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Fluorescence Imaging

Fluorescence-based procedures can be used to visualize what is hidden from view under conventional white light. With photodynamic diagnostics (PDD), pathological accumulations of fluorescent porphyrin products, for instance, can be detected in bladder tumors. Fluorescence imaging in the near infrared (NIR) range further expands the available diagnostic options and enables, for instance, the perfusion assessment of organs and tissues as well as the visualization of the bile duct. The fluorescent dye indocyanine green (ICG) is used for this purpose.

Core elements of these different methods are special light sources, telescopes, and camera heads that are adapted to fluorescence imaging. In combination with the IMAGE1 S™ camera platform, these fluorescence methods offer additional support for decision making in routine care.

Additional information on the specialty

IMAGE1 S™ Rubina™ – mORe to discover

IMAGE1 S™ Rubina™ – mORe to discover

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Laparoscopic Sigmoidectomy using IMAGE1 S™ Rubina NIR/ICG Technology

Laparoscopic Sigmoidectomy using IMAGE1 S™ Rubina NIR/ICG Technology

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Laparoscopic Ivor Lewis Esophagectomy using IMAGE1 S™ Rubina™ NIR/ICG Technologye

Laparoscopic Ivor Lewis Esophagectomy using IMAGE1 S™ Rubina™ NIR/ICG Technologye

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Laparoscopic Roux-en-Y Gastric Bypass using IMAGE1 S™ Rubina™ NIR/ICG Technology

Laparoscopic Roux-en-Y Gastric Bypass using IMAGE1 S™ Rubina™ NIR/ICG Technology

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Laparoscopic Subtotal Gastrectomy using IMAGE1 S™ Rubina™ NIR/ICG Technology

Laparoscopic Subtotal Gastrectomy using IMAGE1 S™ Rubina™ NIR/ICG Technology

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IMAGE1 S™ Rubina™ – mORe to discover – Our OPAL1® technology for NIR/ICG

IMAGE1 S™ Rubina™ – mORe to discover – Our OPAL1® technology for NIR/ICG

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IMAGE1 S™ 4U Rubina, OPAL1® NIR/ICG camera head TH121

IMAGE1 S™ 4U Rubina, OPAL1® NIR/ICG camera head TH121

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HOPKINS® telescopes Models 26003 ACA/BCA/FCA/FCEA, 26003 ARA/BRA/FRA/FREA, 26046 ACA/BCA/FCA, 26046 ARA/BRA/FRA

HOPKINS® telescopes Models 26003 ACA/BCA/FCA/FCEA, 26003 ARA/BRA/FRA/FREA, 26046 ACA/BCA/FCA, 26046 ARA/BRA/FRA

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Replacing the XENON lamp in the lamp module

Replacing the XENON lamp in the lamp module

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26606ACA, 26616ACA TIPCAM®1 Rubina, 0° / 26606BCA, 26616BCA TIPCAM®1 Rubina, 30°

26606ACA, 26616ACA TIPCAM®1 Rubina, 0° / 26606BCA, 26616BCA TIPCAM®1 Rubina, 30°

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IMAGE1 S™ – TC 200, TC 201, TC 300, TC 301, TC 302, TC 304

IMAGE1 S™ – TC 200, TC 201, TC 300, TC 301, TC 302, TC 304

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Clinical applications of indocyanine green (ICG) enhanced fluorescence in laparoscopic surgery

Human Medicine

Fluorescence Imaging

Boni L, David G, Mangano A, Dionigi G, Rausei S, Spampatti S, Cassinotti E, Fingerhut A

Surgical Endoscopy. 2014 Oct 11

A Comparison of Radiocolloid and Indocyanine GreenFluorescence Imaging, Sentinel Lymph Node Mapping in Patients with Cervical Cancer

Human Medicine

Fluorescence Imaging

Imboden S, Papadia A, Nauwerk M, McKinnon B, Kollmann Z, Mohr S, Lanz S, Mueller MD

Annals of Surgical Oncology. 2015 Jun 30.

Indocyanine green fluorescence endoscopy for visual differentiation of pituitary tumor from surrounding structures

Human Medicine

Fluorescence Imaging

Litvack ZN, Zada G, Laws ER Jr.

J Neurosurg. 2012 Feb 24.

Endoscopic ICG perfusion imaging for flap transplants: clinical results

Human Medicine

Fluorescence Imaging

Christian Betz

Head Neck Oncol. 2010; 2(Suppl 1): O15. Published online 2010 October 29. doi: 10.1186/1758-3284-2-S1-O15

Semi-quantitative Fluorescence Endoscopy with use of ICG

Human Medicine

Fluorescence Imaging

Hilmar Schachenmayr, Sven Zhorzel, Herbert Stepp, Ulrich Harréus und Christian Stephan Betz

World Congress on Medical Physics and Biomedical Engineering, September 7 - 12, 2009, Munich, Germany IFMBE Proceedings, 2009, Volume 25/6, 118-119, DOI: 10.1007/978-3-642-03906-5_32

Endoscopic measurements of free-flap perfusion in the head and neck region using red-excited Indocyanine Green: preliminary results

Human Medicine

Fluorescence Imaging

Betz CS, Zhorzel S, Schachenmayr H, Stepp H, Havel M, Siedek V, Leunig A, Matthias C, Hopper C, Harreus U.

J Plast Reconstr Aesthet Surg. 2009 Dec;62(12):1602-8. Epub 2008 Nov 25

Lymph node pathway visualization in real time by laparoscopic radioisotope- and fluorescence- guided sentinel lymph node dissection in prostate cancer staging

Human Medicine

Fluorescence Imaging

Jeschke, S., Lusuardi, L., Myatt, A., Hruby, S., Janetschek, G.

27th Annual Congress of the European Association of Urology Paris, February 27, 2012

IntraoperativeLaparoscopicFluorescenceGuidance to the Sentinel Lymph Node in Prostate Cancer Patients: Clinical Proof of Concept of an Integrated Functional Imaging Approach Using a Multimodal Tracer

Human Medicine

Fluorescence Imaging

Henk G. van der Poela, Tessa Buckleb, Oscar R. Brouwerb, Renato A. Valdés Olmosb, Fijs W.B. van Leeuwenb

European Urology Volume 60, Issue 4, October 2011, Pages 826–833

Die laparoskopische Fluoreszenzangiographie mit Indocyaningrün zur intraoperativen Beurteilung der Perfusion bei kolorektalen Anastomosen

Human Medicine

Fluorescence Imaging

T. Carus und H. Lienhard

Deutsche Gesellschaft für Chirurgie, 2009, Volume 38, Chirurgisches Forum und DGAV Forum 2009 , XXIII, 331-333, DOI: 10.1007/978-3-642-00625-8_120