Samar J. Kalita, Ph.D. in Materials Science, Washington State University, Pullman, WA

 

A collection of literature citation of peer-reviewed articles authored by Samar J. Kalita till Jan 2006

Professional address as of January 2006

Department of Mechanical, Materials and Aerospace Engineering · P.O. Box 16-2450

University of Central Florida · Orlando, FL 32816-2450 · (407) 823 3159

[email protected] · [email protected]

 

v     CaO-P₂O₅-Na₂O-based sintering additives for hydroxyapatite (HAp) ceramics. Kalita, S.J., Bose S., Hosick H.L., and Bandyopadhyay A. 2004. Biomaterials, 25: 2331-2339. Available online at www.sciencedirect.com ( Link to this article)                           

 

1. “Constitutive modeling of the densification and the grain growth of hydroxyapatite ceramics” by Zeming He, J. Ma and Cong Wang, Biomaterials 26 (2005) 1613–1621

 

2. “Crystal growth and morphology of the nano-sized hydroxyapatite powders synthesized from CaHPO4.2H₂O and CaCO₃ by hydrolysis method”, by Wei-Jen Shih, Yung-Feng Chen, Moo-Chin Wang, Min-Hsiung Hon, Journal of Crystal Growth 270 (2004) 211–218.

 

3. “Effect of Calcium Phosphate Glass on Compressive Strength of Macroporous Hydroxyapatite Scaffold”, by Y.U. Kim, M.C. Kim, C.K. Kim, K.N. Kim, K.M. Kim, S.H. Choi, R.Z. LeGeros, Y.K. Lee, Bioceramics 17.

 

4. “Hydroxyapatites Produced by Wet-Chemical Methods,” by  Karina Donadel,z Mauro C.M. Laranjeira,w,z Vanessa L. Gonalves,z Valfredo T. Fa´ vere,z JoaC. de Lima, and Luiz H. M. Prates, Journal of American Ceramic Soc., 88 (8): 2230-2235 AUG 2005

 

5. “Towards bone replacement materials from calcium phosphates via rapid prototyping and ceramic gelcasting”,  A. Woesza,T, M. Rumplera, J. Stampfl, F. Varga, N. Fratzl-Zelmanc, P. Roschgerc, K. Klaushoferc, P. Fratzla, Materials Science and Engineering C 25 (2005) 181–186.

 

6. “Interaction of human osteoblasts with bioinert and bioactive ceramic substrates”, Debra Rokusek, Christine Davitt, Amit Bandyopadhyay, Susmita Bose, Howard L. Hosick, Journal of Biomedical Materials Research 75A: 588–594, 2005.

 

7. “A Comparative Study of Conventional Sintering with Microwave Sintering of Hydroxyapatite Synthesized by Chemical Route”, S. Nath, B. Basu, A. Sinha, Trends Biomater. Artif. Organs, Vol 19(2), pp 93-98, 2006.

 

8. “Hydroxyapatite/SiO2-CaO-P2O5 glass materials: In vitro bioactivity and Biocompatibility”, Padilla, S; Roman, J; Sanchez-Salcedo, S; Vallet-Regi, M; ACTA BIOMATERIALIA 2 (3): 331-342 MAY 2006.

 

9. “Effects of sintering temperature over 1,300 degrees C on the physical and compositional properties of porous hydroxyapatite foam”, Munar, ML; Udoh, K; Ishikawa, K; Matsuya, S; Nakagawa, M, DENTAL MATERIALS JOURNAL 25 (1): 51-58 MAR 2006.

 

10. “Accelerated degradation and improved bone-bonding ability of hydroxyapatite ceramics by the addition of glass”, K. So,_S. Fujibayashi, M. Neo, Y. Anan, T. Ogawa, T. Kokubo, T. Nakamura, Biomaterials 27 (2006) 4738–4744.

 

11. “Microstructures and material properties of fibrous HAp/Al2O3–ZrO2 composites by multi-pass extrusion process”, Byong-Taek Lee, Chi-Woo Lee, Asit Kumar Gain, Ho-Yeon Song, Journal of the European Ceramic Society, Vol  27 (1): Pages: 157-163, 2007.

 

12. “Calcium phosphate-based resorbable ceramics: Influence of MgO, ZnO, and SiO2 dopants”, Bandyopadhyay, A; Bernard, S; Xue, WC; Bose, S, JOURNAL OF THE AMERICAN CERAMIC SOCIETY 89 (9): 2675-2688 SEP 2006.

 

13. “Tricalcium phosphate based resorbable ceramics: Influence of NaF and CaO addition”, Materials Science and Engineering: C, In Press, Corrected Proof, Available online 2 Feb 2007,  Z. Seeley, A. Bandyopadhyay and S. Bose.

 

 

 

v     Porous calcium aluminate ceramics for bone graft applications. Kalita, S.J., Bose, S., Hosick, H.L., and Bandyopadhyay, A., 2002. Journal of Materials Research, 17 [12]:3042-3049.  Available online at www.mrs.org (Link to this article)           

 

14. “Evaluation of the Biocompatibility of Calcium Aluminates”, by George R. Neusch; Drew Wroblewski; Kenneth A. McGowan; John S. Doctor, 2005 Summer Internship Program, Pittsburgh Tissue Engineering Initiative, Inc., PTEI 9th Annual Undergraduate Summer Internship Program.

 

15.  “Understanding the Role of ZnO in Calcium Phosphate Ceramics”, Elizebeth Liuzics, Washington State University, Research Experience for Undergraduates (NSF-REU) Poster Presentation.

 

16. “Influence of tricalcium aluminate phase on in vitro biocompatibility and bioactivity of calcium aluminate bone cement”, Oh SH, Finones R, Jin S, et al., JOURNAL OF MATERIALS RESEARCH 19 (4): 1062-1067 APR 2004

 

 

 

 

v     Development of controlled porosity polymer-ceramic composite scaffolds via fused deposition modeling. Kalita, S.J., Bose, S., Hosick, H.L., and Bandyopadhyay, A., 2003. Materials Science and Engineering: C, 23: 611-620. Available online at www.sciencedirect.com (Link to this article)            

 

17. “Increased osteoblast functions on nanophase titania dispersed in poly-lactic-co-glycolic acid composites” by Huinan Liu1, Elliott B Slamovich1 and Thomas J Webster, Nanotechnology 16 (2005) S601–S608 doi:10.1088/0957-4484/16/7/038

 

18. “Bioactive composite materials for tissue engineering scaffolds”, by Aldo R Boccaccini and Jonny J Blaker­, Expert Review of Medical Devices, May2005, Vol. 2, No. 3, P 303-17.

 

19. “Increased Osteoblast Functions on (Poly-lactic-co-glycolic acid) with Highly Dispersed Nanophase Titania” by Huinan Liu, Elliott B. Slamovich, and Thomas J. Webster, Journal of Biomedical Nanotechnology, Vol.1, 83–89, 2005

 

20. “Porous Ti6Al4V scaffold directly fabricating by rapid prototyping: Preparation and in vitro experiment”, Li, JP; de Wijn, JR; Van Blitterswijk, CA; de Groot, K, BIOMATERIALS 27 (8): 1223-1235 MAR 2006

 

21. “Design and fabrication of CAP scaffolds by indirect solid free form fabrication”, X. Li, D. Li, B. Lu, Y. Tang, L. Wang, Z. Wang, Rapid Prototyping Journal, 2005, Vol 11( 5): 312 – 318, ISSN: 1355-2546.

 

22. Translated title “The preparation, structure evaluation and preliminary application of biomimetic biphasic calcium phosphate scaffold”, P. Xu, J. Wang, A. Sun Ming-xue, Z. Li, B. Wen-jing 260 Mr. Huang Jing-xiang Zhao Tian Jie-mo Dong Lu Shi-bi Li-min, China surgical magazine - Journal of surgery , Vol.43 maritime P.807-811, 2005.

 

23. “Why engineer porous materials?” by A. Kelly in Philosophical Transactions: Mathematical, Physical and Engineering Sciences, Publisher: The Royal Society Volume 364, Number 1838, January 15, 2006, Pages 5-14.

 

24. “Computer modeling approach for a novel internal architecture of artificial bone”, Lian, Q; Li, DC; Tang, YP; Zhang, YR; COMPUTER-AIDED DESIGN 38 (5): 507-514 MAY 2006.

 

25. “Layer manufacturing for in vivo devices”, Savalani, MM; Harris, RA, Proceedings of the Institution of Mechanical Engineers Part H- Journal of Engineering Medicine 220 (H4): 505-520 MAY 2006.

 

26. “Fabrication and characterization of three-dimensional poly(ether-ether-ketone)/ hydroxyapatite biocomposite scaffolds using laser sintering”, K H Tan, C K Chua, K F Leong, M W Naing, C M Cheah, Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, ISSN: 0954-4119 DOI: 10.1243/095441105X9345, Vol 219, No. 3, 2005, Pages: 183 – 194.

 

27. “Novel segmental scaffolds for bone tissue engineering: Structure design, fabrication, and co-culturing with human osteoblasts”, Committee of the Communist Party of Wang Zhen Wang received Guo levy Lixianglidichen San Fung Hu-Xu Song, THE ORTHOPEDIC JOURNAL OF CHINA,  2005 Vol.13 No.5, Pages 376-379.

 

28. “Bionic design visible 3D surround Analysis Environment fabrication of artificial bone microtubules based on cell attachment”, X. Lidichen, L. Bingheng, Chinese Journal of Mechanical Engineering, 2005 Vol.41 No.4 P.154-157.

 

29. “Properties of superhard nc-TiN/a-BN and nc-TiN/a-BN/a-TiB2 nanocomposite coatings prepared by plasma induced chemical vapor deposition”, Karvankov, P; Veprek-Heijman, M G J; Azinovic, D; Veprek, S., Surface and Coatings Technology. Vol. 200, no. 9, pp. 2978-2989, 2006.

 

30. “The Three-Dimensional evaluation of biomimetic biphasic calcium phosphate (BCP) scaffold”, PENG Jiang, WANG Ai-yuan, SUN Ming-xue, THE ORTHOPEDIC JOURNAL OF CHINA, 2005 Vol.13 No.14 P.1084-1086.

 

31. “NOVEL ARCHITECTURE OF BONE SCAFFOLD AND ITS BIONIC FUNCTIONS”, LIAN Qin, LI Dichen, ZHANG Yongrui, CHINESE JOURNAL OF MECHANICAL ENGINEERING, 2006 Vol.42 No.1 P.121-125.

 

32. “Structure Design and Fabrication of β-Τricalcium Phosphate Artificial Bone Based on Rapid Prototyping Technique”, Li Xiang, Li Dichen, Su Yanping, Lu Bingheng, Journal of Xi’an Jiaotong University 2005 Vol.39 No.1 P.13-16.

 

33. “SFF of Ceramic Parts: Literature Overview and Direct Experiments”, G. N. Babini, Andrea Fedele, L. M. Settineri”, 2004 FALL MEETING PROCEEDINGS, Symposium LL: Materials Issues in Solid Freeforming, Editors: S. Jayasinghe, L. Settineri, A.R. Bhatti, B-Y. Tay, MRS Proceedings Volume 860E. Paper #: LL4.1

 

34. “Biomodels of Bone: A Review”, S. Lohfeld, V. Barron, and P. E. McHugh, Annals of Biomedical Engineering; Publisher: Springer Netherlands; ISSN: 0090-6964 (Paper) 1573-9686 (Online); DOI: 10.1007/s10439-005-5873-x, Volume 33, Number 10; October 2005, Pages: 1295 – 1311.

 

35. “Investigation of the mechanical properties and porosity relationships in fused deposition modelling-fabricated porous structures” Ang KC, Leong KF, Chua CK, et al., RAPID PROTOTYPING JOURNAL 12 (2): 100-105 2006.

 

36. “The mechanical properties and osteoconductivity of hydroxyapatite bone scaffolds with multi-scale porosity”,  J. R. Woodard, A. J. Hilldore, S. K. Lan, C.J. Park, A. W. Morgan, J. Ann C. Eurell, S. G. Clark, Matthew B. Wheeler, Russell D. Jamison and Amy J. Wagoner Johnson Biomaterials, Volume 28, Issue 1, January 2007, Pages 45-54

 

37. “Fabrication and In Vitro Characterization of Three Dimensional Composite Scaffolds via Robocasting for Biomedical Applications”, J. Russias, E. Saiz, S. Deville, A.P. Tomsia, Advances in Science and Technology, 49 (2006):153-158.  

 

38. “Custom fabrication of composite tibial hemi-knee joint combining CAD/CAE/CAM techniques”,  Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine , Professional Engineering Publishing, Volume 220, Number 8 / 2006; DOI10.1243/09544119JEIM207 Pages 823-830.

 

39. “Macrochanneled poly (epsilon-caprolactone)/hydroxyapatite scaffold by combination of bi-axial machining and lamination” Koh, YH; Bae, CJ; Sun, JJ; Jun, IK; Kim, HE; JOURNAL OF MATERIALS SCIENCE-MATERIALS IN MEDICINE 17 (9): 773-778 SEP 2006.

 

40. “Fabrication of a calcium phosphate scaffold with a three dimensional channel network and its application to perfusion culture of stem cells”, Shanglong Xu, Dichen Li, Bingheng Lu and Yiping Tang. Chaofeng Wang and Zhen Wang, Rapid Prototyping Journal, ISSN: 1355-2546; 2007 Vol. 13 Issue: 2, pp: 99–106; DOI: 10.1108/13552540710736786, Emerald Group Publishing Limited.

 

41. “Design and preparation of polymeric scaffolds for tissue engineering”, Weigel, Thomas; Schinkel, Gregor; Lendlein, Andreas; Expert Review of Medical Devices, Volume 3, Number 6, November 2006, pp. 835-851(17)

 

42. “Effects of Production Parameters on Porosity and Hole Properties in  Laser Sintering Rapid Prototyping Process”, A THESIS SUBMITTED TO THE GRADUATE SCHOOL OF NATURAL AND APPLIED SCIENCES OF MIDDLE EAST TECHNICAL UNIVERSITY BY ÖZKAN ÖZKAN .LKGÜN IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE IN MECHANICAL ENGINEERING, SEPTEMBER 2005. (MS Thesis).

 

43. “Using FCDM (Frozen compressed deposit manufacturing) System for Fabricating Tissue Engineering Scaffolds”  A THESIS SUBMITTED TO THE GRADUATE SCHOOL OF Institute of Mechanical Engineering, National Central University (In Taiwan) IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF MASTER OF SCIENCE by JEN-PO HUANG , Supervisor: Dr. Ching-Shiow Teseng. (MS Thesis)

 

44. “Bioactive Organic-Inorganic Hybrids for Tissue Engineering Applications,” By BRIAN MATTHEW HATCHER, A DISSERTATION PRESENTED TO THE GRADUATE SCHOOL OF THE UNIVERSITY OF FLORIDA IN PARTIAL FULFILLMENT OF THE REQUIREMENTS FOR THE DEGREE OF DOCTOR OF PHILOSOPHY, UNIVERSITY OF FLORIDA, 2004. (PhD Dissertation)

 

 

 

v     Kalita, S.J., Rokusek, D., Bose, S., Hosick, H.L., and Bandyopadhyay, A. 2004. Effects of MgO-CaO-P₂O₅-Na₂O-based additives on mechanical and biological properties of Hydroxyapatite. Journal of Biomedical Materials Research Part A, 71A:35-44. Available online at www3.interscience.wiley.com (Link to this article)   

                            

45. “Calcium phosphate-based resorbable ceramics: Influence of MgO, ZnO, and SiO2 dopants”, Bandyopadhyay, A; Bernard, S; Xue, WC; Bose, S, JOURNAL OF THE AMERICAN CERAMIC SOCIETY 89 (9): 2675-2688 SEP 2006.

 

46. “Accelerated Bonelike Apatite Growth on Porous Polymer/Ceramic Composite Scaffolds in Vitro.” S. S. Kim, Min S. Park, S. Gwak, C. Yong Choi, B. S. Kim, Tissue Engineering. Oct 2006, Vol. 12, No. 10, Pages 2997-3006.

 

 

 

 

 

v      S. J. Kalita, J. Finley, S. Bose, H. L. Hosick and A. Bandyopadhyay.  Development of Porous Polymer-Ceramic Composites as Bone Grafts. Mat. Res. Soc. Symp. Proc. Vol. 726, Q5.8, 2002. 

                                                     

1. “Increased osteoblast functions on nanophase titania dispersed in poly-lactic-co-glycolic acid composites” by Huinan Liu1, Elliott B Slamovich1 and Thomas J Webster, Nanotechnology 16 (2005) S601–S608 doi:10.1088/0957-4484/16/7/038

 

2. “Increased Osteoblast Functions on (Poly-lactic-co-glycolic acid) with Highly Dispersed Nanophase Titania” by Huinan Liu, Elliott B. Slamovich, and Thomas J. Webster, Journal of Biomedical Nanotechnology, Vol.1, 83–89, 2005

 

 

 

 

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