Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
RECRUITING
Total Enrollment
1600 participants
Study Classification
OBSERVATIONAL
Study Start Date
2024-03-11
Study Completion Date
2024-06-10
Brief Summary
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Hernia repair surgery is common, especially the Shouldice repair for primary inguinal hernias, which is considered a top-notch nonmesh technique. However, outcomes can vary, possibly due to differences in surgical skill and experience. Many surgeons are trained more in mesh repairs like the Lichtenstein technique, rather than nonmesh repairs like Shouldice.
Understanding a surgeon's learning curve-how many surgeries they need to do to become proficient-is crucial. Yet, there's not much research on this for the Shouldice repair. This project aims to fill that gap and improve surgeon education.
The study's goal is to find out how the learning curve affects Shouldice repair for primary inguinal hernias. They'll look at how operative time changes over a surgeon's first 300 repairs compared to their 900-1000th. They'll also check for complications and recurrence rates.
The study objectives are:
1. Explore the learning curve and factors affecting Shouldice repair.
2. Compare operative times between a surgeon's early and later surgeries.
3. Look at complications during the learning curve.
4. Determine how long training takes at Shouldice Hospital and the surgeons' previous experience.
5. Review recurrence rates between the first 300 and 900-1000 surgeries.
This research aims to give surgeons and the hernia community valuable insights into improving surgical techniques and patient outcomes.
Understanding a surgeon's learning curve-how many surgeries they need to do to become proficient-is crucial. Yet, there's not much research on this for the Shouldice repair. This project aims to fill that gap and improve surgeon education.
The study's goal is to find out how the learning curve affects Shouldice repair for primary inguinal hernias. They'll look at how operative time changes over a surgeon's first 300 repairs compared to their 900-1000th. They'll also check for complications and recurrence rates.
The study objectives are:
1. Explore the learning curve and factors affecting Shouldice repair.
2. Compare operative times between a surgeon's early and later surgeries.
3. Look at complications during the learning curve.
4. Determine how long training takes at Shouldice Hospital and the surgeons' previous experience.
5. Review recurrence rates between the first 300 and 900-1000 surgeries.
This research aims to give surgeons and the hernia community valuable insights into improving surgical techniques and patient outcomes.
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Detailed Description
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Hernia repair is one of the most commonly performed general surgeries \[1\]. Shouldice repair for primary inguinal hernias is a well-known and documented surgical technique \[2,3\] and considered to be the gold standard nonmesh hernia repair \[1\]. The results in the literature for a Shouldice primary inguinal hernia repair vary greatly \[2,4,5\], and may be due to a lack of accuracy in performing the repair \[5,6\] and/or lack of surgical volume and experience \[7-9\]. An added contributing factor could be that nonmesh repairs are not principally taught to many residents, instead the primary method taught is the Lichtenstein repair \[10\], which leaves out early training of nonmesh repairs, like the Shouldice Repair.
Learning curve can evaluate surgeons' performance and status (trainee or expert), which is done by determining the minimum number of procedures it takes to reach similar outcomes as known expert surgeons \[10\]. However, there is limited research that describes learning curve and the minimum number of hernia techniques to perform before being considered proficient \[1,11\]. Some research has performed analysis, which focused on operating times, to determine the learning curve for the Lichtenstein \[10\] and similar learning and proficiency research on TAPP \[12\] hernia repair procedures.
The rationale for this project is to supply valuable information to general surgeon trainees and experts, as well as the broader hernia community. There is little to no research done on the learning curve of the Shouldice repair for primary inguinal hernias and the importance of offering and learning nonmesh hernia repairs are associated with the risk of complications after mesh use, as well as treating patients who would prefer a nonmesh repairs \[1\]. Therefore, the significance of this project is to improve the understanding and knowledge regarding Shouldice Repair and increase surgeon education.
The purpose of this study is to determine the learning curve of a Shouldice repair for primary inguinal hernias. The primary endpoint is differences in operative length while secondarily evaluating recurrence rate and other complications.
Study Objectives:
1. To examine the learning curve and contributing variables of a Shouldice primary inguinal hernia repair
2. To compare operative time between a surgeons first 300 Shouldice primary inguinal hernia repairs and their 900-1000
3. To review learning curve and postoperative complications.
4. To determine the training period at Shouldice Hospital and examine prior experience of surgeons.
5. To review mean time to recurrence during a surgeon's first 300 Shouldice primary inguinal hernia repairs and their 900-1000
The proposed project is a pilot study consisting of a retrospective review to collect information on the learning curve of a Shouldice primary inguinal hernia repair, done at Shouldice Hospital. The study will consist of surgeons who worked at Shouldice Hospital in 2023, were hired within the past 10 years, and performed a minimum of 1000 primary inguinal hernia repairs. We estimate 4 surgeons to be included. The study will compare surgeons' first 300 Shouldice primary inguinal hernia repairs to their 900-1000. The parameters of 300 and 1000 hernia repairs were chosen based on previous publications \[1,3\], which used those benchmarks to indicate proficiency and expertise of the repair. We will analyze the learning curve by using operating time which has also been done for Lichtenstein \[10\] and similar research in TAPP \[12\] hernia repairs.
1. The HerniaSurge Group (2018) International guidelines for groin hernia management. Hernia 22:1-165. https:// doi. org/ 10. 1007/s10029- 017- 1668-x
2. Shouldice EB (2003) The Shouldice repair for groin hernias. Surg Clin N Am 83:1163-1187
3. Mainprize, M., Spencer Netto, F.A.C., Degani, C. et al. The Shouldice Method: an expert's consensus. Hernia 27, 147-156 (2023). https://doi.org/10.1007/s10029-022-02658-y
4. Shouldice EB (2010) Surgery illustrated-surgical atlas. the Shouldice natural tissue repair for inguinal hernia. BJUI 105:428-439
5. Lorenz R, Arlt G, Fortelny R, Gorjanc J, Koch A, Morrison J,Oprea V, Campanelli G (2020) Shouldice standard 2020: review of the current literature an results of an international consensus meeting. Hernia 25(5):1199-1207
6. Malik A, Bell CM, Stukel TA, Urbach DR (2016) Recurrence of inguinal hernias repaired in a large hernia surgical speciality hospital and general hospitals in Ontario. Can J Surg 59(1):19-25
7. Andresen K, Friis-Andersen H, Rosenberg J (2016) Laparoscopic repair of primary inguinal hernia performed in public hospitals or low-volume centers have increased risk of reoperation for recurrence. Surg Innov 23:142-147
8. Kockerling F, Bitter R, Kraft B, Hukauf M, Kuthe A, Schug-Pass C (2017) Does surgeons volume matter in the outcome of endoscopic inguinal hernia repair? Surg Endosc 31:573-585
9. Nordin P, van der Linden W (2008) Volume of procedures and risk of recurrence after repair of gorin hernias: national register study. Br Med J 336:934-937
10. Merola G, Cavallaro G, Iorio O, Frascio M, Pontecorvi E, Corcione F, Andreuccetti J, Pignata G, Stabilini C, and Bracale U. Learning curve in open inguinal hernia repair: a quality improvement multicentre study about Lichtenstein technique. Hernia (2020) 24:651-659. https://doi.org/10.1007/s10029-019-02064-x
11. Simons MP, Aufenacker T, Bay-Nielsen M, Bouillot JL, Campanelli G, Conze J, de Lange D, Fortelny R, Heikkinen T, Kingsnorth A, Kukleta J, Morales-Conde S, Nordin P, Schumpelick V, Smedberg S, Smietanski M, Weber G, Miserez M. European Hernia Society guidelines on the treatment of inguinal hernia in adult patients. Hernia (2009) 13:343-403.
12. Brucchi F, Ferraina F, Masci E, Ferrara D, Bottero L, and Faillace GG. Standardization and learning curve in laparoscopic hernia repair: experience of a high-volume center. BMC Surgery (2023) 23:212. https://doi.org/10.1186/s12893-023-02119-y
Supplemental Material:
Learning curve can evaluate surgeons' performance and status (trainee or expert), which is done by determining the minimum number of procedures it takes to reach similar outcomes as known expert surgeons \[10\]. However, there is limited research that describes learning curve and the minimum number of hernia techniques to perform before being considered proficient \[1,11\]. Some research has performed analysis, which focused on operating times, to determine the learning curve for the Lichtenstein \[10\] and similar learning and proficiency research on TAPP \[12\] hernia repair procedures.
The rationale for this project is to supply valuable information to general surgeon trainees and experts, as well as the broader hernia community. There is little to no research done on the learning curve of the Shouldice repair for primary inguinal hernias and the importance of offering and learning nonmesh hernia repairs are associated with the risk of complications after mesh use, as well as treating patients who would prefer a nonmesh repairs \[1\]. Therefore, the significance of this project is to improve the understanding and knowledge regarding Shouldice Repair and increase surgeon education.
The purpose of this study is to determine the learning curve of a Shouldice repair for primary inguinal hernias. The primary endpoint is differences in operative length while secondarily evaluating recurrence rate and other complications.
Study Objectives:
1. To examine the learning curve and contributing variables of a Shouldice primary inguinal hernia repair
2. To compare operative time between a surgeons first 300 Shouldice primary inguinal hernia repairs and their 900-1000
3. To review learning curve and postoperative complications.
4. To determine the training period at Shouldice Hospital and examine prior experience of surgeons.
5. To review mean time to recurrence during a surgeon's first 300 Shouldice primary inguinal hernia repairs and their 900-1000
The proposed project is a pilot study consisting of a retrospective review to collect information on the learning curve of a Shouldice primary inguinal hernia repair, done at Shouldice Hospital. The study will consist of surgeons who worked at Shouldice Hospital in 2023, were hired within the past 10 years, and performed a minimum of 1000 primary inguinal hernia repairs. We estimate 4 surgeons to be included. The study will compare surgeons' first 300 Shouldice primary inguinal hernia repairs to their 900-1000. The parameters of 300 and 1000 hernia repairs were chosen based on previous publications \[1,3\], which used those benchmarks to indicate proficiency and expertise of the repair. We will analyze the learning curve by using operating time which has also been done for Lichtenstein \[10\] and similar research in TAPP \[12\] hernia repairs.
1. The HerniaSurge Group (2018) International guidelines for groin hernia management. Hernia 22:1-165. https:// doi. org/ 10. 1007/s10029- 017- 1668-x
2. Shouldice EB (2003) The Shouldice repair for groin hernias. Surg Clin N Am 83:1163-1187
3. Mainprize, M., Spencer Netto, F.A.C., Degani, C. et al. The Shouldice Method: an expert's consensus. Hernia 27, 147-156 (2023). https://doi.org/10.1007/s10029-022-02658-y
4. Shouldice EB (2010) Surgery illustrated-surgical atlas. the Shouldice natural tissue repair for inguinal hernia. BJUI 105:428-439
5. Lorenz R, Arlt G, Fortelny R, Gorjanc J, Koch A, Morrison J,Oprea V, Campanelli G (2020) Shouldice standard 2020: review of the current literature an results of an international consensus meeting. Hernia 25(5):1199-1207
6. Malik A, Bell CM, Stukel TA, Urbach DR (2016) Recurrence of inguinal hernias repaired in a large hernia surgical speciality hospital and general hospitals in Ontario. Can J Surg 59(1):19-25
7. Andresen K, Friis-Andersen H, Rosenberg J (2016) Laparoscopic repair of primary inguinal hernia performed in public hospitals or low-volume centers have increased risk of reoperation for recurrence. Surg Innov 23:142-147
8. Kockerling F, Bitter R, Kraft B, Hukauf M, Kuthe A, Schug-Pass C (2017) Does surgeons volume matter in the outcome of endoscopic inguinal hernia repair? Surg Endosc 31:573-585
9. Nordin P, van der Linden W (2008) Volume of procedures and risk of recurrence after repair of gorin hernias: national register study. Br Med J 336:934-937
10. Merola G, Cavallaro G, Iorio O, Frascio M, Pontecorvi E, Corcione F, Andreuccetti J, Pignata G, Stabilini C, and Bracale U. Learning curve in open inguinal hernia repair: a quality improvement multicentre study about Lichtenstein technique. Hernia (2020) 24:651-659. https://doi.org/10.1007/s10029-019-02064-x
11. Simons MP, Aufenacker T, Bay-Nielsen M, Bouillot JL, Campanelli G, Conze J, de Lange D, Fortelny R, Heikkinen T, Kingsnorth A, Kukleta J, Morales-Conde S, Nordin P, Schumpelick V, Smedberg S, Smietanski M, Weber G, Miserez M. European Hernia Society guidelines on the treatment of inguinal hernia in adult patients. Hernia (2009) 13:343-403.
12. Brucchi F, Ferraina F, Masci E, Ferrara D, Bottero L, and Faillace GG. Standardization and learning curve in laparoscopic hernia repair: experience of a high-volume center. BMC Surgery (2023) 23:212. https://doi.org/10.1186/s12893-023-02119-y
Supplemental Material:
Conditions
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Groin Hernia
Shouldice Procedure
Study Design
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Observational Model Type
CASE_CONTROL
Study Time Perspective
RETROSPECTIVE
Study Groups
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Learning curve of Surgeon I
no intervention
Intervention Type
OTHER
No intervention
Learning curve of Surgeon II
no intervention
Intervention Type
OTHER
No intervention
Learning curve of Surgeon III
no intervention
Intervention Type
OTHER
No intervention
Learning curve of Surgeon IV
no intervention
Intervention Type
OTHER
No intervention
Interventions
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no intervention
No intervention
Intervention Type
OTHER
Eligibility Criteria
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Inclusion Criteria
* A surgeon, who operated on at least 1000 primary inguinal hernias using the Shouldice technique
* Surgeon at the shouldice hospital
* Surgeon at the shouldice hospital
Exclusion Criteria
* A surgeon, who operated on less than 1000 primary inguinal hernias using the Shouldice technique
Minimum Eligible Age
16 Years
Maximum Eligible Age
99 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Shouldice Hospital
OTHER
Sponsor Role
lead
Responsible Party
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Responsibility Role
SPONSOR
Locations
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Shouldice hospital
Thornhill, Ontario, Canada
Site Status
RECRUITING
Countries
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Canada
Central Contacts
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Facility Contacts
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Other Identifiers
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LCSR
Identifier Type: -
Identifier Source: org_study_id
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