Systemkonstanz und Energieverteilung bei Laser-
induzierter interstitieller Thermotherapie (LITT)

 

 Buy Article Permissions and Reprints

Zusammenfassung

Ziel: Gewinnung von Daten zur Systemkonstanz und zur Energiedistribution bei Laserinduzierter Thermotherapie mit handelsüblichen Komponenten. Material/Methode: Durchführung von Konstanzprüfungen optischer Kupplungen, Lasergeneratoren und Laserfasern der Firmen Dornier (Germering, Deutschland), Hüttinger (Umkirch, Deutschland) und Somatex (Berlin, Deutschland) über 60 Minuten mit 25 Watt unter sequenzieller Verwendung zweier Lasertestgeräte (MY-Test, Hüttinger). Je zwei In-vitro-Ablationen in Rinderleber mit Laserfasern Mikrodom-Applikator Typ A13-0540, Microflexx-Applikator REF A13-0561 (beide Hüttinger) Diffusor-Tip H-6111-T3, Diffusor-Tip H-6111-T4 (beide Dornier), Somaflex-Diffuser (Somatex) über 20 Minuten mit 25 Watt und Bestimmung der Koagulationsgeometrien. Ergebnisse: Die unterschiedlichen Systemkomponenten wiesen über den zeitlichen Verlauf Divergenzen auf, die 10 % nicht überschritten. Einzelne Systemkomponenten zeigten sich entgegen Herstellerempfehlungen inkompatibel. Signifikante Unterschiede wiesen die Abstrahleigenschaften der Laserfasern insbesondere in der axialen, vorwärts weisenden Ausrichtung auf. Schlussfolgerung: Die Kenntnis der Emissionsleistung des Lasersystems sowie der individuellen Abstrahlcharakteristiken der Laserfasern ist für den Ablationserfolg bei der LITT entscheidend.

Abstract

Purpose: Evaluation of the continuity and energy distribution of a laser system for laser-induced thermo therapy. Material and Methods: For evaluation of the continuity of laser optical devices, laser generating units and optical fibers of three different manufactures (Dornier, Hüttinger, Somatex), we used the equipment to generate a laser beam of 25 Watt for 60 minutes. Measurements of the applied energy were done sequentially with two MY Test (Fa. Hüttinger) units. We also performed two in vitro ablations of animal liver tissue with different fiber optics [Mikrodom A 13-0540, Microflexx REF A 13-0561 (Hüttinger), Diffusor-Tip H-6111-T 3, Diffusor H-6111-T 4 (Dornier), Somaflex-Diffusor (Somatex)] over 20 minutes at- an energy flow of 25 J per second. We then evaluated the geometry of coagulation. Results: The different equipment used for our tests showed differences of a maximum of 10 %. Some components did not work properly in certain configurations even though the manufacturer assured it would. We saw significant differences in the ablation characteristics of the different fiber optics, especially in axial and frontal directions. Conclusion: Knowledge of the different characteristics in energy distribution and ablation characteristics are an important factor in performing a successful laser-induced thermo therapy.

Literatur

• 1 Vogl T J, Weinhold N, Muller P, Phillip C, Roggan A, Mack M G, Balzer J O, Eichstadt H, Blumhardt G, Lobeck H, Felix R. Early clinical experiences with MR-guided laser-induced thermotherapy (LITT) of liver metastases in preoperative care.  Fortschr Röntgenstr. 1996;  164 (5) 413-421
  PubMedGoogle Scholar
• 2 Muralidharan V, Christophi C. Interstitial laser thermotherapy in the treatment of colorectal liver metastases.  J Surg Oncol. 2001;  76 73-81
  CrossrefPubMedGoogle Scholar
• 3 Albrecht D, Germer C T, Roggan A, Isbert C, Ritz J P, Buhr H J. Laserinduzierte Thermotherapie - Technische Voraussetzungen zur Behandlung maligner Lebertumoren.  Chirurg. 1998;  69 930-937
  CrossrefPubMedGoogle Scholar
• 4 Germer C T, Albrecht D, Boese-Landgraf J, Roggan A, Isbert C. Laser-induced thermotherapy (LITT) in the treatment of colorectal liver metastases - A clinical pilot study. In: Mülller G, Roggan A (eds) Laser-induced Interstitial Thermotherapy. Bellingham; SPIE Press 1995: 393-399
  Google Scholar
• 5 Germer C T, Albrecht D, Roggan A, Isbert C, Buhr H J. Experimental study of laparoscopic laser-induced thermotherapy of liver tumors.  Br J Surch. 1997;  84 317-320
  CrossrefPubMedGoogle Scholar
• 6 Jolesz F A, Zientara G P. MRI-guided Laser-induced Interstitial Thermotherapy: Basic principles. In: Müller G, Roggan A (eds) Laser-induced Interstitial Thermotherapy. Bellingham; SPIE Press 1995: 294-324
  Google Scholar
• 7 Vogl T J, Müller P K, Hammerstingl R, Wienhold N, Mack M G, Philipp C, Deimling M, Beuthan J, Pegios W, Riess H. et al . Malignant liver tumors treated with MR imaging-guided laserinduced thermotherapy: technique and prospective results.  Radiology. 1995;  196 257-265
  CrossrefPubMedGoogle Scholar
• 8 Vogl T J, Mack M, Straub R, Eichler K, Engelmann K, Roggan A, Zagnos S. Percutaneous interstitial thermotherapy of malignant liver tumors.  Fortschr Röntgenstr. 2000;  172 12-22
  Article in Thieme ConnectPubMedGoogle Scholar
• 9 Vogl T J. Verification of MR-Thermometrie.  Fortschr Röntgenstr. 1998;  169 (2) 182-188
  PubMedGoogle Scholar
• 10 Gewiese B, Beuthan J, Fobbe F, Stiller D, Müller G, Boese-Landgraf J, Wolf K J, Deimling M. Magnetic resonance imaging-controlled laser-induced interstitial thermotherapy.  Invest Radiol. 1994;  29 345-351
  PubMedGoogle Scholar
• 11 Vogl T J, Assal J, Philipp C, Rohde E, Fischer P, Boettcher H, Gremmler M, Roggan A, Geimling K, Felix R. Nichtinvasives Temperaturmonitoring für die interventionelle laserinduzierte Thermotherapie von Lebermetastasen.  Zentralbl Radiol. 1994;  150 1-3
  PubMedGoogle Scholar
• 12 Vogl T J, Mack M G, Straub R, Roggan A, Felix R. MRI-guided abdominal interventional radiology: laser-induced thermotherapy of liver metastases.  Endoscopy. 1997;  29 577-583
  PubMedGoogle Scholar
• 13 Roberts H RS, Paley M, Sams V R, Wilkinson I D, Lees W R, Hall-Graggs M A, Bown S G. Magnetic Resonance Imaging control of laser destruction of hepatic metastases: correlation with post-operative helical CT.  Min Invas Ther & Allied Technol. 1997;  6 53-64
  PubMedGoogle Scholar
• 14 Vogl T J, Eichler K, Straub R, Engelmann K, Zangos S, Woitaschek D, Bottger M, Mack M G. Laser-induced thermotherapy of malignant liver tumors: general principals, equipment(s), procedure(s)-side effects, complications and results.  Eur J Ultrasound. 2001;  13 (2) 117-127
  CrossrefPubMedGoogle Scholar
• 15 Urban P, Philipp C, Frommeld T, Berlien H-P. Possibilities and limitations of the ultrasound guided laser induced thermotherapy (LITT) of malignant liver processes. 13th Biennial Meeting of the Deutsche Gesellschaft für Lasermedizin 2001
• 16 Moller P H, Hannesson P H, Invarsson K, Olsrud J, Stenram U, Tranberg K G. Interstitial laser thermotherapy in pig liver: effect of inflow occlusion on extent of necrosis and ultrasound image.  Hepatogastroenterology. 1997;  44 (17) 1302-1311
  PubMedGoogle Scholar
• 17 Soyer P, Mosnier H, Choti M A, Rymer R. Intraoperative and laparoscopic sonography of the liver.  Eur Radiol. 1997;  7 (8) 1296-1302
  CrossrefPubMedGoogle Scholar
• 18 Germer C T, Albrecht D, Roggan A, Buhr H J. Technology for in situ ablation by laparoscopic and image-guided interstitial laser hyperthermia.  Semin Laparosc Surg. 1998;  5 (3) 195-203
  PubMedGoogle Scholar
• 19 Vogl T J, Mack M G, Roggan A, Straub R, Eichler K C, Müller P K, Knapp V, Felix R. Internal cooled power laser for MR-guided interstitial laser-induced thermotherapy of liver lesions: initial clinical results.  Radiology. 1998;  209 381-385
  PubMedGoogle Scholar
• 20 Bremer C, Alikemper T, Menzel J, Sulkowski U, Rummeny E, Reimer P. Preliminary clinical experience with laser-induced interstitial thermotherapy in patients with hepatocellular carcinoma.  Magn Reson Imaging. 1998;  8 235-239
  PubMedGoogle Scholar
• 21 Germer C T, Isbert C, Albrecht D, Roggan A, Pelz J, Ritz J P, Müller G, Buhr H J. Laser-induced thermotherapy combined with hepatic arterial embolization in the treatment of liver tumors in a rat tumor model.  Ann Surg. 1999;  320 55-62
  PubMedGoogle Scholar
• 22 Albrecht D, Germer C T, Isbert C, Ritz J P, Roggan A, Mueller G, Buhr H J. Interstitial laser coagulation: evaluation of the effect of normal blood perfusion and the application mode on lesion size.  Lasers Surg Med. 1998;  23 40-47
  CrossrefPubMedGoogle Scholar
• 23 Wacher F K, Reither K, Ritz J P, Roggan A, Germer C T, Wolf K J. MR-guided interstitial laser-induced thermotherapy of hepatic metastasis combined with arterial blood flow reduction: Technique and first clinical results in an open MR system.  J Magn Reson Imaging. 2001;  13 31-36
  CrossrefPubMedGoogle Scholar

Dr. Maciej Pech

Klinik für Strahlenheilkunde, Charité Campus Virchow-Klinikum

Augustenburger Platz 1

13353 Berlin

Email: maciej.pech@charite.de