Dr. Franco Canestri – Publikationen

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Dr. Franco Canestri


Kirchpfad 12a

76877 Offenbach

info@franco-canestri.de

Telefon: +49 (0) 63 48 / 92 39 606

Telefax: +49 (0) 63 48 / 92 39 208

Mobil +49 (0)173 1542259

 

Publikationen

Seit 30 Jahren publiziere ich in internationalen Fachmedien. Meine Themen beziehen sich auf die Medizintechnik und Lösungen für die Industrie. Nehmen Sie für weitere Informationen gerne Kontakt zu mir auf. Schreiben Sie mir unter: info@franco-canestri.de oder rufen Sie an unter + 49 (0)173 - 1542259

Publikationen Medizintechnik

  1.  „CO2 Lasers: Beam Patterns in Relation to Surgical Use“ – ‘Las. Surg. Med.’ – 1983, Vol. 2, (331-341) (see also on WEB: April 2008)
  2.  „CO2 Laser-beam Modeling in Surgery“ – ‘Las. Appl.’ – 1986, Vol. 5(12), (83-85)
  3.  „Control of CO2 Lasers during Surgery“ – ‘J. Biomed. Eng.’ – 1987, Vol. 9, (185)
  4.  „A proposed Clinical Application of a Model of CO2 Laser Radiation Induced Damage Craters“ – ‘J. Med. Eng. Techn.’ – 1988, Vol. 12(3), (112-117)
  5.  „Nonorthogonal Beam Delivery and Tissue“ – ‚Las. Optr.’ – 1989, Vol. 8(4), (54-56)
  6.  „Beam-Tissue Interaction : Long-Term Modeling“ – ‘Las. Optr.’ – 1990, Vol. 9(12), (55-57)
  7.  „Kontrolle von CO2 Lasern Waehrend Chirurgisher Eingriffe“ – `Z. Herz-, Thorax-, Gefaesschirurgie’ – 1991, Vol. 5, (48-49)
  8.  „Effects of Nonorthogonal CO2 Laser-beam Delivery on the Geometry of the Resulting Crater: A Qualitative Description“ – ‘Biom. Instr. Techn.’ – 1991, Vol. 25(2), (141-146)
  9.  „A Qualitative Analysis of Nonorthogonal CO2 Laser-beam Delivery“ – `IEEE Eng. Med. Biol.’ – 1991, Vol. 4, (45-55)
  10.  „Proposal of a Computerized Algorithm for Continuous-Wave CO2 Laser On-line Control During Orthopaedic Surgery“. Phase I: ‘Theoretical Introduction and First In-vitro Trials’ – `Int. J. Clin. Mon. Comp.’ – 1992, Vol. 9, (31-44)
  11. „On-line CO2 Laser-beam Real-time Control Algorithm for Orthopaedic Surgical Applications“ – ‘HP Journal’ – 1993, Vol. 44(4), (68-72)
  12. “Pulsed CO2 Laser-Beam Delivery and Real-time Temperature Measurements via Silver-Halide Fiber Into Biological In-vitro Samples: Hystological Analysis and Internal Temperature Distributions Calculations” - ‘Proceedings of „Laser-Tissue Interaction V“ – Progress in Biomedical Optics, Congress of the Int. Soc. Opt. Eng., Los Angeles – CA., USA – 1994, Vol. 2134A, (477-485)
  13. „Helmet-mounted display for data recall and direct consultation during surgical operation“ – ‚Research Disclosure` Kennet Mason Publications Ltd. England – 1996, No. 381, (15-16)
  14. „Proposal of a computerized algorithm for continuous wave CO2 laser on-line control during orthopaedic surgery. Phase II: simplified algorithm version (LCA-s) and helmet-mounted data access device solution“ – ‚Int. J. Clin. Mon. and Comp.‘ – 1997, Vol. 14, (199-206)
  15. „On-line computer system to minimize laser injuries during surgery: preliminary system layout and proposal of the key features“ – ‚Proc. Instn. Mech. Engrs.‘ – 1999, Vol. 213/H, (69-76)
  16. „The fluidodynamics of potentially neoplastic plumes produced by medical lasers: first quantitative non-tissue-specific measurements using PMMA (Phase 1)" – ‚J. Clin. Las. Med. and Surg.‘ 1999, Vol. 17(5), (199-203)
  17. „Thermal lesions produced by CO2 laser beams: new findings to improve the quality of minimally invasive and transmyocardial laser revascularization protocols“ – ‚J. Clin. Las. Med. and Surg.‘ 2000, Vol. 18 (2), (49-55)
  18. „Quantitative comparison between crater versus cut development process in Polymethilmathacrylate (PMMA) samples irradiated by continuous CO2 laser beams“ (Abstracts only) – ‚Proceeding of the Annual Congress of the National Russian Society of Lasers in Medicine, St. Peterburg‘ (bilingual English and Russian) 2001, Vol. 2, (618-619)
  19. „The outcome quality of the ‚minimally invasive surgery‘ (MIS) and the ‚trans-myocardial laser revascularization‘ (TMLR) procedures depend only on the combination between the CO2 laser’s power densities on the spot and the type of irradiated tissue“ (Abstract only) – ‚Proceeding of the Annual Congress of the National Russian Society of Lasers in Medicine, St. Peterburg‘ (bilingual English and Russian) 2001, Vol. 2, (621-623)
  20. „Sudden and unpredictable below-surface ablation pattern changes by CO2 laser beams: a qualitative description of five macroscopic cases observed in PMMA with high probability to occur during surgery in low-water-content tissues“ – ‚J. Clin. Las. Med. and Surg.‘ 2002, Vol. 20 (6), (335-339)
  21. „Optical Absorption Coefficient, Time of Thermal Relaxation, Time of Surface Threshold and Time of Heat Incubation for PMMA Samples at the CO2 Laser-Beam Wavelength of 10.6 µm“ – ‘Photomedicine and Laser Surgery’ – 2006, Vol. 24 (5), (655-659)
  22. „Computerized Thermal Qualification Tool (CTQT) for in vitro low-water content media characterization of thermodynamic constant“ – Poster Session ‘European Conference on Biomedical Optics 2007 – SPIE/OSA’ – Munich 2007, Conference Proceedings, Page 15
  23. „Proposal of a “Computerized Thermal Characterization Tool – (”for complete thermodynamic coefficients mapping at the wavelength of 10.6 µm: a PMMA case report. “ – ‘Photomedicine and Laser Surgery’ – 2009, Vol. 27 (4), (539-545)
  24. „Pulsed CO2 Laser-Beam Delivery and Real-time Temperature Measurements via Silver-Halide Fiber Into Biological In-vitro Samples: Hystological Analysis and Internal Temperature Distributions Calculations“ – ‘Proceedings of “Laser-Tissue Interaction V” Progress in Biomedical Optics, Congress of the Int. Soc. Opt. Eng., Los Angeles – CA., USA – 1994, Vol. 2134A, (477-485) – and - The Smithsonian / NASA    Astrophysics Data System, Smithsonian Astrophysical Observatory, Grant Number NNX09AB39G – 2010
  25. „Accurate quantification of the Optical Absorption Coefficient and of the Thermal Relaxation Time for PMMA and for low-water-content media during early ablation with CO2 laser-beam at the wavelength of 10.6 µm. “ – ‘Photomedicine and Laser Surgery’ – 2011, Vol. 29 (1), (61-66)
  26. “Ultra-Conservative Minimally Invasive Surgery (UCMIS) with Pulsed Non-Gaussian CO2 Laser Beams Focused Through the Shortest Possible Focal Length“ – ‘Photomedicine and Laser Surgery’ – 2011, Vol. 29 (11), (759-766)
  27. “Limiting Performances Optimization of Generic Medical CO2 Laser Devices to be Used in Minimally Invasive Surgery (MIS) Procedures” – ‘Lasers in Medicine’ – 2013, Vol. 1 (2). Online: www.emla-medical.co
  28. “Safety Configurator to Guarantee Positive Outcome of Minimally Invasive Surgery (MIS) Procedures via Generic Pulsed CO2 Laser Beams – ‘Lasers in Medicine’ – 2013, Vol. 1 (3). Online: www.emla-medical.com
  29. Review : “The History and the Current State-of-the-Art of the Laser Beam Deployment in Minimally Invasive Surgery Procedures for Orthopedic and Generic Low-Water-Content Tissues Treatments” – ‘Jacobs J. of Surgery’ – 2014, Vol. 1 (1) – 011 (Online)
  30. “Reducing the Risk of Mutagenicity Following Plumes Inhalation During Treatment of Malignant Tumors by Using Pulsed CO2 Medical Lasers in Operating Room : A Quantitative Study.” – ‘Jacobs. J. of  Surgery’ – 2015, Vol. 2(1) – 017 (Online)
  31. “Identical Geometrical Profile for Both Craters and Arbitrary Long Incisions Produced by CO2 Laser Beams onto Irradiated Biological and Non-Biological Samples :
  32. The Importance of the Cater’s Horizon Acceleration.” – ‘Int. J. Surg.’ - 2017, Issue 1 : 101
  33. “Analysis of the Evaporation to Sublimation Phase Transition during Minimal Invasive Surgery Procedures via Pulsed CO2 Lasers.” – ‘Biomed. J. Sci & Tech. Res.’ - 2017, Volume 1, Issue 6, ISSN : 2574-1241.
  34. “Plumes Hazard Linked to Unpredictable and Abnormal Below-Surface Ablation Patterns During Treatment of Tumors by Using CO2 Medical Lasers in Operating Room : A Combined Qualitative in-Vitro Study on PMMA Samples.” – ‘Chronicle J. Surg.’ - 2018, Volume 1, Issue 1 : 005.
  35. Book : “High Quality Outcome of Surgical Treatments via CO2 Medical Lasers.” – ‘Lambert Academic Publishing’ - 2018 –
    ISBN 978-620-2-00883-9
  36. Book : „Key Challenges and Open Questions in Current Laser Surgery“ – ‘Lambert Academic Publishing‘ – 2019 -
    ISBN 978-620-2-02920-9

 

Publikationen Industrie

  1. „Optical Time Domain Reflectometry : overview of the physics behind the product design“ – ‚Telecommunication of Thailand‘ (in Thai Language) – 1996, 4/106 (21-23)
  2. „Optical Time Domain Reflectometry : current technology overview for fiber optic networks measurements“ ‚IBT Journal‘ (in Mandarin Language) – 1997, Vol. 11 (5), (40-41)
  3. „Optical Time Domain Reflectometry and precision fiberoptic measurements“ ‚China Hewlett-Packard Journal‘ (in Mandarin Language) – 1997, Vol. 42 (4), (14-16)
  4. “Métodos para la medida de dispersión por polarización modal (PMD) para aplicaciones de campo en redes de fibra óptica” (Polarization Mode Dispersion Measurements using the JME method) “Unitronics Journal” (in Spanish Laguage) – Spain, 2003
  5. “RFID Overview and Signal Analysis“ ‘Techonline’ – Webinar – Paper available on-line – July 2007
  6. “RFID test challenges“ ‘RFDesign’ September 2007 (16-18)
  7. “RFID : Descripcion general sobre su aplicacion“ ‘Revista Espanola de Electronica’ November 2007 (86-91)
  8. “Overcoming the Challenges of RFID Component Testing” – ‘Agilent Measurement Journal’ – Issue 4 – 2008, (12-17)
  9. “RFID-Technik testen und erfolgreich einsetzen” – ‘Polyscope’ – (German Language) – August 18, 2008, (26-28)
  10. “Tagged for take-off“ ‘ ESE Magazine – Embedded Europe’, 2008
  11. “RFID test challenges“ (Two Reprints) Two reprints on Russian Magazines : ‚Chip News’ Apr. 2008 and ‚Test’ Oct. 2008
  12. “RF Handheld Testers Guarantee Traffic Stability Under Olympic-Sized Stress Conditions”, ‘Agilent Measurement Journal’ –
    Issue 6 – 2008, (41 – 46)
  13. “RF Handheld Testers for Wireless Network Monitoring” ‘Journal of Communication’ (Russian Language – ISSN 0320.8141), Issue 10 – 2008, (60-61)
  14. “RF Testers and Network Performances Optimization ” – ‘Telecommunications Network Technology’ (Mandarin Language – ISSN 1008.9217 CN 11-2977/TN), Issue 10 – 2008, (81-84)
  15. “RF Handheld Testers for Traffic Stability” – ‘Measurement & Instrumentation’ – South Africa, Issue 10 – 2008, (30-32)