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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT05501509
Other study ID # 101
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date January 1, 2022
Est. completion date July 31, 2023

Study information

Verified date August 2022
Source Universidad de La Frontera
Contact Felipe Gómez, Resident Traumatology
Phone +56978228414
Email gomezlagosf@gmail.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The entire upper extremity is attached to the axial skeleton, specifically through the clavicle and the acromioclavicular articulation (AC). The stability of the AC articulation is provided by coracoclavicular ligaments in the vertical plane and acromioclavicular ligaments in the horizontal plane. The AC luxation is a frequent pathology in youth and athletes that practice contact sports, it has incidence 9,2 per 1000 inhabitants per year, which represents between 30% to 50% of shoulder injuries in young athletes, which is more frequent in men than in women with a ratio of 8:1. Its main injury mechanism is direct trauma while the shoulder is adducted and its less frequent secondary indirect mechanism following is of a fall of the extended arm. In 1984 the Rockwood team published the most used and accepted classification system till this day, which is divided into 6 types according to the grade of instability types. The treatment is usually conservative in patients with Rockwood type I and II lesions and surgical in types IV, V and VI. There is controversy in the surgical indication of type III lesions, highlighting the importance of medial stability associated with the characteristics and expectations of each patient. Although there are more than 160 described surgical techniques, the percentage of complications is considerable, with a 14% of intra-operative complications, 21% reduction loss and a 10% end up in a revision surgery . To minimize the complications and obtain better functional results, the idea of this randomized controlled clinical trial was born.


Description:

THEORETICAL FRAME The upper extremity is completely attached by the axial skeleton, especially through the clavicle and the acromioclavicular articulation (AC)(1). The previously mentioned articulation is a diarthrodial joint. The stability of this articulation is caused by coracoclavicular ligaments in the vertical plane and the acromioclavicular ligaments in the horizontal plane(2). The AC luxation is a common pathology in youth and athletes who participate in contact sports which has a 9,2 per 1000 incidence between inhabitants every year represented between 30% to 50% from shoulder injuries in young athlete, it is most common in men than women with a ratio of 8:1(3). It's main injury mechanism is direct trauma while the shoulder is adducted and less frequently is the indirect mechanism of dropping the arm in an extended motion(4). In the year 1963, Tossy et al(5) for the first time described and classified some of the patterns of luxation AC, which was then extended to 6 AC luxation degrees and published by Rockwood in the year 1984 becoming the first most accepted and used till this day(6). There have many techniques of conservative treatment and surgery management as a treatment for all time of laxation AC (Rockwood grades I-VI) written as time passed by, although literature suggests and supports the conservative treatment for grades I and II and the surgical management for grades IV-V-VI, the optimal treatment for grade III injuries is still controversial(7). In regards to these type of injuries, taking into account the importance of medial stability an agreement was taken by the committee of the upper extremity of the International Society of Arthroscopy, Knee Surgery and Orthopedic Sports Medicine (ISAKOS), which suggests that a subdivision of the III grade of Rockwood in IIIA when the AC articulation is stable and the IIIB when the AC articulation is unstable(8), helping to differentiate and identify the patients with grade III Rockwood in a better manner who will be benefited from a surgical treatment. To evaluate the correct AC luxation ligaments, the radiological evaluation must include a projection of bilateral, axillary Zanca and Alexander (also known as Basmania). This last projection has increased its relevance in the past couple of years since it can help us to differentiate whether there's a presence or an absence of medial instability in the case of Rockwood III AC luxation(9). Till this day there are no actual standardized measurements that guide the correct manner of treating it with a good variability, Zumstein et al(10) proposed 2 new quantitative parameters to evaluate the vertical and horizontal instability and based on the Alexander view. To evaluate the vertical stability the use of the vertical distance between the center of the acromion and the midpoint of the lateral clavicle (AC-DC) and to evaluate the horizontal stability he used the distance of the center of the glenoid and lateral clavicle (GC-PC). Both parameters were shown to be trusted sources with excellent validity, which helped guide the treatment for some AC luxation, especially for Rockwood grade II and III injuries. Despite the numerous described surgical techniques, currently more than 160, do not show evidence of superiority of one in specific and there is no agreement whether it is necessary to stabilize only the AC articulation in the vertical, horizontal or both planes(11). In this case more attention is focused on the complex AC ligament standing out the superior AC band as its main horizontal stabilizer(12), which does have an injury and in the process of insufficiently healing and repairing it can contribute up to 50% of horizontal instability in the AC articulation(13). Many studies demonstrate that the horizontal instability can have an important clinical relevance associated with the worst functional postsurgical results(14-16) which during the past couple of years has increased the interest of conducting many surgical techniques to better the horizontal stability and so the functional results after surgery(17). Al though there have been many advances in surgical techniques during the time, the percentage of complications are still considerable, with up to 14% of inoperable complications, 21% reduction loss and 10% remains in revision surgery(4). With the result of minimizing complications and obtaining better functional results arises the idea of conducting the randomized clinical trial. INVESTIGATION QUESTIONING "In patients with an acute and unstable acromioclavicular luxation, the coracoclavicular fixation with stabilized acromioclavicular has a clinical impact to decrease of complications and better its functionality?" OBJECTIVES General objectives • To observe the clinical impact of the fixed coracoclavicular with acromioclavicular stabilization and compare it with the isolated coracoclavicular stabilization in the management of the unstable acromioclavicular luxation. Specific objectives - Evaluate the functionality levels and postoperative pain of the surgically managed acromioclavicular luxation. - Evaluate the variation of the post-operational radiological parameters (coracoclavicular distance) in the surgical management of the luxation of acromioclavicular ligaments. - Evaluate the incidence of postoperative complications in surgical management of luxated acromioclavicular joints. METHOD The unstable acromioclavicular luxation evaluated and diagnosed patients will be admitted by on duty Traumatologists at the urgency services of Hospital Dr. Hernán Henríquez Aravena de Temuco. The unstable acromioclavicular luxation that are surgically managed according to the instability criteria found in international literature (Rockwood IIIb, IV, V and VI). The length of the study will be of at least 1 year with the option of continuing it for 2 years. The coracoclavicular fixation with and without acromioclavicular stabilization will be compared making up two investigation groups. The patients that fulfill the requirements and criteria for inclusion will be invited to form part of the study where they will need to evaluate and sign an informed consent form. It will be randomized by block using a computer system. The documents will be printed and into sealed envelopes. Before the surgery one of the envelopes will be chosen, this envelope will contain one of the 2 techniques from which the surgeon will use in the procedure. Postoperative evaluations will be done, the patients will be controlled by a surgeon from a different team, which will not know the surgical protocol. The first control will be done at 3 weeks postoperative, then on the 3, 6, 12, and 24 months. During the controls the clinical functionality will be evaluated with 3 scores (ASES, Nottingham and Constant) and the eventual clinical or radiological complications using an x-ray with Bilateral Zanca view. Lastly, the need of analgesia will be consulted, and the presence of complications will be evaluated. Statistically there will be 0.05 alpha used and there will be protocol analysis, as well as, by intent to treat for calculation of RR, RRR, RAR, NNT, NNH. Finally, there will be analysis done by subgroups of ages 15-40 and 40-65 years, sex, and acromioclavicular luxation grade according to Rockwood, affected side and preoperative evolution time. Lastly, the need of analgesia will be consulted, and the presence of complications will be evaluated. ELECTION OF DESIGN Our question is about therapy, from which is the best kind that will give us an estimate to the truth is through a randomized clinical trial so that we decrease biases. The 2 surgical techniques are currently valid alternatives, and they are done in the Hospital Dr. Hernán Henríquez Aravena on a routinary basis, so there are no ethical dilemmas in regard to added adverse events. SURGICAL TECHNIQUE The procedure will be done with combined anesthesia, using general and locoregional anesthesia with an interscalene block. The patient will be placed in supine position on top of an orthopedic bed and an interscapular cushion. Using the gel pads, all of the bone prominences are protected. The head needs to be reassured that it is in a secure and correct position. The arm that will not be intervened must remain in a neutral position while the other is prepared to be sterile manner and positioned along with the adducted body. Finally, it is covered with standard sterile drapes. Once the patient is in the correct position, the relevant bone prominences of the shoulder are palpated and identified (clavicle, acromion, and the coracoid process) and the initial incision is marked using a surgical pen, starting on the Langer lines to create a more aesthetic scar. With a number 15 scalpel we create an incision in the bretel "continue the line of the strap of the brassiere" and we continue to dissect the subcutaneous tissue in the same direction until exposing the deltotrapezial fascia, which is opened using Metzenbaum scissors parallel to the clavicle, achieving a flap that when it's raised towards the inside we are able to see the upper and lower clavicle and coracoid process. As we palpitate we can identify the subcoracoid space and using a subcoracoid suture passer we pass a guiding suture maintaining it with mosquito forceps. With a surgical ruler over the top face of the clavicle we mark a 1 cm of the most lateral part of the clavicle to do the first tunnel with a 2,5mm drill from the top to the bottom, then we stabilize a 3-hole third plate with 3 holes and a screw in the previously done hole. Continuing with the subcoracoid of 1 Fiberwire double number 2 and a thread of Fibertape using a guide suture. Both of the remaining holes of the 3-hole third plate are drilled in the direction of the coracoclavicular ligaments so that the double Fiberwire and the thread of Fibertape with Nitinol can pass through in a retrograde manner. Using the Fiberwire we do a knot over the 3-hole third plate, then using fluoroscopy we visualize the adequate coracoclavicular reduction continuing to tie the Fibertape with a knot. It's important not to cut the remaining suture so that it is set aside for the next step. Guided by fluoroscopy, we made an 8mm incision in the lateral edge of the acromion, to perform an anterior and posterior clavicular tunnel using an anterior cruciate ligament guidewire. Using the first tunnel that goes through the Polyglactin stitch, fetching back the thread from the previous one, we go back in the same retrograde manner using the Fiberwire threads and the Fibertape that were previously mentioned. Finally, both the remaining Fiberwire and Fibertape are tied using a surgical knot achieving AC fixation. POSTOPERATION After the surgical stabilization on the AC articulation, we indicate that the immobilization of the shoulder with a sling for 2 weeks, which is the moment where the patients will be able to begin to move passively under shoulder level with the assistance by physical therapist. Strengthening is allowed once the patient can fully complete the movement, which is generally around the 6th to 8th week. Generally, we allow the patient to retake sports 4 to 6 months after surgery. RISK OF ADVERSE EVENTS There are no additional adverse risks in any surgery of this kind. As mentioned previously, the 2 accepted techniques are accepted and utilized by our service currently, therefore, there will be no action that will increase the risk of the surgery in comparison to a common surgical procedure. There are no studies that show variations in regard to the pain response of the treatment between the two procedures, but there should not be any differences in that aspect. Either way, every case will be monitored regarding the response of the analgesia, and it will be adjusted according to the patients' necessities. The irradiation from the x-ray taken of the extremities is equivalent to 0.001 mSv of effective radiation (19). Since the x-ray control used in this procedure will be normal, there will only be 4 x-rays taken, without exceptions, which results in an insignificant additional increase in the risk of patient developing cancer due to the test. In any case, the complications will be detected in an early manner during the evaluations done by the investigation team, where these will be handled and monitored, and additional controls will be done if necessary. CONSCENT PROCESS The responsible investigator and their collaborators are in charge of receiving the consent form given by the patient. This will be solicited in a private premises where the patient and their family members will be informed about the nature of the investigation, taking the necessary time to answer all questions. The patient will be able to take the document of consent and after its signature, later a copy of the document will be provided. If the patient needs to further analyze the document with more detail or in case that they do not want to participate they are free to take a copy to inspect and analyze. The patient may withdraw from the study whenever they wish. RESPONSIBLE OF RECEPTION OF CONSCENT FORM (Hospital Hernán Henríquez Aravena) - Dr. Felipe Gómez Lagos - Dr. Martin Zecher Magni - Dr. Andrés Sánchez Garcia - Dr. Enrique Pávez Uribe FINANCING SOURCING The study does not count with any sponsors, the financing is run by the investigation team. CONFLICTS OF INTERESTS The authors declare that there are no conflicts related to any type of economic interests.


Recruitment information / eligibility

Status Recruiting
Enrollment 240
Est. completion date July 31, 2023
Est. primary completion date November 30, 2022
Accepts healthy volunteers No
Gender All
Age group 15 Years to 65 Years
Eligibility Inclusion Criteria: - Rockwood IIIB, V, and VI acromioclavicular luxation - Less than 14 días of progression time since the lesion - Patient over the age of 15 - Possibility of clinical monitoring - Informed and validated consent by the ethics committee Exclusion Criteria: - Surgery previously done on the clavicle and/or ipsilateral acromioclavicular, contralateral and/or bilateral articulation. - Neuropathy of motor or mixed upper extremities. - Exposure of an acromioclavicular injury. - Fractures associated with clavicles, scapula and/or ipsilateral humerus. - Function alterations concerning the previously mentioned extremity. - Functional alterations of the contralateral extremity. - Disease that can evolve with neuropathy during the study period (Multiple Sclerosis, Vasculitis, badly controlled Diabetes with progressed damage, etc.)

Study Design


Related Conditions & MeSH terms

  • Acromioclavicular Joint Dislocation

Intervention

Procedure:
Coracoclavicular fixation with acromioclavicular stabilization for the management of an unstable acromiclavicular luxation
Using a 3-hole third plate and high resistance sutures across the acromioclavicular joint to achieve horizontal and vertical stability of the joint
Coracoclavicular fixation for the management of an unstable acromiclavicular luxation
Isolated coracoclavicular repair using a 3 hole third plate.

Locations

Country Name City State
Chile Hernán Henríquez Aravena Hospital Temuco

Sponsors (1)

Lead Sponsor Collaborator
Universidad de La Frontera

Country where clinical trial is conducted

Chile, 

References & Publications (17)

Barnes CJ, Higgins LD, Major NM, Basamania CJ. Magnetic resonance imaging of the coracoclavicular ligaments: its role in defining pathoanatomy at the acromioclavicular joint. J Surg Orthop Adv. 2004 Summer;13(2):69-75. — View Citation

Barth J, Duparc F, Andrieu K, Duport M, Toussaint B, Bertiaux S, Clavert P, Gastaud O, Brassart N, Beaudouin E, De Mourgues P, Berne D, Bahurel J, Najihi N, Boyer P, Faivre B, Meyer A, Nourissat G, Poulain S, Bruchou F, Ménard JF; French Society of Arthro — View Citation

Beitzel K, Mazzocca AD, Bak K, Itoi E, Kibler WB, Mirzayan R, Imhoff AB, Calvo E, Arce G, Shea K; Upper Extremity Committee of ISAKOS. ISAKOS upper extremity committee consensus statement on the need for diversification of the Rockwood classification for — View Citation

Beitzel K, Obopilwe E, Apostolakos J, Cote MP, Russell RP, Charette R, Singh H, Arciero RA, Imhoff AB, Mazzocca AD. Rotational and translational stability of different methods for direct acromioclavicular ligament repair in anatomic acromioclavicular join — View Citation

Beris A, Lykissas M, Kostas-Agnantis I, Vekris M, Mitsionis G, Korompilias A. Management of acute acromioclavicular joint dislocation with a double-button fixation system. Injury. 2013 Mar;44(3):288-92. doi: 10.1016/j.injury.2013.01.002. Epub 2013 Jan 24. — View Citation

Frank RM, Cotter EJ, Leroux TS, Romeo AA. Acromioclavicular Joint Injuries: Evidence-based Treatment. J Am Acad Orthop Surg. 2019 Sep 1;27(17):e775-e788. doi: 10.5435/JAAOS-D-17-00105. Review. — View Citation

Gorbaty JD, Hsu JE, Gee AO. Classifications in Brief: Rockwood Classification of Acromioclavicular Joint Separations. Clin Orthop Relat Res. 2017 Jan;475(1):283-287. doi: 10.1007/s11999-016-5079-6. Epub 2016 Sep 16. — View Citation

Gowd AK, Liu JN, Cabarcas BC, Cvetanovich GL, Garcia GH, Manderle BJ, Verma NN. Current Concepts in the Operative Management of Acromioclavicular Dislocations: A Systematic Review and Meta-analysis of Operative Techniques. Am J Sports Med. 2019 Sep;47(11) — View Citation

Lafosse T, Fortané T, Lafosse L. All-Endoscopic Treatment of Acromioclavicular Joint Dislocation: Coracoclavicular Ligament Suture and Acromioclavicular Ligament Desincarceration. Arthrosc Tech. 2020 Sep 25;9(10):e1485-e1494. doi: 10.1016/j.eats.2020.06.0 — View Citation

Nakazawa M, Nimura A, Mochizuki T, Koizumi M, Sato T, Akita K. The Orientation and Variation of the Acromioclavicular Ligament: An Anatomic Study. Am J Sports Med. 2016 Oct;44(10):2690-2695. Epub 2016 Jun 17. — View Citation

Nolte PC, Lacheta L, Dekker TJ, Elrick BP, Millett PJ. Optimal Management of Acromioclavicular Dislocation: Current Perspectives. Orthop Res Rev. 2020 Mar 5;12:27-44. doi: 10.2147/ORR.S218991. eCollection 2020. Review. — View Citation

Saier T, Venjakob AJ, Minzlaff P, Föhr P, Lindell F, Imhoff AB, Vogt S, Braun S. Value of additional acromioclavicular cerclage for horizontal stability in complete acromioclavicular separation: a biomechanical study. Knee Surg Sports Traumatol Arthrosc. — View Citation

Scheibel M, Dröschel S, Gerhardt C, Kraus N. Arthroscopically assisted stabilization of acute high-grade acromioclavicular joint separations. Am J Sports Med. 2011 Jul;39(7):1507-16. doi: 10.1177/0363546511399379. Epub 2011 Mar 24. — View Citation

Sobhy MH. Midterm results of combined acromioclavicular and coracoclavicular reconstruction using nylon tape. Arthroscopy. 2012 Aug;28(8):1050-7. doi: 10.1016/j.arthro.2012.02.001. Epub 2012 Apr 21. — View Citation

Stucken C, Cohen SB. Management of acromioclavicular joint injuries. Orthop Clin North Am. 2015 Jan;46(1):57-66. doi: 10.1016/j.ocl.2014.09.003. Epub 2014 Oct 11. Review. — View Citation

Tossy JD, Mead NC, Sigmond HM. Acromioclavicular separations: useful and practical classification for treatment. Clin Orthop Relat Res. 1963;28:111-9. — View Citation

Zumstein MA, Schiessl P, Ambuehl B, Bolliger L, Weihs J, Maurer MH, Moor BK, Schaer M, Raniga S. New quantitative radiographic parameters for vertical and horizontal instability in acromioclavicular joint dislocations. Knee Surg Sports Traumatol Arthrosc. — View Citation

* Note: There are 17 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary User satisfaction rate The clinical impact of the daily strength, proprioception, range of movement and decrease of pain (functional Score: ASES Score, CONSTANT Score, Nottingham clavicle score) Up to 12 month
Primary Complication rates Number of participants with fail of the implant, loss of the reduction, clavicular or coracoid fracture, pain associated with the implant and infections Up to 12 month
Secondary Number of participants who returned to normal adduction force after surgery Up to 12 month
Secondary Number of participants who ned of postoperative analgesic Up to 12 month
Secondary Rate of coracoclavicular reduction Up to 12 month
Secondary Rate of revision surgery Up to 12 month
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