Abdominal wall hernia mesh repair: sonography of mesh and common complications

The Role of Imaging in the Pre- and Postoperative Evaluation of Inguinal Hernia

Inguinal hernia repair is the most frequently performed surgical procedure. Imaging has a fundamental role in initial assessment and postoperative evaluation of inguinal hernias. Clinical implications of radiology in the preoperative setting include diagnosis of occult/complicated hernias and enhancement of diagnostic certainty. Postoperatively, imaging may assist the detection and characterization of complications. Familiarity with the normal appearance of the postoperative groin area and surgical techniques is required to avoid misinterpretation. This pictorial essay provides an overview of the expected postoperative imaging findings and highlights the role of imaging in the pre- and postoperative evaluation of inguinal hernias, with emphasis on ultrasonography.

Slowly resorbable biosynthetic mesh: 2-year results in VHWG grade 3 hernia repair

Introduction

Information on the long-term performance of biosynthetic meshes is scarce. This study analyses the performance of biosynthetic mesh (Phasix™) over 24 months.

Methods

A prospective, international European multi-center trial is described. Adult patients with a Ventral Hernia Working Group (VHWG) grade 3 incisional hernia larger than 10 cm², scheduled for elective repair, were included. Biosynthetic mesh was placed in sublay position. Short-term outcomes included 3-month surgical site occurrences (SSO), and long-term outcomes comprised hernia recurrence, reoperation, and quality of life assessments until 24 months.

Results

Eighty-four patients were treated with biosynthetic mesh. Twenty-two patients (26.2%) developed 34 SSOs, of which 32 occurred within 3 months (primary endpoint). Eight patients (11.0%) developed a hernia recurrence. In 13 patients (15.5%), 14 reoperations took place, of which 6 were performed for hernia recurrence (42.9%), 3 for mesh infection (21.4%), and in 7 of which the mesh was explanted (50%). Compared to baseline, quality of life outcomes showed no significant difference after 24 months. Despite theoretical resorption, 10.7% of patients reported presence of mesh sensation in daily life 24 months after surgery.

Conclusion

After 2 years of follow-up, hernia repair with biosynthetic mesh shows manageable SSO rates and favorable recurrence rates in VHWG grade 3 patients. No statistically significant improvement in quality of life or reduction of pain was observed. Few patients report lasting presence of mesh sensation. Results of biosynthetic mesh after longer periods of follow-up on recurrences and remodeling will provide further valuable information to make clear recommendations.

Trial registration

Registered on clinicaltrials.gov (NCT02720042), March 25, 2016.

Imaging and Treatment of Complications of Abdominal and Pelvic Mesh Repair

Surgical mesh is used most frequently for tension-free repair of abdominal wall hernias in adults, because the rate of hernia recurrence is lower with mesh than with primary soft-tissue repair. Since the introduction of polypropylene mesh in the middle of the 20th century, many mesh materials and configurations for specific surgical procedures have been developed. In addition to abdominal wall hernia repair, mesh may be used for repair of diaphragmatic hernias, urinary incontinence in women (female slings), genitourinary prolapse (vaginal mesh and sacrocolpopexy), rectal prolapse (rectopexy), and postprostatectomy male urinary incontinence (male slings). General mesh repair complications include chronic pain; fluid collections such as seromas, hematomas, and abscesses; adhesions that may lead to intestinal blockage; erosion into solid or hollow viscera including enterocutaneous fistulizing disease; and mesh failure characterized by mesh shrinkage, detachment, and migration with repair malfunction. Several mesh complications are often diagnosed with imaging, primarily with CT and less frequently with MRI and US, despite variable mesh visibility at imaging. This article reviews the common surgical mesh applications in the abdomen and pelvis, discusses imaging of mesh repair complications, and provides complication treatment highlights.^©RSNA, 2020.

Pore texture analysis in automated 3D breast ultrasound images for implanted lightweight hernia mesh identification: a preliminary study

Background

Precise visualization of meshes and their position would greatly aid in mesh shrinkage evaluation, hernia recurrence risk assessment, and the preoperative planning of salvage repair. Lightweight (LW) meshes are able to preserve abdominal wall compliance by generating less post-implantation fibrosis and rigidity. However, conventional 3D imaging techniques such as computed tomography (CT) and magnetic resonance imaging (MRI) cannot visualize the LW meshes. Patients sometimes have to undergo a second-look operation for visualizing the mesh implants. The goal of this work is to investigate the potential advantages of Automated 3D breast ultrasound (ABUS) pore texture analysis for implanted LW hernia mesh identification.

Methods

In vitro, the appearances of four different flat meshes in both ABUS and 2D hand-held ultrasound (HHUS) images were evaluated and compared. In vivo, pore texture patterns of 87 hernia regions were analyzed both in ABUS images and their corresponding HHUS images.

Results

In vitro studies, the imaging results of ABUS for implanted LW meshes are much more visualized and effective in comparison to HHUS. In vivo, the inter-class distance of 40 texture features was calculated. The texture features of 2D sectional plans (axial and sagittal plane) have no significant contribution to implanted LW mesh identification. Significant contribution was observed in coronal plane. However, since the mesh may have spatial variation such as shrinkage after implantation surgery, the inter-class distance of 3D coronal plane pore texture features are bigger than 2D coronal plane, so the contribution of 3D coronal plane pore texture features are more valuable than 2D coronal plane for implanted LW mesh identification. The use of 3D pore texture features significantly improved the robustness of the identification method in distinguishing between LW mesh and fascia.

Conclusions

An innovative new ABUS provides additional pore texture visualization, by separating the LW mesh from the fascia tissues. Therefore, ABUS has the potential to provides more accurate features to characterize pore texture patterns, and ultimately provide more accurate measures for implanted LW mesh identification.

Computed tomography options in the evaluation of hernia repair outcomes using "titanium silk" mesh implants

BACKGROUND

According to experimental studies, mesh implants may reduce in size up to 50.8% during their integration into soft tissues. This results in impaired mobility of the anterior abdominal wall and hernia recurrences, as well as affects patients' quality of life. Due to unsatisfactory radiographic contrast of polymeric mesh implants, changes in their size can be rarely confirmed using imaging methods. Medical devices made of metal alloys have the best radiographic contrast.

OBJECTIVE

The purpose of this study was to evaluate the radiographic contrast of mesh implants made of titanium filaments and to determine the sizes and locations of the implants after the anterior abdominal wall hernia repair.

MATERIALS & METHODS

The study included 40 patients with inguinal, umbilical, and postoperative ventral hernias. Surgical hernia repair was performed using a mash implant made of titanium filaments, "titanium silk". Multislice spiral computed tomography (MSCT) was performed on Days 3 and 90 after surgery, followed by an assessment of the size and location of the mesh implant.

RESULTS

90 days after the anterior abdominal wall hernia repair, the locations of the titanium silk mesh implants in the tissues corresponded to their intraoperative setting. There were no statistically significant changes in the sizes of mesh implants on Day 90, compared with Day 3.

CONCLUSION

The titanium silk mesh implants have satisfactory radiographic contrast, which allows imaging of their location and size in the tissues using MSCT and comprehensive evaluation of hernia repair outcomes using instrumental methods of examination.

Abdominal wall sonography: a pictorial review

The anterior abdominal wall, which is composed of three layers (skin and adipose tissues; the myofascial layer; and the deep layer, consisting of the transversalis fascia, preperitoneal fat, and the parietal peritoneum), has many functions: containment, support and protection for the intraperitoneal contents, and involvement in movement and breathing. While hernias are often encountered and well reviewed in the literature, the other abdominal wall pathologies are less commonly described. In this pictorial review, we briefly discuss the normal anatomy of the anterior abdominal wall, describe the normal ultrasonographic anatomy, and present a wide range of pathologic abnormalities beyond hernias. Sonography emerges as the diagnostic imaging of first choice for assessing abdominal wall disorders, thus representing a valuable tool for ensuring appropriate management and limiting functional impairment.

Diagnosis and Management of an Unusual Cyst 3 Years After Sacrocolpopexy

BACKGROUND

Peritoneal inclusion cysts (PICs) are uncommon tumours that can pose diagnostic challenges. This report describes an unusual etiology and management of recurrent pelvic organ prolapse.

CASE

A 48-year-old premenopausal woman presented with recurrent prolapse and urinary frequency after total abdominal hysterectomy and synthetic mesh sacrocolpopexy. On examination, a stage II rectoenterocele was noted. Her post-void residual was 760 mL as measured by bladder scanner, discrepant with in-and-out catheterization. Pelvic ultrasound revealed a 19-cm cystic pelvic mass. At laparoscopy a PIC was identified, and cystectomy, uterosacral plication, and Moschcowitz culdoplasty were performed. Complete symptom resolution was documented at 4 weeks and 3 months postoperatively.

CONCLUSION

PICs should be included in the differential diagnosis of recurrent prolapse. Prolapse symptoms attributable to PICs can be treated with laparoscopic cystectomy.

Mind the gap: imaging spectrum of abdominal ventral hernia repair complications

Ventral hernia repair with or without mesh placement is a commonly done procedure. Laparoscopic approach is more preferred than open in recent surgical practice. Complications occur as like any other abdominal surgeries and are dependent on multiple factors. Complications such as collections, adhesions, and related changes are non-specific. Specific complications related to hernia repair include recurrent hernia, mesh infection, mesh migration, and fistula formation. Post inguinal hernia repair chronic inguinal pain is gaining more attention with increasing use of image-guided nerve interventions for symptomatic management. Imaging plays a vital role in defining and delineating the type and extent of complications. Prior knowledge of the surgical indication and technique helps in better imaging interpretation of complications. This article describes the role of imaging in diagnosis of complications in general ventral hernia surgery setting.

Ultrasound visualization of sacrocolpopexy polyvinylidene fluoride meshes containing paramagnetic Fe particles compared with polypropylene mesh

INTRODUCTION AND HYPOTHESIS

Paramagnetic Fe particles can be added during synthetic mesh production to allow visibility on magnetic resonance imaging. Our aim was to evaluate whether transperineal ultrasound (TPUS) allows visualization, measurement, and characterization of polyvinylidene fluoride (PVDF mesh) containing Fe particles compared with regular polypropylene (PP) meshes used for sacrocolpopexy.

METHODS

Women up to 1.5 years after laparoscopic sacrocolpopexy who were implanted with a PP or PVDF mesh underwent clinical examination and 2D, 3D, and 4D TPUS. Acquired volumes were analyzed offline for mesh position at rest and maximal Valsalva and for mesh dimensions and characteristics, with the operator blinded to group assignment. The two groups were compared.

RESULTS

There were 17 women in the PP and 25 in the PVDF mesh group, without differences in baseline demographics. None had significant prolapse, recurrence, symptoms, or complications. On TPUS, mesh was visible in all patients both caudally (perineal) and cranially but was more echogenic in the PVDF mesh group. Mesh length from distal to proximal that was visible on TPUS was longer for PVDF mesh, for both anterior and posterior vaginal arms (all P < 0.05), and for mesh above the vaginal apex (P = 0.002). The inferior aspects of the mesh showed areas of double mesh layers, suggesting folding in 80% of women in both groups, without symptoms.

CONCLUSIONS

PVDF mesh permits clearer visualization and is seen over a longer stretch on TPUS, with longer visible mesh arms. The latter can be due to differences in operative technique, presence of microparticles, implant textile structure, or patient characteristics.

Incisional Hernia Repair: What the Radiologist Needs to Know

OBJECTIVE

Incisional hernias are becoming more prevalent with increases in the obesity of the population and the complexity of abdominal surgeries. Radiologists' understanding of these hernias is limited. This article examines abdominal wall anatomy, surgical techniques, the role of imaging (current and emerging), and complications from the surgical perspective, to enhance to the role of the radiologist.

CONCLUSION

Knowledge of the relevant anatomy, surgical techniques, and postoperative complications in patients with incisional hernial repair can help the radiologist improve care.

US of the Inguinal Canal: Comprehensive Review of Pathologic Processes with CT and MR Imaging Correlation

Ultrasonography (US) has a fundamental role in the initial examination of patients who present with symptoms indicating abnormalities of the inguinal canal (IC), an area known for its complex anatomy. A thorough understanding of the embryologic and imaging characteristics of the contents of the IC is essential for any general radiologist. Moreover, an awareness of the various pathologic conditions that can affect IC structures is crucial to preventing misdiagnoses and ensuring optimal patient care. Early detection of IC abnormalities can reduce the risk of morbidity and mortality and facilitate proper treatment. Abnormalities may be related to increased intra-abdominal pressure, which can result in development of direct inguinal hernias and varicoceles, or to congenital anomalies of the processus vaginalis, which can result in development of indirect hernias and hydroceles. US is also helpful in assessing postoperative complications of hernia repair, such as hematoma, seroma, abscess, and hernia recurrence. In addition, it is often the modality initially used to detect neoplasms arising from or invading the IC. US is an important tool in the examination of patients suspected of having undescended testes or posttraumatic testicular retraction and is essential for the examination of patients suspected of having torsion or infectious inflammatory conditions of the spermatic cord. Online supplemental material is available for this article. ^©RSNA, 2016.

Multidetector CT of expected findings and early postoperative complications after current techniques for ventral hernia repair

Current techniques for ventral hernia repair (VHR) rely on prosthetic mesh implantation and are increasingly performed laparoscopically. Potentially serious iatrogenic complications may occur following VHR, though these are rare compared to the vast number of procedures performed each year. This paper provides an overview of contemporary open and laparoscopic surgical techniques and biomaterials, then reviews and illustrates the expected postoperative imaging appearances, and common and unusual early complications after VHR. Emphasis is placed on multidetector computed tomography (CT), which comprehensively visualizes the operated anterior abdominal wall and deeper intra-abdominal structures. CT consistently allows diagnosis of postoperative seromas, abdominal wall abscesses and fistulas, haemorrhages with or without active bleeding, bowel obstruction, peritonitis and recurrent hernias, and thus providing a reliable basis for an appropriate choice between conservative, interventional, or surgical treatment. Familiarity with early post-surgical CT is warranted to avoid misinterpretation of the expected imaging appearance and correctly elucidate postoperative complications after VHR.

TEACHING POINTS

• Open and laparoscopic repair of ventral hernias rely on prosthetic mesh implantation. • Potentially serious iatrogenic complications occasionally occur after ventral hernioplasty. • Multidetector CT consistently evaluates the operated abdominal wall and deeper structures. • Familiarity with the expected early postoperative imaging appearance is required. • Complications include seroma, infections, haemorrhage, bowel obstruction, peritonitis, and recurrence.

Proposal of ecographic classification for seroma after laparoscopic ventral hernia repair

INTRODUCTION

Seroma is one of the most common complications after laparoscopic ventral hernia repair (LVHR), even if the incidence brought in literature is varying because definition and criterions of evaluation employed in the different studies are not always the same. This study proposes a classification for seroma after LVHR based on ultrasound findings, useful for an assessment of this complication.

MATERIALS AND METHODS

On 93 patients submitted to LVHR an ultrasound of the abdominal wall after 3, 7, 15, 21 and 28 days and subsequently at a distance of 3 and 6 months was performed postoperatively. At each control site, sonomorphology characteristics and size of seroma (if present) were noted.

RESULTS

At the end of the study using ultrasound findings obtained, a classification scheme for seroma articulated into three groups based on the parameters detected (site, sonomorphology character and volume) was developed, each of which is subdivided into five different classes to which a precise score is assigned. From the sum of the scores assigned, a value (between 3 and 15) that represents a prognostic index (PI) is obtained. A low PI is typical of small asymptomatic seroma that resolves spontaneously in a short time and without the need for invasive therapies; a high PI is typical of more or less symptomatic voluminous seroma that tends to persist for long periods and which often requires an interventional therapeutic approach.

CONCLUSIONS

This proposed classification helps to perform a precise nosological assessment of seroma after LVHR, allowing the surgeon to predict the clinical and temporal evolution of this complication and to plan appropriate therapy from time to time. Furthermore this classification can represent a tool to assess the uniqueness of seroma formation in relation to surgical technique used, to the type of material employed and to the method of mesh fixing.

High accuracy of ultrasound in diagnosing the presence and type of groin hernia

BACKGROUND

To evaluate the accuracy of ultrasound (US) in diagnosing the the presence and type of groin hernia.

METHODS

We retrospectively studied the results of 172 US examinations of the groin in 151 patients (101 men and 50 women; mean age, 59 years) who had undergone US examination for suspected groin hernia. In total, 119 of the groin hernias had been diagnosed on US, and 108 (91%) had required subsequent surgery. All patients who had had positive results for hernia on US and did not undergo surgery (n = 11) and most of the patients whose US results had been negative for hernia (n = 48) underwent limited MRI or CT scanning. We determined the sensitivity, specificity, and accuracy of US in diagnosing the presence and type of groin hernia. To identify any change in the accuracy of US over time at our institution, we compared the sensitivity, specificity, and accuracy of its use from January 2002 through December 2010 (n = 54 groins) with those from January 2011 through December 2012 (n = 118 groins).

RESULTS

The overall rates of sensitivity and specificity of US for diagnosing the presence of groin hernia were 96% and 96%. These rates reflect improvements from 92% and 88% prior to 2011 to 98% and 100% beginning in 2011. In addition, the overall accuracy of US for diagnosing the type of groin hernia was 96%. This also improved over time at our center from 91% prior to 2011 to 98% beginning in 2011.

CONCLUSIONS

US is highly accurate at diagnosing the presence and type of groin hernia.

Identification of implanted mesh after incisional hernia repair using an automated breast volume scanner

OBJECTIVES

This study aimed to evaluate the utility of an automated breast volume scanner (ABVS) versus handheld ultrasound (US) for identifying implanted mesh after incisional hernia repair.

METHODS

In vitro, the appearances of 3 samples of different flat mesh and a mesh plug on both ABVS and handheld US examinations were evaluated. In vivo, 97 patients received both ABVS and handheld US examinations in the incisional region. The frequency used for handheld US was 11 MHz. The presence of the previously implanted mesh in the incisional region was evaluated and compared between the US modalities. The identified results were confirmed by surgical findings.

RESULTS

In the in vitro study, the ABVS had more visualized and efficient imaging results for implanted mesh than handheld US. In the in vivo study, among 97 cases, 39 and 32 were identified as regions with mesh by the ABVS and handheld US, respectively. The ABVS had better identification performance than handheld US in terms of accuracy (94.8% versus 83.5%), sensitivity (90.5% versus 69.0%), and specificity (98.2% versus 94.5%). The κ values showed that handheld US had substantial agreement with surgical findings (κ = 0.78; 95% confidence interval, 0.66-0.90), whereas the ABVS had almost perfect agreement with surgical findings (κ = 0.93; 95% confidence interval, 0.86-1.00). More importantly, the ABVS could display the texture of lightweight mesh in the coronal plane. The specificity and sensitivity for mesh texture were 100.0% (55 of 55) and 94.4% (17 of 18), respectively.

CONCLUSIONS

The use of an ABVS may help identify the presence of implanted mesh after incisional hernia repair in some cases in which the implant is difficult to appreciate on handheld US imaging with an 11-MHz transducer.

Usefulness of the twinkling artifact in identifying implanted mesh after inguinal hernia repair

OBJECTIVES

Implanted mesh for inguinal hernia repair is often difficult to visualize with gray scale sonography and may present without the knowledge of the sonographer. We sought to evaluate the utility of the twinkling artifact produced by inguinal mesh to assist in mesh identification.

METHODS

Two reviewers evaluated focused sonographic examinations of 44 inguinal regions, 24 of which had implanted inguinal mesh. The sonographic examinations consisted of static gray scale and color Doppler images with both linear and curvilinear array transducers. The presence of the twinkling artifact and visibility of the mesh were graded on a 4-point visibility scale.

RESULTS

Inguinal mesh was not easily identified on gray scale imaging using either the curvilinear array (P = .5) or linear array (P = .5) transducer. The mesh was definitely seen in 3 of 24 inguinal regions using the linear array transducer and 2 of 24 inguinal regions using the curvilinear array transducer. In 79% of inguinal regions with mesh, the twinkling artifact was produced with the curvilinear array transducer only. The artifact was not elicited when using the linear array transducer. With the use of the curvilinear array transducer and the presence of the twinkling artifact, there was a significant chance of correctly identifying the presence of mesh (P < .005) in the entire study group.

CONCLUSIONS

Standard gray scale imaging alone is not reliable when identifying inguinal mesh. The twinkling artifact was present in 79% of inguinal regions with mesh when evaluated with a low-frequency curvilinear array transducer.