Sage Journals: Discover world-class research

Abstract

Tympanic membrane (TM) perforation is a frequent cause of conductive hearing loss. The most popular surgical repair is autografting with temporalis fascia, although some disadvantages have been found with this method. Whether xenogeneous grafts produced by a tissue engineering approach could be used is unclear. The purpose of this study was to evaluate the possibility of bioengineering TM using porcine acellular dermis and dura mater with TM fibroblasts and to compare the effects of these two natural scaffolds. Both of the materials were prepared by sequentially using Triton X-100, nuclease solution, and freeze-drying technique. Histologically, both had porous structures without any cellular components. After seeding with TM fibroblasts isolated from guinea pigs, it was found that both of the materials could be used as scaffolds for bioengineering TM in vitro. In the in vivo study, chronic TM perforation models were successfully established in guinea pigs. From gross and histological examinations, most of TM perforations were healed after grafting these two bioengineered TMs using an underlay technique. Furthermore, auditory brainstem response audiometry was applied to determine the auditory threshold in each group. Results showed that hearing in the dura mater group seemed to undergo faster recovery in the early stage but in the end, no differences were found between the two groups. Two kinds of materials without cell seeding were used as controls. Porcine acellular dermis and dura mater are suitable scaffolds for bioengineering TMs.

Get full access to this article

View all access options for this article.

References

Downey

T.J.

, Champeaux

A.L.

, Silva

A.B.

AlloDerm tympanoplasty of tympanic membrane perforations. Am J Otolaryngol, 24:6. 2003.

Boedts

Tympanic grafting materials. Acta Otorhinolaryngol Belg, 49:193. 1995.

Sheehy

J.L.

, Anderson

R.G.

Myringoplasty. A review of 472 cases. Ann Otol Rhinol Laryngol, 89:331. 1980.

Vartiainen

, Nuutinen

Success and pitfalls in myringoplasty: follow-up study of 404 cases. Am J Otol, 14:301. 1993.

Laidlaw

D.W.

, Costantino

P.D.

, Govindaraj

, Hiltzik

D.H.

, Catalano

P.J.

Tympanic membrane repair with a dermal allograft. Laryngoscope, 111:702. 2001.

Hellstrom

, Salen

, Stenfors

L.E.

Absorbable gelatin sponge (Gelfoam) in otosurgery: one cause of undesirable postoperative results?

Acta Otolaryngol, 96:269. 1983.

Martini

, Morra

, Aimoni

, Radice

Use of a hyaluronan-based biomembrane in the treatment of chronic cholesteatomatous otitis media. Am J Otol, 21:468. 2000.

Youssef

A.M.

Use of acellular human dermal allograft in tympanoplasty. Laryngoscope, 109:1832. 1999.

Benecke

J.E.

Jr.

Tympanic membrane grafting with AlloDerm. Laryngoscope, 111:1525. 2001.

10.

McFeely

W.J.

Jr. , Bojrab

D.I.

, Kartush

J.M.

Tympanic membrane perforation repair using AlloDerm. Otolaryngol Head Neck Surg, 123:17. 2000.

11.

Vacanti

J.P.

, Langer

Tissue engineering: the design and fabrication of living replacement devices for surgical reconstruction and transplantation. Lancet, 354:SI32. 1999.

12.

Badylak

S.F.

Xenogeneic extracellular matrix as a scaffold for tissue reconstruction. Transpl Immunol, 12:367. 2004.

13.

Dahl

S.L.

, Koh

, Prabhakar

, Niklason

L.E.

Decellularized native and engineered arterial scaffolds for transplantation. Cell Transplant, 12:659. 2003.

14.

Gilbert

T.W.

, Sellaro

T.L.

, Badylak

S.F.

Decellularization of tissues and organs. Biomaterials, 27:3675. 2006.

15.

Stegemann

J.P.

, Kaszuba

S.N.

, Rowe

S.L.

Review: advances in vascular tissue engineering using protein-based biomaterials. Tissue Eng, 13:2601. 2007.

16.

Igarashi

, Kawamata

The fine structure of the guinea pig tympanic membrane with special reference to the fiber arrangement. Acta Otolaryngol Suppl, 504:140. 1993.

17.

Yamamoto

, Ishii

, Machida

Measurement of the mechanical properties of the tympanic membrane with a microtension tester. Acta Otolaryngol, 110:85. 1990.

18.

Gladstone

H.B.

, Jackler

R.K.

, Varav

Tympanic membrane wound healing. An overview. Otolaryngol Clin North Am, 28:913. 1995.

19.

Wainwright

D.J.

Use of an acellular allograft dermal matrix (AlloDerm) in the management of full-thickness burns. Burns, 21:243. 1995.

20.

Johnson

, Mixson

, Munday

Suitability of formaldehyde-treated acellular dermis for tympanic membrane repair in chinchillas. Otol Neurotol, 28:778. 2007.

21.

Fishman

A.J.

, Marrinan

M.S.

, Huang

T.C.

, Kanowitz

S.J.

Total tympanic membrane reconstruction: AlloDerm versus temporalis fascia. Otolaryngol Head Neck Surg, 132:906. 2005.

22.

Fayad

J.N.

, Baino

, Parisier

S.C.

Preliminary results with the use of AlloDerm in chronic otitis media. Laryngoscope, 113:1228. 2003.

23.

DeFranco

M.J.

, Derwin

, Iannotti

J.P.

New therapies in tendon reconstruction. J Am Acad Orthop Surg, 12:298. 2004.

24.

Bellamkonda

R.V.

Peripheral nerve regeneration: an opinion on channels, scaffolds and anisotropy. Biomaterials, 27:3515. 2006.

25.

Arvelo

Tissue engineering and construction of human skin in vitro. Invest Clin, 48:367. 2007.

26.

C.C.

, Chan

R.W.

, Tirunagari

A biodegradable, acellular xenogeneic scaffold for regeneration of the vocal fold lamina propria. Tissue Eng, 13:551. 2007.

27.

Kasimir

M.T.

, Weigel

, Sharma

, Rieder

, Seebacher

, Wolner

, Simon

The decellularized porcine heart valve matrix in tissue engineering: platelet adhesion and activation. Thromb Haemost, 94:562. 2005.

28.

Badylak

S.F.

The extracellular matrix as a scaffold for tissue reconstruction. Semin Cell Dev Biol, 13:377. 2002.

29.

Schenke-Layland

, Vasilevski

, Opitz

, Konig

, Riemann

, Halbhuber

K.J.

, Wahlers

, Stock

U.A.

Impact of decellularization of xenogeneic tissue on extracellular matrix integrity for tissue engineering of heart valves. J Struct Biol, 143:201. 2003.

30.

O'Reilly

R.C.

, Goldman

S.A.

, Widner

S.A.

, Cass

S.P.

Creating a stable tympanic membrane perforation using mitomycin C. Otolaryngol Head Neck Surg, 124:40. 2001.

31.

Katsuji

, Ken-ichi

, Takashi

Auditory brainstem response and objective assessment of hearing thresholds in cowshed calves. J Ethol, 14:73. 1996.

Comparison of Porcine Acellular Dermis and Dura Mater as Natural Scaffolds for Bioengineering Tympanic Membranes

Abstract

Get full access to this article

References