Literature on Tantalum RSA

Methodology and Review

  1. Alberius P. Bone reactions to tantalum markers. A scanning electron microscopic study.
  2. Aronson AS, Holst L, Selvik G. An instrument for insertion of radiopaque bone markers. Radiology 1974;113:733-4.
    Börlin N. Model-design measurements in digital radiographs. Thesis, Umeå, June 10, 2000.
  3. Börlin N. High precision measurements in digital radiographs. Licentiate Thesis. Umeå University. Department of Computing Science. Umeå Sweden. Uminf 97.10. ISSN-0348-0542
  4. Bragdon CR, Malchau H, Yuan X, Perinchief R, Kärrholm J, Börlin N, Estok DM,Harris WH. Experimental assessment of precision and accuracy of radiostereometric analysisfor the determination of polyethylene wear in a total hip replacement model. J Orthop Res. 2002 Jul;20(4):688-95.
  5. Börlin N, Thien T, Karrholm J. The precision of radiostereometric measurements. Manual vs. digitalmeasurements.J Biomech. 2002 Jan;35(1):69-79.
  6. Choo AM, Oxland TR. Improved RSA accuracy with DLT and balanced calibration marker distributions with an assessment of initial-calibration. J Biomech. 2003 Feb;36(2):259-64.
  7. Eldridge JDJ, Avramidis K, Lee M, Learmonth ID. Tantalum ball position after total hip arthroplasty. J Bone Joint Surg 1998;80-B: 414-16
  8. De Lange A, Huiskes R, Kauer JM. Measurement errors in roentgen-stereophotogrammetric jointmotion analysis. J Biomechanics 1990;23(3):259-69.
  9. Kärrholm J. Roentgen stereophotogrammetry. Review of orthopaedic applications. Acta Orthop Scand 1989;60(4):491-503
  10. Kärrholm J, Herberts P, Hultmark P, Malchau H, Nivbrant B, Thanner J. Radiostereometry of Hip Prostheses. Review of Methodology and Clinical Results. Clin Orthop; 344: 94-110.
  11. Leardini A, Cappozzo A, Catani F, et al.. Validation of a functional method for the estimation of hip joint centre location. J Biomech 1999 Jan;32(1):99-103
  12. Mjöberg B The theory of early loosening of hip prostheses. Orthopedics 1997 Dec;20(12):1169-75
  13. Nyström L. Algorithms and Program system for Roentgen Stereophotogrammetric Analysis. Licentiate of Philosophy. Institute of Information Processing. Department of Computer Science. University of Umeå. UMINF – 187.90. ISSN-0348-0542, 1990.
  14. Nyström L, Söderqvist I, Wedin P-Å. A note on some identification problems arising in radiostereophotogrammetric analysis. Technical Note. J Biomechanics 1994;27(10):1291-4.
  15. Ragnarsson JI. Appendix in: Stability of Femoral Neck Fractures. Evaluation with Roentgen Stereophotogrammetric Analysis, Magnetic Resonance Imaging, Scintimetry, Radiography and Histopathology. Thesis. Umeå 1991.
  16. Rune B, Sarnäs KV, Selvik G, Jacobsson S. Roentgen stereophotogrammetry in the study of craniofacial anomalies – the state of the art in Sweden. Br J Orthod 1986;13(3):151-7
  17. Ryd L, Yuan X, Löfgren H. Methods for determining the accuracy of radiostereometric analysis (RSA). Acta Orthop Scand. 2000 Aug;71(4):403-8.
  18. Selvik G. Roentgen Stereophotogrammetry. A method for the study of the kinematics of the skeletal system. Thesis, University of Lund, Lund, Sweden 1974. Reprint: Acta Orthop Scand 1989;Suppl 232.
  19. Selvik G. Roentgen-stereophotogrammetry in Lund, Sweden. In: proc SPIE 1978;166:184-90.
  20. Selvik G, Alberius P., Aronson A.S.: A roentgen stereophotogrammetric system. Construction, calibration and technical accuracy. Acta Radiol (Diagn) 1983;24:343-352.
  21. Selvik G. Roentgen-stereophotogrammetry in orthopaedics. In: Biostereometrics ’82. (Ed. Herron R E). In: Proc SPIE  983;361:178-85.
  22. Selvik G. Roentgen stereophotogrammetric analysis. Acta Radiol 1990;31(2):113-26.
  23. Soavi R, Motta M, Visani A. Variation of the spatial position computed by Roentgen Stereophotogrammetric Analysis (RSA) under non-standard conditions. Med Eng Phys. 1999 Oct;21(8):575-81.
  24. Söderqvist I. Some Numerical Methods for Kinematical Analysis. Licentiate of Philosophy. Institute of Information Processing. Department of Computer Science. University of Umeå. UMINF – 186.90. ISSN-0348-0542, 1990.
  25. Södeqvist I, WedinP-Å. Determining the movements of the skeleton using well-configured markers. Technical note. J Biomechanics 1993;26:1473-77.
  26. Woltring HJ, Huiskes R, De Lange A. Finite centroid and helical axis  stimation from noisy landmark measurements in the study of human joint kinematics. J Biomechanics 1985;18(5):379-89.
  27. Yuan X, Ryd L. Accuracy analysis for RSA: a computer simulation study on 3D marker reconstruction. J Biomech. 2000 Apr;33(4):493-8.
  28. Yuan X, Ryd L, Tanner KE, Lidgren L. Roentgen single-plane photogrammetric analysis (RSPA.) A new approach to the study of musculoskeletal movement. J Bone Joint Surg Br. 2002 Aug;84(6):908-14.
  29. Önsten I, Berzins A, Shott S, Sumner DR. Accuracy and precision of radiostereometric analysis in the measurement of THRfemoral component translations: human and canine in vitro models. J Orthop Res. 2001 Nov;19(6):1162-7.
  30. Östgaard SE, Gottlieb L, Toksvig-Larsen S, Lebech A, Talbot A, Lund B Roentgen stereophotogrammetric analysis using computer-based image-analysis. J Biomech 1997 Sep;30(9):993-5
X-ray Markers suitable for RSA or Radio Stereometric Analysis and insertion into e.g. PEEK materials

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