Use of Nonabsorbable Spiral Tacks for Mesh Reinforcement in Thoracoscopic Repair of Congenital Diaphragmatic Hernia

Thoracotomy patch repair of large diaphragmatic herniae in a porcine model: a tale of two patches

PURPOSE

Congenital diaphragmatic herniae (CDH) may require patch closure in 50% of the cases. We assessed a biologic and composite mesh in a porcine CDH model.

METHODS

Left sided thoracotomy was performed in 20 pigs. Approximately, 30% of the diaphragm was excised and the patch (Surgisis® or Parietex®) inserted to close this defect. The pigs were killed at 6 months and the diaphragm was harvested for biomechanical and histological assessment.

RESULTS

The mean weight of the pigs at surgery and killing were 6.1 kg (4.2-8.4 kg) and 94.1 kg (80-131 kg), respectively. There were two recurrences and three eventrations, all with Surgisis®. There were less dense lung and abdominal adhesions in the Parietex group (P < 0.0001 and 0.025, respectively). The tensile strength of the Surgisis®, the Parietex® groups and controls were similar. There was significantly more muscle in-growth in the Parietex® patch over Surgisis® (p = 0.016).

CONCLUSION

Parietex® and Surgisis® patches at 6 months have a similar tensile strength to normal tissue. All recurrences and eventrations were in the Surgisis® group. Parietex® patches demonstrated more muscle in-growth into the patch compared to Surgisis®. This is the first study utilising Parietex® composite patch in the repair of large diaphragmatic defects in a porcine model.

Surgical management of the diaphragmatic defect in congenital diaphragmatic hernia: a contemporary review

Worldwide, 150 children are born each day with congenital diaphragmatic hernia (CDH), a diaphragmatic defect with concomitant abnormal lung development. Patients with CDH with large defects are particularly challenging to treat, have the highest mortality, and are at significant risk of long-term complications. Advances in prenatal and neonatal treatments have improved survival in high-risk patients with CDH, but surgical treatment of large defects lacks standardization. Open repair by an abdominal approach has long been considered the traditional procedure, but the type of defect repair (patch or muscle flap) and patch material (non-absorbable, synthetic or absorbable, biological) remain subjects of debate. Increased experience and improved techniques in minimally invasive surgery (MIS) have expanded selection criteria for thoracoscopic defect repair in cardiopulmonary stable patients with small defects. However, the application of MIS to repair large defects remains controversial due to increased recurrence rates and unknown long-term effects of perioperative hypercapnia and acidosis resulting from capnothorax and reduced ventilation. Current recommendations on the surgical management rely on cohort studies of varying patient numbers and data on the long-term outcomes are sparse. Here, we discuss surgical approaches for diaphragmatic defect repair highlighting advancements, and knowledge gaps in surgical techniques (open surgery and MIS), patch materials and muscle flaps for large defects, as well as procedural adjuncts and management of CDH variants.

Synthetic versus Biological Patches for CDH: A Comparison of Recurrence Rates and Adverse Events, Systematic Review, and Meta-Analysis

OBJECTIVE

 Our systematic review aims to compare recurrence rates and complications of biological versus synthetic patches for the repair of congenital diaphragmatic herniae.

METHODS

 Studies from January 1, 1980 to April 25, 2020, with patients under the age of 16 years and with a minimum 6-month follow-up, were included from MEDLINE, Embase, and Cochrane databases. Funnel plots for recurrence rates were constructed for biological and synthetic patches. Subgroup analysis was performed for recurrence rate at the 1-year time-point and data were gathered on individual adverse events from relevant studies.

RESULTS

 A total of 47 studies with 986 patients (226 biological, 760 synthetic) were included. Funnel plot analysis determined overall recurrence rates of 16.7% for synthetic and 30.3% for biological patches. Subgroup analysis of 493 and 146 patients with synthetic and biological patches, respectively, showed recurrence rates of 9.9 and 26%, respectively.The most commonly used patch types-PTFE (polytetrafluoroethylene) and SIS (small intestinal submucosa)-had 11.5 and 33.3% recurrence, respectively. Adhesive bowel obstruction rates ranged from 4 to 29% in studies that systematically reported it for synthetic, and 7 to 35% for biological patches. Gastroesophageal reflux rates ranged from 25 to 48% in studies that systematically reported it for synthetic, and 21 to 42% for biological patches. Pectus deformity rates were reported as high as 80% for synthetic patches.

CONCLUSION

 Biological patches appear to have higher recurrence rates than synthetic patches, while skeletal deformities are associated more commonly with synthetic patches. Results of biological patches are mainly using SIS and this may overestimate complications of current superior biological patches.

Laparoscopic patch repair of a Morgagni hernia in Menkes disease

The association between Morgagni hernia and Menkes disease has not yet been described. Here, we report such a rare association in an 8-year-old boy who presented with subocclusive symptoms. He successfully underwent laparoscopic repair with a patch. The patch was fixed to the anterior abdominal wall by using transfascial sutures with extracorporeal knot tying and to the remaining edges of the diaphragmatic defect by using intracorporeal suturing and spiral tacks. At the 2-year follow-up, the child remained recurrence-free and without gastrointestinal symptoms. The potential relationship between the two conditions and the controversial use of spiral tacks to affix the mesh to the diaphragm are also discussed.

Thoracoscopy in pediatrics: Surgical perspectives

Thoracoscopic surgery and other minimally invasive approaches in children achieved marked advancement and expanded to include several disciplines in the last decade. The new armamentarium of the minimally invasive surgery including the smaller instruments and better magnification led to the application of this technology in the small infants and neonates. Currently, thoracoscopy is considered the preferred surgical approach for various conditions in neonates and infants over the standard thoracotomy, and thoracoscopic training is included in the surgical training curriculum for the residents in many institutes worldwide. Children are different from adults, and technique modifications are required when using thoracoscopy in children. Thoracoscopy showed satisfactory results in several operations including pulmonary resections, mediastinal tumors biopsies or resections, repair of the diaphragmatic hernias, decortication, and tracheoesophageal fistula. This review aims to address the unique aspects of thoracoscopic surgery in children, identify its potential technical and anatomical challenges, and the proposed solutions. A literature search for latest and relevant publications was done using the keywords (thoracoscopy; pediatric; lung biopsy; decortication; lobectomy; mediastinum; esophagus; and diaphragmatic hernia).

Postnatal Ultrasound to Determine the Surgical Strategy for Congenital Diaphragmatic Hernia

OBJECTIVES

To compare defect sizes in congenital diaphragmatic hernia (CDH) measured by postnatal ultrasound (US) between neonates who underwent thoracoscopic surgery and neonates who underwent open surgery and between neonates who underwent primary repair and those who underwent patch repair; additionally, to compare the accuracy of US diagnosis with that of surgical diagnosis for the location of the diaphragmatic hernia and the hernial contents.

METHODS

We included 8 neonates who underwent preoperative US evaluations of CDH. We compared anterior-to-posterior diaphragm defect sizes between thoracoscopic and open surgery approaches and between primary and patch repair by using the Mann-Whitney U test. The diaphragm was divided into 3 segments: anterior, lateral, and posterior. We evaluated the location of the diaphragmatic hernia and the hernial contents.

RESULTS

Four neonates who underwent open surgery had larger diaphragmatic hernias than those who underwent thoracoscopic surgery (mean ± SD, 30.5 ± 5.6 versus 16.3 ± 3.3 mm; P = .030). They were also larger in neonates who underwent patch repair than in those who underwent primary repair (33.0 ± 3.0 versus 17.6 ± 4.2 mm; P = .037). Detection of anterior and lateral diaphragm segments was consistent between US and surgical findings. Three of 4 neonates who underwent open surgery and all 3 neonates who underwent patch repair did not show the lateral segment. The hernial contents were also consistent between US and surgical findings.

CONCLUSIONS

Postnatal US examinations of neonates with CDH could provide surgeons with useful information to determine the surgical approach and repair method. However, since our study cohort was small, further studies are needed with a larger number of neonates with CDH.

Usefulness of Ultrasound in Evaluating the Diaphragm in Neonates and Infants With Congenital Diaphragmatic Hernias

This report describes the evaluations of 2 patients with congenital diaphragmatic hernias using ultrasound (US). Identifying the size of the diaphragmatic defect is important when determining the type of surgical repair required. In case 1, the US evaluation of a Bochdalek hernia showed the rim of the anterolateral diaphragm; therefore, thoracoscopic primary repair was performed. In case 2, (Morgagni-Larrey hernia), US revealed the left side of a retrosternal diaphragmatic hernia sac; therefore, thoracoscopic repair from the left thorax was performed. Ultrasound was useful for detecting the location and defect size of the diaphragmatic hernia and determining optimal surgical management.