Your search keyword '"Lafosse L"' showing total 15 results

1. Butées sous arthroscopie pour le traitement de l'instabilité antérieure

Author

Lafosse, L., primary, Gerometta, A., additional, and Lafosse, T., additional

Published

2013

2. Ruptures isolées du subscapulaire

Author

Lafosse, L., primary and Giannakos, A., additional

Published

2011

3. Liste des auteurs

Author

Balestro, J.C., primary, Berhouet, J., additional, Blum, A., additional, Boileau, P., additional, Bonnevialle, N., additional, Borroni, M., additional, Castagna, A., additional, Charousset, C., additional, Claudot, F., additional, Clavert, P., additional, Coudane, H., additional, Delle Rose, G., additional, Derwin, K.A., additional, Dezaly, C., additional, Duparc, F., additional, Duperron, D., additional, Favard, L., additional, Ferrand, M., additional, Gagey, O., additional, Garret, J., additional, George, T., additional, Giannakos, A., additional, Gleyze, P., additional, Godenèche, A., additional, Gosselin, O., additional, Grosclaude, S., additional, Hardy, P., additional, Iannotti, J.P., additional, Joudet, T., additional, Kempf, J.-F., additional, Lafosse, L., additional, Le Coniat, Y., additional, Lecocq, S., additional, Lévigne, C., additional, Louis, M., additional, Mesiha, M.M., additional, Moineau, G., additional, Moisei, A., additional, Molé, D., additional, Neyton, L., additional, Noel, E., additional, Nové-Josserand, L., additional, Nunes-Ogassawara, R.L., additional, Pierucci, A., additional, Ricchetti, E.T., additional, Roche, O., additional, Ropars, M., additional, Schaer, M., additional, Schober, M., additional, Sedaghatian, J., additional, Sirveaux, F., additional, Teixeira, P., additional, Thomazeau, H., additional, Walch, G., additional, Wassel, J., additional, and Zumstein, M.A., additional

Published

2011

4. Anterior Shoulder Instability

Author

Bailey, L. C. D. R. J. R., Little, B. A., Dale, K. M., Taylor, D. C., Provencher, M. T., Vutescu, E. S., Sanchez, G., Fabricant, P. D., Cordasco, F. A., Roberson, T. A., Bentley, J. C., Hawkins, R. J., Sanchez, A., Gaston, T., Lafosse, L., Plath, J. E., Schantz, K., Tokish, J. M., Kwapisz, A., Choate, W. S., Taverna, E., Guarrella, V., Matsuki, K., Sugaya, H., Savoie, F. H., Heffernan, J. T., Miniaci, A., Patel, R. M., Elbanna, A. M., Dukas, A. G., Arciero, R. A., Meadows, M. C., Gregory, B. P., Thorsness, R. J., Romeo, A. A., Gendre, P., Bessiere, C., Boileau, P., Pelligrini, A., Paladini, P., Merolla, G., Porcellini, G., Yamamoto, N., Itoi, E., Dare, D. M., and Warren, R. F.

Published

2018

5. All-Endoscopic Treatment of Acute Acromioclavicular Joint Dislocation: Coracoclavicular Double Cerclage EndoButton Technique and Acromioclavicular Stabilization Using the Coracoacromial Ligament.

Author

Kimmeyer M, Lafosse L, and Lafosse T

Abstract

High-grade the acromioclavicular joint (ACJ) dislocations can be treated surgically. Endoscopic techniques to stabilize the ACJ using an EndoButton suture technique for coracoclavicular (CC) fixation have been shown to be safe and reproducible. Several studies have demonstrated the benefit of stabilizing the ACJ to reduce postoperative horizontal instability. This Technical Note presents a full-endoscopic technique for acute ACJ dislocations using a double-stranded EndoButton cerclage technique for CC reconstruction and an additional coracoacromial ligament transfer for acromioclavicular reconstruction. An autologous coracoacromial ligament transfer to the lateral clavicle increases stability in the horizontal plane and reduces the risk of anteroposterior recurrent instability. Clinical studies need to show whether additive ACJ fixation in addition to the all-endoscopic double cerclage EndoButton CC stabilization technique is in fact beneficial., Competing Interests: The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: M.K. reports funding grants from DePuy Synthes Mitek Sports Medicine. L.L. reports equity or stocks from DePuy Synthes. T.L. reports consulting or advisory from DePuy Synthes Mitek Sports Medicine, 10.13039/100008894Stryker Orthopaedics, 10.13039/100009026Smith & Nephew, and 10.13039/100012630Zimmer Biomet Holdings Inc, (© 2024 The Authors.)

Published

2024

6. Arthroscopic Bone Block Procedure for Posterior Shoulder Instability: Updated Surgical Technique.

Author

van Spanning SH, Picard K, Buijze GA, Themessl A, Lafosse L, and Lafosse T

Abstract

Posterior shoulder instability is generally caused by traumatic posterior dislocations or repetitive microtrauma during sports or other activities and has an annual incidence rate of 4.64 per 100,000 person-years. Several surgical techniques to treat posterior shoulder instability have been described, including soft-tissue repair and both open and arthroscopic bone block procedures. However, even though patient-reported outcomes are commonly high, surgical procedures are associated with high complication and revision rates of up to 14% and 67%, respectively. In particular, accurate placement of the bone graft, screw orientation, and the treatment of concomitant lesions are considered challenging. Therefore, improvement of surgical techniques is desirable. This Technical Note describes an updated approach to the arthroscopic posterior bone block augmentation described by Lafosse et al. (2012), with tips and tricks on the harvest and positioning of the graft., (© 2022 The Authors.)

Published

2022

7. Technical Guide and Tips to Posterior Arthroscopic Latissimus Dorsi Transfer for Irreparable Posterosuperior Rotator Cuff Tears.

Author

Lopez-Fernandez V, Mariaux S, Lafosse L, and Lafosse T

Abstract

Latissimus dorsi (LD) transfer is a reliable treatment option for irreparable posterosuperior (PS) rotator cuff tears in young and active patients that need to recover the range of motion for their daily living activities. The technique starts with an arthroscopic assessment of the tear. The next step is the mini-open stage for muscle release from the subcutaneous layer of the skin, the teres major (TM), the triceps, and the lateral border and inferior angle of the scapula. Later, the scope is used to prepare the footprint (arthroscopy) and for the release and the harvest of the tendon (endoscopy), taking care not to detach the TM and not to damage the radial nerve. A grasper is used to push the LD to its correct path medial to the triceps. After that the same instrument is placed from the anterolateral and the anterior arthroscopic portals toward the mini-open incision to catch the sutures previously loaded on the LD tendon with Krackow stitches. The LD is transferred to the greater tuberosity and is attached with one medial and one lateral knotless anchors. A third point of fixation enables a partial RC repair and ensures a surface of bone to tendon healing., (© 2022 The Authors.)

Published

2022

8. The 360 Double Lasso Loop for Biceps Tenodesis: Tips and Tricks.

Author

Lafosse T, Kopel L, Beckers J, and Lafosse L

Abstract

The management of the intra-articular portion of the long head of the biceps tendon (LHB) is a recurring topic in every discussion about shoulder pain. In massive rotator cuff tears or in tears of the superior third of the subscapularis tendon, our approach is to systematically perform a tenodesis of the LHB. In this Technical Note, we present our arthroscopic technique for LHB tenodesis at the articular margin of the humeral head using a single anchor and a 360 double lasso loop. This technique guaranties a strong and efficient fixation of the biceps tendon and is reproducible when following the steps and tips and tricks outlined herein., (© 2021 by the Arthroscopy Association of North America. Published by Elsevier.)

Published

2021

9. Technical Guide and Tips to Anterior Arthroscopic Latissimus Dorsi Transfer for Irreparable Subscapularis Tears.

Author

Lafosse T, Fortané T, McBride A, Salentiny Y, Sahin K, and Lafosse L

Abstract

In young patients, irreparable subscapularis tears can be managed by latissimus dorsi (LD) transfer on the lesser tuberosity. We provide a technical guide for isolated LD anterior transfer. The surgical procedure begins with glenohumeral exploration and release of the remaining subscapularis. Then, we dissect the LD tendon below the subscapularis. At the upper and inferior borders, we dissect the LD from the teres major, protecting the radial nerve anteriorly and inferiorly. Next, we detach the LD. Inferiorly, we cut the aponeurotic expansion for the triceps. A Foley catheter is used as a shuttle relay, anterior to the axillary nerve and medial and posterior to the radial nerve. We continue with an open dissection of the LD, posterior to the axillary fossa, to release the LD from the skin and tip of the scapula. The LD is transferred on the lesser tuberosity after retrieved by the Foley catheter, with care taken not to twist the tendon. It is fixed with 2 lateral anchors and 1 medial anchor. A shoulder brace is worn for 6 weeks. Physiotherapy begins thereafter., (© 2020 by the Arthroscopy Association of North America. Published by Elsevier.)

Published

2020

10. Endoscopic brachial plexus neurolysis in the management of infraclavicular nerve injuries due to glenohumeral dislocation.

Author

Le Hanneur M, Colas M, Serane-Fresnel J, Lafosse L, Grandjean A, Silvera J, and Lafosse T

Subjects

Adult, Aged, Female, Humans, Male, Middle Aged, Neurosurgical Procedures, Young Adult, Brachial Plexus surgery, Brachial Plexus Neuropathies surgery, Nerve Transfer, Shoulder Dislocation diagnostic imaging, Shoulder Dislocation surgery

Abstract

Introduction: Infraclavicular brachial plexus (BP) injury secondary to glenohumeral joint (GHJ) dislocation is a rather common complication, which may be accountable for long-lasting deficits. The purpose of this study was to assess the potential benefits of BP neurolysis in such presentation, using an endoscopic approach., Materials and Methods: All patients who underwent endoscopic BP neurolysis in the setting of infraclavicular BP palsy due to GHJ dislocation were included. Preoperative physical examination was conducted to classify the observed motor and sensitive deficits into nerves and/or cord lesions. Six weeks after the trauma, examination was repeated and endoscopic BP neurolysis was elected if no significant improvements were observed. If nerve ruptures and/or severe damages were identified during surgery, nerve reconstructions were conducted within a month; in other cases, follow-up examinations were conducted at 6 weeks, 3 and 6 months to assess the course of postoperative recovery., Results: Eleven patients were included, including 6 men and 5 women, with a mean age of 43 ± 23 years (16;73). Six patients had at least one cord involved, four patients had isolated axillary nerve palsy, and one patient had a complete BP palsy. In 7 patients with cord lesions and/or isolated axillary nerve palsy, at least grade-3 strength, according to the British Medical Research Council grading system, was noted in all affected muscles within 6 weeks following the neurolysis; after 3 months of follow-up, grade-4 strength was observed in all muscles, and all but patients but one had fully recovered within 6 months. In 3 patients with isolated axillary nerve palsy, complete nerve ruptures (n=2) and severe damages (n=1) were identified under scopic magnification; secondary nerve transfers were conducted to reanimate the axillary nerve, and all patients fully recovered within a year. In one patient with complete BP palsy, improvements started after 6 months of follow-up, and full recovery was yielded after 2 years. No intra- and/or postoperative complications were noted., Conclusions: At the cost of minimal additional morbidity, endoscopic BP neurolysis appears to be a safe and reliable procedure to shorten recovery delays in most patients presenting with BP palsy due to GHJ dislocation., Competing Interests: Declaration of Competing Interests The authors declare that they have no conflict of interests. None of them has a financial interest in any of the products, devices, or drugs mentioned in this manuscript. They have not received or will receive any financial aid, in any form, for this study, from any of the following organizations: National Institutes of Health (NIH); Wellcome Trust; Howard Hughes Medical Institute (HHMI); or other(s)., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

11. All-Endoscopic Treatment of Acromioclavicular Joint Dislocation: Coracoclavicular Ligament Suture and Acromioclavicular Ligament Desincarceration.

Author

Lafosse T, Fortané T, and Lafosse L

Abstract

Acute acromioclavicular (AC) joint dislocations are common and difficult to manage. The physiopathologic pattern begins with the rupture of the AC ligaments, then the coracoclavicular (CC) ligaments, and with an invasion of the clavicle through the deltotrapezial fascia. Therefore, we tend to perform a true suture of the CC ligaments, along with a release of the AC ligaments from the joint. We thus propose an all-endoscopic CC ligament suture and AC joint release. It starts with glenohumeral exploration enabling a repair of concomitant lesions when necessary. Dissection of the coracoid process is made, along with the lateral border of the conjoint tendon, medially the pectoralis minor tenotomy, and plexus brachial exposition and protection. Superiorly the CC ligaments are tagged and exposed. A major difference with others procedure then arises. We dissect the inferior and superior surfaces of the clavicle and the AC joint, although we maintain the continuity between the deltotrapezoid fascia and the AC ligaments. The AC dislocation is reduced under endoscopic control performing a true suture of the CC ligaments by the mean of 2 suture tapes and dog bones. After surgery, a shoulder brace is used for 6 weeks. Physiotherapy then begins., (© 2020 by the Arthroscopy Association of North America. Published by Elsevier.)

Published

2020

12. All-Endoscopic Resection of an Infraclavicular Brachial Plexus Schwannoma: Surgical Technique.

Author

Lafosse T, Le Hanneur M, Popescu IA, Bihel T, Masmejean E, and Lafosse L

Abstract

Due to recent progress in shoulder arthroscopy, all-endoscopic brachial plexus (BP) dissection has progressively become a standardized procedure. Based on previously described techniques, we present an additional neurological procedure that may be performed all-endoscopically, that is, the excision of an infraclavicular BP schwannoma. Starting from a standard shoulder arthroscopy with posterior and lateral portals, additional anterior and medial portals are progressively opened outside the joint under endoscopic control to access the BP. At first, dissection of the subcoracoid space allows the identification of the posterior and lateral cords, along with the axillary artery. Then, by performing a pectoralis minor tenotomy, the medial cord and axillary vein are exposed, giving access to the whole infraclavicular plexus. Intraneural dissection is performed using arthroscopic tools such as a long beaver blade, a grasper, and a smooth dissector to progressively extract the encapsulated tumor from the nerve without any damage. Using a standardized technique, endoscopy may be an advantageous tool in selected cases of BP benign peripheral nerve sheath tumors.

Published

2018

13. All-endoscopic Brachial Plexus Complete Neurolysis for Idiopathic Neurogenic Thoracic Outlet Syndrome: Surgical Technique.

Author

Lafosse T, Le Hanneur M, and Lafosse L

Abstract

Neurogenic thoracic outlet syndrome is caused by a neurologic compression of the brachial plexus before it reaches the arm. Three anatomic areas are common locations for such an entrapment because of their congenital and/or acquired tightness: the interscalene triangle, the costoclavicular space, and the retropectoralis minor space. Because the compression level usually remains unknown, the treatment is still controversial and most teams focus on only one potential site. We propose an all-endoscopic technique of complete brachial plexus neurolysis that can be divided into three parts, one for each entrapment area. First, with a subacromial approach, the suprascapular nerve is released distally from the transverse ligament and then followed up to the upper trunk. Once the upper trunk is located, the middle and lower trunks are dissected in the interscalene triangle. Then, by use of an infraclavicular approach, the brachial plexus is released from the costoclavicular space by detaching the subclavian muscle from the clavicle. Finally, the pectoralis minor is released from the coracoid so that the brachial plexus is distally freed. This technique seems to be safe and reproducible, but expert knowledge of the neurovascular anatomy and advanced endoscopic skills are required.

Published

2017

14. Arthroscopic Screw Removal After Arthroscopic Latarjet Procedure.

Author

Lafosse T, Amsallem L, Delgrande D, Gerometta A, and Lafosse L

Abstract

Arthroscopic Latarjet procedure is an efficient and reliable approach for the treatment of shoulder instability. Nevertheless, the screws fixing the bone block may sometimes be responsible for pain and uncomfortable snapping in the shoulder that is triggered during active external rotation. We propose an all-arthroscopic technique for screw removal in cases of complications involving the screws from a Latarjet procedure. The all-arthroscopic screw removal is reliable and efficient. This procedure is indicated in more cases than thought because of the bone block resorption. It permits a revision of the glenohumeral joint in case of persisting pain.

Published

2017

15. Subacromial spacer placement for protection of rotator cuff repair.

Author

Szöllösy G, Rosso C, Fogerty S, Petkin K, and Lafosse L

Abstract

Rotator cuff repairs have a high failure rate proportional to the tear size. Various techniques have been described to improve the repair strength and failure rate. The described surgical technique uses a biodegradable subacromial balloon-shaped spacer (InSpace; OrthoSpace, Caesarea, Israel) that is implanted arthroscopically to protect our tendon repair. We describe the introduction technique and suggest some hints and tricks. The spacer is placed under direct vision in the subacromial space after the rotator cuff repair is finished. Correct placement is verified by moving the arm freely. The subacromial spacer may help to protect the rotator cuff repair by centering the humeral head and reducing friction between suture knots and the acromion. It may also help to flatten dog-ear formations.

Published

2014