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Items: 1 to 20 of 65

1.

Late polypropylene mesh susceptibility to infection during intra-abdominal sepsis.

Vassiliou I, Tympa A, Theodosopoulos T, Nastos C, Arkadopoulos N, Dafnios N, Fragulidis G, Kouskouni E, Smyrniotis V.

J Invest Surg. 2011;24(5):199-204. doi: 10.3109/08941939.2011.584655. Erratum in: J Invest Surg. 2013 Jun;26(3):165. Ioannis, Vassiliou [corrected to Vassiliou, Ioannis]; Aliki, Tympa [corrected to Tympa, Aliki]; Theodosios, Theodosopoulos [corrected to Theodosopoulos, Theodosios]; Constantinos, Nastos [corrected to Nastos, Constantinos]; Nikolaos, Arkadopoulos [corrected to Arkadopoulos, Nikolaos]; Nikolaos, Dafnios [corrected to Dafnios, Nikolaos]; Georgios, Fragulidis [corrected to Fragulidis, Georgios]; Evangelia, Kouskouni [corrected to Kouskouni, Evangelia]; Vassilios, Smyrniotis [corrected to Smyrniotis, Vassilios].

PMID:
21867388
2.

Comparative evaluation of adhesion formation, strength of ingrowth, and textile properties of prosthetic meshes after long-term intra-abdominal implantation in a rabbit.

Novitsky YW, Harrell AG, Cristiano JA, Paton BL, Norton HJ, Peindl RD, Kercher KW, Heniford BT.

J Surg Res. 2007 Jun 1;140(1):6-11.

PMID:
17481980
3.

Abdominal hernia repair with mesh surrounded by fibrous tissue: experimental study in Wistar rats.

Ricciardi BF, Chequim LH, Gama RR, Hassegawa L.

Rev Col Bras Cir. 2012 May-Jun;39(3):195-200. English, Portuguese.

4.

Interposition of polyglactin mesh does not prevent adhesion formation between viscera and polypropylene mesh.

de Vries Reilingh TS, van Goor H, Koppe MJ, Bodegom ME, Hendriks T, Bleichrodt RP.

J Surg Res. 2007 Jun 1;140(1):27-30.

PMID:
17481981
5.

Reduction of peritoneal adhesion to polypropylene mesh with the application of fibrin glue.

Prieto-Díaz-Chávez E, Medina-Chávez JL, Ramírez-Barba EJ, Trujillo-Hernández B, Millán-Guerrero RO, Vásquez C.

Acta Chir Belg. 2008 Jul-Aug;108(4):433-7.

PMID:
18807596
6.

Prevention of adhesion formations following repair of abdominal wall defects with prosthetic materials (an experimental study).

Alimoglu O, Akcakaya A, Sahin M, Unlu Y, Ozkan OV, Sanli E, Eryilmaz R.

Hepatogastroenterology. 2003 May-Jun;50(51):725-8.

PMID:
12828071
7.

Infection on polypropylene mesh implantation site in the abdominal wall of rats with induced bacterial peritonitis.

Sebben GA, Rocha SL, Von Bahten LC, Biondo-Simões Mde L, Ramos FH, Pilonetto M, Zonatto LM.

Acta Cir Bras. 2006 May-Jun;21(3):155-60. Epub 2006 May 26.

8.

Resterilized mesh in repair of abdominal wall defects in rats.

Sucullu I, Akin ML, Yitgin S, Filiz AI, Kurt Y.

J Invest Surg. 2008 Jul-Aug;21(4):171-6. doi: 10.1080/08941930802130115.

PMID:
18615313
9.

Heavy-weight versus low-weight polypropylene meshes for open sublay mesh repair of incisional hernia.

Schmidbauer S, Ladurner R, Hallfeldt KK, Mussack T.

Eur J Med Res. 2005 Jun 22;10(6):247-53.

PMID:
16033714
10.

Effects of two different meshes used in hernia repair on nerve transport.

Ozkan N, Kayaoglu HA, Ersoy OF, Celik A, Kurt GS, Arabaci E.

J Am Coll Surg. 2008 Nov;207(5):670-5. doi: 10.1016/j.jamcollsurg.2008.04.035. Epub 2008 Aug 5.

PMID:
18954778
11.

Acute inflammatory response after inguinal and incisional hernia repair with implantation of polypropylene mesh of different size.

Di Vita G, D'Agostino P, Patti R, Arcara M, Caruso G, Davì V, Cillari E.

Langenbecks Arch Surg. 2005 Aug;390(4):306-11. Epub 2005 Feb 3.

PMID:
15690201
12.

Correlation between shrinkage and infection of implanted synthetic meshes using an animal model of mesh infection.

Mamy L, Letouzey V, Lavigne JP, Garric X, Gondry J, Mares P, de Tayrac R.

Int Urogynecol J. 2011 Jan;22(1):47-52. doi: 10.1007/s00192-010-1245-7. Epub 2010 Sep 7.

13.

In vitro and in vivo assessment of silver-coated polypropylene mesh to prevent infection in a rat model.

Badiou W, Lavigne JP, Bousquet PJ, O'Callaghan D, Marès P, de Tayrac R.

Int Urogynecol J. 2011 Mar;22(3):265-72. doi: 10.1007/s00192-010-1330-y. Epub 2010 Nov 25.

PMID:
21107810
14.

Effects of macroporous monofilament mesh on infection in a contaminated field.

Bury K, Smietański M, Justyna B, Gumiela P, Smietańska AI, Owczuk R, Naumiuk L, Samet A, Paradziej-Łukowicz J.

Langenbecks Arch Surg. 2014 Oct;399(7):873-7. doi: 10.1007/s00423-014-1225-3. Epub 2014 Aug 29.

15.

Nitric oxide modulates metalloproteinase-2, collagen deposition and adhesion rate after polypropylene mesh implantation in the intra-abdominal wall.

Moretti AI, Pinto FJ, Cury V, Jurado MC, Marcondes W, Velasco IT, Souza HP.

Acta Biomater. 2012 Jan;8(1):108-15. doi: 10.1016/j.actbio.2011.08.004. Epub 2011 Aug 12.

PMID:
21864729
16.

Expanded polytetrafluoroethylene patch versus polypropylene mesh for the repair of contaminated defects of the abdominal wall.

Bleichrodt RP, Simmermacher RK, van der Lei B, Schakenraad JM.

Surg Gynecol Obstet. 1993 Jan;176(1):18-24.

PMID:
8427001
17.

Autologous skin graft, human dura mater and polypropylene mesh for the repair of ventral abdominal hernias: an experimental study.

Kama NA, Coskun T, Yavuz H, Doganay M, Reis E, Akat AZ.

Eur J Surg. 1999 Nov;165(11):1080-5.

PMID:
10595614
18.

Sirolimus drug-eluting, hydrogel-impregnated polypropylene mesh reduces intra-abdominal adhesion formation in a mouse model.

Maciver AH, McCall MD, Edgar RL, Thiesen AL, Bigam DL, Churchill TA, Shapiro AM.

Surgery. 2011 Nov;150(5):907-15. doi: 10.1016/j.surg.2011.06.022. Epub 2011 Sep 22.

PMID:
21943642
19.

An experimental comparison of the effects of bacterial colonization on biologic and synthetic meshes.

Cole WC, Balent EM, Masella PC, Kajiura LN, Matsumoto KW, Pierce LM.

Hernia. 2015 Apr;19(2):197-205. doi: 10.1007/s10029-014-1290-0. Epub 2014 Aug 1.

PMID:
25081838
20.

Materials characterization of explanted polypropylene hernia meshes.

Costello CR, Bachman SL, Ramshaw BJ, Grant SA.

J Biomed Mater Res B Appl Biomater. 2007 Oct;83(1):44-9.

PMID:
17285608

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