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Hernia
Published in: Hernia 6/2015

01-12-2015 | Original Article

First human magnetic resonance visualisation of prosthetics for laparoscopic large hiatal hernia repair

Authors: G. Köhler, L. Pallwein-Prettner, M. Lechner, G. O. Spaun, O. O. Koch, K. Emmanuel

Published in: Hernia | Issue 6/2015

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Abstract

Purpose

Mesh repair of large hiatal hernias has increasingly gained popularity to reduce recurrence rates. Integration of iron particles into the polyvinylidene fluoride mesh-based material allows for magnetic resonance visualisation (MR).

Methods

In a pilot prospective case series eight patients underwent surgical repair of hiatal hernias repair with pre-shaped meshes, which were fixated with fibrin glue. An MR investigation with a qualified protocol was performed on postoperative day four and 3 months postoperatively to evaluate the correct position of the mesh by assessing mesh appearance and demarcation. The total MR–visible mesh surface area of each implant was calculated and compared with the original physical mesh size to evaluate potential reduction of the functional mesh surfaces.

Results

We documented no mesh migrations or dislocations but we found a significant decrease of MR–visualised total mesh surface area after release of the pneumoperitoneum compared to the original mesh size (mean 78.9 vs 84 cm2; mean reduction of mesh area = 5.1 cm2, p < 0.001). At 3 months postoperatively, a further reduction of the mesh surface area could be observed (mean 78.5 vs 78.9 cm2; mean reduction of mesh area = 0.4 cm2, p < 0.037).

Conclusion

Detailed mesh depiction and accurate assessment of the surrounding anatomy could be successfully achieved in all cases. Fibrin glue seems to provide effective mesh fixation. In addition to a significant early postoperative decrease in effective mesh surface area a further reduction in size occurred within 3 months after implantation.
Literature
1.
Gordon C, Kang JY, Neild PJ et al (2004) The role of the hiatus hernia in gastro–oesophageal reflux disease. Aliment Pharmacol Ther 20(7):719–732CrossRefPubMed
2.
3.
Hashemi M, Peters JH, De Meester TR et al (2000) Laparoscopic repair of large type III hiatal hernia: objective follow up reveals high recurrence rate. J Am Coll Surg 190:553–560CrossRefPubMed
4.
Carlson MA, Frantzides CT (2001) Complications and results of primary minimally invasive antireflux procedures: a review of 10,735 reported cases. J Am Coll Surg 193:428–439CrossRefPubMed
5.
Stadlhuber RJ, Sherif AE, Mittal SK (2009) Mesh complications after prosthetic reinforcement of hiatal closure: a 28-case series. Surg Endosc 23:1219CrossRefPubMed
6.
Seker D, Kulacoglu H (2011) Long-term complications of mesh repairs for abdominal-wall hernias. J Long Term Eff Med Implant 21(3):205–218CrossRef
7.
Antoniou SA, Koch OO, Antoniou GA et al (2012) Mesh-reinforced hiatal hernia repair: a review on the effect on postoperative dysphagia and recurrence. Langenbecks Arch Surg 397(1):19–27CrossRefPubMed
8.
Hansen NL, Barabasch A, Distelmaier M et al (2013) First in-human magnetic resonance visualization of surgical mesh implants for inguinal hernia treatment. Invest Radiol 48(11):770–778CrossRefPubMed
9.
Koch OO, Kaindlstorfer A, Antoniou SA et al (2012) Laparoscopic Nissen versus Toupet fundoplication: objective and subjective results of a prospective randomized trial. Surg Endosc 26(2):413–422CrossRefPubMed
10.
Granderath FA, Schweiger UM, Pointner R (2007) Laparoscopic antireflux surgery: tailoring the hiatal closure to the size of hiatal surface area. Surg Endosc 21(4):542–548CrossRefPubMed
11.
Furnée E, Hazebroek E (2013) Mesh in laparoscopic large hiatal hernia repair: a systematic review of the literature. Surg Endosc 27(11):3998–4008CrossRefPubMed
12.
Frantzides CT, Carlson MA, Loizides S (2010) Hiatal hernia repair with mesh: a survey of SAGES members. Surg Endosc 24:1017CrossRefPubMed
13.
Gibson SC, Wong SC, Dixon AC et al (2013) Laparoscopic repair of giant hiatus hernia: prosthesis is not required for successful outcome. Surg Endosc 27(2):618–623CrossRefPubMed
14.
Frantzides CT, Welle SN (2012) Cardiac tamponade as a life-threatening complication in hernia repair. Surgery 152(1):133–135CrossRefPubMed
15.
Powell BS, Wandrey D, Voeller GR (2013) A technique for placement of a bioabsorbable prosthesis with fibrin glue fixation for reinforcement of the crural closure during hiatal hernia repair. Hernia 17(1):81–84CrossRefPubMed
16.
Fortelny RH, Petter-Puchner AH, Glaser KS et al (2010) Fibrin sealant (Tisseel) for hiatal mesh fixation in an experimental model in pigs. J Surg Res 162(1):68–74CrossRefPubMed
17.
Kuehnert N, Kraemer NA, Otto J et al (2012) In vivo MRI visualization of mesh shrinkage using surgical implants loaded with superparamagnetic iron oxides. Surg Endosc 26(5):1468–1475PubMedCentralCrossRefPubMed
18.
Junge K, Binnebösel M, Rosch R et al (2009) Adhesion formation of polyvinylidenfluoride/polypropylene mesh for intra-abdominal placement in a rodent animal model. Surg Endosc 23(2):327–333CrossRefPubMed
19.
Conze J, Junge K, Weiss C et al (2008) New polymer for intra-abdominal meshes—PVDF copolymer. J Biomed Mater Res B Appl Biomater 87(2):321–328CrossRefPubMed
20.
Krämer NA, Donker HC, Otto J et al (2010) A concept for magnetic resonance visualization of surgical textile implants. Invest Radiol 45(8):477–483CrossRefPubMed
21.
Ciritsis A, Hansen NL, Barabasch A et al (2014) Time-dependent changes of magnetic resonance imaging-visible mesh implants in patients. Invest Radiol 49(7):439–444CrossRefPubMed
Metadata
Title
First human magnetic resonance visualisation of prosthetics for laparoscopic large hiatal hernia repair
Authors
G. Köhler
L. Pallwein-Prettner
M. Lechner
G. O. Spaun
O. O. Koch
K. Emmanuel
Publication date
01-12-2015
Publisher
Springer Paris
Published in
Hernia / Issue 6/2015
Print ISSN: 1265-4906
Electronic ISSN: 1248-9204
DOI
https://doi.org/10.1007/s10029-015-1398-x

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