How Reproducible Are Abdominal Wall Surgical Techniques? A Methodological Assessment of Technical Reporting in the Contemporary Literature

Abstract

Purpose:

To evaluate the completeness and reproducibility of technical reporting in contemporary abdominal wall hernia literature, and to assess the risk of misinterpretation when surgical techniques are classified based solely on titles and abstracts.

Methods:

A descriptive methodological analysis was conducted on original studies published between 2000 and November 2025 reporting abdominal wall hernia repair techniques. The unit of analysis was the surgical technique (surgical arm). Each technique was assessed across five predefined technical domains essential for reproducibility: surgical approach, hernia type, mesh position, mesh type, and fixation method. Techniques were classified as fully reproducible only when all domains were explicitly reported. A secondary analysis evaluated immediate interpretability based on title and abstract information. Terminological variability was explored by identifying distinct acronyms used for identical technical configurations.

Results:

Two hundred articles comprising 290 surgical arms were analyzed. Surgical approach and hernia type were almost universally reported (≥99%). In contrast, mesh-related domains were inconsistently described, with mesh position and fixation reported in 81.4% and mesh type in 71.7% of arms. Overall, only 51.7% of techniques were fully reproducible based on full-text assessment. When limited to titles and abstracts, complete interpretability dropped to 3.4%, indicating a high risk of technical misclassification. Substantial terminological redundancy was observed, with up to 16 different acronyms used to describe identical technical configurations.

Conclusion:

Technical reporting in abdominal wall surgery is frequently incomplete, substantially limiting reproducibility, evidence synthesis, and reliable interpretation, particularly when relying on titles and abstracts. Excessive and inconsistent use of acronyms further amplifies ambiguity. The strict reliance on explicit reporting may overestimate non-reproducibility in real-world practice, and the study was not designed for exhaustive literature coverage. Adoption of structured, component-based reporting frameworks may represent a pragmatic pathway toward improving clarity, reproducibility, and methodological rigor in abdominal wall surgery.

Introduction

Abdominal wall surgery encompasses a wide spectrum of techniques applied to heterogeneous defects within a complex anatomical setting, where clinical outcomes are highly dependent on technical execution. Even relatively minor variations in surgical approach, mesh position, material, or fixation may substantially influence postoperative outcomes, complication rates, and recurrence rates [1, 2]. Consequently, detailed and explicit reporting of operative techniques is not merely desirable but essential to ensure reproducibility, meaningful comparison, and accurate interpretation of study results.

Over recent decades, the rapid expansion of surgical techniques has been accompanied by a parallel proliferation of acronyms. Originally intended to facilitate communication and simplify technique identification, their increasing number and heterogeneity have progressively produced the opposite effect. Acronyms are frequently used as substitutes rather than complements to detailed technical descriptions, resulting in publications that omit essential procedural information [3]. Moreover, identical acronyms may be applied to distinct techniques, while the same procedure may be reported under different acronyms, further increasing terminological ambiguity [4].

This variability has important methodological implications. Inadequate or ambiguous technical reporting undermines reproducibility and outcome interpretation and threatens the validity of pooled analyses in systematic reviews and meta-analyses [5]. The problem is further compounded by reliance on titles and abstracts for rapid study appraisal, where critical technical details are often unavailable, increasing the risk of misclassification and inappropriate grouping of surgical techniques.

Against this background, we conducted a methodological study to evaluate the quality and completeness of technical reporting in contemporary abdominal wall hernia literature. By deliberately focusing only on explicitly reported information, this study aims to provide an objective assessment of current reporting practices and to identify structural limitations that may hinder reproducibility and comparability in abdominal wall surgery.

Materials and Methods

Study Design

This was an original, descriptive methodological study aimed at evaluating the completeness and reproducibility of surgical technical reporting in contemporary abdominal wall surgery literature.

The study did not assess clinical outcomes, comparative effectiveness, or patient-level data. Its primary objective was to evaluate the completeness of technical reporting based on full-text assessment. A secondary exploratory analysis investigated the immediate interpretability of surgical techniques based solely on information available in titles and abstracts.

The study specifically focused on whether surgical techniques could be unambiguously reconstructed based on explicitly reported information in published articles, without relying on expert inference. Although the study shares some characteristics with a scoping review in terms of breadth and descriptive intent, the unit of analysis was the individual surgical technique rather than the publication, and the research question concerned the internal completeness of technical reporting rather than the mapping of a research field. For these reasons, the study was designed as a descriptive methodological analysis rather than framed within a scoping review framework. The reporting of this study was informed by the guideline for meta-epidemiological methodology research proposed by Murad and Wang [6], adapted to the descriptive nature of the present analysis. No formal protocol was prospectively registered, as protocol registration platforms (e.g., PROSPERO) are designed for systematic reviews of clinical questions and are not applicable to this study type. However, the study design, technical domains, outcome definitions, and analytical framework were all established a priori before data extraction.

Literature Search and Study Selection

A structured literature search was performed in PubMed/MEDLINE to identify original studies reporting surgical techniques for abdominal wall hernia repair. The search covered the period from January 2000 to November 2025 and was last updated in November 2025.

The following search strategy was used, combining free-text terms and MeSH headings:

(“hernia repair” OR “abdominal wall” OR inguinal OR ventral OR incisional OR parastomal) AND (laparoscopic OR robotic OR open OR endoscopic) AND (technique OR approach OR mesh OR repair).

Titles and abstracts were screened independently by two reviewers for relevance. Full-text articles were subsequently assessed for eligibility. Disagreements were resolved by consensus. The screening process was continued until descriptive saturation was reached, defined as the absence of relevant changes in reporting patterns across consecutive batches of studies. Descriptive saturation was operationally defined as the point at which the inclusion of additional consecutive batches of studies (assessed in groups of 20) did not result in meaningful changes in the overall distribution of reporting completeness rates across the five predefined technical domains. This pragmatic threshold was adopted because the objective was not to achieve exhaustive coverage of the literature, but rather to obtain a sufficiently representative and stable estimate of current reporting practices.

Unit of Analysis

The unit of analysis was the surgical technique rather than the individual publication.

When a study reported more than one surgical approach or technique, each technique was considered as a separate surgical arm and analyzed independently.

Definition of Technical Domains

Technical domains were considered reported only when explicitly stated in the manuscript. Information that could be inferred by expert interpretation, contextual assumptions, or visual inspection but was not explicitly described in the text was classified as not reported. These five domains were selected because they represent the minimal set of technical elements required to unambiguously identify a surgical procedure in abdominal wall surgery. Additional factors relevant to surgical outcomes—such as defect size, fascial closure technique, component separation details, and dissection extent—were deliberately excluded from the present analysis. While these elements may influence clinical results, they are not strictly necessary to define the core identity of a surgical technique and would have substantially increased the complexity of the assessment framework.

Surgical techniques sharing identical technical configurations—defined by the combination of the five predefined domains—were identified. For each unique configuration, the number of distinct acronyms or descriptive terms used in the literature was recorded as a descriptive measure of terminological variability. This analysis was exploratory in nature and was not intended as a systematic linguistic assessment.

Data Extraction and Reviewer Roles

Data extraction was performed using a predefined data dictionary.

Initial data extraction was conducted by a reviewer without formal training in abdominal wall surgery (RS), focusing on the identification of reported technical elements and their location within the manuscript. This approach was adopted to minimize expert-driven interpretation.

A second reviewer with specific expertise in abdominal wall surgery and dedicated fellowship training (FB) independently reviewed all extracted data for accuracy and completeness.

Discrepancies or ambiguous cases were resolved through adjudication by a senior expert in abdominal wall surgery (FM), who provided the final determination when consensus could not be reached.

Outcomes

The primary outcome was the completeness of technical reporting based on full-text assessment, defined as full reproducibility.

Operational definitions of outcome measures are reported below.

Definition of Reproducibility

A surgical technique was defined as fully reproducible when all five predefined technical domains were explicitly reported and allowed an unambiguous reconstruction of the procedure.

Techniques for which one or more domains were missing or ambiguously reported were classified as partially reproducible.

Statistical Analysis

Analyses were descriptive in nature. Results were summarized using absolute counts and percentages.

Exploratory subgroup analyses were performed according to surgical approach and hernia type.

No formal hypothesis testing was planned. As this study did not estimate or pool treatment effects, several items of the Murad and Wang reporting framework for methodology research were not applicable, including risk of bias assessment of individual studies, summary effect measures (e.g., ratio of odds ratios), and evaluation of publication bias. These items are relevant to meta-epidemiological studies that quantify the impact of study-level characteristics on clinical effect estimates, which was not the objective of the present analysis.

Ethics

This study was based exclusively on published literature and did not involve human participants or individual patient data. Formal ethical approval was therefore not required.

Results

Study Sample

The search strategy yielded 23,347 records in PubMed. Titles and abstracts were screened sequentially in chronological batches. Screening was discontinued after descriptive saturation was reached, at which point approximately 467 records had been reviewed. Of these, 467 full-text articles were assessed for eligibility. A total of 267 studies were excluded (narrative or systematic reviews, n = 106; case reports or technical notes, n = 64; insufficient technical description, n = 97), resulting in 200 included articles [7–20], [21–40], [41–60], [61–80], [81–100], [101–120], [121–140], [141–160], [161–180], [181–205]. As several studies reported more than one surgical technique, the unit of analysis was the surgical arm. Overall, 290 distinct surgical arms were evaluated. At the study level, most articles focused on groin (n = 89, 44.3%) and ventral hernias (n = 61, 30.3%), followed by incisional (n = 33, 16.4%), parastomal (n = 11, 5.5%), umbilical (n = 5, 2.5%), and spigelian hernias (n = 2, 1.0%). Study characteristics are summarized in Table 1. Reporting completeness by technical domain is illustrated in Figure 1.

FIGURE 1

Completeness of Reporting Based on Full-Text Assessment

Based on explicit information reported in the full text, surgical approach and hernia type were almost universally described (99.0% and 100%, respectively).

In contrast, mesh-related variables were less consistently reported. Mesh position and fixation method were explicitly reported in 81.4% of arms, while mesh type was reported in 71.7%.

When considering all five technical domains together, only 150 of 290 arms (51.7%) met the criteria for full reproducibility, defined as explicit reporting of surgical approach, hernia type, mesh position, mesh type, and fixation method.

Immediate Interpretability From Title and Abstract

When analysis was limited to information deducible from titles and abstracts (AUTOMAP), reporting completeness was substantially lower.

While surgical approach and hernia type were frequently identifiable (95.2% and 100%, respectively), mesh-related information was rarely deducible without full-text review. Mesh position was identifiable in 40.7% of arms, mesh type in 13.4%, and fixation method in only 10.0%.

As a result, only 10 of 290 surgical arms (3.4%) were fully interpretable based on title and abstract alone.

Terminological Variability and Acronym Redundancy

Using the acronym dictionary, technical configurations were defined based on the combination of surgical approach, hernia type, and mesh position, excluding only entries in which any of these three domains was unspecified. This resulted in a set of clearly defined technical configurations suitable for descriptive analysis.

When grouped according to these criteria, substantial terminological variability was observed. Multiple distinct acronyms or descriptive terms were frequently used to denote identical technical configurations, despite the absence of meaningful procedural differences.

The highest degree of redundancy was identified for a single configuration—open approach, incisional hernia, and retromuscular mesh position—which was described using 16 different acronyms or terms across the literature. These denominations included both formal acronyms and narrative labels referring to the same underlying surgical construct.

Overall, this analysis demonstrates that even when focusing on a limited number of fundamental technical domains, considerable heterogeneity in terminology persists. Representative examples of terminological redundancy across identical technical configurations are provided in Supplementary Table S1.

Discussion

In this methodological analysis of contemporary abdominal wall surgery literature, we found that while basic procedural descriptors such as surgical approach and hernia type are almost universally reported, critical elements required for technical reproducibility—namely mesh position, mesh type, and fixation method—are frequently omitted. Even after full-text assessment, only approximately half of the analyzed surgical techniques could be considered fully reproducible based on explicitly reported information.

This limitation was even more pronounced when evaluating immediate interpretability based solely on titles and abstracts, where fewer than 5% of techniques could be unambiguously reconstructed. Together, these findings reveal a substantial discrepancy between how surgical techniques are named or labeled and how completely they are described, pointing to a structural weakness in current reporting practices.

The proliferation of acronyms in abdominal wall surgery has been previously documented. Ramana et al. showed that the rapid expansion of minimally invasive and reconstructive techniques has been accompanied by an uncontrolled growth of acronyms, often inconsistently applied and poorly standardized [206]. Although acronyms are intended to facilitate communication, their excessive and heterogeneous use may paradoxically increase ambiguity rather than reduce it. Consistently with this interpretation, we observed that identical technical configurations were frequently described using multiple distinct acronyms. In our dataset, more than one acronym was used for the same technical configuration in over one quarter of cases, introducing terminological heterogeneity unrelated to actual procedural differences.

Our findings extend this observation from a primarily semantic concern to a methodological one. Rather than functioning as reliable descriptors of surgical technique, acronyms frequently act as shorthand labels that convey only partial or superficial information. As demonstrated in our analysis, acronyms rarely encapsulate the technical elements required for reproducibility and, in some cases, may even obscure them. Moreover, identical techniques may be described using different acronyms, while the same acronym may refer to distinct procedures, further complicating literature interpretation and evidence synthesis.

The consequences of imprecise or incomplete technical terminology in abdominal wall surgery have been highlighted previously. Parker and colleagues demonstrated that inconsistent use of terms describing mesh planes has led to substantial misclassification in the literature, including inappropriate pooling of heterogeneous techniques in systematic reviews and meta-analyses [5]. Our results build on these observations by showing that, beyond inconsistent terminology, essential technical information is frequently not explicitly reported at all, even in full-text manuscripts. In this context, ambiguity arises not only from misuse of terms, but also from omission of key procedural details.

Clear and reproducible reporting of surgical techniques is a prerequisite for meaningful comparison across studies, meta-analyses, and guideline development. As emphasized by Muysoms and Vierstraete, ambiguity in technique description hampers the ability to aggregate data and interpret outcomes reliably. Our empirical findings support this concern, demonstrating that reliance on acronyms or brief narrative descriptions—without structured technical detail—substantially limits reproducibility [4].

The recently proposed Muysoms nomenclature offers a rationalized approach to surgical technique description by decomposing each procedure into five fundamental components: approach, hernia type, mesh position, mesh type, and fixation [3, 4]. Conceptually, this modular framework directly addresses the deficiencies identified in our analysis by shifting the focus away from names and acronyms toward explicitly reported technical domains.

Although our study was not designed to validate or compare classification systems, the close alignment between the domains most frequently underreported in the literature and those explicitly encoded in the Muysoms framework is notable. This suggests that structured, component-based nomenclature may represent a pragmatic pathway toward improving clarity, reproducibility, and machine-readability of surgical reporting.

From a practical perspective, incomplete technical reporting has direct implications for evidence synthesis, guideline development, and registry-based research. Inadequately described techniques increase the risk of inappropriate pooling in systematic reviews, limit the interpretability of registry data, and hamper secondary analyses based on large datasets. Moreover, the lack of standardized, machine-readable technical descriptors constrains the development of automated literature screening and artificial intelligence–based evidence synthesis tools.

This study has several limitations. The analysis was restricted to PubMed-indexed literature and deliberately relied on explicit reporting rather than expert inference, which may underestimate the practical understanding of experienced surgeons. However, this approach was intentional, as the objective was to assess objective reproducibility rather than subjective interpretability. Furthermore, the strict reliance on explicit reporting may overestimate the degree of non-reproducibility in real-world practice, as experienced surgeons can often infer missing technical details from contextual cues or institutional conventions. In addition, the number of included studies was determined by descriptive saturation rather than exhaustive inclusion. The broad inclusion period (2000–2025) may have introduced temporal heterogeneity, as both terminology and reporting standards have evolved over time. While this wide timeframe was chosen to reflect the full spectrum of contemporary surgical literature, it is possible that more recently published studies may exhibit more complete reporting than earlier ones. Formal temporal subgroup analyses were not performed, as the study was not powered for this purpose. Future studies with larger, systematically sampled datasets should investigate temporal trends in reporting completeness. In addition, potential predictors of reporting completeness—such as journal type, impact factor, study design, and publication year—were not formally assessed. It is plausible that journals with more rigorous editorial standards or structured reporting requirements may achieve higher completeness rates. Exploratory analyses investigating these factors were beyond the scope of the present study, which was primarily designed to quantify reporting completeness rather than to identify its determinants. Furthermore, the assessment was deliberately focused on five fundamental technical domains; other elements relevant to surgical outcomes—such as defect size, fascial closure technique, component separation details, and dissection extent—were not evaluated. While these factors may influence clinical results, they are not strictly necessary to define the core identity of a surgical technique and would have substantially increased the complexity of the assessment framework.

Future efforts should focus on evaluating structured reporting tools and nomenclature systems in larger datasets, across registries and guideline documents, and on exploring their integration into editorial and reporting standards. Improving technical reporting is therefore not merely a semantic exercise. It represents a necessary prerequisite for reliable evidence synthesis, meaningful comparison of surgical outcomes, and the development of transparent, data-driven standards in abdominal wall surgery.

References

• 1.

  HolihanJLHannonCGoodenoughCFlores-GonzalezJRItaniKMOlavarriaOet alVentral Hernia Repair: A Meta-Analysis of Randomized Controlled Trials. Surg Infect (2017) 18:647–58. 10.1089/sur.2017.029

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 2.

  KokotovicDBisgaardTHelgstrandF. Long-Term Recurrence and Complications Associated with Elective Incisional Hernia Repair. JAMA (2016) 316:1575–82. 10.1001/jama.2016.15217

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 3.

  BrucchiFDionigiG. From Laparoscopic TAPP to l-GPSpX: A Pilot Reclassification of Hernia Surgery Acronyms Using the Muysoms Nomenclature. J Abdom Wall Surg (2025) 4:15705. 10.3389/jaws.2025.15705

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 4.

  MuysomsFVierstraeteM. Are Abbreviations and Acronyms to Describe Hernia Repair Techniques Overused and Helpful? A Proposal for Rationalisation. Cir Esp Engl Ed (2023) 101:S19–S23. 10.1016/j.cireng.2023.01.011

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 5.

  ParkerSGWoodCPJSandersDLWindsorACJ. Nomenclature in Abdominal Wall Hernias: Is It Time for Consensus?World J Surg (2017) 41:2488–91. 10.1007/s00268-017-4037-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 6.

  MuradMHWangZ. Guidelines for Reporting Meta-Epidemiological Methodology Research. Evid Based Med (2017) 22:139–42. 10.1136/ebmed-2017-110713

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 7.

  BlairLJCoxTCHuntingtonCRGroeneSAPrasadTLincourtAEet alThe Effect of Component Separation Technique on Quality of Life (QOL) and Surgical Outcomes in Complex Open Ventral Hernia Repair (OVHR). Surg Endosc (2017) 31:3539–46. 10.1007/s00464-016-5382-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 8.

  ShrivastavaRShaikhN. Optimizing Laparoscopic eTEP Inguinal Hernia Repair: Challenges and Solutions. Hernia (2025) 29:163. 10.1007/s10029-025-03353-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 9.

  BrucchiFPelfiniEMasciELimongiCCassiniDFaillaceG. Retrospective Analysis of Transabdominal Preperitoneal Hernia Repair in Emergency Cases: A Cohort Study. World J Surg (2024) 48:2443–9. 10.1002/wjs.12299

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 10.

  ValorenzosANielsenKAInanIPedersenAKPetersenSREllebaekMBet alReduced Risk of Recurrence Following Robotic-Assisted TAPP for Inguinal Hernia Repair Compared to Laparoscopic TAPP: A Cohort Study of 395 Cases. Hernia (2024) 29:33. 10.1007/s10029-024-03226-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 11.

  LiuJBittnerRShenYChenJ. Comparison of Open Preperitoneal and Transabdominal Preperitoneal Hernia Repair for Primary Unilateral Femoral Hernia: A Retrospective Cohort Study of 132 Case. Surg Endosc (2023) 37:2712–8. 10.1007/s00464-022-09759-w

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 12.

  VărcuşFDuţăCDobrescuALazărFPapuricaMTartaCet alLaparoscopic Repair of Inguinal Hernia TEP Versus TAPP. Chir Buchar Rom 1990 (2016) 111:308–12.

  • Pubmed Abstract
  • Google Scholar

• 13.

  KleidariBMahmoudiehMYaribakhtMHomaeiZ. Mesh Fixation in TAPP Laparoscopic Hernia Repair: Introduction of a New Method in a Prospective Randomized Trial. Surg Endosc (2014) 28:531–6. 10.1007/s00464-013-3198-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 14.

  CallahanZMDonovanKSuBSKuchtaKCarbrayJLinnJGet alLaparoscopic Inguinal Hernia Repair After Prostatectomy: Evaluating Safety, Efficacy, and Efficiency. Surgery (2019) 166:607–14. 10.1016/j.surg.2019.04.041

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 15.

  YangGChanCLaiEChanOTangCLiM. Laparoscopic Versus Open Repair for Strangulated Groin Hernias: 188 Cases over 4 Years. Asian J Endosc Surg (2012) 5:131–7. 10.1111/j.1758-5910.2012.00138.x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 16.

  AydoğduYFKubatÖBüyükkasapÇGöbütHDikmenK. A New Approach to Mesh Fixation in Laparoscopic Transabdominal Technique, “Suture Passer”. Superior Or Not? Updat Surg (2024) 76:2617–25. 10.1007/s13304-024-01998-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 17.

  KrnićDDružijanićNŠtulaIČapkunVKrnićD. Incarcerated Inguinal Hernia Mesh Repair: Effect on Testicular Blood Flow and Sperm Autoimmunity. Med Sci Monit (2016) 22:1524–33. 10.12659/MSM.898727

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 18.

  ZhangHLiJGongMZhangGLiuJLiB. CTEP Versus LESS Totally Extraperitoneal Hernioplasty. JSLS (2018) 22:e2018.00040. 10.4293/JSLS.2018.00040

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 19.

  MatikainenMVironenJHSilvastiSIlvesIKössiJKivivuoriAet alA Randomized Clinical Trial Comparing Early Patient-Reported Pain After Open Anterior Mesh Repair Versus Totally Extraperitoneal Repair of Inguinal Hernia. Br J Surg (2021) 108:1433–7. 10.1093/bjs/znab354

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 20.

  ClausCMPCoelhoJCUCamposACLCury FilhoAMLoureiroMPDimbarreDet alLaparoscopic Inguinal Hernioplasty After Radical Prostatectomy: Is It Safe? Prospective Clinical Trial. Hernia (2014) 18:255–9. 10.1007/s10029-013-1204-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 21.

  KrishnaAMisraMCBansalVKKumarSRajeshwariSChabraA. Laparoscopic Inguinal Hernia Repair: Transabdominal Preperitoneal (TAPP) Versus Totally Extraperitoneal (TEP) Approach: A Prospective Randomized Controlled Trial. Surg Endosc (2012) 26:639–49. 10.1007/s00464-011-1931-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 22.

  ChoiBJJeongWJLeeIKLeeSC. Single-Port Versus Conventional Three-Port Laparoscopic Totally Extraperitoneal Inguinal Hernia Repair: A Randomized Controlled Trial. Hernia (2016) 20:789–95. 10.1007/s10029-016-1499-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 23.

  IelpoBDuranHDiazEFabraICarusoRMalavéLet alA Prospective Randomized Study Comparing Laparoscopic Transabdominal Preperitoneal (TAPP) Versus Lichtenstein Repair for Bilateral Inguinal Hernias. Am J Surg (2018) 216:78–83. 10.1016/j.amjsurg.2017.07.016

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 24.

  YangGPCTungKLM. A Comparative Study of Single Incision Versus Conventional Laparoscopic Inguinal Hernia Repair. Hernia (2015) 19:401–5. 10.1007/s10029-014-1246-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 25.

  SinghSAnandAKumarAPalAKAgrawalMKKumarSet alA Prospective Randomised Control Trial to Compare the Perioperative Outcomes and Ergonomic Challenges Between Triangular Versus Midline Port Placement in Total Extra-Peritoneal Repair of Uncomplicated Unilateral Inguinal Hernia. Surg Endosc (2021) 35:1395–404. 10.1007/s00464-020-07525-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 26.

  KinoshitaSHaraCMatsumotoYFukuokaKNakagawaKHokutoDet alImpact of Abdominal Compliance on Surgical Stress and Postoperative Recovery in Laparoscopic Groin Hernia Repair: A Retrospective Cohort Study. Hernia (2024) 29:40. 10.1007/s10029-024-03232-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 27.

  Van KerckhovenGToonenLDraaismaWADe VriesLSVerheijenPM. Herniotomy in Young Adults as an Alternative to Mesh Repair: A Retrospective Cohort Study. Hernia (2016) 20:675–9. 10.1007/s10029-016-1529-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 28.

  PavlidisTESymeonidisNGRafailidisSFPsarrasKBallasKDBaltatzisMEet alTension-Free by Mesh-Plug Technique for Inguinal Hernia Repair in Elderly Patients. Scand J Surg (2010) 99:137–41. 10.1177/145749691009900307

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 29.

  GongKZhangNLuYZhuBZhangZDuDet alComparison of the Open Tension-Free Mesh-Plug, Transabdominal Preperitoneal (TAPP), and Totally Extraperitoneal (TEP) Laparoscopic Techniques for Primary Unilateral Inguinal Hernia Repair: A Prospective Randomized Controlled Trial. Surg Endosc (2011) 25:234–9. 10.1007/s00464-010-1165-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 30.

  NgAYLinJChingSSLeeJWongASY. Does Primary Closure of Direct Inguinal Hernia Defect During Laparoscopic Mesh Repair Reduce the Risk of Early Recurrence?Hernia (2020) 24:1093–8. 10.1007/s10029-020-02257-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 31.

  ChungS-DHuangC-YWangS-MHungS-FTsaiY-CChuehS-Cet alLaparoendoscopic Single-Site Totally Extraperitoneal Adult Inguinal Hernia Repair: Initial 100 Patients. Surg Endosc (2011) 25:3579–83. 10.1007/s00464-011-1761-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 32.

  MatovuANordinPWladisASandblomGElajuMLindmarkFet alOpen Anterior Mesh Repair vs Modified Open Anterior Mesh Repair for Groin Hernia in Women: A Randomized Clinical Trial. JAMA Surg (2025) 160:946–53. 10.1001/jamasurg.2025.2244

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 33.

  FeliuXClaveríaRBesoraPCampsJFernández-SallentEViñasXet alBilateral Inguinal Hernia Repair: Laparoscopic or Open Approach?Hernia (2011) 15:15–8. 10.1007/s10029-010-0736-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 34.

  AgrestaFTorchiaroMTordinC. Laparoscopic Transabdominal Inguinal Hernia Repair in Community Hospital Settings: A General Surgeon’s Last 10 Years Experience. Hernia (2014) 18:745–50. 10.1007/s10029-014-1251-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 35.

  SarakatsianouCGeorgopoulouSBaloyiannisIChatzimichailMVretzakisGZacharoulisDet alSpinal Versus General Anesthesia for Transabdominal Preperitoneal (TAPP) Repair of Inguinal Hernia: Interim Analysis of a Controlled Randomized Trial. Am J Surg (2017) 214:239–45. 10.1016/j.amjsurg.2017.01.032

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 36.

  SchoutenNVan DalenTSmakmanNEliasSGVan De WaterCSpermonRJet alMale Infertility After Endoscopic Totally Extraperitoneal (Tep) Hernia Repair (Main): Rationale and Design of a Prospective Observational Cohort Study. BMC Surg (2012) 12:7. 10.1186/1471-2482-12-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 37.

  AbbasAEAbd EllatifMENoamanNNegmAEl-MorsyGAminMet alPatient-Perspective Quality of Life After Laparoscopic and Open Hernia Repair: A Controlled Randomized Trial. Surg Endosc (2012) 26:2465–70. 10.1007/s00464-012-2212-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 38.

  GismallaMD-AIbrahimMMAMahmoudMAAlamalhudaAAH. Effectiveness of Topical Gentamicin in Preventing Surgical Site Infections During Hernia Mesh Repair: Experience from Developing Countries. Hernia (2025) 29:184. 10.1007/s10029-025-03372-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 39.

  ZhangZShaojiC. Comparative Study of Free Vas Deferens Separation for Repair of Inguinal Hernia and Transabdominal Preperitoneal Prosthesis for Adult Males. BMC Surg (2025) 25:429. 10.1186/s12893-025-03134-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 40.

  KaratekeFOzyaziciSMenekseEÖzdoganHKuntMBozkurtHet alULTRAPRO Hernia System Versus Lichtenstein Repair in Treatment of Primary Inguinal Hernias: A Prospective Randomized Controlled Study. Int Surg (2014) 99:391–7. 10.9738/INTSURG-D-14-00064.1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 41.

  KolachalamRDickensED’AmicoLRichardsonCRabazaJGamagamiRet alEarly Outcomes of Robotic-Assisted Inguinal Hernia Repair in Obese Patients: A Multi-Institutional, Retrospective Study. Surg Endosc (2018) 32:229–35. 10.1007/s00464-017-5665-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 42.

  WakasugiMMasuzawaTTeiMOmoriTUeshimaSToriMet alSingle-Incision Totally Extraperitoneal Inguinal Hernia Repair: Our Initial 100 Cases and Comparison with Conventional Three-Port Laparoscopic Totally Extraperitoneal Inguinal Hernia Repair. Surg Today (2015) 45:606–10. 10.1007/s00595-014-0967-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 43.

  RuzeRYanZWuQZhanHZhangG. Correlation Between Laparoscopic Transection of an Indirect Inguinal Hernial Sac and Postoperative Seroma Formation: A Prospective Randomized Controlled Study. Surg Endosc (2019) 33:1147–54. 10.1007/s00464-018-6374-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 44.

  LiWSunDSunYCenYLiSXuQet alThe Effect of Transabdominal Preperitoneal (TAPP) Inguinal Hernioplasty on Chronic Pain and Quality of Life of Patients: Mesh Fixation Versus Non-Fixation. Surg Endosc (2017) 31:4238–43. 10.1007/s00464-017-5485-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 45.

  SakonMSekinoYOkadaMSekiHMunakataY. Laparoscopic Inguinal Hernioplasty After Robot-Assisted Laparoscopic Radical Prostatectomy. Hernia (2017) 21:745–8. 10.1007/s10029-017-1639-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 46.

  YangGLaiEChanOTangCLiM. Single-Incision Transabdominal Preperitoneal and Totally Extraperitoneal Repair for Inguinal Hernia: Early Experience from a Single Center in Asia: Single-Incision TAPP and TEP. Asian J Endosc Surg (2011) 4:166–70. 10.1111/j.1758-5910.2011.00098.x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 47.

  WengHYeLLuPSunH. Application of Shaft Method Assisted Biological Mesh in Laparoscopic Inguinal Hernia Repair. Medicine (Baltimore) (2018) 97:e12923. 10.1097/MD.0000000000012923

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 48.

  NagahisaYHashidaKMatsumotoRKawashimaROkabeMKawamotoK. A Randomized Clinical Study on Postoperative Pain Comparing Between the Supraglottic Airway Device and Endotracheal Tubing in Transabdominal Preperitoneal Repair (TAPP). Hernia (2017) 21:391–6. 10.1007/s10029-017-1586-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 49.

  AgrestaFMazzaroloGBalbiPBedinN. Inguinal-Scrotal Hernias in Young Patients: Is Laparoscopic Repair a Possible Answer? Preliminary Results of a Single-Institution Experience with a Transabdominal Preperitoneal Approach. Hernia (2010) 14:471–5. 10.1007/s10029-010-0677-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 50.

  OguzHKaragulleETurkEMorayG. Comparison of Peritoneal Closure Techniques in Laparoscopic Transabdominal Preperitoneal Inguinal Hernia Repair: A Prospective Randomized Study. Hernia J Hernias Abdom Wall Surg (2015) 19:879–85. 10.1007/s10029-015-1431-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 51.

  YamazakiMNomuraEUchidaKHigamiSNoguchiWUdaSet alA Prospective, Single-Arm, Single-Center, Case Series to Determine the Feasibility of Safe Skill Transfer for Transabdominal Preperitoneal (TAPP) Repair Utilizing a Hands-On Mentorship Model. Tokai J Exp Clin Med (2015) 40:161–4.

  • Pubmed Abstract
  • Google Scholar

• 52.

  TimişescuLTurcuFMunteanuRGîdeaCDrăghiciLGinghinăOet alTreatment of Bilateral Inguinal Hernia -- Minimally Invasive Versus Open Surgery Procedure. Chir Buchar Rom 1990 (2013) 108:56–61.

  • Pubmed Abstract
  • Google Scholar

• 53.

  IsilRGAvlanmisO. Effects of Totally Extraperitoneal and Lichtenstein Hernia Repair on Men’s Sexual Function and Quality of Life. Surg Endosc (2020) 34:1103–11. 10.1007/s00464-019-06857-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 54.

  Sevi̇NçBDamburaciNGünerMKarahanÖ. Comparison of Early and Long Term Outcomes of Open Lichtenstein Repair and Totally Extraperitoneal Herniorrhaphy for Primary Inguinal Hernias. Turk J Med Sci (2019) 49:38–41. 10.3906/sag-1803-94

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 55.

  IssaNOhanaGBacharGNPowsnerE. Long‐Term Outcome of Laparoscopic Totally Extraperitoneal Repair of Bilateral Inguinal Hernias with a Large Single Mesh. World J Surg (2016) 40:291–7. 10.1007/s00268-015-3277-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 56.

  MessengerDArooriSVipondM. Five-Year Prospective Follow-Up of 430 Laparoscopic Totally Extraperitoneal Inguinal Hernia Repairs in 275 Patients. Ann R Coll Surg Engl (2010) 92:201–5. 10.1308/003588410X12628812458455

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 57.

  MeyerABonnetLBourbonMBlancP. Totally Extraperitoneal (TEP) Endoscopic Inguinal Hernia Repair with TAP (Transversus Abdominis Plane) Block as a Day-Case: A Prospective Cohort Study. J Visc Surg (2015) 152:155–9. 10.1016/j.jviscsurg.2014.12.005

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 58.

  WuC-CChuehS-CTsaiY-C. Is Contralateral Exploration Justified in Endoscopic Total Extraperitoneal Repair of Clinical Unilateral Groin Hernias - A Prospective Cohort Study. Int J Surg (2016) 36:206–11. 10.1016/j.ijsu.2016.10.012

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 59.

  FujimotoMKubotaFKanedaH. Effects of Neuromuscular Blockade on the Surgical Conditions of Laparoscopic Totally Extraperitoneal Inguinal Hernia Repair: A Randomized Clinical Trial. Hernia (2022) 26:1179–86. 10.1007/s10029-022-02570-5

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 60.

  TastaldiLBencsathKAlaedeenDRosenblattSAlkhatibHTuCet alTelescopic Dissection Versus Balloon Dissection for Laparoscopic Totally Extraperitoneal Inguinal Hernia Repair (TEP): A Registry-Based Randomized Controlled Trial. Hernia (2019) 23:1105–13. 10.1007/s10029-019-02001-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 61.

  CristaudoANayakAMartinSAdibRMartinI. A Prospective Randomised Trial Comparing Mesh Types and Fixation in Totally Extraperitoneal Inguinal Hernia Repairs. Int J Surg (2015) 17:79–82. 10.1016/j.ijsu.2015.03.018

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 62.

  Schjøth-IversenLRefsumABrudvikKW. Factors Associated with Hernia Recurrence After Laparoscopic Total Extraperitoneal Repair for Inguinal Hernia: A 2-Year Prospective Cohort Study. Hernia (2017) 21:729–35. 10.1007/s10029-017-1634-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 63.

  WennergrenJEPlymaleMDavenportDLevySHazeyJPerryKAet alQuality-Of-Life Scores in Laparoscopic Preperitoneal Inguinal Hernia Repair. Surg Endosc (2016) 30:3467–73. 10.1007/s00464-015-4631-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 64.

  SherwinterDA. Transitioning to Single-Incision Laparoscopic Inguinal Herniorrhaphy. JSLS (2010) 14:353–7. 10.4293/108680810X12924466007485

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 65.

  WaiteKEHermanMADoylePJ. Comparison of Robotic Versus Laparoscopic Transabdominal Preperitoneal (TAPP) Inguinal Hernia Repair. J Robot Surg (2016) 10:239–44. 10.1007/s11701-016-0580-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 66.

  TsaiY-CHoC-HTaiH-CChungS-DChuehS-C. Laparoendoscopic Single-Site Versus Conventional Laparoscopic Total Extraperitoneal Hernia Repair: A Prospective Randomized Clinical Trial. Surg Endosc (2013) 27:4684–92. 10.1007/s00464-013-3116-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 67.

  LiJWangXFengXGuYTangR. Comparison of Open and Laparoscopic Preperitoneal Repair of Groin Hernia. Surg Endosc (2013) 27:4702–10. 10.1007/s00464-013-3118-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 68.

  SzopinskiJDabrowieckiSPierscinskiSJackowskiMJaworskiMSzufletZ. Desarda Versus Lichtenstein Technique for Primary Inguinal Hernia Treatment: 3‐Year Results of a Randomized Clinical Trial. World J Surg (2012) 36:984–92. 10.1007/s00268-012-1508-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 69.

  TranH. Safety and Efficacy of Single Incision Laparoscopic Surgery for Total Extraperitoneal Inguinal Hernia Repair. JSLS (2011) 15:47–52. 10.4293/108680811X13022985131174

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 70.

  KudsiOYMcCartyJCPaluvoiNMabardyAS. Transition from Laparoscopic Totally Extraperitoneal Inguinal Hernia Repair to Robotic Transabdominal Preperitoneal Inguinal Hernia Repair: A Retrospective Review of a Single Surgeon’s Experience. World J Surg (2017) 41:2251–7. 10.1007/s00268-017-3998-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 71.

  KucukHFSikarHEKurtNUzunHEserMTutalFet alLichtenstein or Darn Procedure in Inguinal Hernia Repair: A Prospective Randomized Comparative Study. Hernia (2010) 14:357–60. 10.1007/s10029-010-0663-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 72.

  KoppatzHEHarjuJISirénJEMentulaPJScheininTMSallinenVJ. Three-Dimensional Versus Two-Dimensional High-Definition Laparoscopy in Transabdominal Preperitoneal Inguinal Hernia Repair: A Prospective Randomized Controlled Study. Surg Endosc (2020) 34:4857–65. 10.1007/s00464-019-07266-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 73.

  PeñaMEDreifussNHSchlottmannFSadavaEE. Could Long-Term Follow-Up Modify the Outcomes After Laparoscopic TAPP? A 5-Year Retrospective Cohort Study. Hernia (2019) 23:693–8. 10.1007/s10029-019-01953-5

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 74.

  ElhadidiANegmAShoumaA. Comparing Stapler and Sutured Mesh Fixation Techniques for Laparoscopic TAPP Repair: A Study on Chronic Groin Pain on 3-Year Follow-Up. Updat Surg (2024) 76:1467–73. 10.1007/s13304-024-01754-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 75.

  FortelnyRHPetter-PuchnerAHMayCJakschWBeneschTKhakpourZet alThe Impact of Atraumatic Fibrin Sealant Vs. Staple Mesh Fixation in TAPP Hernia Repair on Chronic Pain and Quality of Life: Results of a Randomized Controlled Study. Surg Endosc (2012) 26:249–54. 10.1007/s00464-011-1862-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 76.

  DomnizNPerryZHLantsbergLAvinoachEMizrahiSKirshteinB. Slit Versus Non‐Slit Mesh Placement in Total Extraperitoneal Inguinal Hernia Repair. World J Surg (2011) 35:2382–6. 10.1007/s00268-011-1251-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 77.

  MangramAOguntoduOFRodriguezFRassadiRHaleyMShivelyCJet alPreperitoneal Surgery Using a Self-Adhesive Mesh for Inguinal Hernia Repair. JSLS (2014) 18:e2014.00229. 10.4293/JSLS.2014.00229

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 78.

  TomaogluKSarıYSBektasHKocOGunesEUzumGet alProspective Randomized Clinical Trial of Jean Rives Technique Versus Laparoscopic TEP Repair for Primary Inguinal Hernia: 10-Year Follow-Up. Hernia (2015) 19:383–7. 10.1007/s10029-015-1350-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 79.

  AignerFAugustinFKaufmannCSchlagerAUlmerHPratschkeJet alProspective, Randomized-Controlled Trial Comparing Postoperative Pain After Plug and Patch Open Repair with Totally Extraperitoneal Inguinal Hernia Repair. Hernia (2014) 18:237–42. 10.1007/s10029-013-1123-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 80.

  Cunha-e-SilvaJAOliveiraFMMDAyresAFSMCIglesiasACRG. Herniorrafia Inguinal Convencional Com Tela Autofixante Versus Videolaparoscópica Totalmente Extraperitoneal Com Tela De Polipropileno: Resultados No pós-operatório Precoce. Rev Colégio Bras Cir (2017) 44:238–44. 10.1590/0100-69912017003003

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 81.

  WijerathneSAgarwalNRamzyALomantoD. A Prospective Randomized Controlled Trial to Compare Single-Port Endo-Laparoscopic Surgery Versus Conventional TEP Inguinal Hernia Repair. Surg Endosc (2014) 28:3053–8. 10.1007/s00464-014-3578-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 82.

  LiXHuXHuYJieY. Single-Port Versus Traditional Three-Port Laparoscopic Total Extraperitoneal Inguinal Hernia Repair: A Single-Centre, Prospective, Randomised Study. J Int Med Res (2024) 52:03000605241257418. 10.1177/03000605241257418

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 83.

  WijerathneSAgarwalNRamziALiemDHTanWBLomantoD. Single-Port Versus Conventional Laparoscopic Total Extra-Peritoneal Inguinal Hernia Repair: A Prospective, Randomized, Controlled Clinical Trial. Surg Endosc (2016) 30:1356–63. 10.1007/s00464-015-4378-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 84.

  AlarcónIBallaASoler FríasJRBarrancoABellido LuqueJMorales-CondeS. Polytetrafluoroethylene Versus Polypropylene Mesh During Laparoscopic Totally Extraperitoneal (TEP) Repair of Inguinal Hernia: Short- and Long-Term Results of a Double-Blind Clinical Randomized Controlled Trial. Hernia (2020) 24:1011–8. 10.1007/s10029-020-02200-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 85.

  ChowbeyPKGargNSharmaAKhullarRSoniVBaijalMet alProspective Randomized Clinical Trial Comparing Lightweight Mesh and Heavyweight Polypropylene Mesh in Endoscopic Totally Extraperitoneal Groin Hernia Repair. Surg Endosc (2010) 24:3073–9. 10.1007/s00464-010-1092-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 86.

  Brandt-KerkhofAVan MierloMSchepNRenkenNStassenL. Follow-Up Period of 13 Years After Endoscopic Total Extraperitoneal Repair of Inguinal Hernias: A Cohort Study. Surg Endosc (2011) 25:1624–9. 10.1007/s00464-010-1462-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 87.

  SwadiaND. Laparoscopic Totally Extra-Peritoneal Inguinal Hernia Repair: 9 Year’s Experience. Hernia (2011) 15:273–9. 10.1007/s10029-010-0781-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 88.

  KoningGGAndewegCSKeusFVan TilburgMWAVan LaarhovenCJHMAkkersdijkWL. The Transrectus Sheath Preperitoneal Mesh Repair for Inguinal Hernia: Technique, Rationale, and Results of the First 50 Cases. Hernia (2012) 16:295–9. 10.1007/s10029-011-0893-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 89.

  BulusHDoganMTasAAgladıogluKCoskunA. The Effects of Lichtenstein Tension-Free Mesh Hernia Repair on Testicular Arterial Perfusion and Sexual Functions. Wien Klin Wochenschr (2013) 125:96–9. 10.1007/s00508-013-0321-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 90.

  BökkerinkWJVPersoonAMAkkersdijkWLVan LaarhovenCJHMKoningGG. The TREPP as Alternative Technique for Recurrent Inguinal Hernia After Lichtenstein’s Repair: A Consecutive Case Series. Int J Surg (2017) 40:73–7. 10.1016/j.ijsu.2017.02.022

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 91.

  Van Den HeuvelBDwarsBJ. Repeated Laparoscopic Treatment of Recurrent Inguinal Hernias After Previous Posterior Repair. Surg Endosc (2013) 27:795–800. 10.1007/s00464-012-2514-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 92.

  AldohayanAAlamriHAljunidelRAlotaibiAAlosaimiMAlburakanAet alLaparoscopic Ventral Hernia Repair with Poly-4-Hydroxybutyrate Absorbable Barrier Composite Mesh. JSLS J Soc Laparosc Robot Surg (2021) 25:e2020.00105. 10.4293/JSLS.2020.00105

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 93.

  DongCTSreeramojuPPechmanDMWeithornDCamachoDMalcherF. Subcutaneous Onlay Endoscopic Approach (SCOLA) Mesh Repair for Small Midline Ventral Hernias with Diastasis Recti: An Initial US Experience. Surg Endosc (2021) 35:6449–54. 10.1007/s00464-020-08134-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 94.

  QuezadaNGrimoldiMBesserNJacubovskyIAchurraPCrovariF. Enhanced-View Totally Extraperitoneal (eTEP) Approach for the Treatment of Abdominal Wall Hernias: Mid-Term Results. Surg Endosc (2022) 36:632–9. 10.1007/s00464-021-08330-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 95.

  WestphalenAPAraújoACFZachariasPRodriguesESFracaroGBLopes FilhoGDJ. Repair of Large Incisional Hernias. To Drain or Not to Drain. Randomized Clinical Trial. Acta Cir Bras (2015) 30:844–51. 10.1590/S0102-865020150120000009

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 96.

  GherghinescuMCCopotoiuCLazarAEPopaDMogoantaSSMolnarC. Continuous Local Analgesia Is Effective in Postoperative Pain Treatment After Medium and Large Incisional Hernia Repair. Hernia (2017) 21:677–85. 10.1007/s10029-017-1625-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 97.

  ChanY-WFischerWPauzenbergerCDinnewitzerAHollinskyC. Assessment of Ideal Ratio of Mesh Area to Number of Fixation Tacks in Laparoscopic Ventral and Incisional IPOM plus Hernia Repair. Surg Endosc (2021) 35:1230–7. 10.1007/s00464-020-07493-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 98.

  BinthafPPParagG. A Comparative Study Between ETEP Vs. IPOM Repair for Ventral Hernia. Hernia (2025) 29:88. 10.1007/s10029-025-03280-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 99.

  SommerTFriis-AndersenH. DynaMesh® in the Repair of Laparoscopic Ventral Hernia: A Prospective Trial. Hernia (2013) 17:613–8. 10.1007/s10029-013-1090-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 100.

  BaccariPNifosiJGhirardelliLStaudacherC. Short- and Mid-Term Outcome After Laparoscopic Repair of Large Incisional Hernia. Hernia (2013) 17:567–72. 10.1007/s10029-012-1026-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 101.

  ShahanCPStoikesNFWebbDLVoellerGR. Sutureless Onlay Hernia Repair: A Review of 97 Patients. Surg Endosc (2016) 30:3256–61. 10.1007/s00464-015-4647-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 102.

  WarrenJACobbWSEwingJACarbonellAM. Standard Laparoscopic Versus Robotic Retromuscular Ventral Hernia Repair. Surg Endosc (2017) 31:324–32. 10.1007/s00464-016-4975-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 103.

  BaurJSüsstrunkJMeirMMüllerBPGermerC-TJurowichCet alComparing Robotic Ventral Transabdominal Preperitoneal Repair (rvTAPP) and Laparoscopic Enhanced View Totally Extraperitoneal Repair (eTEP): A Multicentre Observational Study. J Robot Surg (2025) 19:282. 10.1007/s11701-025-02443-w

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 104.

  ClausCMPMalcherFCavazzolaLTFurtadoMMorrellAAzevedoMet alSubcutaneous Onlay Laparoscopic Approach (Scola) for Ventral Hernia and Rectus Abdominis Diastasis Repair: Technical Description and Initial Results. ABCD Arq Bras Cir Dig São Paulo (2018) 31:e1399. 10.1590/0102-672020180001e1399

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 105.

  NassifATNaganoTAVillelaIRSimonettiGRDiasBFFreitasACTD. Incisional Hernioplasty Techniques: Analysis After Open Bariatric Surgery. ABCD Arq Bras Cir Dig São Paulo (2020) 33:e1517. 10.1590/0102-672020200002e1517

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 106.

  MunegatoGFeiLSchiano Di VisconteMDa RosDMorasLBellioG. A New Technique for Tension-Free Reconstruction in Large Incisional Hernia. Updat Surg (2017) 69:485–91. 10.1007/s13304-017-0493-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 107.

  PenchevDKotashevGMutafchiyskiV. Endoscopic Enhanced-View Totally Extraperitoneal Retromuscular Approach for Ventral Hernia Repair. Surg Endosc (2019) 33:3749–56. 10.1007/s00464-019-06669-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 108.

  WielandLAlfarawanFBockhornMEl-SouraniN. Comparison of eTEP and IPOM for Ventral Hernia Surgery in the Early Postoperative Period: A Retrospective Cohort Study of a Tertiary University Centre. Hernia (2024) 28:2195–206. 10.1007/s10029-024-03125-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 109.

  NguyenBDavidBShiozakiTGoschKSorensenGB. Comparisons of Abdominal Wall Reconstruction for Ventral Hernia Repairs, Open Versus Robotic. Sci Rep (2021) 11:8086. 10.1038/s41598-021-86093-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 110.

  RaakowJSchulte-MäterJCallisterYAydinMDeneckeCPratschkeJet alA Comparison of Laparoscopic and Open Repair of Subxiphoid Incisional Hernias. Hernia (2018) 22:1083–8. 10.1007/s10029-018-1815-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 111.

  LassesMBPeña SoriaMJCabeza GómezJJJiménez ValladolidDFlores GamarraMFernández PérezCet alSurgical Treatment of Large Incisional Hernias with Intraperitoneal Composite Mesh: A Cohort Study. Hernia (2017) 21:253–60. 10.1007/s10029-016-1557-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 112.

  DemetrashviliZPipiaILoladzeDMetreveliTEkaladzeEKenchadzeGet alOpen Retromuscular Mesh Repair Versus Onlay Technique of Incisional Hernia: A Randomized Controlled Trial. Int J Surg (2017) 37:65–70. 10.1016/j.ijsu.2016.12.008

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 113.

  RenardYDe MestierLCagnietADemichelNMarchandCMeffertJ-Let alOpen Retromuscular Large Mesh Reconstruction of Lumbar Incisional Hernias Including the Atrophic Muscular Area. Hernia (2017) 21:341–9. 10.1007/s10029-016-1570-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 114.

  BuiNHJørgensenLNJensenKK. Laparoscopic Intraperitoneal Versus Enhanced-View Totally Extraperitoneal Retromuscular Mesh Repair for Ventral Hernia: A Retrospective Cohort Study. Surg Endosc (2022) 36:1500–6. 10.1007/s00464-021-08436-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 115.

  TranHTranKZajkowskaMLamVHawthorneWJ. Single-Incision Laparoscopic Repair of Spigelian Hernia. JSLS (2015) 19:e2015.001644. 10.4293/JSLS.2015.001644

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 116.

  RenardYSimonneauADe MestierLTeumaLMeffertJPalotJet alStandard of Open Surgical Repair of Suprapubic Incisional Hernias. World J Surg (2017) 41:1466–74. 10.1007/s00268-017-3892-z

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 117.

  MeyerRHägeAZimmermannMBruchH-PKeckTHoffmannMet alIs Laparoscopic Treatment of Incisional and Recurrent Hernias Associated with an Increased Risk for Complications?Int J Surg (2015) 19:121–7. 10.1016/j.ijsu.2015.05.046

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 118.

  MazzocchiMDessyLARannoRCarlesimoBRubinoC. “Component Separation” Technique and Panniculectomy for Repair of Incisional Hernia. Am J Surg (2011) 201:776–83. 10.1016/j.amjsurg.2010.04.013

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 119.

  PachecoTBSHakmiHHalpernRSohailAHAkermanMWeinmanKet alA Comparison of Robotic Enhanced-View Totally Extraperitoneal Approach Versus Trans-Abdominal Retro-Muscular Approach for Midline Ventral Hernias. Hernia (2024) 28:1719–26. 10.1007/s10029-024-03042-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 120.

  SantilliOSantilliHNardelliN. Videoendoscopic Assisted Rives-Stoppa Technique. “Treatment for Epigastric and Umbilical Hernias with Diastasis Recti.”. Hernia (2024) 28:2403–9. 10.1007/s10029-024-03151-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 121.

  Piltcher-Da-SilvaRSoaresPSMBodaneseBCSJasinskiGMakiyamaACDORuggeriJRBet alEarly Outcomes of Robotic Enhanced View Totally Extraperitoneal Ventral Hernia Repair: A Single-Center Experience. ABCD Arq Bras Cir Dig São Paulo (2024) 37:e1825. 10.1590/0102-6720202400032e1825

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 122.

  AlpucheHAVTorresFRGonzálezJPS. Early Results of eTEP Access Surgery with Preperitoneal Repair of Primary Midline Ventral Hernias and Diastasis Recti. A 33 Patient Case Series of “PeTEP.”. Surg Endosc (2024) 38:3204–11. 10.1007/s00464-024-10832-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 123.

  DuttaPKimGEnglishNKattaTNaikGMustianMet alRobotic Repair of Off-Midline Abdominal Wall Hernias: A Single Institution Consecutive Case Series. Hernia (2025) 29:283. 10.1007/s10029-025-03476-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 124.

  NguyenDSzomsteinSOrdonezADipFRajanMMenzoELet alUnidirectional Barbed Sutures as a Novel Technique for Laparoscopic Ventral Hernia Repair. Surg Endosc (2016) 30:764–9. 10.1007/s00464-015-4275-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 125.

  Bueno-LledóJTorregrosaAJiménez-RosellónRGarcíaPBonaféSIserteJ. Predictors of Hernia Recurrence After Rives-Stoppa Repair in the Treatment of Incisional Hernias: A Retrospective Cohort. Surg Endosc (2019) 33:2934–40. 10.1007/s00464-018-6597-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 126.

  SolianiGDe TroiaAPortinariMTargaSCarcoforoPVasquezGet alLaparoscopic Versus Open Incisional Hernia Repair: A Retrospective Cohort Study with Costs Analysis on 269 Patients. Hernia (2017) 21:609–18. 10.1007/s10029-017-1601-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 127.

  KurmannABeldiGVorburgerSASeilerCACandinasD. Laparoscopic Incisional Hernia Repair Is Feasible and Safe After Liver Transplantation. Surg Endosc (2010) 24:1451–5. 10.1007/s00464-009-0799-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 128.

  MommersEHHLeendersBJMLeclercqWKGDe Vries ReilinghTSCharbonJA. A Modified Chevrel Technique for Ventral Hernia Repair: Long-Term Results of a Single Centre Cohort. Hernia (2017) 21:591–600. 10.1007/s10029-017-1602-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 129.

  SkovgaardsDMDiabHMHMidtgaardHGJørgensenLNJensenKK. Causes of Prolonged Hospitalization After Open Incisional Hernia Repair: An Observational Single-Center Retrospective Study of a Prospective Database. Hernia (2021) 25:1027–34. 10.1007/s10029-020-02353-w

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 130.

  JuvanyMGuillaumesSHoyuelaCBacheroITriasMArdidJet alResults of a Prospective Cohort Study on Open Rives Technique of the Midline Incisional Hernia: Midline Closure and Mesh Overlap. Surg Innov (2022) 29:321–8. 10.1177/15533506211033137

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 131.

  PeterssonPMontgomeryAPeterssonU. Modified Peritoneal Flap Hernioplasty Versus Retromuscular Technique for Incisional Hernia Repair: A Retrospective Cohort Study. Scand J Surg (2020) 109:279–88. 10.1177/1457496919863943

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 132.

  LavanchyJLBuffSEKohlerACandinasDBeldiG. Long-Term Results of Laparoscopic Versus Open Intraperitoneal Onlay Mesh Incisional Hernia Repair: A Propensity Score-Matched Analysis. Surg Endosc (2019) 33:225–33. 10.1007/s00464-018-6298-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 133.

  OrtizPRLorenzEMeyerFCronerRLünseSHungerRet alThe Effect of an Abdominal Binder on Postoperative Outcome After Open Incisional Hernia Repair in Sublay Technique: A Multicenter, Randomized Pilot Trial (ABIHR-II). Hernia (2023) 27:1263–71. 10.1007/s10029-023-02838-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 134.

  Di GiuseppeMMongelliFMarcantonioMLa ReginaDPiniR. Robotic Assisted Treatment of Flank Hernias: Case Series. BMC Surg (2020) 20:184. 10.1186/s12893-020-00843-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 135.

  PontenJEHLeendersBJMLeclercqWKGLettingaTHeemskerkJKonstenJLMet alMesh Versus Patch Repair for Epigastric and Umbilical Hernia (MORPHEUS Trial); One‐Year Results of a Randomized Controlled Trial. World J Surg (2018) 42:1312–20. 10.1007/s00268-017-4297-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 136.

  MarteGTufoAFerronettiADi MaioVRussoRSordelliIFet alPosterior Component Separation with TAR: Lessons Learned from Our First Consecutive 52 Cases. Updat Surg (2023) 75:723–33. 10.1007/s13304-022-01418-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 137.

  MommersEHHWegdamJANienhuijsSWDe Vries ReilinghTS. How to Perform the Endoscopically Assisted Components Separation Technique (ECST) for Large Ventral Hernia Repair. Hernia (2016) 20:441–7. 10.1007/s10029-016-1485-7

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 138.

  Arias-EspinosaLSalas-ParraRTagermanDPereiraXMalcherF. Robotic-Assisted Endoscopic Onlay Repair (R-ENDOR) for Concomitant Ventral Hernias and Diastasis Recti: Initial Results and Surgical Technique. Surg Endosc (2024) 38:5413–21. 10.1007/s00464-024-11100-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 139.

  TandonAShahzadKPathakSOommenCNunesQSmartN. Parietex^TM Composite Mesh Versus DynaMesh® -IPOM for Laparoscopic Incisional and Ventral Hernia Repair: A Retrospective Cohort Study. Ann R Coll Surg Engl (2016) 98:568–73. 10.1308/rcsann.2016.0292

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 140.

  RothJSAnthoneGJSelzerDJPouloseBKBittnerJGHopeWWet alProspective Evaluation of Poly-4-Hydroxybutyrate Mesh in CDC Class I/High-Risk Ventral and Incisional Hernia Repair: 18-Month Follow-Up. Surg Endosc (2018) 32:1929–36. 10.1007/s00464-017-5886-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 141.

  MillsJMZLuscombeGMHughTJ. Long‐Term Patient‐Reported Outcome Measures (PROMs) After Primary Ventral or Small Midline Incisional Hernia Repair. ANZ J Surg (2024) 94:1356–64. 10.1111/ans.19153

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 142.

  GokcalFMorrisonSKudsiOY. Robotic Retromuscular Ventral Hernia Repair and Transversus Abdominis Release: Short-Term Outcomes and Risk Factors Associated with Perioperative Complications. Hernia (2019) 23:375–85. 10.1007/s10029-019-01911-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 143.

  LiuYGabinetNOrtega-GoddardELuhrsAGiorgiM. Pushing the Boundary: The Incidence of Complications and Recurrences Following Robotic eTEP in BMI ≥35 Versus BMI <35 Patients. Surg Endosc (2025) 39:3373–6. 10.1007/s00464-025-11669-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 144.

  LadurnerRChiapponiCLinhuberQMussackT. Long Term Outcome and Quality of Life After Open Incisional Hernia Repair - Light Versus Heavy Weight Meshes. BMC Surg (2011) 11:25. 10.1186/1471-2482-11-25

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 145.

  SheenAJPilkingtonJJBaltatzisMTyurkylmazAStathakisPJamdarSet alComparison of Mesh Fixation Techniques in Elective Laparoscopic Repair of Incisional Hernia-ReliaTack^TM v ProTack^TM (TACKoMesh) - A Double-Blind Randomised Controlled Trial. BMC Surg (2018) 18:46. 10.1186/s12893-018-0378-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 146.

  BrandiCDRocheSBertoneSFratantoniME. No Enterocutaneous Fistula Development in a Cohort of 695 Patients After Incisional Hernia Repair Using Intraperitoneal Uncoated Polyproylene Mesh. Hernia (2017) 21:101–6. 10.1007/s10029-016-1530-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 147.

  KurmannAVisthECandinasDBeldiG. Long‐Term Follow‐Up of Open and Laparoscopic Repair of Large Incisional Hernias. World J Surg (2011) 35:297–301. 10.1007/s00268-010-0874-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 148.

  AlhussiniMAAwadATKholosyHM. Using Quilting Sutures in Decreasing Seroma Formation After Managing Large Ventral Hernias: A Comparative Study. Hernia (2019) 23:717–22. 10.1007/s10029-018-1850-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 149.

  Ahonen-SiirtolaMNevalaTVironenJKössiJPintaTNiemeläinenSet alLaparoscopic Versus Hybrid Approach for Treatment of Incisional Ventral Hernia: A Prospective Randomized Multicenter Study of 1-Month Follow-Up Results. Hernia (2018) 22:1015–22. 10.1007/s10029-018-1784-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 150.

  StirlerVMASchoenmaeckersEJPDe HaasRJRaymakersJTFJRakicS. Laparoscopic Repair of Primary and Incisional Ventral Hernias: The Differences Must Be Acknowledged: A Prospective Cohort Analysis of 1,088 Consecutive Patients. Surg Endosc (2014) 28:891–5. 10.1007/s00464-013-3243-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 151.

  StirlerVMADe HaasRJRaymakersJTFJRakicS. Persistent Posterior Seroma After Laparoscopic Repair of Ventral Abdominal Wall Hernias with Expanded Polytetrafluoroethylene Mesh: Prevalence, Independent Predictors and Detached Tacks: Retrospective Review. Hernia (2018) 22:285–91. 10.1007/s10029-017-1722-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 152.

  PontenJELeendersBJCharbonJALettinga - Van De PollTHeemskerkJMartijnseISet alMesh or Patch for Hernia on Epigastric and Umbilical Sites (MORPHEUS Trial): Study Protocol for a Multi-Centre Patient Blinded Randomized Controlled Trial. BMC Surg (2014) 14:33. 10.1186/1471-2482-14-33

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 153.

  ZhuangBZhouYYuSZhangYLiG. Comparison of Totally Visceral Sac Separation (TVS) and Extended View Totally Extraperitoneal (e-TEP) Repair for Umbilical and Epigastric Hernias: A Retrospective Study. Hernia (2025) 29:176. 10.1007/s10029-025-03370-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 154.

  O’HalloranEBBarwegenCJDombrowskiJMVandevenderDKLuchetteFA. Can’t Have One Without the Other: Component Separation Plus Mesh for Repairing Difficult Incisional Hernias. Surgery (2014) 156:894–901. 10.1016/j.surg.2014.06.021

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 155.

  SchroederADDebusESSchroederMReinpoldWMJ. Laparoscopic Transperitoneal Sublay Mesh Repair: A New Technique for the Cure of Ventral and Incisional Hernias. Surg Endosc (2013) 27:648–54. 10.1007/s00464-012-2508-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 156.

  RickertAKienlePKutheABaumannPEngemannRKuhlgatzJet alA Randomised, Multi-Centre, Prospective, Observer and Patient Blind Study to Evaluate a Non-Absorbable Polypropylene Mesh Vs. a Partly Absorbable Mesh in Incisional Hernia Repair. Langenbecks Arch Surg (2012) 397:1225–34. 10.1007/s00423-012-1009-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 157.

  PoelmanMMLangenhorstBLAMSchellekensJFSchreursWH. Modified Onlay Technique for the Repair of the More Complicated Incisional Hernias: Single-Centre Evaluation of a Large Cohort. Hernia (2010) 14:369–74. 10.1007/s10029-010-0646-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 158.

  QadriSJFKhanMWaniSNNazirSSRatherA. Laparoscopic and Open Incisional Hernia Repair Using Polypropylene Mesh - A Comparative Single Centre Study. Int J Surg (2010) 8:479–83. 10.1016/j.ijsu.2010.06.012

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 159.

  BriennonXLermiteEMeunierKDesboisEHamyAArnaudJ-P. Surgical Treatment of Large Incisional Hernias by Intraperitoneal Insertion of Parietex® Composite Mesh with an Associated Aponeurotic Graft (280 Cases). J Visc Surg (2011) 148:54–8. 10.1016/j.jviscsurg.2010.12.007

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 160.

  BergströmMWidheBGranåsenGLöf GranströmAOhlssonJSchultSet alOnlay Mesh Versus Suture Repair for Smaller Umbilical Hernias in Adults—Early Results from SUMMER Trial: Randomized Clinical Trial. BJS Open (2024) 9:zrae173. 10.1093/bjsopen/zrae173

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 161.

  Munoz-RodriguezJMRomán García De LeónLPolaino MorenoVFernández RodríguezMGrillo MarínCBlazquez-HernandoLAet alCranial Approach for Preperitoneal/Pretransversalis Enhanced-View Totally Extraperitoneal (PeTEP) Hernia Repair: A Novel Technique Description and Early Outcomes. Surg Endosc (2025) 39:2729–42. 10.1007/s00464-025-11643-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 162.

  BansalVKMisraMCKumarSKeerthi RaoYSinghalPGoswamiAet alA Prospective Randomized Study Comparing Suture Mesh Fixation Versus Tacker Mesh Fixation for Laparoscopic Repair of Incisional and Ventral Hernias. Surg Endosc (2011) 25:1431–8. 10.1007/s00464-010-1410-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 163.

  FroylichDSegalMWeinsteinAHatibKShiloniEHazzanD. Laparoscopic Versus Open Ventral Hernia Repair in Obese Patients: A Long-Term Follow-Up. Surg Endosc (2016) 30:670–5. 10.1007/s00464-015-4258-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 164.

  Moreno-EgeaACampillo-SotoÁMorales-CuencaG. Which Should Be the Gold Standard Laparoscopic Technique for Handling Spigelian Hernias?Surg Endosc (2015) 29:856–62. 10.1007/s00464-014-3738-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 165.

  ShaoJMElhageSAPrasadTColavitaPDAugensteinVAHenifordBT. Outcomes of Laparoscopic-Assisted, Open Umbilical Hernia Repair. Am Surg (2020) 86:1001–4. 10.1177/0003134820942162

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 166.

  BindalVPandeyDGuptaSAgarwalPDudeja BindalU. A Retrospective Study Comparing the Operative Outcomes of Extraperitoneal, Retrorectus Access Laparoscopic and Robotic‐Assisted Ventral Hernia Repairs. World J Surg (2025) 49:1228–36. 10.1002/wjs.12580

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 167.

  WassenaarESchoenmaeckersERaymakersJVan Der PalenJRakicS. Mesh-Fixation Method and Pain and Quality of Life After Laparoscopic Ventral or Incisional Hernia Repair: A Randomized Trial of Three Fixation Techniques. Surg Endosc (2010) 24:1296–302. 10.1007/s00464-009-0763-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 168.

  BeldiGWagnerMBrueggerLEKurmannACandinasD. Mesh Shrinkage and Pain in Laparoscopic Ventral Hernia Repair: A Randomized Clinical Trial Comparing Suture Versus Tack Mesh Fixation. Surg Endosc (2011) 25:749–55. 10.1007/s00464-010-1246-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 169.

  LambrechtJRVaktskjoldATrondsenEØyenOMReiertsenO. Laparoscopic Ventral Hernia Repair: Outcomes in Primary Versus Incisional Hernias: No Effect of Defect Closure. Hernia (2015) 19:479–86. 10.1007/s10029-015-1345-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 170.

  WiltersSAlfarawanFFahrenkrogCBockhornMEl-SouraniN. To Drain or Not to Drain in Minimal Invasive Ventral Hernia Surgery. Langenbecks Arch Surg (2025) 410:97. 10.1007/s00423-025-03668-x

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 171.

  ShaoJMDeerenbergEBElhageSAColavitaPDPrasadTAugensteinVAet alAre Laparoscopic and Open Ventral Hernia Repairs Truly Comparable? A Propensity-Matched Study in Large Ventral Hernias. Surg Endosc (2021) 35:4653–60. 10.1007/s00464-020-07894-w

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 172.

  FischerJPBastaMNMirzabeigiMNKovachISJ. A Comparison of Outcomes and Cost in VHWG Grade II Hernias Between Rives-Stoppa Synthetic Mesh Hernia Repair Versus Underlay Biologic Mesh Repair. Hernia (2014) 18:781–9. 10.1007/s10029-014-1309-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 173.

  RothJSAnthoneGJSelzerDJPouloseBKPierceRABittnerJGet alLong-Term, Prospective, Multicenter Study of Poly-4-Hydroxybutyrate Mesh (Phasix Mesh) for Hernia Repair in Cohort at Risk for Complication: 60-Month Follow-Up. J Am Coll Surg (2022) 235:894–904. 10.1097/XCS.0000000000000363

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 174.

  Martin-del-CampoLAMillerHJElliottHLNovitskyYW. Laparoscopic Ventral Hernia Repair with and Without Defect Closure: Comparative Analysis of a Single-Institution Experience with 783 Patients. Hernia (2018) 22:1061–5. 10.1007/s10029-018-1812-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 175.

  LindmarkMTallJDarkahiBÖsterbergJStrigårdKThorellAet alRecurrence Rate and Mesh Bulging Are Reduced with Primary Fascial Closure in Ventral Hernia Repair: The PROSECO Randomized Clinical Trial. Br J Surg (2025) 112:znaf169. 10.1093/bjs/znaf169

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 176.

  VierstraeteMDe TroyerAPletinckxPHermieEMuysomsF. Lateral single-Dock Robot-Assisted Retro-Rectus Ventral Hernia Repair (rTARUP/rTARM): Observational Study on Long-Term Follow-Up. J Robot Surg (2025) 19:84. 10.1007/s11701-025-02243-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 177.

  AbulfarajM. Robotic Transabdominal Preperitoneal Versus Laparoscopic Intraperitoneal Onlay Mesh plus Repair for Small to Medium Primary Ventral Hernias: A Propensity-Matched Cohort Study. J Robot Surg (2025) 19:637. 10.1007/s11701-025-02817-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 178.

  VenclauskasLMaleckasAKiudelisM. One-Year Follow-Up After Incisional Hernia Treatment: Results of a Prospective Randomized Study. Hernia (2010) 14:575–82. 10.1007/s10029-010-0686-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 179.

  ChungICheungBHLawTTNgKKNgLWongKY. Laparoscopic Versus Open Repair for Small Paraumbilical Hernia: A Retrospective Review. Asian J Endosc Surg (2019) 12:306–10. 10.1111/ases.12644

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 180.

  RobertsKEPanaitLDuffyAJBellRL. Single-Port Laparoscopic Umbilical Hernia Repair. Surg Innov (2010) 17:256–60. 10.1177/1553350610378514

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 181.

  BansalVKMisraMCBabuDSinghalPRaoKSagarRet alComparison of Long-Term Outcome and Quality of Life After Laparoscopic Repair of Incisional and Ventral Hernias with Suture Fixation with and Without Tacks: A Prospective, Randomized, Controlled Study. Surg Endosc (2012) 26:3476–85. 10.1007/s00464-012-2390-5

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 182.

  HalkaJTVasylukADemareAIaccoAJanczykR. Hybrid Robotic-Assisted Transversus Abdominis Release Versus Open Transversus Abdominis Release: A Comparison of Short-Term Outcomes. Hernia (2019) 23:37–42. 10.1007/s10029-018-1858-1

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 183.

  BhattacharjeeHKAnandVNkMMishraAKBaksiAJoshiMet alPenetrating Fixation Device Versus Fibrin Sealant for Mesh Fixation in Laparoscopic Repair of Ventral Hernia: A Randomized Controlled Trial. Hernia (2025) 29:98. 10.1007/s10029-025-03294-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 184.

  AzourySCDhanasoponAPHuiXTuffahaSHDe La CruzCLiaoCet alEndoscopic Component Separation for Laparoscopic and Open Ventral Hernia Repair: A Single Institutional Comparison of Outcomes and Review of the Technique. Hernia (2014) 18:637–45. 10.1007/s10029-014-1274-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 185.

  ChristoffersenMWOlsenBHRosenbergJBisgaardT. Randomized Clinical Trial on the Postoperative Use of an Abdominal Binder After Laparoscopic Umbilical and Epigastric Hernia Repair. Hernia (2015) 19:147–53. 10.1007/s10029-014-1289-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 186.

  González De GodosASánchez GonzálezJLópez RodríguezBLizarralde CapelasteguiACEstébanez PeláezGPacheco SánchezDet alComparative Approach for Abdominal Wall Reconstruction After Ventral Hernia: Open Versus Minimally Invasive Surgery. Hernia (2025) 29:69. 10.1007/s10029-025-03264-4

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 187.

  Bellido‐LuqueJBellido‐LuqueAGomez‐RosadoJCGomez‐MencheroJSuarez‐GrauJMLicardieEet alFull Endoscopic Minimally Invasive Extraperitoneal Modified Sugarbaker Approach for Para‐Colostomy Hernia Repair: Technical Aspects and 2‐Year Follow‐Up Results of a Prospective Cohort. Colorectal Dis (2023) 25:2033–42. 10.1111/codi.16734

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 188.

  ViolanteTFerrariDGomaaIAAboelmaatySABehmKTCimaRR. Robotic Parastomal Hernia Repair: A Single-Center Cohort Study. Updat Surg (2024) 76:2627–34. 10.1007/s13304-024-01969-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 189.

  IlgeldievSStoeckelSDievernichASchmidtMRudolphHMirowL. Repair of Parastomal Hernias with the Intraperitoneal Funnel Meshes IPST-R and IPST. Sci Rep (2024) 14:18560. 10.1038/s41598-024-69667-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 190.

  OmaEPilsgaardBJorgensenLN. Clinical Outcomes After Parastomal Hernia Repair with a Polyester Monofilament Composite Mesh: A Cohort Study of 79 Consecutive Patients. Hernia (2018) 22:371–7. 10.1007/s10029-017-1721-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 191.

  FuXLiMHuaRYaoQ. Lap-Re-Do Keyhole Versus Lap-re-Do Sugarbaker Techniques in Large Parastomal Hernia Repair: A Retrospective Cohort Study. Hernia (2024) 28:1945–50. 10.1007/s10029-024-03130-9

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 192.

  TârcoveanuEVasilescuACoteaEVladNPalaghiaMDănilăNet alParastomal Hernias -- Clinical Study of Therapeutic Strategies. Chir Buchar Rom 1990 (2014) 109:179–84.

  • Pubmed Abstract
  • Google Scholar

• 193.

  MaskalSMThomasJDMillerBTFafajAZolinSJMontelioneKet alOpen Retromuscular Keyhole Compared with Sugarbaker Mesh for Parastomal Hernia Repair: Early Results of a Randomized Clinical Trial. Surgery (2024) 175:813–21. 10.1016/j.surg.2023.06.046

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 194.

  ViolanteTFerrariDGomaaIAAboelmaatySASassunRSileoAet alRobotic Parastomal Hernia Repair in Ileal-Conduit Patients: Short-Term Results in a Single-Center Cohort Study. Hernia (2024) 28:2245–53. 10.1007/s10029-024-03153-2

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 195.

  BarranqueroAGMaestre GonzálezYGas RuizCSadurni GraciaMOlsina KisslerJJVillalobos MoriR. Early Outcomes of Robotic Modified Retromuscular Sugarbaker Technique for End Colostomy Parastomal Hernia Repair. Hernia (2024) 28:2235–43. 10.1007/s10029-024-03152-3

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 196.

  KöhlerGKochOOAntoniouSALechnerMMayerFKlingeUet alParastomal Hernia Repair with a 3-D Mesh Device and Additional Flat Mesh Repair of the Abdominal Wall. Hernia (2014) 18:653–61. 10.1007/s10029-014-1302-0

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 197.

  VerhelstJDe GoedeBKleinrensinkGJJeekelJLangeJFVan EeghemKHA. Open Incisional Hernia Repair with a Self-Gripping Retromuscular Parietex Mesh: A Retrospective Cohort Study. Int J Surg (2015) 13:184–8. 10.1016/j.ijsu.2014.11.043

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 198.

  TsurutaAHiraiTNakamuraM. Retrospective Comparison of Open Versus Laparoscopic Ventral and Incisional Hernia Repair. Asian J Endosc Surg (2014) 7:246–50. 10.1111/ases.12108

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 199.

  ColonMJKitamuraRTelemDANguyenSDivinoCM. Laparoscopic Umbilical Hernia Repair Is the Preferred Approach in Obese Patients. Am J Surg (2013) 205:231–6. 10.1016/j.amjsurg.2012.02.022

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 200.

  LanierSTFligorJEMillerKRDumanianGA. Reliable Complex Abdominal Wall Hernia Repairs with a Narrow, Well-Fixed Retrorectus Polypropylene Mesh: A Review of over 100 Consecutive Cases. Surgery (2016) 160:1508–16. 10.1016/j.surg.2016.07.004

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 201.

  WongJCYangGPCheungTPLiMK. Prospective Randomized Controlled Trial Comparing Partially Absorbable Lightweight Mesh and Multifilament Polyester Anatomical Mesh in Laparoscopic Inguinal Hernia Repair. Asian J Endosc Surg (2018) 11:146–50. 10.1111/ases.12421

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 202.

  HeWChenB. Efficacy of Intraperitoneal Positive Pressure Gas Expulsion in Laparoscopic Transabdominal Preperitoneal Hernioplasty: A Retrospective Cohort Study. BMC Surg (2025) 25:231. 10.1186/s12893-025-02965-y

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 203.

  AnadolAZAkinMKurukahveciogluOTezelEErsoyE. A Prospective Comparative Study of the Efficacy of Conventional Lichtenstein Versus Self-Adhesive Mesh Repair for Inguinal Hernia. Surg Today (2011) 41:1498–503. 10.1007/s00595-011-4545-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 204.

  DenhamMJohnsonBLeongMKuchtaKConatyEUjikiMBet alAn Analysis of Results in a Single-Blinded, Prospective Randomized Controlled Trial Comparing Non-Fixating Versus Self-Fixating Mesh for Laparoscopic Inguinal Hernia Repair. Surg Endosc (2019) 33:2670–9. 10.1007/s00464-018-6555-8

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 205.

  AfifiRYHamoodMHassanM. The Outcome of A. Double Mesh Intraperitoneal Repair for Complex Ventral Hernia: A Retrospective Cohort Study. Int J Surg (2018) 53:129–36. 10.1016/j.ijsu.2018.03.036

  • Pubmed Abstract
  • CrossRef
  • Google Scholar

• 206.

  RamanaBSinhaRJacobBTowfighSRosinD. Acronyms Use in Abdominal Wall Reconstruction: Introduction to a New Language. World J Surg (2020) 44:78–83. 10.1007/s00268-019-05221-6

  • Pubmed Abstract
  • CrossRef
  • Google Scholar