase (0.90 mg) through the multipoint mode, has enabled an easier handling of the cord at 24 hours post-injection, a reduction in contracture of at least 50% at 30 days allowing a dowstaging of the disease and a better and faster recovery of hand function, than the classic treatment, although these results are not statistically significant (p>0.05). For degrees of contractures within AIFA indications for collagenase, the 0.32 mg dose is sufficient to cause the lysis of a cord with similar results compared to the greater AIFA-recommended dose of 0.58, in terms of all considered endpoints, with no statistically significant difference (p >0.01).

This study confirms the success of treatment with collagenase compared to surgical treatment, in terms of efficacy, safety, more rapid recovery and less invasiveness. In addition, through further clinical studies, AIFA regulations can be gradually safely and effectively extended in terms of a progressive widening of indications and modalities including:

Indication to collagenase for PED higher than 50° (MCP joints) or 45° (PIP joints)

Multiple injections in the same cord with the whole content of the vial (0.90 mg)

Injections in multiple cords with the whole content of the vial (0.90 mg)


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_1 | Pages 76 - 76
1 Jan 2017
Boriani F Savarino L Fotia C Zini N Fazio N Nicoli Aldini N Martini L Bernardini M Fini M Baldini N
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For unrepairable nerve defects, to date autogenous nerves are considered the golden standard, but donor site morbidity, limited availability and operation time prolongation are relevant problem. Acellular nerves from cadaveric donor, introduced since more than one decade ago, represent a novel promising alternative to bridge unrepairable nerve gaps.

Aim of this study is to provide a new tool to ameliorate the assistance of the numerous patients suffering from traumatic, oncological and jatrogenic nerve lesions. For this purpose, our project is promoting a progress beyond the state of the art of nerve gaps bridging surgery by developing a new technique to obtain acellular nerve allografts (ANAs).

Several methods to examine the effect of detergents on nerve tissue morphology and protein composition have been previously reported. Most of them are too expensive and time consuming. The presented novel decellularization technique is a modification of the Michigan detergent-based organic material removal, to speed up myelin and cellular debris detachment. The previously published Hudson's method1has been chosen as control of the decellularization process). To validate the new nerve decellularization method, in terms of histological characteristics, outcomes were estimated through morphological and immunohistochemical studies in vitro and in vivo. The in vivo study consisted of a 1 cm defect in the tibial nerve of 3 new Zealand rabbits. This nerve defect was microsurgically replaced with a “Rizzoli” acellular nerve allograft. Rabbits were sacrificed 12 weeks after surgery. Endpoints were nerve conduction studies and histology.

Histological analysis of processed acellular nerve have been performed to evaluate the preservation of the structure and almost complete clearance of donor cells and cellular debris. Immunostaining analysis confirmed absence of Schwann cells and the maintenance of basal lamina. In vivo studies showed an effective and abundant nerve regeneration through the microsurgically reconstructed nerve defects. This was histologically proven. However no electophysiological return of function was showed.

The novel method will allow the storing of acellular nerve allografts. First results obtained by morphological analysis and immunofluorescence experiments and in vivo studies indicate that the internal structure of native nerve is maintained. It is then possible to decellularize nerves with the novel technique reducing both manufacturing times and costs. The relatively inexpensive method of decellularization will facilitate the number of patients that will benefit from reconstruction of nerve defects with ANAs.


Orthopaedic Proceedings
Vol. 99-B, Issue SUPP_2 | Pages 113 - 113
1 Jan 2017
Boriani F Granchi D Roatti G Merlini L Sabattini T Baldini N
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The postoperative course of median nerve decompression in the carpal tunnel syndrome may sometimes be complicated by postoperative pain, paresthesias, and other unpleasant symptoms, or be characterized by a slow recovery of nerve function due to prolonged preoperative injury causing extensive nerve damage.

The aim of this study is to explore any possible effects of alpha lipoic acid (ALA) in the postoperative period after surgical decompression of the median nerve at the wrist.

Patients were enrolled with proven carpal tunnel syndrome and randomly assigned into one of two groups: Group A: surgical decompression of the median nerve followed by ALA for 40 days. Group P: surgical decompression followed by placebo. The primary endpoint of the study was nerve conduction velocity at 3 months post surgery, Other endpoints were static 2 point discrimination, the Boston score for hand function, pillar pain and use of pain killers beyond the second postoperative day.

ALA did not show to significantly improve nerve conduction velocity or Boston score. However, a statistically significant reduction in the postoperative incidence of pillar pain was noted in Group A. In addition, static 2 point discrimination showed to be significantly improved by ALA.

Administration of ALA following decompression of the median nerve for carpal tunnel release is effective on nerve recovery, although this is not detectable through nerve conduction studies but in terms of accelerated and improved static two-point discrimination.

The use of ALA as a supplementation for nerve recovery after surgical decompression may be extended to all types of compression syndromes or conditions where a nerve is freed from a mechanical insult.

Furthermore, ALA limits post-decompression pain, including late pericicatricial pain at the base of the palm, the so called pillar pain, which seems to be associated with a reversible damage to the superfical sensitive small nerve fibers.

In conclusion postoperative administration of ALA for 40 days post-median nerve decompression was positively associated with nerve recovery, induced a lower incidence of postoperative pillar pain and was associated with a more rapid improvement of static two-point discrimination. This treatment is well tolerated and associated with high levels of satisfaction and compliance, supporting its value as a standard postoperative supplementation after carpal tunnel decompression.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 39 - 39
1 Jul 2014
Boriani F Urso R Fell M Ul Haq A Khan U
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Summary

open tibia fractures are best treated in an orthopaedic-plastic surgical multidisciplinary setting.

Introduction

Open fractures of the leg represent a severe trauma. It is often stated that combining the skills of Plastic and Orthopaedic surgeons can optimise the results of limb salvage in complex limb injury. The multidisciplinary approach, shared between plastic and orthopaedic surgeons, is likely to provide the optimal treatment of these injuries, although this mutidisciplinary simultaneous treatment is not routinely performed. Given the relatively low incidence of these traumas, a multicentric recruitment of these patients can contribute in providing an adequately numerous cohort of patients to be evaluated through the long process of soft tissue and bone healing following an open tibia fracture. We compared three centres with different protocols for management of these challenging cases.