Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Anger C, Dujovny M, Gaviria M (2002) Neurocognitive assessment before and after cranioplasty. Acta Neurochir 144:1033–1040Google Scholar
  2. Arriaga MA, Chen DA (2002) Hydroxyapatite cement cranioplasty in translabyrinthine acoustic neuroma surgery. Otolaryngol Head Neck Surg 126(5):512–517CrossRefGoogle Scholar
  3. Artico M, Ferrante L, Pastore FS, Ramundo EO, Cantarelli D, Scopoletti D Iannetti G (2003) Bone autografting of the calvaria and craniofacial skeleton: historical background, surgical results in a series of 15 patients and review of the literature. Surg Neuro 60:71–79CrossRefGoogle Scholar
  4. Barker TM, Earwaker WJ, Frost N, Wakeley G (1994) Accuracy of stereolithographic models of human anatomy. Australas Radiol 38(2):106–111Google Scholar
  5. Beber B, Philips JH, Forrest CR (2003) Hydroxyapatite cement cranioplasty in the pediatric population. Craniofacial Surgery 10:227–230Google Scholar
  6. Blum KS, Schneider SJ, Rosenthal AD (1997) Methyl methacrylate cranioplasty in children: Long-term results. Pediatr Neurosurg 26(1):33–35CrossRefGoogle Scholar
  7. Brandt MT, Haug RH (2002) The use of a polyurethane skull replica as a template for contouring titanium mesh. J Oral and Maxillofac Surg 60:337–338CrossRefGoogle Scholar
  8. Chiarini L, Figurelli S, Pollastri G, Torcia E, Ferarri F, Albanese M, Nocine PF (2004) Cranioplasty using acrylic material: a new technical procedure. J Cranio-Maxillofacial Surgery 32:5–9CrossRefGoogle Scholar
  9. Choi JY, Choi JH, Kim NK, Kim Y, Lee JK, Kim MK, Lee JH, Kim MJ (2002) Analysis of errors in medical rapid prototyping models. Int J Oral Maxillofac Surg 31(1):23–32CrossRefGoogle Scholar
  10. Chong CS, Lee H, Kumar AS (2006) Automatic hole repairing for cranioplasty using Bezier surface approximation. J Craniofac Surg 17(2):344–352CrossRefGoogle Scholar
  11. Cutting C, Bookstein FL, Grayson B (1982) Three dimensional computer assisted design of craniofacial surgical procedures: Optimisation and interaction with cephalometric and computer tomographic based models. Plastic Reconstructive Surg 77:877CrossRefGoogle Scholar
  12. Dean D, Min KJ, Bond A (2003) Computer aided design of large-format prefabricated cranial plates. J Craniofacial Surg 14(6):819–832CrossRefGoogle Scholar
  13. Ducic Y (2002) Titanium mesh and hydroxyapatite cement cranioplasty: a report of 20 cases. J Oral Maxillofac Surg 60(3):272–6.CrossRefGoogle Scholar
  14. Durham SR, McComb JG, Levy ML (2003) Correction of large (>25 cm2) cranial defects with “reinforced” hydroxyapatite cement: technique and complications. Neurosurgery 52 (4):842–845.CrossRefGoogle Scholar
  15. Eufinger H, Wittkampf AR, Wehmoller M, Zonneveld FW (1998) Single-step fronto-orbital resection and reconstruction with individual resection template and corresponding titanium implant: a new method of computer aided surgery. J Craniomaxillofac Surg 26(6):373–378Google Scholar
  16. Eufinger H, Rasche C, Wehmoller M, Schmieder K, Scholz M, Weihe S, Scherer P (2005) CAD/CAM titanium implants for cranioplasty—An evaluation of success and quality of life of 169 consecutive implants with regard to size and location International. Cong Ser 1281:827–831CrossRefGoogle Scholar
  17. Flanders AE, Carrino JA (2003) Understanding DICOM and IHE. Semin Roentgenol 38(3):270–81CrossRefGoogle Scholar
  18. Flannery T, McConnell R (2001) Cranioplasty: Why throw the bone flap out? Br J Neurosurg 15(6):518–20CrossRefGoogle Scholar
  19. Galantucci LM, Percoco G, Angelelli G, Lopez C, Introna F, Liuzzi C, De Donno A (2006) Reverse engineering techniques applied to a human skull, for CAD 3D reconstruction and physical replication by rapid prototyping. J Med Eng Techn 30(2):102–111CrossRefGoogle Scholar
  20. Gordon DS, Blair GAS (1974) Titanium cranioplasty. Br Med J 2:478–481Google Scholar
  21. Gousain AK (2004) Biomaterials for reconstruction of the cranial vault. Plast Reconstr Surg 116(2):663–666CrossRefGoogle Scholar
  22. Gronet PM, Waskewicz GA, Richardson C (2003) Preformed acrylic cranial implants using fused deposition modeling: a clinical report. J Prosthet Dent 90(5):429–33.CrossRefGoogle Scholar
  23. Hayward RD (1999) Cranioplasty: Don’t forget the patient’s own bone is cheaper than titanium. Br J Neurosurg 13(5):490–491CrossRefMathSciNetGoogle Scholar
  24. Hieu LC, Bohez E, Vander Sloten J, Oris P, Phien HN, Vatcharaporn E, Binh PH (2002) Design and manufacture of cranioplasty implants by 3-axis CNC milling. Technol and Health Care 10:412–423Google Scholar
  25. Hieu LC, Vander SJ, Bohez E, Phien HN, Vatcharaporn E, An PV, To NC, Binh PH (2004) A cheap technical solution for cranioplasty treatments. Technol and Health Care 12:281–292Google Scholar
  26. Hoque ME, Hutmacher D, Feng W, Li S, Huang MH, Vert M, Wong YS (2005) Fabrication using a rapid prototyping system and in vitro characterization of PEG-PCL-PLA scaffolds for tissue engineering. J Biomater Sci Polymer Ed 16(12):1595–1610CrossRefGoogle Scholar
  27. Jacobs P (1996) Stereolithography and other rapid prototyping and manufacturing technologies. American Association of Engineers Press, Dearborn, MIGoogle Scholar
  28. Jiranek W (2005) Thermal manipulation of bone cement. Orthopaedics 28(8):863–866Google Scholar
  29. Joffe J, McDermott P, Linney A, Mosse C, Harris M (1992) Computer-generated titanium cranioplasty: Report of a new technique for repairing skull defects. Br J Neurosurg 6: 343–350CrossRefGoogle Scholar
  30. Joffe J, Harris M, Kahugu F, Nicoll S, Linney A, Richards R (1999a) A prospective study of computer-aided design and manufacture of titanium plate for cranioplasty and its clinical outcome. Br J Neurosurg 13(6):576–80CrossRefGoogle Scholar
  31. Joffe J, Nicoll S, Richards R, Linney, A, Harris M (1999b) Validation of computer assisted manufacture of titanium plates for cranioplasty. Int J Oral Maxillofac Surg 28:309–13CrossRefGoogle Scholar
  32. Kai CC, Fai LK (1997) Rapid prototyping: principles & applications in manufacturing. John Wiley & Sons Ltd, SingaporeGoogle Scholar
  33. Kalender WA, (2000) Computed Tomography, Publicis MCD Verlag, MunichGoogle Scholar
  34. Karron D (1992) The “spider web” algorithm for surface construction in noisy volume data. In: SPIE Visualisation in Biomed Computing 1808:462–476Google Scholar
  35. Lambrecht JT, Brix F (1990) Individual skull model fabrication for craniofacial surgery. Cleft Palate 27:382CrossRefGoogle Scholar
  36. Lara WC, Schweitzer J, Lewis RP, Odum BC, Edlich RF Gampper TJ (1998) Technical considerations in the use of polymethylmethacrylate in cranioplasty. J Long Term Effects of Med Implants 8(1):43–53Google Scholar
  37. Lung CYK, Darvell BW (2005) Minimisation of the inevitable residual monomer in denture based acrylic. Den Mater 21:1119–1128CrossRefGoogle Scholar
  38. Meel BL (2004) Fatal systemic allergic reaction following acrylic cranioplasty: A case report. J Clinic Foren Med 11:205–207CrossRefGoogle Scholar
  39. Moreira-Gonzalez A, Jackson IT, Miyawaki T, Barakat K, DiNick V (2003) Clinical outcome in cranioplasty: Critical review in long term follow up. J Craniofacial Surg 14(2): 144–153CrossRefGoogle Scholar
  40. Park HK, Dujivny M, Agner C, Diaz FG (2001) Biomechanical properties of calvarium prosthesis. Neurol Res 23:267–276CrossRefGoogle Scholar
  41. Petzold R, Zeilhofer H, Kalender W (1999) Rapid prototyping technology in medicine-basics and applications. Computerised Med Imaging and Graphics, 23:277–84CrossRefGoogle Scholar
  42. Raja AI and Linskey ME (2005) In situ cranioplasty with methylmethacrylate and wire lattice. Br J Neurosurg 19(5):416–419CrossRefGoogle Scholar
  43. Rohner D, Hutmacher DW, Cheng TK, Oberholzer M, Hammer B (2003) In vivo efficacy of bone amrrow coated polycaprolactone scaffolds for the reconstruction of orbital defects in pigs. J Biomed Mater Res Part B: Appl Biomater 66B:574–580CrossRefGoogle Scholar
  44. Rotaru H, Bacuit M, Stan H, Bran S, Chezan H, Iosif A, Tomescu M, Kim SG, Rotaru A, Baciut G (2006) Silicone rubber mould cast polyethylmethacrylate-hydroxyapatite plate used for repairing a large skull defect. J Craniomaxillofac Surg. 34(4):242–246Google Scholar
  45. Sanan A, Haines S (1997) Repairing holes in the head: A history of cranioplasty. Neurosurgery 40(3):588–603CrossRefGoogle Scholar
  46. Schantz JT, Hutmacher DW, Lam CX, Brinkman M, Wong KM, Lim TC, Chou N, Guldberg RE, Teoh SH (2003) Repair of calvarial defects with customized tissue engineered bone grafts II. Evaluation of cellular efficiency and efficacy in vivo. Tiss Engg Suppl 1:127–139CrossRefGoogle Scholar
  47. Schipper J, Ridder GJ, Spetzger U, Teszler CB (2004) Individual prefabricated titanium implants and titanium mesh in skull base reconstructive surgery. A report of cases. Eur Arch Otorhinolaryngol 261:282–290CrossRefGoogle Scholar
  48. Sheikh BY (2006) Simple and safe method of cranial reconstruction after posterior fossa craniectomy. Surg Neurol 65:63–66CrossRefGoogle Scholar
  49. Studholme C, Hill DL, Hawkes DJ (1997) Automated three-dimensional registration of magnetic resonance and positron emission tomography brain images by multiresolution optimization of voxel similarity measures. Med Phys 24(1):25–35CrossRefGoogle Scholar
  50. Webb PA (2000) A review of rapid prototyping (RP) techniques in the medical and biomedical sector. J Med Eng Technol 24(4):149–153CrossRefGoogle Scholar
  51. Weihe S, Wehmoller M, Schliephake H, Hassfeld S, Tschakaloff A, Raczkowsky J, Eufinger H (2000) Synthesis of CAD/CAM, robotics and biomaterial implant fabrication: Single step reconstruction in computer aided frontotemporal bone resection. Int J Oral Maxillofac Surg 29(5):284–388CrossRefGoogle Scholar
  52. Winder J, Bibb R (2005) Medical rapid prototyping technologies: state of the art and current limitations for application in oral and maxillofacial surgery. J Oral Maxillofac Surg 63(7):1006–15CrossRefGoogle Scholar
  53. Winder RJ and Fannin T (1999a) Virtual neurosurgery and medical rapid prototyping applied to the treatment of fibrous dysplasia. Proceedings of 13th international congress and exhibition of computer assisted radiology and surgery, pp 1033Google Scholar
  54. Winder RJ, Cooke RS, Gray J, Fannin T, Fegan T (1999b) Medical rapid prototyping and 3D CT in the manufacture of custom made cranial titanium plates. J Med Engg Technol 23(1):26–28CrossRefGoogle Scholar
  55. Winder RJ, McKnight W, Golz T, Giese A, Busch LC, Wulf J (2006) Comparison of custom cranial implant source data: Manual, mirrored and CAD generated skull surfaces. Cranial & Maxillofacial Workshop, MICCAI, Copenhagen, 5th October 2006Google Scholar
  56. Woodfield TB, Malda J, de Wijn J, Peters F, Riesle J, van Blitterswijk CA (2004) Design of porous scaffolds for cartilage tissue engineering using a three-dimensional fiber-deposition technique. Biomaterials 25(18):4149–4161CrossRefGoogle Scholar
  57. Wu T, Engelhardt M, Fieten L, Popovic A, Radermacher K (2006) Anatomically constrained deformation for deign of cranial implant: Methodology and validation. In: MICCAI Proceedings, CopenhagenGoogle Scholar
  58. Wulf J, Vitt KD, Gehl HB, Busch LC (2001) Anatomical accuracy in medical 3D modeling. Phidias Newsletter 7:1–2 (http://www.materialise.com/medical/files/ph7.pdf) accessed 23 October 2006Google Scholar
  59. Zein I, Hutmacher DW, Tan KC, Teoh SC (2002) Fused deposition modeling of novel scaffold architectures for tissue engineering applications. Biomaterials 23(4):1169–1185CrossRefGoogle Scholar
  60. Zonnefeld FW (1994) A decade of clinical three dimensional imaging: A review. Part III Image analysis and interaction, display options and physical models. Investigative Radiol 29:716CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC 2008

Authors and Affiliations

  • Dr John Winder

There are no affiliations available

Personalised recommendations