Background: To date, no gold standard for the surgical treatment of femoral hernia exists. Pure tissue repair as well as mesh/plug implantation, open or laparoscopic, are the most performed methods. Nevertheless, all these techniques need sutures or mesh fixation. This implies the risk of damaging sensitive structures of the femoral area, along with complications related to tissue tear and postoperative discomfort consequent to poor quality mesh incorporation. The present retrospective multicenter case series highlights the results of femoral hernia repair procedures performed with a 3D dynamic responsive implant in a cohort of 32 patients during a mean follow up of 27 months. Materials and methods: Aiming to simplify the surgical procedure and reduce complications, a 3D dynamic responsive implant was delivered for femoral hernia repair, in a patient cohort. After returning the hernia sack to the abdominal cavity, the implant was simply delivered into the hernia defect where it remained, thanks to its inherent centrifugal expansion, obliterating the hernia opening without need of fixation. Postoperative pain assessment was determined using the VAS score system. Results: The use of the 3D prosthetic device allowed for easier and faster surgical repair in a fixation free fashion. None of the typical fixation related complications occurred in the examined patients. Postoperative pain assessment with VAS score showed a very low level of pain, allowing the return of patients to normal activities in extremely reduced times. In the late postoperative period, no discomfort or chronic pain was reported. Conclusions: Femoral hernia repair with the 3D dynamic revealed a quick and safe placement procedure. The reduced pain intensity, as well as the absence of adverse events consequent to sutures or mesh fixation, seems to be a significant benefit of the motile compliance of the device. Furthermore, this 3D prosthesis has already proven to induce an enhanced probiotic response showing ingrowth in the implant of the typical tissue components of the abdominal wall, instead of the low quality tissue ingrowth typical in conventional meshes and plugs. The highlighted features seem to represent a more physiologic and updated repair concept of femoral protrusions.
Fixation free femoral hernia repair with a 3D dynamic responsive implant. A case series report
Amato, G.;Gordini, L.;Erdas, E.;Calò, P. G.
2018-01-01
Abstract
Background: To date, no gold standard for the surgical treatment of femoral hernia exists. Pure tissue repair as well as mesh/plug implantation, open or laparoscopic, are the most performed methods. Nevertheless, all these techniques need sutures or mesh fixation. This implies the risk of damaging sensitive structures of the femoral area, along with complications related to tissue tear and postoperative discomfort consequent to poor quality mesh incorporation. The present retrospective multicenter case series highlights the results of femoral hernia repair procedures performed with a 3D dynamic responsive implant in a cohort of 32 patients during a mean follow up of 27 months. Materials and methods: Aiming to simplify the surgical procedure and reduce complications, a 3D dynamic responsive implant was delivered for femoral hernia repair, in a patient cohort. After returning the hernia sack to the abdominal cavity, the implant was simply delivered into the hernia defect where it remained, thanks to its inherent centrifugal expansion, obliterating the hernia opening without need of fixation. Postoperative pain assessment was determined using the VAS score system. Results: The use of the 3D prosthetic device allowed for easier and faster surgical repair in a fixation free fashion. None of the typical fixation related complications occurred in the examined patients. Postoperative pain assessment with VAS score showed a very low level of pain, allowing the return of patients to normal activities in extremely reduced times. In the late postoperative period, no discomfort or chronic pain was reported. Conclusions: Femoral hernia repair with the 3D dynamic revealed a quick and safe placement procedure. The reduced pain intensity, as well as the absence of adverse events consequent to sutures or mesh fixation, seems to be a significant benefit of the motile compliance of the device. Furthermore, this 3D prosthesis has already proven to induce an enhanced probiotic response showing ingrowth in the implant of the typical tissue components of the abdominal wall, instead of the low quality tissue ingrowth typical in conventional meshes and plugs. The highlighted features seem to represent a more physiologic and updated repair concept of femoral protrusions.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.