Growth and differentiation of alveolar bone cells in tissue-engineered constructs and monolayer cultures

Biotechnology and Bioengineering

Volumn 100, Issue 4, 2008, Pages 773-781

  Malicev, E ^a   Marolt, D ^b   Velikonja, N Kregar ^a   Kreft, M E ^c   Drobnic, M ^d   Rode, M ^e  

^a Educell Doo   (Slovenia)

^b BLOOD TRANSFUSION CENTRE OF SLOVENIA   (Slovenia)

^c UNIVERSITY OF LJUBLJANA   (Slovenia)

^d UNIVERSITY MEDICAL CENTRE LJUBLJANA   (Slovenia)

^e Health Centre   (Slovenia)

Author keywords

Alkaline phosphatase; Alveolar bone; Hydroxyapatite; osteoblasts; Osteocalcin; Osteopontin; Tissue engineering

Indexed keywords

APATITE; BIOACTIVITY; BONE; CELL GROWTH; CELL PROLIFERATION; CELLS; DIFFERENTIATION (CALCULUS); ECOLOGY; ELECTRON ENERGY LEVELS; GENE EXPRESSION; GRANULATION; HYDROXYAPATITE; SCAFFOLDS; TISSUE;

ALKALINE PHOSPHATASE (ALPASE); ALVEOLAR BONE (AB); AUTOLOGOUS OSTEOBLASTS; BONE CELLS; BONE REGENERATION; BONE-LIKE TISSUE; CELL ATTACHMENTS; CELL DISTRIBUTIONS; CULTURE CONDITIONS; CULTURES (TRADITIONAL); GENE EXPRESSION LEVELS; GROWTH PATTERNS; HYDROXYAPATITE GRANULES; IN CONTROL; IN-CELL; MACROPOROUS; MONOLAYER CULTURES; OSTEOCALCIN (OC); OSTEOGENIC DIFFERENTIATION; OSTEOGENIC MEDIUM; OSTEOGENIC SUPPLEMENTS; OSTEOPONTIN (OPN); TISSUE CONSTRUCTS; TISSUE ENGINEERED CONSTRUCTS; VIABLE CELLS;

CELL CULTURE;

ALKALINE PHOSPHATASE; HYDROXYAPATITE; OSTEOCALCIN; OSTEOPONTIN;

ALVEOLAR BONE; ARTICLE; BONE CELL; BONE REGENERATION; CELL ADHESION; CELL DIFFERENTIATION; CELL GROWTH; CELL PROLIFERATION; CELL VIABILITY; CELLULAR DISTRIBUTION; CONTROLLED STUDY; ENZYME ACTIVITY; EXPLANT; GENE EXPRESSION; HUMAN; HUMAN CELL; IMAGE ANALYSIS; MICROSCOPY; MONOLAYER CULTURE; OSTEOBLAST; PHENOTYPE; POROSITY; PROTEIN EXPRESSION; SCANNING ELECTRON MICROSCOPY; TISSUE ENGINEERING;

ALKALINE PHOSPHATASE; ALVEOLAR PROCESS; BONE SUBSTITUTES; CELL CULTURE TECHNIQUES; CELL DIFFERENTIATION; CELL PROLIFERATION; CULTURE MEDIA; DURAPATITE; GENE EXPRESSION; HUMANS; OSTEOCALCIN; OSTEOGENESIS; OSTEOPONTIN; TISSUE ENGINEERING;

EID: 46249111086     PISSN: 00063592     EISSN: 10970290     Source Type: Journal    
DOI: 10.1002/bit.21815     Document Type: Article

References (28)

1. Aubin JE. 1998. Advances in the osteoblast lineage. Biochem Cell Biol 76(6):899-910. Review.
2. Bessey OA, Lowry OH, Brock MJ. 1946. Method for rapid determination of alkaline phosphatase with 5 C mm of serum. J Biol Chem 164:321-329.
3. Chiroff RT, White EW, Weber KN, Roy DM. 1975. Tissue ingrowth of Replamineform implants. J Biomed Mater Res 9(4):29-45.
4. Egelberg J. 1987. Regeneration and repair of periodontal tissues. Review. J Periodont Res 22(3):233-242.
5. Fleming JE, Cornell CN, Muschler GF. 2000. Bone cells and matrices in orthopedic tissue engineering. Orthop Clin North America 31 (3):357-374.
6. Frank O, Heim M, Jakob M, Barbero A, Schafer D, Bendik I, Dick W, Heberer M, Martin I. 2002. Real-time quantitative RT-PCR analysis of human bone marrow stromal cells during osteogenic differentiation in vitro. J Cell Biochem 85(4):737-746.
7. Freed LE, Vunjak-Novakovic G. 2000. Tissue engineering bioreactors. In: Lanza RP, Langer R, Vacanti J, editors. V: Principles of tissue engineering, 2nd edition. San Diego: Academic Press, pp. 143-156.
8. Holmes R, Mooney V, Bucholz R, Tencer A. 1984. A coralline hydroxy-apatite bone graft substitute. Preliminary report. Clin Orthop Relat Res 188:252-262.
9. Hutmacher WM, Sittinger M. 2003. Periosteal cells in bone tissue engineering. Tissue Eng 9(Suppl 1):S45-S63.
10. Jaquiery C, Schaeren S, Farhadi J, Mainil-Varlet P, Kunz C, Zeilhofer HF, Heberer M, Martin I. 2005. In vitro osteogenic differentiation and in vivo bone-forming capacity of human isogenic jaw periosteal cells and bone marrow stromal cells. Ann Surg 242(6):859-868.
11. Kasperk C, Ewers R, Simons B, Kasperk R. 1988. Algae-derived (phycogene) hydroxylapatite. A comparative histological study [corrected and issued with original paging in Int J Oral Maxillofac Surg October; 17(5)]. Int J Oral Maxillofac Surg 17(6):319-324.
12. Kim HJ, Kim UJ, Vunjak-Novakovic G, Min BH, Kaplan DL. 2005. Influence of macroporous protein scaffolds on bone tissue engineering from bone marrow stem cells. Biomaterials 26(21):4442-4452.
13. Lynch MP, Capparelli C, Stein JL, Stein GS, Lian JB. 1998. Apoptosis during bone-like tissue development in vitro. J Cell Biochem 68(1):31-49.
14. Martin I, Wendt D, Heberer M. 2004. The role of bioreactors in tissue engineering. Trends Biotech 22(2):80-86.
15. Meinel L, Karageorgiou V, Fajardo R, Snyder B, Shinde-Patil V, Zichner L, Kaplan D, Langer R, Vunjak-Novakovic G. 2004a. Bone tissue engineering using human mesenchymal stem cells: Effects of scaffold material and medium flow. Ann Biomed Eng 32 (1): 112-122.
16. Meinel L, Karageorgiou V, Hofmann S, Fajardo R, Snyder B, Li C, Zichner L, Langer R, Vunjak-Novakovic G, Kaplan DL. 2004b. Engineering bone-like tissue in vitro using human bone marrow stem cells and silk scaffolds. J Biomed Mater Res Part A 71(1):25-34.
17. Meinel L, Fajardo R, Hofmann S, Langer R, Chen J, Snyder B, Vunjak-Novakovic G, Kaplan D. 2005. Silk implants for the healing of critical size bone defects. Bone 37(5):688-698.
18. Osborn JF, Newesely H. 1980. The material science of calcium phosphate ceramics. Biomaterials 1 (2):108-111.
19. Perka C, Schultz O, Spitzer RS, Lindenhayn K, Burmester GR, Sittinger M. 2000. Segmental bone repair by tissue-engineered periosteal cell transplants with bioresorbable fleece and fibrin scaffolds in rabbits. Biomaterials 2L(11):1145-1153.
20. Schimming R, Schmelzeisen R. 2004. Tissue-engineered bone for maxillary sinus augmentation. J Oral Maxillofacial Surg 62(6):724-729.
21. Schmelzeisen R, Schimming R, Sittinger R. 2003. Making bone: Implant insertion into tissue-engineered bone for maxillary sinus floor augmentation - A preliminary report. J Craniomaxillofac Surg 31(1): 34-39.
22. Turhani D, Watzinger E, Weissenbock M, Yerit K, Cvikl B, Thurnher D, Ewers R. 2005a. Three-dimensional composites manufactured with human mesenchymal cambial layer precursor cells as an alternative for sinus floor augmentation: An in vitro study. Clin Oral Implants Res 16(4):417-424.
23. Turhani D, Weissenbock M, Watzinger E, Yerit K, Cvikl B, Ewers R, Thurnher D. 2005b. In vitro study of adherent mandibular osteo-blast-like cells on carrier materials. Int J Oral Maxillofac Surg 34(5): 543-550.
24. Turhani D, Watzinger E, Weissenbock M, Cvikl B, Thurnher D, Wittwer G, Yerit K, Ewers R. 2005c. Analysis of cell-seeded 3-dimensional bone constructs manufactured in vitro with hydroxyapatite granules obtained from red algae. J Oral Maxillofac Surg 63(5):673-681.
25. Turhani D, Cvikl B, Watzinger E, Weissenbock M, Yerit K, Thurnher D, Lauer G, Ewers R. 2005d. In vitro growth and differentiation of osteoblast-like cells on hydroxyapatite ceramic granule calcified from red algae. J Oral Maxillofacial Surg 63(6):793-799.
26. White EW, Weber JN, Roy DM, Owen EL, Chiroff RT, White RA. 1975. Replamineform porous biomaterials for hard tissue implant applications. J Biomed Materials Res 9(4):23-27.
27. Xiao Y, Qian H, Young WG, Bartold PM. 2003. Tissue engineering for bone regeneration using differentiated alveolar bone cells in collagen scaffolds. Tissue Eng 9(61:1167-1177.
28. Zhu SJ, Choi BH, Huh JY, Jung JH, Kim BY, Lee SH. 2006. A comparative qualitative histological analysis of tissue-engineered bone using bone marrow mesenchymal stem cells, alveolar bone cells, and periosteal cells. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 101(2):164-169, [Epub 2005 September 23].