References
- Boedts D, de Leeuw I, Moeneclaey L. Mineral and collagen contents of human ossicles. Arch Otorhinolaryngol 1983; 237: 197
- Grote J J, Kuijpers W, de Groot K. Use of sintered hydroxyapatite in middle-ear surgery. ORL 1981; 43: 248
- Grote J J, Kuijpers W. Use of biomaterials in reconstructive middle-ear surgery, R Ruben. Mosby CoBiomaterials in reconstructive surgery, St Louis 1983; 987
- van Blitterswijk C A, Grote J J, Kuijpers W. Hydroxyapatite in the infected middle ear. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers, The Hague 1984; 93
- van Blitterswijk C A, Grote J J, Kupers W. Macroporous and dense hydroxyapatite as middle-ear implants. Biomaterials and Biomechanics, P Ducheyne, G van der Perre, A E Aubert. Elsevier Science Publishers, Amsterdam 1984; 433
- Hentzer H. Ultrastructure of the middle-ear mucosa. Ann. Otol. Rhinol. Laryngol 1976; 85(suppl. 25)30
- Maeda S, Mogi G, Oh M. Fine structures of the normal mucosa in developing rat middle ear. Ann Otol Laryngol 1976; 85: 1
- Kuijpers W, van der Beek J MH, Willart E CT. The effect of experimental tubal obstructions on the middle ear. Acta Otolaryngol (Stockh) 1979; 87: 345
- Arnold W. Reaktionsformen der Mittelohrschleimhaut, Arch. Otorhinolaryngol. 1977; 216: 369
- Grote J J, van Blitterswijk C A. OME and upper airway infections. Inpharzam medical forum 1984; 5: 13
- Grote J J, van Blitterswijk C A. Acute otitis media: an animal experimental study. Acta Otolaryngol (Stockh) 1984; 98: 239
- Sadé J. Ciliary activity and middle-ear clearance. Arch. Otolaryngol 1980; 129
- Rae T. A view of tissue culture techniques suitable for testing the biocompatibility of implant materials. Evaluation of Biomaterials, G D Winter, J G Leray, K de Groot. John Wiley & Sons Ltd., New York 1980; 289
- van Blitterswijk C A, Grote J J, Kuijpers W, Blok-van Hoek C JG, Daems W Th. Bioreactions at the hydroxyapatite/tissue interface. Biomaterials 1984; 6: 243
- Peelen J GJ, Reyda B V, de Groot K. Preparation and some properties of sintered hydroxyapatite. Ceramurgia Int. 1978; 5: 71
- Shea J J, Homsy C A. The use of proplast in otologic surgery. Laryngoscope 1974; 84: 1835
- Spector M, Teichgraeber J G, Per-Lee J H, Sackson R T. Tissue response to porous materials used for ossicular replacement prostheses. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers, The Hague 1984; 29
- Reck R. Bioactive ceramics in ear surgery: animal studies and clinical results. Laryngoscope 1984; 33: 1, Suppl
- Hench L L, Wilson B, Menvin G. Bioglass implants for otology. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers, The Hague 1984; 62
- Zoöllner Ch, Strutz J, Beck Ch, Büsing M. Are porous tricalciurn phosphate ceramic implants suitable for middle-ear surgery? An experimental study of the pigs hypotympanon, with additional preliminary results. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers, The Llague 1984; 262
- Jahnke K, Plester D, Heimke G. Aluminium Oxid Keramik ein bioinertes Material für die Mittelohrchirugie. Arch. Otolaryngol 1973; 223
- Kuijpers W. Behaviour or bioimplants in the middle ear, an experimental study. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers, The Hague 1978; 18
- Grote J J. Tympanoplasty with calcium phosphate. Biomaterials in Otology, J J Grote. Martinus Nijhoff Publishers. 1984; 274
- Grote J J. Tympanoplasty with calcium phosphate. Arch Otolaryngol 1984; 110: 197
- Grote J J, van Blitterswijk C A. Reconstruction of the posterior auditory canal wall with a hydroxyapatite canal wall prosthesis. Annals of Oto-Rhino-Laryngol. 1984, in press
- Lim D J, Klainer A. Cellular reactions in acute otitis media-scanning and transmission electron microscopy. Laryngoscope 1971; 81: 1772