Fabrication of porous substrates: A review of processes using pore forming agents in the biomaterial field

Journal of Pharmaceutical Sciences

Volumn 97, Issue 3, 2008, Pages 1135-1154

  Chevalier, Emilie ^a   Chulia, Dominique ^a   Pouget, Christelle ^a   Viana, Marylène ^a  

^a UNIVERSITY OF LIMOGES   (France)

Author keywords

Bioceramics; Biomaterials; Casting; Compaction; Foaming; Pore former; Porosity; Powder technology; Processing; Texture

Indexed keywords

BIOCERAMICS; BIOMATERIAL; POLY(METHYL METHACRYLATE);

ANALYTIC METHOD; DISPERSION; DISSOLUTION; FOAMING; HEATING; INTERMETHOD COMPARISON; POROSITY; REVIEW; SCANNING ELECTRON MICROSCOPY; TECHNIQUE;

BIOCOMPATIBLE MATERIALS; MICROSCOPY, ELECTRON, SCANNING;

EID: 42949083290     PISSN: 00223549     EISSN: 15206017     Source Type: Journal    
DOI: 10.1002/jps.21059     Document Type: Review

References (106)

1. Yang L, Ning X, Chen K, Zhou H. 2007. Preparation and properties of hydroxyapatite filters for microbial filtration. Ceram Int 33:483-489.
2. Corbin SF, Apte PS. 1999. Engineered porosity via tape casting, lamination and the percolation of pyrolyzable particulates. J Am Ceram Soc 82: 693-701.
3. Chandrappa GT, Steunou N, Livage J. 2002. Macroporous crystalline vanadium oxide foam. Nature 416:702.
4. Bae CJ, Kim HW, Koh YH, Kim HE. 2006. Hydroxyapatite bone scaffolds with controlled macro-channel pores. J Mater Sci Mater Med 17: 517-521.
5. Deville S, Saiz E, Tomsia AP. 2006. Freeze casting of hydroxyapatite scaffolds for bone tissue engineering. Biomaterials 27:5480-5489.
6. Herath HMTU, Di Silvio L, Evans JRG. 2005. Porous hydroxyapatite ceramics for tissue engineering. J Appl Biomater Biomech 3:192-198.
7. Otsuka M, Matsuda Y, Suwa Y, Fox JL, Higuchi WI. 1994. A novel skeletal drug-delivery system using self-setting calcium phosphate cement. 3. Physicochemical properties and drug release rate of bovine insulin and bovine albumin. J Pharm Sci 83:255-258.
8. Otsuka M, Matsuda Y, Suwa Y, Fox JL, Higuchi WI. 1997. A novel skeletal drug-delivery system using self-setting calcium phosphate cement. VIII. The relationship between in vitro and in vivo drug release from indomethacin-containing cement. J Control Release 43:115-122.
9. Otsuka M, Nakahigashi Y, Matsuda Y, Fox JL, Higuchi WI, Sugiyama Y. 1998. Effect of geometrical cement size on in vitro and in vivo indo-methacin release from self-setting apatite cement. J Control Release 52:281-289.
10. Otsuka M, Matsuda Y, Baig AA, Chhettry A, Higuchi WI. 2000. Calcium-level responsive controlled drug delivery from implant dosage forms to treat osteoporosis in an animal model. Adv Drug Deliv Rev 42:249-258.
11. Bohner M, Lemaître J, Van Landuyt P, Zambelli PY, Merkle HP, Gander B. 1997. Gentamicin-loaded hydraulic calcium phosphate bone cement as antibiotic delivery system. J Pharm Sci 86:565-572.
12. Bohner M, Lemaître J, Merkle HP, Gander B. 2000. Control of gentamicin release from a calcium phosphate cement by admixed poly(acrylic acid). J Pharm Sci 89:1262-1270.
13. Ginebra MP, Traykova T, Planell JA. 2006. Calcium phosphate cements as drug delivery systems: A review. J Control Release 113:102-110.
14. Zeng T, Dong XL, Chen ST, Yang H. 2007. Processing and piezoelectric properties of porous PZT ceramics. Ceram Int 33:395-399.
15. Zhang HL, Li JF, Zhang BP. 2007. Microstructure and electrical properties of porous PZT ceramics derived from different pore-forming agents. Acta Mater 55:171-181.
16. Gregorova E, Pabst W. 2006. Porous ceramics prepared using poppy seed as pore-forming agent. Ceram Int, In press
17. Sivakumar M, Manjubala I, Panduranga Rao K. 2002. Preparation, characterization and in vitro release of gentamicin from coralline hydroxyapatite-chitosan composite microspheres. Carbohyd Polym 49:281-288.
18. Gauthier O, Bouler JM, Aguado E, Pilet P, Daculsi G. 1998. Macroporous biphasic calcium phosphate ceramics: Influence in macropore diameter and macroporosity percentage on bone ingrowth. Biomaterials 19:133-139.
19. Hasegawa M, Sudo A, Komlev VS, Barinov SM, Uchida A. 2004. High release of antibiotic from a novel hydroxyapatite with bimodal pore size distribution. J Biomed Mater Res Part B: Appl Biomater 70B:332-339.
20. Krajewski A, Ravaglioli A, Roncari E, Pinasco P. 2000. Porous ceramic bodies for drug delivery. J Mater Sci Mater Med 12:763-771.
21. Lyckfedt O, Ferreira JMF. 1998. Processing of porous ceramics by "starch consolidation". J Eur Ceram Soc 18:131-140.
22. Uchida A, Nade SML, McCartney ER, Ching W. 1984. The use of ceramics for bone replacement: A comparative study of three different porous ceramics. J Bone Joint Surg 66-B:269-275.
23. Daculsi G, Passuti N. 1990. Effect of the macroporosity for osseous substitution of calcium phosphate ceramics. Biomaterials 11:86-87.
24. Ohashi H, Therin M, Meunier A, Christel P. 1994. The effect of drilling parameters on bone. J Mater Sci Mater Med 5:237-241.
25. Lu JX, Gallur A, Flautre B, Anselme K, Deschamps M, Thierry B, Hardouin P. 1998. Comparative study of tissue reactions to calcium phosphate ceramics among cancellous, cortical and medullar bone sites in rabbits. J Biomed Mater Res 42:357-367.
26. Chang BS, Lee CK, Hong KS, Youn HJ, Ryu HS, Chung SS, Park KW. 2000. Osteoconduction at porous hydroxyapatite with various pore configurations. Biomaterials 21:1291-1298.
27. Flautre B, Deschamps M, Delecourt C, Blary MC, Hardouin P. 2001. Porous HA ceramic for bone replacement: Role of the pores and interconnections- Experimental study in the rabbit. J Mater Sci Mater Med 12:679-682.
28. Komlev VS, Barinov SM. 2002. Porous hydroxyapatite ceramics of bi-modal pore size distribution. J Mater Sci Mater Med 13:295-299.
29. Tamai N, Myoui A, Tomita T, Nakase T, Tanaka J, Ochi T, Yoshikawa H. 2002. Novel hydroxyapatite ceramics with an interconnective porous structure exhibit superior osteoconduction in vivo. J Biomed Mate Res 59:110-117.
30. Yoshikawa H, Myoui A. 2005. Bone tissue engineering with porous hydroxyapatite ceramics. J Artif Organs 8:131-136.
31. Fabbri M, Celotti GC, Ravaglioli A. 1994. Granulate based on calcium phosphate with controlled morphology and porosity for medical applications: Physico-chemical parameters and production technique. Biomaterials 15:474-477.
32. Lu JX, Flautre B, Anselme K, Hardouin P, Gallur A, Deschamps M, Thierry B. 1999. Role of interconnections in porous bioceramics on bone recolo-nization in vitro and in vivo. J Mater Sci Mater Med 10: 111-120.
33. Hing KA, Best SM, Tanner KE, Bonfield W, Revell PA. 1999. Quantification of bone ingrowth within bone-derived porous hydroxyapatite implants of varying density. J Mater Sci Mater Med 10:663-670.
34. Hulbert SF, Morrison SJ, Klawitter JJ. 1971. Compatibility of porous ceramics with soft tissue; application to tracheal prostheses. J Biomed Mater Res 5:269-279.
35. Collin I. 2006. Contribution à l'optimisation de céramiques phosphocalciques macroporeuses biphasées pour le comblement de défauts osseux: élaboration et caractérisation mécanique et archi-tecturale; étude de la fonctionnalité in vivo. PhD Thesis, Université de nantes, Nantes, 249 p.
36. Engin NO, Tas AC. 1999. Manufacture of macro-porous calcium hydroxyapatite bioceramics. J Eur Ceram Soc 19:2569-2572.
37. Tadic D, Beckmann F, Schwarz K, Epple M. 2004. A novel method to produce hydroxyapatite objects with interconnecting porosity that avoids sintering. Biomaterials 25:3335-3340.
38. Collin I, Lamy B, Gauthier O, Bouler JM. 2005. Improvement of macroporous biphasic phosphocalcic ceramics for the filling of bone defects. ITBM-RBM 26:247-248.
39. Isobe T, Tomita T, Kameshima Y, Nakajima A, Okada K. 2006. Preparation and properties of porous alumina ceramics with oriented cylindrical pores produced by an extrusion method. J Eur Ceram Soc 26:957-960.
40. Charrière E, Lemaitre J, Zysset P. 2003. Hydroxyapatite cement scaffolds with controlled macroporosity: Fabrication protocol and mechanical properties. Biomaterials 24:809-817.
41. Bouler JM, Trécant M, Delécrin J, Royer J, Passuti N, Daculsi G. 1996. Macroporous biphasic calcium phosphate ceramics: Influence of five synthesis parameters on compressive strength. J Biomed Mater Res 32:603-609.
42. Tian J, Tian J. 2001. Preparation of porous hydroxyapatite. J Mater Sci 36:3061-3066.
43. Chen CH, Takita K, Honda S, Awaji H. 2005a. Fracture behavior of cylindrical porous alumina with pore gradient. J Eur Ceram Soc 25:385-391.
44. Chen CH, Takita K, Ishiguro S, Honda S, Awaji H. 2005b. Fabrication on porous alumina tube by centrifugal molding. J Eur Ceram Soc 25:3257-3264.
45. LeGeros RZ. 1988. Calcium phosphate materials in restorative dentistry: A review. Adv Dent Res 2:164-180.
46. Ma J, Wang C, Peng KW. 2003. Electrophoretic deposition of porous hydroxyapatite scaffold. Biomaterials 24:3505-3510.
47. Wang C, Kasuga T, Nogami M. 2005. Macroporous calcium phosphate glass-ceramic prepared by two-step pressing technique and using sucrose as a pore former. J Mater Sci Mater Med 16:739-744.
48. Tancret F, Bouler JM, Hamousset J, Minois LM. 2006. Modelling the mechanical properties of microporous and macroporous biphasic calcium phosphate bioceramics. J Eur Ceram Soc 26: 3647-3656.
49. Hubbard WG. 1974. Physiological calcium phosphates as orthopedic biomaterials. Ph D Thesis, Marquette University, Milwaukee, WI, p 169.
50. Schmitt M. 2000. Contribution à l'élaboration de nouveaux matériaux biphasés en phosphates de calcium. PhD Thesis, Université de Nantes, Nantes.
51. Yao X, Tan S, Jiang D. 2005. Improving the properties of porous hydroxyapatite ceramics by fabricating methods. J Mater Sci 40:4939-4942.
52. Slosarczyk A, Stobierska E, Paszkiewicz Z. 1999. Porous hydroxyapatite ceramics. J Mater Sci Lett 18:1163-1165.
53. Sunder M, Babu NR, Victor SP, Kumar KR, Sam-path Kumar TS. 2005. Biphasic calcium phosphates for antibiotic release. Trends Biomater Artif Organs 18:213-218.
54. Lui DM. 1997. Fabrication of hydroxyapatite ceramic with controlled porosity. J Mater Sci Mater Med 8:227-232.
55. Prado da Silva MH, Lemos AF, Gibson IR, Ferreira JMF, Santos JD. 2002. Porous glass reinforced hydroxyapatite materials produced with different organic additives. J Non-Cryst Solids 304:286-292.
56. 3 as a porosifier and sintering aid in the manufacture of alumina membrane/catalyst supports. J Eur Ceram Soc 24:3195-3201.
57. Isobe T, Kameshima Y, Nakajima A, Okada K, Hotta Y. 2006. Extrusion method using nylon 66 fibers for the preparation of porous alumina ceramics with oriented pores. J Eur Ceram Soc 26: 2213-2217.
58. Isobe T, Kameshima Y, Nakajima A, Okada K. 2007. Preparation and properties of porous alumina ceramics with uni-directionally oriented pores by extrusion method using a plastic substance as pore former. J Eur Ceram Soc 27:61-66.
59. Sepulveda P. 1997. Gelcasting foams for porous ceramics. Am Ceram Soc Bull 76:61-65.
60. Paul W, Sharma CP. 1999. Development of porous spherical hydroxyapatite granules: Application towards protein delivery. J Mater Sci Mater Med 10:383-388.
61. Rivera-Muñoz E, Diaz JR, Rogelio Rodriguez J, Brostow W, Castaño VM. 2001. Hydroxyapatite spheres with controllled porosity for eye ball prothesis: Processing and characterization. J Mater Sci Mater Med 12:305-311.
62. Bohner M, Van Lenthe GH, Grünenfelder S, Hir-siger W, Evison R, Müller R. 2005. Synthesis and characterization of porous β-tricalcium phosphate blocks. Biomaterials 26:6099-6105.
63. Prabhakaran K, Melkeri A, Gokhale NM, Sharma SC. 2007. Preparation of macroporous alumina ceramics using wheat particles as gelling and pore forming agent. Ceram Int 33:77-81.
64. Lemos AF, Ferreira JMF. 2000. Porous bioactive calcium carbonate implants processed by starch consolidation. Mat Sci Eng C 11:35-40.
65. Liu DM. 1996. Fabrication and characterization of porous hydroxyapatite granules. Biomaterials 17: 1955-1957.
66. Kawata M, Uchida H, Itatani K, Okada I, Koda S. 2004. Development of porous ceramics with well-controlled porosities and pore sizes from apatite fibers and their evaluations. J Mater Sci Mater Med 15:817-823.
67. Milosevski M, Bossert J, Milosevski D, Gruevska N. 1999. Preparation and properties of dense and porous calcium phosphate. Ceram Int 25:693-696.
68. Barralet JE, Grover L, Gaunt T, Wright AJ, Gibson IR. 2002. Preparation of macroporous calcium phosphate cement tissue engineering scaffold. Biomaterials 23:3063-3072.
69. Beruto DT, Botter R, Fini M. 2002. The effect of water in inorganic microsponges of calcium phosphates on the porosity and permeability of composites made with polymethyl metacrylate. Biomaterials 23:2509-2517.
70. Komlev VS, Barinov SM, Koplik EV. 2002. A method to fabricate porous spherical hydroxy-apatite granules intended for time-controlled drug release. Biomaterials 23:3449-3454.
71. Komlev VS, Barinov SM, Girardin E, Oscarsson S, Rosengren A, Rustichelli F, Orlovskii VP. 2003. Porous spherical hydroxyapatite and fluorhydrox-yapatite granules: Processing and characterization. Sci Technol Adva Mater 4:503-508.
72. Komlev VS, Barinov SM, Rustichelli F. 2003. Strength enhancement of porous hydroxyapatite ceramics by polymer impregnation. J Mater Sci Let 22:1215-1217.
73. Ioku K, Kawachi G, Sasaki S, Fujimori H, Goto S. 2006. Hydrothermal preparation of tailored hydroxyapatite. J Mater Sci 41:1341-1344.
74. Montanaro L, Jorand Y, Fantozzi G, Negro A. 1998. Ceramic foams by powder processing. J Eur Ceram Soc 18:1339-1350.
75. Mastriogiacomo M, Scaglione S, Martinetti R, Dolcini L, Beltrame F, Cancedda R, Quarto R. 2006. Role of scaffold internal structure on in vivo bone formation in macroporous calcium phosphate bioceramics. Biomaterials 27:3230-3237.
76. Jones JR, Hench LL. 2003. Effect of surfactant concentration and composition on the structure and properties of sol-gel-derived bioactive glass foam scaffolds for tissue engineering. J Mater Sci 38:3783-3790.
77. Jones JR, Ehrenfried LM, Hench LL. 2006. Optimising bioactive glass scaffolds for bone tissue engineering. Biomaterials 27:964-973.
78. Lee JS, Park JK. 2003. Processing of porous ceramic spheres by pseudo-double-emulsion method. Ceram Int 29:271-278.
79. Sepulveda P, Binner JGP. 1999. Processing of cellular ceramics by foaming and in situ polymerization of organic monomers. J Eur Ceram Soc 19:2059-2066.
80. Sepulveda P, Binner JGP, Rogero SO, Higa OZ, Bressiani JC. 2000. Production of porous hydroxyapatite by the gel-casting of foams and cytotoxic evaluation. J Biomed Mater Res 50:27-34.
81. Netz DJA, Sepulveda P, Pandolfelli VC, Spadaro ACC, Alencastre JB, Bentley MVLB, Marchetti JM. 2001. Potential use of gelcasting hydroxyapatite porous ceramic as an implantable drug delivery system. Int J Pharm 213:117-125.
82. Ryshkewitch E. 1953. Compression strength of porous sintered alumina and zirconia. JAm Ceram Soc 36:65-68.
83. Almirall A, Larrecq G, Delgado JA, Martinez S, Planell JA, Ginebra MP. 2004. Fabrication of low temperature macroporous hydroxyapatite scaffolds by foaming and hydrolysis of an α-TCP paste. Biomaterials 25:3671-3680.
84. Del Real RP, Wolke JGC, Vallet-Regi M, Jansen JA. 2002. A new method to produce macropores. Biomaterials 23:3673-3680.
85. Fabbri M, Celotti GC, Ravaglioli A. 1995. Hydroxyapatite-based porous aggregates: Physico- chemical nature, structure, texture and architecture. Biomaterials 16:225-228.
86. Palazzo B, Sidoti MC, Tampieri A, Sandri M, Bertolazzi L, Galbusera F, Dubini G, Vena P, Contro R. 2005. Controlled drug delivery from porous hydroxyapatite grafts: An experimental and theoretical approach. Mat Sci Eng C 25: 207-213.
87. Padilla S, Roman J, Vallet-Regi M. 2002. Synthesis of porous hydroxyapatite by combination of gel casting and foams burn out methods. J Mater Sci Mater Med 13:1193-1197.
88. Miao X, Hu Y, Liu J, Wong AP. 2004. Porous calcium phosphate ceramics prepared by coating polyurethane foams with calcium phosphate cements. Mater Let 58:397-402.
89. Oliveira JM, Rodrigues MT, Silva SS, Malafaya PB, Gomes ME, Viegas CA, Dias IR, Azevedo JT, Mano JF, Reis RL. 2006. Novel hydroxyapatite/ chitosan bilayered scaffold for osteochondral tissue-engineering applications: Scaffold design and its performance when seeded with goat bone marrow stromal cells. Biomaterials 27:6123-6137.
90. Tancred DC, McCormack BAO, Carr AJ. 1998. A synthetic bone implant macroscopically identical to cancellous bone. Biomaterials 19:2303-2311.
91. Han YS, Li JB, Chen YJ. 2003. Fabrication of bimodal porous alumina ceramics. Mater Res Bull 38:373-379.
92. Chu TMG, Halloran JW, Hollister SJ, Feinberg SE. 2001. Hydroxyapatite implants with designed internal architecture. J Mater Sci Mater Med 12: 471-478.
93. Chu TMG, Orton DG, Hollister SJ, Feinberg SE, Halloran JW. 2002. Mechanical and in vivo performance of hydroxyapatite implants with controlled architectures. Biomaterials 23:1283-1293.
94. Hollister SJ, Maddox RD, Taboas JM. 2002. Optimal design and fabrication of scaffolds to mimic tissue properties and satisfy biological constraints. Biomaterials 23:4095-4103.
95. Hollister SJ. 2005. Porous scaffold design for tissue engineering. Nat Mater 4:518-524.
96. Taboas JM, Maddox RD, Krebsbach PH, Hollister SJ. 2003. Indirect solid free form fabrication of local and global porous, biomimetic and composite 3D polymer-ceramic scaffolds. Biomaterials 24: 181-194.
97. Harris LD, Kim BS, Mooney DJ. 1998. Open pore biodegradable matrices formed with gas foaming. J Biomed Mater Res 42:396-402.
98. Markovic M, Takagi S, Chow LC. 2001. Formation of macroporous phosphate cements through the use of mannitol crystals. Key Eng Mater 192-195: 773-776.
99. Xu HHK, Weir MD, Burguera EF, Fraser AM. 2006. Injectable and macroporous calcium phosphate cement scaffolds. Biomaterials 27:4279-4287.
100. Takagi S, Chow LC. 2001. Formation of macropores in calcium phosphate cement implants. J Mater Sci Mater Med 12:135-139.
101. Yoon JJ, Park TG. 2001. Degradation behaviors of biodegradable macroporous scaffolds prepared by gas foaming of effervescent salts. J Biomed Mater Res 55:401-408.
102. Xu HHK, Quinn JB, Takagi S, Chow LC, Eichmiller C. 2001. Strong and macroporous calcium phosphate cement: Effects of porosity and fiber reinforcement on mechanical properties. J Biomed Mater Res 57:457-466.
103. Xu HHK, Simon CG Jr. 2005. Fast setting calcium phosphate-chitosan scaffold: Mechanical properties and biocompatibility. Biomaterials 26:1337-1348.
104. Xu HHK, Quinn JB. 2002. Calcium phosphate cement containing resorbable fibers for short-term reinforcement and macroporosity. Biomaterials 23:193-202.
105. Xu HHK, Simon CG Jr. 2004. Self hardening calcium phosphate composite scaffold for bone tissue engineering. J Orthop Res 22:535-543.
106. Xu HHK, Takagi S, Quinn JB, Chow LC. 2004. Fast-setting calcium phosphate scaffolds with tailored macropore formation rates for bone regeneration. J Biomed Mater Res 68A:725-773.