Bibliografia
[1] Neugut AI, Jacobson JS, Rella VA. “Prevalence and incidence of colorectal adenomas and cancer in asymptomatic persons”. Gastrointest. Endosc. Clin. N Am 1997; 7: 387-99.
[2] “Trends in screening for colorectal cancer in United States”, 1997 and 1999.
MMWR Morb Mortal Wkly Rep 2001; 50: 162-6.
[3] Piano oncologico nazionale. “Linee guida di intervento mirato sui quattro Big Killers (polmone, mammella, colon retto, prostata)”. Comunicato ministero della Sanità 232, 05.2001.
[4] Schoen RE. “Interrupting the adenoma-carcinoma sequence: screening for adenomas and cancer, now and in the future”. Semin Gastrointest Dis 2000; 11:
219-28.
[5] Kronborg O. “Screening for early colorectal cancer”. World J Surg 2000; 24:
1069-74.
[6] Bond JH. “Screening guidelines for colorectal cancer”. Am J Med 1999;106(1A):7S-10S.
[7] Ahlquist DA. “Fecal occult blood testing for colorectal cancer. Can we afford to do this?” Gastroenterol Clin North Am 1997; 26: 41-55.
[8] Gorini S., “Studio teorico e sperimentale di micromeccanismi di locomozione per una capsula endoscopica miniaturizzata”, Tesi di Laurea in Ing.Meccanica, A.A.
2000-2001.
[9] Scanlon V. C., Sanders T., “Anatomia e Fisiologia”, Mc Graw-Hill, 1993, pp.364-382.
[10] Pier Roberto Dal Monte. “Il cancro del colon :una neoplasia prevenibile.
Importanza dello screening nei soggetti a rischio”:http://www.odv.bo.it/2002- 3/saggio-01.php
[11] Informazioni disponibili all’indirizzo:http://www.rfnorika.com.
[12] A.Glukhovsky, H.Jacob. “The development and application of wiereless capsule endoscope”. Int J Medical Robotics and Computer Assisted Surgery 2004;
1(1):114-123. 28 April 2004. Avaible from:http://www.roboticpublications.com [13] Informazioni disponibili all’indirizzo:http://www.sli-institute.ac.uk/
[14] Informazioni disponibili all’indirizzo:http://www.ctm- france.com/html_fr/capsule.html
[15] Dichinson, M., and et. al., “How Animals Move: An Integrative View”, Science, 288, 100-106, 2000.
[16] R.Mc.N. Alexander, “Optimization and gaits in the locomotion of vertebrates “ Phys. Rev., 69 (4):1199–1227, 1989.
[17] Blickhan R. (1989), “The spring-mass model for running and hopping”. J.
Biomech 22(11-12):1217-1227.
[18] Cavagna G.A., Willems P.A., Heglund N.C. (2000), “The role of the gravity in human walking: pendular energy exchange, external work and optimal speed”. J.
Physiol 528:657-668.
[19] Autori vari, “Bioingegneria della Postura e del Movimento”, Pàtron Editore, 2003.
[20] Robert J. Full, Timothy Kubow, John Shmitt, Philip Holmes and Daniel Koditschek, “Quantifying Dynamic Stability and Manoeuvrability in Legged Locomotion”, Integ. and Comp.Biol.,42:149-157 (2002).
[21] R.M. Ghigliazza, R. Altendorfer, P. Holmes, and D. Koditschek, “A simple Stabilized Running model”, SIAM APPLIED DYNAMICAL SYSTEM, VOL.2 No.2, pp 187-218
[22] . J. Videler, “Fish Swimming”, vol. 10 of “Fish and Fisheries Series” (Chapman
& Hall, New York, 1993).
[23] . N. V. Kokshaysky, “Nature” 279, 146 (1979).
[24] C. P. Ellington, Philos. Trans. R. Soc. London Ser. B 305, 1 (1984).
[25] C. P. Ellington, C. van den Berg, A. P. Willmott, A. L. R. Thomas, Nature 384, 626 (1996).
[26] M. H. Dickinson, F.-O. Lehmann, S. P. Sane, Science 284, 1954 (1999).
[27] T.M.Kubow, R.J.Full, “The role of the mechanical system in control: a hypothesis of sel-stabilization in hexapedal runners”, Phil.Trans.R.Soc.Lond.B (1999) 354, 849-861.
[28] F.Cepolina, R.C. Michelini, “Review of robotic fixtures for minimally invasive surgery”, 2004 Robotic Publications, Int. J. Medical and Computer Assisted Surgery 2004; 1 (1):43-63.
[29] M. Rentschler, J. Dumpert, A. Hadziali8c, S.R.Platt, S.Farritor, D. Oeynikov, K.Iagnemma, “Theoretical and Experimental Analysis of In Vivo Wheeled Mobility”, DRAFT-DETC2004-57468
[30] Grundfest, S.W., Burdick ,J.W., Slatkin, A.B., “The development of a Robotic Endoscope”, Proceedings of the 1995 IEEE International Conference on Robotics and Automation, pp. 162-171
[31] Walter,W.W., Lakshman,V., Amon,J.N. ,“Self-Propelling Colonoscope”, informazioni reperibili presso l’indirizzo:http://www.rit.edu/jnantl/asmeabs.html [32] M.C. Carrozza, L. Lencioni, B. Magnani, P. Dario, D. Reynaerts, M.G.
Trivella, A. Pietrabissa, “A Microrobot for Colonscopy”, Proceedings of the MHS 1996, pp. 223-228, Nagoya, Japan, Oct. 2-4, 1996.
[33] P. Dario, M. C. Carrozza, L. Lencioni, B. Magnani and S. D’Attanasio, “A micro robotic system for colonoscopy,” in Proc. 1997 IEEE Int. Conf. Robot.
Automat., Albuquerque, NM, April 1997, pp. 1567-1572.
[34] M. C. Carrozza, L. Lencioni, B. Magnani, S. D’Attanasio and P. Dario, “The development of a microrobot system for colonoscopy,” in Proc. First Joint Conf. of Computer Vision, Virtual Reality and Robot. in Medicine and Medical Robot. and Computer Assisted Surgery, vol. 1205, pp. 779-788, Springer-Verlag, Berlin- Heidelberg, 1997.
[35] P.Dario, P.Ciarletta,A.Menciassi, and B.Kim, “Modeling and Experimental Validation of the Locomotion of Endoscopic Robots in the Colon”, The International Journal of Robotics Research, Vol. 23, No. 4-5, 549-556 (2004).
[36] M. Hildebrand, “Symmetrical gaits of horses” Science, 150:701–708, 1965.
[37] R. McN. Alexander, “Optimization and gaits in the locomotion of vertebrates “ Phys. Rev., 69(4):1199–1227, 1989.
[38] Christian Ridderström “Legged locomotion: Balance, control and tools- from equation to action”, TRITA-MMK 2003:19, ISSN 1400-1179,ISRN KTH/MMK–
03/19–SE. Scaricabile presso l’indirizzo:
http://www.md.kth.se/~chr/publications/thesis/
[39] McGhee, R. B. (1967), “Finite state control of quadruped locomotion.” In Simulation, pages 135–140.
[40] Mosher, R. S. and Liston, R. A. (1968). “Versatile walking truck.” In ASME- Transportation Eng Conference-Defining Transportation Requirements, 1968 Oct 28-30, Washington, DC, USA, pages 255 – 268.
[41] Bares, J. E. and Wettergreen, D. S. (1999). “Dante II: technical description results and lessons learned.” International Journal of Robotics Research, 18(7):621649.
[42] Raibert, M. H. (1986). “Legged Robots that Balance.” The Massachusetts Inst. of Technology Press Series in Artificial Intelligence.
[43] Hodgins, J. and Raibert, M. H. (1990). “Biped gymnastics.” International Journal of Robotics Research, 9(2):115–132.
[44] Koechling, J. and Raibert, M. (1988). “How fast can a legged robot run.” ASME Dyn Syst Control Div Publ DSC, 11:241 – 249.
[45] McGeer, T. (1990a). “Passive dynamic walking.” International Journal of Robotics Research, 9(2):62–82.
[46] McGeer, T. (1990b).” Passive walking with knees”. In International Conference on Robotic and Automation.
[47] Cham, J. G., Bailey, S. A., and Cutkosky, M. R. (2000). “Robust dynamic locomotion through feedforward-preflex interaction.” In ASME IMECE Proceedings, Orlando,
Florida.
[48] Clark, J. E., Cham, J. G., Bailey, S. A., Froehlich, E. M., Nahata, P. K., Full, R. J., and Cutkosky, M. R. (2001). “Biomimetic design and fabrication of a hexapedal running robot.” Proceedings - IEEE International Conference on Robotics and Automation, 4:3643 – 3649.
[49] Bailey, S. A., Cham, J. G., Cutkosky, M. R., and Full, R. J. (2001).
“Comparing the locomotion dynamics of the cockroach and a shape deposition manufactured biomimetic hexapod.” In Experimental Robotics VII, volume 271, pages 239–248.
[50] Saranli, U., Buehler, M., and Koditschek, D. E. (2001). “Rhex: A simple and highly mobile hexapod robot.” International Journal of Robotics Research, 20(7):616 – 631.
[51] Full, R. J. and Koditschek, D. E. (1999). “Templates and anchors:
Neuromechanical hypotheses of legged locomotion on land.” Journal of Experimental Biology, 202(23):3325 – 3332.
[52] Thomas J. Allen, Roger D. Quinn1, Richard J. Bachmann, Roy E. Ritzmann.
“Abstracted Biological Principles Applied with Reduced Actuation Improve Mobility of Legged Vehicles”, Proceedings of the 2003 IEEE/RSJ Intl. Conference on Intelligent Robots and Systems Las Vegas, Nevada · October 2003.
[53] P. Dario, C.Stefanini and A.Menciassi. “Modeling and Experiments on a Legged Microrobot Locomoting in a Tubular, Compliant and Slippery Enviroment”, International Symposium on Experimental Robotics (ISER) 2004
[54] C. Atuma, V. Strugala, A. Allen, and L. Holm. “The adherent gastrointestinal mucus gel layer:thickness and physical state in vivo“, Am J Physiol Gastrointest Liver Physiol 280: G922–G929, 2001.
[55] Materiale reperibile presso il sito web:http://www.hitecrcd.com [56] Materiale reperibile presso il sito web:http://www.memory-metalle.de
