[222] Effect of Photobiomodulation on Protein Kinase C delta, Cytochrome C, and Mitochondria in U87 MG Cells

V. Pevna; G. Wagnieres; D. Jancura; V. Huntosova

DOI : 10.3390/cells12101441

[221] Porphyrin metalla-assemblies coupled to cellulose nanocrystals for PDT and imaging applications

J. C. S. Simoes; G. Wagnieres; S. Sarpaki; V. Sol; B. Therrien

DOI : 10.1142/S1088424623500499

[220] Sodium thiosulfate, a source of hydrogen sulfide, stimulates endothelial cell proliferation and neovascularization

D. Macabrey; J. Joniova; Q. Gasser; C. Bechelli; A. Longchamp  et al.

DOI : 10.3389/fcvm.2022.965965

[219] Optimization of the Distance between Cylindrical Light Distributors Used for Interstitial Light Delivery in Biological Tissues

A. Gregor; S. Sase; G. Wagnieres

DOI : 10.3390/photonics9090597

[218] Photobiomodulation and photodynamic therapy-induced switching of autophagy and apoptosis in human dermal fibroblasts

V. Pevna; D. Horvath; G. Wagnieres; V. Huntosova

DOI : 10.1016/j.jphotobiol.2022.112539

[217] Cathepsin B-Cleavable Polymeric Photosensitizer Prodrug for Selective Photodynamic Therapy: In Vitro Studies

M. Jain; J. Bouilloux; I. Borrego; S. Cook; H. van den Bergh  et al.

DOI : 10.3390/ph15050564

[216] Identification of excimer delayed fluorescence by Protoporphyrin IX: A novel access to local chromophore concentration?

G. Croizat; A. Gregor; J. Joniova; E. Gerelli; G. Wagnieres

DOI : 10.1016/j.jphotobiol.2022.112408

[215] Stimulation and homogenization of the protoporphyrin IX endogenous production by photobiomodulation to increase the potency of photodynamic therapy

J. Joniova; C. Kazemiraad; E. Gerelli; G. Wagnieres

DOI : 10.1016/j.jphotobiol.2021.112347

[214] Autophagy and Apoptosis Induced in U87 MG Glioblastoma Cells by Hypericin-Mediated Photodynamic Therapy Can Be Photobiomodulated with 808 nm Light

V. Pevna; G. Wagnieres; V. Huntosova

DOI : 10.3390/biomedicines9111703

[213] Understanding delayed fluorescence and triplet decays of Protoporphyrin IX under hypoxic conditions

M. Scholz; G. Croizat; J. Psencik; R. Dedic; S. Nonell  et al.

DOI : 10.1007/s43630-021-00044-8

[212] Intraocular Lens Refractive Index and Its Impact on External Surface Reflections

G. D. Kymionis; J. Kim; M. Petrelli; M. A. Grentzelos; K. Hashemi  et al.

DOI : 10.3928/1081597X-20210310-01

[211] Influence of Oxidative Stress on Time-Resolved Oxygen Detection by [Ru(Phen)3]2+ In Vivo and In Vitro

V. Huntosova; D. Horvath; R. Seliga; G. Wagnières

DOI : 10.3390/molecules26020485

[210] Sodium Thiosulfate, a Source of Hydrogen Sulfide, Promotes Angiogenesis via Metabolic Reprogramming of Endothelial Cells

D. Macabrey; J. Joniova; A. Longchamp; J.-M. Corpataux; G. Wagnieres  et al.

[209] Grid-aware distributed control of electric vehicle charging stations in active distribution grids

S. A. S. Fahmy; R. K. Gupta; M. Paolone

DOI : 10.1016/j.epsr.2020.106697

[208] A general framework for non-exponential delayed fluorescence and phosphorescence decay analysis, illustrated on Protoporphyrin IX

G. Croizat; A. Gregor; E. Gerelli; J. Joniova; M. Scholz  et al.

DOI : 10.1016/j.jphotobiol.2020.111887

[207] Catechin reduces phototoxic effects induced by protoporphyrin IX-based photodynamic therapy in the chick embryo chorioallantoic membrane

J. Joniova; G. Wagnieres

DOI : 10.1117/1.JBO.25.6.063807

[206] Optical Characterization of an Intra-Arterial Light and Drug Delivery System for Photodynamic Therapy of Atherosclerotic Plaque

M. Zellweger; Y. Xiao; M. Jain; M.-N. Giraud; A. Pitzschke  et al.

DOI : 10.3390/app10124304

[205] An objective comparison of detection and segmentation algorithms for artefacts in clinical endoscopy

S. Ali; F. Zhou; B. Braden; A. Bailey; S. Yang  et al.

DOI : 10.1038/s41598-020-59413-5

[204] Comparison of autofluorescence and white-light bronchoscopies performed with the Evis Lucera Spectrum for the detection of bronchial cancers: a meta-analysis

S. Sun; Y. Yang; M. Chen; L. Wang; H. Pan  et al.

DOI : 10.21037/tlcr.2020.01.04

[203] Vascular-targeted low dose photodynamic therapy stabilizes tumor vessels by modulating pericyte contractility

S. Cavin; T. Riedel; P. Rosskopfova; M. Gonzalez; G. Baldini  et al.

DOI : 10.1002/lsm.23069

[202] Increase and homogenization of the endogenous production of protoporphyrin IX by photobiomodulation

J. Joniova; E. Gerelli; G. Wagnieres

[201] Photoprotective effect of catechin during ALA-PDT

J. Joniova; G. Wagnieres

[200] Hypericin can cross barriers in the chicken's chorioallantoic membrane model when delivered in low-density lipoproteins

L. Blascakova; D. Horvath; D. Belej; G. Wagnieres; P. Miskovsky  et al.

DOI : 10.1016/j.pdpdt.2018.07.009

[199] Time-resolved imaging of oxidative stress and cell/tissue oxygenation

V. Huntosova; S. Sokolova; M. Misuth; D. Horvath; G. Wagnieres  et al.

[198] Modulation of the endogenous production of protoporphyrin IX in a yeast - based model organism

J. Joniova; E. Gerelli; G. Wagnieres

[197] In vivo measurement of the tissue oxygenation by time-resolved luminescence spectroscopy of protoporphyrin IX: Strategies to minimize artefacts associated with photoproducts

E. Gerelli; V. Huntosova; D. Horvath; G. Wagnieres

[196] Negligible interaction of [Ru(Phen) 3 ] 2+ with human serum albumin makes it promising for a reliable in vivo assessment of the tissue oxygenation

D. Belej; Z. Jurasekova; M. Nemergut; G. Wagnieres; D. Jancura  et al.

DOI : 10.1016/j.jinorgbio.2017.05.016

[195] Interstitial fluid pressure: A novel biomarker to monitor photo-induced drug uptake in tumor and normal tissues.

S. Cavin; X. Wang; M. Zellweger; M. Gonzalez; M. Bensimon  et al.

DOI : 10.1002/lsm.22687

[194] Determination of the radiance of cylindrical light diffusers: design of a one-axis charge-coupled device camera-based goniometer setup

A. Pitzschke; J. Bertholet; B. Lovisa; M. Zellweger; G. Wagnieres

DOI : 10.1117/1.Jbo.22.3.035004

[193] Photodynamic therapy for the treatment of atherosclerotic plaque: Lost in translation?

M. Jain; M. Zellweger; G. Wagnieres; H. Van Den Bergh; S. Cook  et al.

DOI : 10.1111/1755-5922.12238

[192] Measurement of pO2 by luminescence lifetime spectroscopy: A comparative study of the phototoxicity and sensitivity of [Ru(Phen)3]2+ and PdTCPP in vivo

V. Huntosova; E. Gerelli; D. Horvath; G. Wagnieres

DOI : 10.1002/jbio.201600127

[191] Optimization and characterization of the endogenous production of protoporphyrin IX in a yeast model

J. Joniová; E. Gerelli; M. Zellweger; G. Wagnières

DOI : 10.1117/1.JBO.21.12.125008

[190] Effect of PpIX photoproducts formation on pO2 measurement by time-resolved delayed fluorescence spectroscopy of PpIX in solution and in vivo

V. Huntosova; E. Gerelli; M. Zellweger; G. Wagnières

DOI : 10.1016/j.jphotobiol.2016.09.022

[189] Intra-Arterial Drug and Light Delivery for Photodynamic Therapy Using Visudyne (R): Implication for Atherosclerotic Plaque Treatment

M. Jain; M. Zellweger; A. Frobert; J. Valentin; H. Van Den Bergh  et al.

DOI : 10.3389/fphys.2016.00400

[188] Use of Water-Soluble Oxygen Sensors to Study the Oxygen Consumption during Photosensitization with Hypericin in Vitro and in Vivo

V. Huntosova; D. Belej; E. Gerelli; P. Miskovsky; G. Wagnieres

[187] Study of the NIR Light Induced Effects on Neuroblastoma N2A Cells with Parkinson's-Like Features

L. Koptasikova; V. Huntosova; E. Gerelli; P. Miskovsky; G. Wagnieres  et al.

[186] Review of the role played by the photosensitizer's photobleaching during photodynamic therapy

M. Atif; M. Zellweger; G. Wagnieres

[185] Treatment of pleural malignancies by photo-induction combined to systemic chemotherapy: Proof of concept on rodent lung tumors and feasibility study on porcine chest cavities

X. Wang; F. Gronchi; M. Bensimon; T. Mercier; L. A. Decosterd  et al.

DOI : 10.1002/lsm.22422

[184] Photobiomodulation Suppresses Alpha-Synuclein-Induced Toxicity in an AAV-Based Rat Genetic Model of Parkinson's Disease

A. Oueslati; B. Lovisa; J. Perrin; G. Wagnières; H. van den Bergh  et al.

DOI : 10.1371/journal.pone.0140880

[183] Study of the influence of over-the-counter vitamin supplement intake on urine fluorescence to optimize cancer detection by fluorescence cystoscopy

M. Zellweger; C. Martoccia; M. Mengin; C. Iselin; H. Van Den Bergh  et al.

DOI : 10.1117/1.Jbo.20.6.066011

[182] Optical properties of the deep brain in the red and NIR: changes observed under in-vivo, post-mortem, frozen and formalin-fixated conditions

A. Pitzschke; B. Lovisa; O. Seydoux; M. Zellweger; M. Pfleiderer  et al.

[181] Red and NIR light dosimetry in the human deep brain

A. Pitzschke; B. Lovisa; O. Seydoux; M. Zellweger; M. Pfleiderer  et al.

DOI : 10.1088/0031-9155/60/7/2921

[180] Fluence plays a critical role on the subsequent distribution of chemotherapy and tumor growth delay in murine mesothelioma xenografts pre-treated by photodynamic therapy

Y. Wang; X. Wang; M.-A. Le Bitoux; G. Wagnieres; H. Vandenbergh  et al.

DOI : 10.1002/lsm.22329

[179] Optical properties of rabbit brain in the red and near-infrared: changes observed under in vivo, postmortem, frozen, and formalin-fixated conditions

A. Pitzschke; B. Lovisa; O. Seydoux; M. Haenggi; M. F. Oertel  et al.

DOI : 10.1117/1.Jbo.20.2.025006

[178] Endosomes: Guardians Against [Ru(Phen)3]2+ Photo-action In Endothelial Cells During In Vivo pO2 Detection?

V. Huntosova; K. Stroffekova; G. Wagnieres; M. Novotova; Z. Nichtova  et al.

DOI : 10.1039/C4MT00190G

[177] Temperature and oxygen-concentration dependence of singlet oxygen production by RuPhen as induced by quasi-continuous excitation

J. Varchola; V. Huntosova; D. Jancura; G. Wagnieres; P. Miskovsky  et al.

DOI : 10.1039/C4PP00202D

[176] Low-Dose Vascular Photodynamic Therapy Decreases Tumor Interstitial Fluid Pressure, which Promotes Liposomal Doxorubicin Distribution in a Murine Sarcoma Metastasis Model

J. Y. Perentes; Y. Wang; X. Wang; E. Abdelnour; M. Gonzalez  et al.

DOI : 10.1016/j.tranon.2014.04.010

[175] In vivo measurement of tissue oxygenation by time-resolved luminescence spectroscopy: advantageous properties of dichlorotris(1, 10-phenanthroline)-ruthenium(II) hydrate

V. Huntosova; S. Gay; P. Nowak-Sliwinska; S. K. Rajendran; M. Zellweger  et al.

DOI : 10.1117/1.JBO.19.7.077004

[174] Optical spectroscopy of the bladder washout fluid to optimize fluorescence cystoscopy with Hexvix

C. Martoccia; M. Zellweger; B. Lovisa; P. Jichlinski; H. Van Den Bergh  et al.

DOI : 10.1117/1.JBO.19.9.097002

[173] Light dose plays a critical role for the distribution of chemotherapy and tumor response in mesothelioma xenografts pre-treated by photodynamic therapy

J. Y. Perentes; X. Wang; Y. Wang; M.-A. Le Bitoux; G. Wagnieres  et al.

[172] Detection of Bladder Cancer by Fluorescence Cystoscopy: From Bench to Bedside - the Hexvix Story

G. Wagnières; P. Jichlinski; N. Lange; P. Kucera; H. van den Bergh

DOI : 10.1201/b15582-41.

[171] Study of the stability of the 5-aminolevulinic acid tyrosine ester in aqueous solution

S. Gay; C. Martoccia; M. Zellweger; Q. Wang; G. Wagnières

DOI : 10.3998/ark.5550190.p008.469

[170] Correlation between Protoporphyrin IX Fluorescence Intensity, Photobleaching, Pain and Clinical Outcome of Actinic Keratosis Treated by Photodynamic Therapy

F. Piffaretti; M. Zellweger; B. Kasraee; J. Barge; D. Salomon  et al.

DOI : 10.1159/000353775

[169] Correlations between photoactivable porphyrins’ fluorescence, erythema and the pain induced by PDT on normal skin using ALA-derivatives

J. Barge; T. Glanzmann; M. Zellweger; D. Salomon; H. Van Den Bergh  et al.

DOI : 10.1016/j.pdpdt.2013.08.005

[168] Near-Infrared 808 nm Light Boosts Complex IV-Dependent Respiration and Rescues a Parkinson-Related pink1 Model

M. Vos; B. Lovisa; A. Geens; V. A. Morais; G. Wagnières  et al.

DOI : 10.1371/journal.pone.0078562

[167] Etude préclinique des effets vasculaires induits par la thérapie photodynamique de nouveaux dérivés d’acide 5-aminolevulinique

S. Gay; C. Martoccia; J. Barge; P. Nowak-Sliwinska; G. Wagnières

[166] Reflectance imaging of the human retina at 810 nm does not suffice to optimize the parameters of hydrodynamic rebalancing laser treatment

F. Piffaretti; J.-P. Ballini; R. Perotti; M. Zellweger; E. Vezzola  et al.

DOI : 10.1117/1.Jbo.17.11.116027

[165] Real-time, in vivo measurement of tissular pO(2) through the delayed fluorescence of endogenous protoporphyrin IX during photodynamic therapy

F. Piffaretti; A. M. Novello; R. S. Kumar; E. Forte; C. Paulou  et al.

DOI : 10.1117/1.Jbo.17.11.115007

[164] Photoactive sawhorse-type diruthenium tetracarbonyl complexes

J. P. Johnpeter; F. Schmitt; E. Denoyelle-Di-Muro; G. Wagnieres; L. Juillerat-Jeanneret  et al.

DOI : 10.1016/j.ica.2012.05.026

[163] Probing the Interaction Between a Surfactant-Cobalt(III) Complex and Bovine Serum Albumin

R. Senthil Kumar; H. van den Bergh; G. Wagnières

DOI : 10.1007/s10953-012-9800-0

[162] Angiogenesis inhibition by the maleimide-based small molecule GNX-686

P. Nowak-Sliwinska; M. Storto; T. Cataudella; J.-P. Ballini; R. Gatz  et al.

DOI : 10.1016/j.mvr.2011.10.004

[161] Study of the pO2-sensitivity of the dendrimeric and free forms of Pd-meso-tetra(4-carboxyphenyl)porphyrin, incorporated or not in chitosan-based nanoparticles

P. Nowak-Sliwinska; P. Käuper; H. van den Bergh; G. Wagnières

DOI : 10.2533/chimia.2011.691

[160] Organometallic Ruthenium(II) Arene Compounds with Antiangiogenic Activity

P. Nowak-Sliwinska; V. Beijnum; R. Judy; A. Casini; A. A. Nazarov  et al.

DOI : 10.1021/jm2002074

[159] Human serum albumin binding and cytotoxicity studies of surfactant–cobalt(III) complex containing 1,10-phenanthroline ligand

R. S. Kumar; P. Paul; A. Riyasdeen; G. Wagnières; H. van den Bergh  et al.

DOI : 10.1016/j.colsurfb.2011.03.012

[158] Low dose endoluminal photodynamic therapy improves murine T cell-mediated colitis

L. Favre; F. Borle; D. Velin; D. Bachmann; H. Bouzourene  et al.

DOI : 10.1055/s-0030-1256382

[157] Errata: Processing of Fluorescence Angiograms for the Quantification of Vascular Effects Induced by Anti-angiogenic Agents in the CAM model (vol 79, pg 21, 2010)

P. Nowak-Sliwinska; J.-P. Ballini; G. Wagnières; H. van den Bergh

DOI : 10.1016/j.mvr.2010.01.009

[156] Early stirrings of landscape genomics: Awaiting next-next generation sequencing platforms before take-off

S. Joost; R. Negrini

[155] Chitosan-based nanogels for selective delivery of photosensitizers to macrophages and improved retention in and therapy of articular joints

F. Schmitt; L. Lagopoulos; P. Kaeuper; N. Rossi; N. Busso  et al.

DOI : 10.1016/j.jconrel.2010.02.008

[154] In vitro and in vivo photocytotoxicity of boron dipyrromethene derivatives for photodynamic therapy

S. H. Lim; C. Thivierge; P. Nowak-Sliwinska; J. Han; H. van den Bergh  et al.

DOI : 10.1021/jm901823u

[153] The Neovessel Occlusion Efficacy of 15(1)-hydroxypurpurin-7-lactone dimethyl ester induced with photodynamic therapy

S. H. Lim; P. Nowak-Sliwinska; F. A. Kamarulzaman; H. Van Den Bergh; G. Wagnières  et al.

DOI : 10.1111/j.1751-1097.2009.00684.x

[152] Angiostasis-induced vascular normalization can improve photodynamic therapy

P. Nowak-Sliwinska; G. Wagnières; H. van den Bergh; A. W. Griffioen

DOI : 10.1007/s00018-010-0294-x

[151] Processing of fluorescence angiograms for the quantification of vascular effects induced by anti-angiogenic agents in the CAM model

P. Nowak-Sliwinska; J.-P. Ballini; G. Wagnières; H. Van Den Bergh

DOI : 10.1016/j.mvr.2009.10.004

[150] Photodynamic Therapy Selectively Enhances Liposomal Doxorubicin Uptake in Sarcoma Tumors to Rodent Lungs

C. Cheng; E. Debefve; A. Haouala; S. Andrejevic-Blant; T. Krueger  et al.

DOI : 10.1002/lsm.20912

[149] Fluorescence of the bladder washout fluid following cystoscopy: a preliminary study

B. Lovisa; A. M. Novello; P. Jichlinski; H. van den Bergh; G. Wagnieres

[148] Pioneers in biomedical optics: Special section honoring professor Tayyaba Hasan

B. W. Pogue; G. A. Wagnieres; L. D. Lilge

DOI : 10.1117/1.3492580

[147] High-magnification vascular imaging to reject false-positive sites in situ during Hexvix® fluorescence cystoscopy

B. Lovisa; P. Jichlinski; B.-C. Weber; D. Aymon; H. van den Bergh  et al.

DOI : 10.1117/1.3484257

[146] Development of Minimally-Invasive Optical Methods to Individualize the Doses Used for Therapeutic Applications of Light

F. Piffaretti / G. Wagnières (Dir.)

[145] Endoscopic Fluorescence Imaging

B. Lovisa / G. Wagnières (Dir.)

[144] In vitro and in vivo studies of new photoluminescent oxygen sensors for non-invasive intravascular pO 2 measurements

P. Nowak-Sliwinska; E. Forte; H. Van Den Bergh; G. Wagnières

[143] Vascular effects induced by anti-VEGF agents in the CAM model: Effect of the DMSO

P. Nowak-Sliwinska; J.-P. Ballini; H. Van Den Bergh; G. Wagnières

[142] In vivo time-resolved spectroscopy of the human bronchial early cancer autofluorescence

P. Uehlinger; T. Gabrecht; T. Glanzmann; J.-P. Ballini; A. Radu  et al.

DOI : 10.1117/1.3088100

[141] Detection of early bladder carcinoma by fluorescence cystoscopy with Hexvix: optical characterization of a high magnification cystoscope

B. Lovisa; P. Jichlinski; D. Aymon; B.-C. Weber; H. Van Den Bergh  et al.

[140] Bladder cancer detection by fluorescence imaging with Hexvix®: Analysis and processing of images obtained during high magnification cystoscopy

B. Lovisa; P. Jichlinski; D. Aymon; B.-C. Weber; H. van den Bergh  et al.

[139] Photodynamic Hair Re-Growth Inhibition With Ala Derivatives

J. Barge; T. Glanzmann; D. Salomon; H. van den Bergh; G. Wagnières

[138] Autofluorescence bronchoscopy: quantification of inter-patient variations of fluorescence intensity

T. Gabrecht; B. Lovisa; H. van den Bergh; G. Wagnières

DOI : 10.1007/s10103-007-0518-y

[137] Assessment of a sheep animal model to optimize photodynamic therapy with Foscan in the esophague

T. Glanzmann; M. Zellweger; F. Borle; R. Conde; A. Radu  et al.

DOI : 10.1002/lsm.20844

[136] Improvement of the specificity of cancer detection by autofluorescence imaging in the tracheo-bronchial tree using backscattered violet light

T. Gabrecht; A. Radu; P. Grosjean; B. Weber; G. Reichle  et al.

DOI : 10.1016/j.pdpdt.2008.01.005

[135] Autofluorescence detection of tumors in the human lung - spectroscopical measurements in situ, in an in vivo model and in vitro

D. Hüttenberger; T. Gabrecht; G. Wagnières; B. Weber; A. Linder  et al.

DOI : 10.1016/j.pdpdt.2008.05.002

[134] Fluorescence cystoscopy: Perspective in clinical practice and research

P. Jichlinski; B. Lovisa; C. Erling; D. Aymon; H. van den Bergh  et al.

DOI : 10.1007/s00120-008-1778-2

[133] Video monitoring of neovessel occlusion induced by photodynamic therapy with verteporfin (Visudyne(r)), in the CAM model

E. Debefve; B. Pegaz; H. van den Bergh; G. Wagnières; N. Lange  et al.

DOI : 10.1007/s10456-008-9106-4

[132] Comparison of ALA- and ALA hexyl-ester-induced PpIX depth distribution in human skin carcinoma

N. Dögnitz; D. Salomon; M. Zellweger; J.-P. Ballini; T. Gabrecht  et al.

DOI : 10.1016/j.jphotobiol.2008.07.012

[131] Glycoside esters of 5-aminolevulinic acid for photodynamic therapy of cancer

R. Vallinayagam; F. Schmitt; J. Barge; G. Wagnières; V. Wenger  et al.

DOI : 10.1021/bc700324r

[130] Detection of early bladder carcinoma by fluorescence cystoscopy with Hexvix(R): Improvement of the specificity by microcystoscopy

B. Lovisa; P. Jichlinski; D. Aymon; H. Van Den Bergh; G. Wagnières

[129] Detection of early bronchial cancer by autofluorescence: Results in patients with H&N cancer

T. Gabrecht; A. Radu; M. Zellweger; B. Lovisa; D. Goujon  et al.

[128] Correlations between tissular effects, PPIX fluorescence and the pain induced by PDT on normal skin

D. Salomon; J. Barges; T. Glanzmann; G. Wagnieres

[127] Design of an endoscopic optical reference to be used for autofluorescence bronchoscopy with a commercially available diagnostic autofluorescence endoscopy (DAFE) system

T. Gabrecht; B. Lovisa; F. Borle; G. Wagnières

DOI : 10.1088/0031-9155/52/8/N02

[126] Blue-violet excited autofluorescence spectroscopy and imaging of normal and cancerous human bronchial tissue after formalin fixation

T. Gabrecht; S. Andrejevic-Blant; G. Wagnières

DOI : 10.1562/2006-03-20-RA-852

[125] Design of a light delivery system for the photodynamic treatment of the Crohn's disease

T. Gabrecht; F. Borle; H. Van Den Bergh; P. Michetti; M.-A. Ortner  et al.

[124] Autofluorescence bronchoscopy: Clinical experience with an optimized system in head and neck cancer patients

T. Gabrecht; A. Radu; M. Zellweger; B. Lovisa; D. Goujon  et al.

DOI : 10.1016/j.mla.2007.09.003

[123] Optimized autofluorescence bronchoscopy using additional backscattered red light

T. Gabrecht; T. Glanzmann; L. Freitag; B.-C. Weber; H. van den Bergh  et al.

DOI : 10.1117/1.2811952

[122] Improvement of the Contrast in Cancer Detection by Autofluorescence Bronchoscopy using a narrow spectral violet Excitation: A preliminary study

B. Lovisa; T. Gabrecht; S. Andrejevic; P. Grosjean; A. Radu  et al.

DOI : 10.1016/j.bspc.2007.07.004

[121] Detection of early bronchial cancer by autofluorescence: first clinical results with an improved system

M. Zellweger; D. Goujon; A. Radu; P. Grosjean; T. Stepinac  et al.

[120] Photodynamic therapy as a novel therapeutic approach for the treatment of Crohn's disease

L. Favre; D. Velin; F. Borle; D. Bachmann; S. Schreiber  et al.

[119] Improvement of the contrast in cancer detection by autofluorescence bronchoscopy using a narrow spectral violet excitation: A preliminary study

B. Lovisa; T. Gabrecht; S. Andrejevic; P. Grosjean; A. Radu  et al.

[118] Preclinical comparison of mTHPC and verteporfin for intracavitary photodynamic therapy of malignant pleural mesothelioma

I. Opitz; T. Krueger; Y. Pan; H.-J. Altermatt; G. Wagnières  et al.

DOI : 10.1159/000094028

[117] Photothrombic activity of m-THPC-loaded liposomal formulations: pre-clinical assessment on chick chorioallantoic membrane model

B. Pegaz; E. Debefve; J.-P. Ballini; G. Wagnières; S. Spaniol  et al.

DOI : 10.1016/j.ejps.2006.01.008

[116] On the role of iron and one of its chelating agents in the production of protoporphyrin IX generated by 5-aminolevulinic acid and its hexyl ester derivative tested on an epidermal equivalent of human skin

P. Uehlinger; J. P. Ballini; H. van den Bergh; G. Wagnieres

DOI : 10.1562/2005-12-04-RA-745

[115] Clinical fluorescence spectroscopy and imaging for the detection of early carcinoma by autofluorescence bronchoscopy and the study of the protoporphyrin IX pharmacokinetics in the endometrium

T. Gabrecht / G. Wagnières (Dir.)

[114] Influence of the excitation wavelength on the Tumor-to-Healthy Contrast in Autofluorescence Bronchoscopy - A Comprehensive Study

T. Gabrecht; P. Uehlinger; S. Andrejevic; P. Grosjean; A. Radu  et al.

[113] Autofluorescence detection of tumors in the human lung: comparison between in-vivo and in vitro measurements

D. Hüttenberger; T. Gabrecht; G. Wagnières; B. Weber; A. Linder  et al.

[112] Influence of the menstrual cycle on aminolevulinic acid induced protoporphyrin IX fluorescence in the endometrium: in vivo study

A. Degen; T. Gabrecht; G. Wagnieres; R. Caduff; B. Imthurn  et al.

DOI : 10.1002/lsm.20139

[111] Preclinical evaluation of a novel water-soluble chlorin E-6 derivative (BLC 1010) as photosensitizer for the closure of the neovessels

B. Pegaz; E. Debefve; F. Borle; J. P. Ballini; G. Wagnieres  et al.

DOI : 10.1562/2005-02-23-RA-448

[110] Photodynamic therapy and endoscopic mucosal resection as minimally invasive approaches for the treatment of early esophageal tumors: Pre-clinical and clinical experience in Lausanne

A. Radu; P. Grosjean; Y. Jaquet; R. Pilloud; G. Wagnières  et al.

DOI : 10.1016/S1572-1000(05)00035-9

[109] Light-induced retinal vascular damage by Pd-porphyrin luminescent oxygen probes

T. K. Stepinac; S. K. Chamot; E. Rungger-Brandle; P. Ferrez; J. L. Munoz  et al.

DOI : 10.1167/iovs.04-0500

[108] Méthodes optiques de mesure de la concentration d'oxygène tissulaire pour la photothérapie dynamique

G. Wagnières

[107] Time-dependent hexaminolaevulinate induced protoporphyrin IX distribution after topical application in patients with cervical intraepithelial neoplasia: A fluorescence microscopy study

S. Andrejevic-Blant; A. Major; F. Ludicke; J. P. Ballini; G. Wagnieres  et al.

DOI : 10.1002/lsm.20095

[106] Photodynamic endometrial ablation for the treatment of dysfunctional uterine bleeding: A preliminary report

A. F. Degen; T. A. Gabrecht; L. Mosimann; M. K. Fehr; R. Hornung  et al.

DOI : 10.1002/lsm.10244

[105] Optimalisation de la photothérapie dynamique et de la photodétection de cancers précoces par spectroscopie résolue en temps de luminophores endogènes et exogènes

P. Uehlinger / G. Wagnières (Dir.)

[104] Method for hair removal

H. van den Bergh; G. Wagnieres; N. Lange; N. Doegnitz; D. Salomon

[103] Optimization of the spectral design used to detect early carcinoma in the human tracheo-bronchial tree by autofluorescence imaging

T. Gabrecht; T. Glanzmann; L. Freitag; P. Grosjean; B. Weber  et al.

[102] On the influence of the instillation time on the results of HAL (Hexvix®) fluorescence detection of superficial bladder cancer

P. Jichlinski; D. Aymon; G. Wagnières; A. Marti; N. Lange  et al.

[101] Photodynamic endometrial ablation: Morphological study

P. Wyss; R. Caduff; Y. Tadir; A. Degen; G. Wagnières  et al.

DOI : 10.1002/lsm.10163

[100] Lung cancer Imaging by autofluorescence bronchoscopy

G. Wagnières; A. Mc Williams; S. Lam

[99] In vivo autofluorescence imaging of early cancers in the human tracheobronchial tree with a spectrally optimized system

D. Goujon; M. Zellweger; A. Radu; P. Grosjean; B.-C. Weber  et al.

DOI : 10.1117/1.1528594

[98] Selectivity of the photosensitiser Tookad((R)) for photodynamic therapy evaluated in the Syrian golden hamster cheek pouch tumour model

F. Borle; A. Radu; C. Fontolliet; H. van den Bergh; P. Monnier  et al.

DOI : 10.1038/sj.bjc.6601428

[97] Evaluation of the photosensitizer Tookad (R) for photodynamic therapy on the Syrian golden hamster cheek pouch model: Light dose, drug dose and drug-light interval effects

F. Borle; A. Radu; P. Monnier; H. van den Bergh; G. Wagnieres

DOI : 10.1562/0031-8655(2003)078<0377:EOTPTF>2.0.CO;2

[96] Photodynamic diagnosis of ovarian cancer using hexaminolaevulinate: a preclinical study

F. Ludicke; T. Gabrecht; N. Lange; G. Wagnieres; H. van den Bergh  et al.

DOI : 10.1038/sj.bjc.6600958

[95] Mucosal ablation with photodynamic therapy in the esophagus: optimization of light dosimetry in the sheep model

A. Radu; R. Conde; C. Fontolliet; G. Wagnieres; H. Van den Bergh  et al.

DOI : 10.1016/S0016-5107(03)70027-3

[94] Endoscopic fluorescence detection of intraepithelial neoplasia in Barrett's esophagus after oral administration of aminolevulinic acid

T. Stepinac; C. Felley; P. Jornod; N. Lange; T. Gabrecht  et al.

DOI : 10.1055/s-2003-41514

[93] Caractérisation de tissus biologiques in vivo par imagerie de l'intensité ou du temps de vie de luminescence

T. Stepinac / G. Wagnières (Dir.)

[92] In vivo fluorescence spectroscopy to optimize the detection of early bronchial carcinoma by autofluorescence imaging

G. Wagnières; M. Zellweger; P. Grosjean; D. Goujon; R. Conde  et al.

[91] Uptake and localisation of mTHPC (Foscan (R)) and its C-14-labelled form in normal and tumour tissues of the hamster squamous cell carcinoma model: a comparative study

S. A. Blant; T. M. Glanzmann; J. P. Ballini; G. Wagnieres; H. van den Bergh  et al.

DOI : 10.1038/sj.bjc.6600651

[90] Optimization of the diameter of a radial irradiation device for photodynamic therapy in the esophagus

T. Stepinac; P. Grosjean; A. Woodtli; P. Monnier; H. van den Bergh  et al.

DOI : 10.1055/s-2002-25280

[89] Photoeradication of Helicobacter pylori using 5-aminolevulinic acid: Preliminary human studies

C. H. Wilder-Smith; P. Wilder-Smith; P. Grosjean; H. van den Bergh; A. Woodtli  et al.

DOI : 10.1002/lsm.10066

[88] Time-resolved autofluorescence spectroscopy of the bronchial mucosa for the detection of early cancer: Clinical results

T. M. Glanzmann; P. Uehlinger; J.-P. Ballini; A. Radu; T. Gabrecht  et al.

[87] First report on hexyl-ester aminolevulinic acid (h-ALA) induced fluorescence cystoscopy in superficial bladder cancer

P. Jichlinski; A. Marti; L. Guillou; N. Lange; G. Wagnières

[86] Detection of early bronchial carcinoma by imaging of the tissue autofluorescence

D. Goujon; T. Glanzmann; T. Gabrecht; M. Zellweger; A. Radu  et al.

[85] A new drug-screening procedure for photosensitizing agents used in photodynamic therapy for CNV

N. Lange; J. P. Ballini; G. Wagnieres; H. van den Bergh

[84] Localization of tetra(m-hydroxyphenyl)chlorin (Foscan) in human healthy tissues and squamous cell carcinomas of the upper aero-digestive tract, the esophagus and the bronchi: a fluorescence microscopy study

S. A. Blant; P. Grosjean; J. P. Ballini; G. Wagnieres; H. van den Bergh  et al.

DOI : 10.1016/S1011-1344(01)00148-8

[83] Absolute autofluorescence spectra of human healthy, metaplastic, and early cancerous bronchial tissue in vivo

M. Zellweger; D. Goujon; R. Conde; M. Forrer; H. van den Bergh  et al.

DOI : 10.1364/AO.40.003784

[82] In vivo autofluorescence spectroscopy of human bronchial tissue to optimize the detection and imaging of early cancers

M. Zellweger; P. Grosjean; D. Goujon; P. Monnier; H. van den Bergh  et al.

DOI : 10.1117/1.1332774

[81] 5-Aminolevulinic acid and its derivatives: physical chemical properties and protoporphyrin IX formation in cultured cells

P. Uehlinger; M. Zellweger; G. Wagnières; L. Juillerat-Jeanneret; H. van den Bergh  et al.

DOI : 10.1016/S1011-1344(99)00159-1

[80] Photodynamic therapy of early squamous cell cancers of the esophagus

A. Radu; G. Wagnières; H. van den Bergh; P. Monnier

[79] Time-dependent biodistribution of tetra(m-hydroxyphenyl)chlorin and benzoporphyrin derivative monoacid ring A in the hamster model: comparative fluorescence microscopy study

S. Andrejevic Blant; J. P. Ballini; H. van den Bergh; C. Fontolliet; G. Wagnières  et al.

DOI : 10.1562/0031-8655(2000)0710333TDBOTM2.0.CO2

[78] A light distributor for photodynamic endometrial ablation

R. Bays; A. Woodtli; L. Mosimann; P. Wyss; G. Wagnières  et al.

DOI : 10.1159/000062772.

[77] Pharmacokinetics and pharmacodynamics of tetra(m-hydroxyphenyl)chlorin in the hamster cheek pouch tumor model: comparison with clinical measurements

T. Glanzmann; M. Forrer; S. Andrejevic Blant; A. Woodtli; P. Grosjean  et al.

DOI : 10.1016/S1011-1344(00)00069-5

[76] Fluorescence pharmacokinetics of Lutetium Texaphyrin (PCI-0123, Lu-Tex) in the skin and in healthy and tumoral hamster cheek-pouch mucosa

M. Zellweger; A. Radu; P. Monnier; H. van den Bergh; G. Wagnières

DOI : 10.1016/S1011-1344(00)00027-0

[75] Fluorescence spectroscopy of exogenous, exogenously-induced and endogenous fluorophores for the photodetection and photodynamic therapy of cancer

M. Zellweger / G. Wagnières (Dir.)

[74] Solution for diagnosing or treating tissue pathology

A. Marti; N. Lange; M. Zellweger; G. Wagnieres; H. Van Den Bergh  et al.

[73] Noninvasive determination of the optical properties of two-layered turbid media from time-resolved reflectance measurements

A. Kienle; T. Glanzmann; G. Wagnieres; H. van den Bergh

[72] Frequency-Domain Fluorescence Lifetime Imaging (FLIM) For Real-Time Endoscopic Tissue Characterization

G. Wagnières; T. Stepinac; J. Miseret; H. van den Bergh

[71] Stability of the fluorescence measurement of Foscan in the normal human oral cavity as an indicator of its content in early cancers of the esophagus and the bronchi

M. Zellweger; P. Grosjean; P. Monnier; H. Van Den Bergh; G. Wagnieres

DOI : 10.1111/j.1751-1097.1999.tb03335.x

[70] Photoeradication of Helicobacter pylori in humans: Phase 1 study

C. H. Wilder-Smith; P. Grosjean; G. Wagnieres; P. Wilder-Smith; G. Dorta  et al.

[69] Time-resolved spectrofluorometer for clinical tissue characterization during endoscopy

T. Glanzmann; J.-P. Ballini; H. van den Bergh; G. Wagnieres

DOI : 10.1063/1.1150038

[68] In vivo fluence rate and fractionation effects on tumor response and photobleaching: Photodynamic therapy with two photosensitizers in an orthotopic rat tumor model

S. Iinuma; K. T. Schomacker; G. Wagnieres; M. Rajadhyaksha; M. Bamberg  et al.

[67] Photodetection of early human bladder cancer based on the fluorescence of 5-aminolaevulinic acid hexylester-induced protoporphyrin IX: a pilot study

N. Lange; P. Jichlinski; M. Zellweger; M. Forrer; A. Marti  et al.

DOI : 10.1038/sj.bjc.6690338

[66] Instrumentation for real-time fluorescence lifetime imaging in endoscopy

J. Mizeret; T. Stepinac; M. Hansroul; A. Studzinski; H. van den Bergh  et al.

DOI : 10.1063/1.1150132

[65] Photodynamic therapy for 101 early cancers of the upper aerodigestive tract, the esophagus, and the bronchi: a single-institution experience

A. Radu; P. Grosjean; C. Fontolliet; G. Wagnières; A. Woodtli  et al.

DOI : 10.1155/DTE.5.145

[64] Dependence of time and space resolved reflectance on the anisotropy factor g and on the shape of the phase function

S. Avrillier; B. Gelebart; J.-M. Tualle; E. Tinet; G. Wagnieres

[63] Long circulating half-life and high tumor selectivity of the photosensitizer meta-tetrahydroxyphenylchlorin conjugated to polyethylene glycol in nude mice grafted with a human colon carcinoma

P. Westermann; T. Gianzmann; S. Andrejevic; D. R. Braichotte; M. Forrer  et al.

DOI : 10.1002/(SICI)1097-0215(19980610)76:6<842::AID-IJC13>3.0.CO;2-4

[62] Clinical evaluation of the cutaneous phototoxicity of 5, 10, 15, 20-tetra (m-hydroxyphenyl)chlorin

G. Wagnieres; C. Hadjur; P. Grosjean; D. Braichotte; J.-F. Savary  et al.

DOI : 10.1111/j.1751-1097.1998.tb09696.x

[61] Noninvasive determination of the optical properties of two-layered turbid media

A. Kienle; M. S. Patterson; N. Dognitz; R. Bays; G. Wagnieres  et al.

DOI : 10.1364/AO.37.000779

[60] Investigation of two-layered turbid media with time-resolved reflectance

A. Kienle; T. Glanzmann; G. Wagnieres; H. van den Bergh

DOI : 10.1364/AO.37.006852

[59] Clinical photodynamic therapy for superficial cancer in the esophagus and the bronchi: 514 nm compared with 630 nm light irradiation after sensitization with Photofrin II

P. Grosjean; G. Wagnieres; C. Fontolliet; H. Van Den Bergh; P. Monnier

DOI : 10.1038/bjc.1998.330

[58] Pharmacokinetics of tetra(m-hydroxyphenyl)chlorin in human plasma and individualized light dosimetry in photodynamic therapy

T. Glanzmann; C. Hadjur; M. Zellweger; P. Grosjean; M. Forrer  et al.

DOI : 10.1111/j.1751-1097.1998.tb09099.x

[57] Interstitial photodynamic therapy with tetra(m-hydroxyphenyl)chlorin: tumor versus striated muscle damage

S. Andrejevic-Blant; A. Woodtli; G. Wagnieres; C. Fontolliet; H. Van Den Bergh  et al.

DOI : 10.1016/S0360-3016(98)00221-1

[56] Determination of tissue optical properties by steady-state spatial frequency-domain reflectometry

N. Dognitz; G. Wagnières

DOI : 10.1007/BF00592960

[55] Spectroscopic studies of photobleaching and photoproduct formation of meta(tetrahydroxyphenyl)chlorin (m-THPC) used in photodynamic therapy. The production of singlet oxygen by m-THPC

C. Hadjur; N. Lange; J. Rebstein; P. Monnier; H. van den Bergh  et al.

DOI : 10.1016/S1011-1344(98)00177-8

[54] Photodynamic therapy of early squamous cell carcinomas of the esophagus: A review of 31 cases

J. F. Savary; P. Grosjean; P. Monnier; C. Fontolliet; G. Wagnieres  et al.

DOI : 10.1055/s-2007-1001252

[53] In vivo fluorescence spectroscopy and imaging for oncological applications

G. Wagnières; W. M. Star; B. C. Wilson

DOI : 10.1111/j.1751-1097.1998.tb02521.x

[52] Fluorescence photodetection of urothelial neoplastic foci in superficial bladder cancer

P. Jichlinski; M. Forrer; J. C. Mizeret; D. Braichotte; G. Zimmer  et al.

[51] Determination of the absorption and reduced scattering coefficients of human skin and bladder by spatial frequency domain reflectometry

N. Dögnitz; G. Wagnières; A. Kienle; H. Van den Bergh

[50] An endoscopic fluorescence imaging system for simultaneous visual examination and photodetection of cancers

G. Wagnières; A. Studzinski; H. van den Bergh; E. Hubert

DOI : 10.1063/1.1147811

[49] Photodynamic therapy for early squamous cell carcinomas of the esophagus, bronchi, and mouth with m-tetra(hydroxyphenyl) chlorin

J.-F. Savary; P. Monnier; C. Fontolliet; J. Mizeret; G. Wagnières  et al.

DOI : 10.1001/archotol.1997.01900020042006

[48] EPR and spectrophotometric studies of free radicals (O2.-, .OH, BPD-MA.-) and singlet oxygen (1O2) generated by irradiation of benzoporphyrin derivative monoacid ring A

C. Hadjur; G. Wagnieres; P. Monnier; H. Van Den Bergh

DOI : 10.1111/j.1751-1097.1997.tb01929.x

[47] Photodynamic therapy of early squamous cell carcinoma with tetra(m-hydroxyphenyl)chlorin: optimal drug-light interval

S. Andrejevic-Blant; C. Hadjur; J. P. Ballini; G. Wagnières; C. Fontolliet  et al.

DOI : 10.1038/bjc.1997.502

[46] Light dosimetry for photodynamic therapy in the esophagus

R. Bays; G. Wagnieres; D. Robert; D. Braichotte; J. F. Savary  et al.

DOI : 10.1002/(SICI)1096-9101(1997)20:3<290::AID-LSM8>3.0.CO;2-L

[45] Three-dimensional optical phantom and its application in photodynamic therapy

R. Bays; G. Wagnieres; D. Robert; J. F. Theumann; A. Vitkin  et al.

DOI : 10.1002/(SICI)1096-9101(1997)21:3<227::AID-LSM2>3.0.CO;2-S

[44] Wavelength-dependent effect of tetra(m-hydroxyphenyl)chlorin for photodynamic therapy in an 'early' squamous cell carcinoma model

S. A. Blant; J. F. Theumann; M. Forrer; G. Wagnieres; H. Van den Bergh  et al.

DOI : 10.1007/BF02765108

[43] Production of the free radicals O-2(.-) and OH by irradiation of the photosensitizer zinc(II) phthalocyanine

C. Hadjur; G. Wagnières; F. Ihringer; P. Monnier; H. van den Bergh

DOI : 10.1016/S1011-1344(96)07440-4

[42] Photoinduction of fluorophores in the retina using a 514-nm argon ion laser

J. Inderfurth; G. Wagnieres

[41] Clinical evaluation of a method for detecting superficial transitional cell carcinoma of the bladder by light-induced fluorescence of protoporphyrin IX following topical application of 5-aminolevulinic acid: Preliminary results

P. Jichlinski; M. Forrer; J. Mizeret; T. Glanzmann; D. Braichotte  et al.

DOI : 10.1002/(SICI)1096-9101(1997)20:4<402::AID-LSM5>3.0.CO;2-U

[40] Clinical value of fluorescence cystoscopy in the detection of superficial transitional cell carcinomas of the bladder

P. Jichlinski; G. Wagnières; M. Forrer; J. Mizeret; L. Guillou  et al.

[39] An optical phantom with tissue-like properties in the visible for use in PDT and fluorescence spectroscopy

G. Wagnières; S. Cheng; M. Zellweger; N. Utke; D. Braichotte  et al.

DOI : 10.1088/0031-9155/42/7/014

[38] Frequency-domain fluorescence lifetime imaging for endoscopic clinical cancer photodetection: Apparatus design and preliminary results

G. Wagnières; J. Mizeret; A. Studzinski; H. Bergh

DOI : 10.1007/BF02764580

[37] Clinical imaging fluorescence apparatus for the endoscopic photodetection of early cancers by use of Photofrin II

G. Wagnières; A. Studzinski; D. R. Braichotte; P. Monnier; C. Depeursinge  et al.

DOI : 10.1364/AO.36.005608

[36] Clinical assessment of fluorescence cystoscopy during transurethral bladder resection in superficial bladder cancer

P. Jichlinski; G. Wagnieres; M. Forrer; J. Mizeret; L. Guillou  et al.

DOI : 10.1007/BF00942040

[35] Light distributors for photodynamic therapy | Les distributeurs de lumiere pour le traitement photodynamique

R. Bays; G. Wagnieres; J. Mizeret; A. Woodtli; M. Forrer  et al.

[34] Usefulness of fluorescence photodetection of neoplastic urothelial foci in bladder cancer following intravesical instillation of delta-aminolevulinic acid (5-ALA)

P. M. D. Jichlinski; M. Forrer; J. C. Mizeret; D. Braichotte; G. Wagnieres  et al.

[33] Design and characterization of a phantom that simultaneously simulates tissue optical properties between 400 and 650 nm

G. Wagnieres; S. Cheng; M. Zellweger; N. Utke; D. Braichotte  et al.

[32] Tissue characterization by time-resolved fluorescence spectroscopy of endogenous and exogenous fluorochromes: apparatus design and preliminary results

T. Glanzmann; J.-P. Ballini; P. M. D. Jichlinski; H. Van den Bergh; G. Wagnieres

[31] Measurements by fluorescence microscopy of the time-dependent distribution of meso-tetra-hydroxyphenylchlorin in healthy tissues and chemically induced ''early'' squamous cell carcinoma of the Syrian hamster cheek pouch

S. Andrejevic; J. F. Savary; P. Monnier; C. Fontolliet; D. Braichotte  et al.

DOI : 10.1016/S1011-1344(96)07362-9

[30] Clinical determination of tissue optical properties by endoscopic spatially resolved reflectometry

R. Bays; G. Wagnieres; D. Robert; D. Braichotte; J. F. Savary  et al.

DOI : 10.1364/AO.35.001756

[29] In-vivo fluence rate effect in photodynamic therapy of early cancers with tetra(m-hydroxyphenyl)chlorin

S. A. Blant; A. Woodtli; G. Wagnières; C. Fontolliet; H. van den Bergh  et al.

DOI : 10.1111/j.1751-1097.1996.tb01862.x

[28] Optimizing light dosimetry in photodynamic therapy of the bronchi by fluorescence spectroscopy

D. Braichotte; J. F. Savary; T. Glanzmann; P. Monnier; G. Wagnieres  et al.

DOI : 10.1007/BF02134915

[27] Photodynamic Therapy for Cancer of the Upper Aerodigestive Tract Using Tetra(m-hydroxyphenyl)chlorin

P. Grosjean; J. F. Savary; J. Mizeret; G. Wagnières; A. Woodtli  et al.

DOI : 10.1089/clm.1996.14.281

[26] Tetra(m-hydroxyphenyl)chlorin clinical photodynamic therapy of early bronchial and oesophageal cancers

P. Grosjean; J. F. Savary; G. Wagnieres; J. Mizeret; A. Woodtli  et al.

DOI : 10.1007/BF02134913

[25] Les indications et performances du laser en urologie

F. Schmidlin; P. Jichlinski; G. Delacrétaz; G. Wagnières; H. Leisinger  et al.

[24] Fluorescence excitation and emission spectra of ALA-induced protoporphyrin IX in normal and tumoral tissue of the human bladder

M. Forrer; T. Glanzmann; J. Mizeret; D. Braichotte; G. Wagnieres  et al.

[23] Fluorescence imaging photodetection of early cancer in the bronchi with mTHPC and in the bladder with ALA-induced protoporphyrin IX: preliminary clinical results

M. Forrer; J. Mizeret; D. Braichotte; G. Wagnieres; J.-F. Savary  et al.

[22] Evaluation with mTHPC of early squamous cell carcinomas of the cheek pouch mucosa of Golden Syrian hamsters as a model for clinical PDT of early cancers in the upper aerodigestive tract, the esophagus

T. Glanzmann; J.-F. Theumann; M. Forrer; D. Braichotte; G. Wagnieres  et al.

[21] Clinical measurements of tissue optical properties in the esophagus and in the oral cavity

R. Bays; G. Wagnieres; D. Robert; J. Mizeret; D. Braichotte  et al.

[20] Superficial bladder tumors | LES TUMEURS SUPERFICIELLES DE LA VESSIE

P. Jichlinski; J. Mizeret; M. Forrer; H. Van Den Bergh; F. Schmidlin  et al.

[19] Endoscopic frequency-domain fluorescence lifetime imaging for clinical cancer photodetection: apparatus design

G. Wagnieres; J. Mizeret; A. Studzinski; H. Bergh

[18] Importance of fluence rate in photodynamic therapy with ALA-induced PpIX and BPD-MA in a rat bladder tumor model

S. Iinuma; G. Wagnieres; K. T. Schomacker; M. Bamberg; T. Hasan

[17] In-vivo measurement of fluorescence bleaching of meso-tetra hydroxy phenyl chlorin (mTHPC) in the esophagus and the oral cavity

M. Forrer; T. Glanzmann; D. Braichotte; G. Wagnieres; H. Bergh  et al.

[16] Endoscopic tissue fluorescence life-time imaging by frequency domain light-induced fluorescence

J. Mizeret; G. Wagnieres; A. Studzinski; C. Shangguan; H. Bergh

[15] Clinical pharmacokinetic studies of photofrin by fluorescence spectroscopy in the oral cavity, the esophagus, and the bronchi

D. R. Braichotte; G. A. Wagnières; R. Bays; P. Monnier; V. Bergh  et al.

DOI : 10.1002/1097-0142(19950601)75:11<2768::AID-CNCR2820751122>3.0.CO;2-I

[14] Clinical pharmacokinetic studies of tetra(meta-hydroxyphenyl)chlorin in squamous cell carcinoma by fluorescence spectroscopy at 2 wavelengths

D. Braichotte; J.-F. Savary; T. Glanzmann; P. Westermann; S. Folli  et al.

DOI : 10.1002/ijc.2910630209

[13] Pharmacokinetics of meso-(tetrahydroxyphenyl)chlorin (mTHPC) studied by fluorescence spectroscopy on early cancer of the cheek pouch mucosa of Golden Syrian hamsters

T. Glanzmann; J.-F. Theumann; D. Braichotte; M. Forrer; G. Wagnieres  et al.

[12] Antibody-indocyanin conjugates for immunophotodetection of human squamous cell carcinoma in nude mice

S. Folli; P. Westermann; D. Braichotte; A. Pelegrin; G. Wagnieres  et al.

[11] A clinical comparison of the pharmacokinetics of m-THPC and photofrin II as observed by light induced fluorescence

D. Braichotte; J.-F. Savary; G. Wagnières; A. Mudry; C. Fontolliet  et al.

[10] Clinical LIF pharmacokinetic measurements with Photofrin II for optimizing the photodetection of early cancer

D. Braichotte; G. Wagnieres; J. M. Philippoz; R. Bays; H.-B. Ris  et al.

[9] Preliminary clinical results on a second generation photosensitizer: mTHPC

D. Braichotte; G. Wagnières; J. M. D. Philippoz; R. Bays; H. B. Ris  et al.

[8] Photoimmunodiagnosis with antibody-fluorescein conjugates: In vitro and in vivo preclinical studies

A. Pelegrin; S. Folli; G. Wagnieres; D. Braichotte; F. Buchegger  et al.

[7] Further appraisal of PDI and PDT of early squamous cell carcinomas of the pharynx, oesophagus and bronchi

P. Monnier; C. Fontolliet; G. Wagnières; D. Braichotte; H. van den Berg

[6] Clinical pharmacokinetic studies of Photofrin II by fluorescence spectroscopy

D. Braichotte; G. Wagnières; P. Monnier; R. Bays; H. van den Bergh

[5] Immunophotodiagnosis of Colon Carcinomas in Patients Injected with Fluoresceinated Chimeric Antibodies against Carcinoembryonic Antigen

S. Folli; G. Wagnières; A. Pelegrin; J. M. Calmes; D. Braichotte  et al.

DOI : 10.1073/pnas.89.17.7973

[4] Photofrin II pharmacokinetics and optical dosing in tissue: apparatus and clinical measurements for the pharynx, esophagus, and tracheobronchial tree

D. Braichotte; R. Bays; G. Wagnieres; A. Chatelain; C. W. Burckhardt  et al.

[3] Antibody-fluorescein conjugates for photoimmunodiagnosis of human colon carcinoma in nude mice

A. Pelegrin; S. Folli; F. Buchegger; J. P. Mach; G. Wagnières  et al.

DOI : 10.1002/1097-0142(19910515)67:10<2529::AID-CNCR2820671024>3.0.CO;2-B

[2] Photodetection of early cancer by laser induced fluorescence of a tumor-selective dye: apparatus design and realization

G. Wagnieres; C. Depeursinge; P. Monnier; M. Savary; P. Cornaz  et al.

[1] Photodetection and photodynamic therapy of "early" squamous cell carcinomas of the pharynx, oesophagus and tracheo-bronchial tree

P. Monnier; M. Savary; C. Fontolliet; G. Wagnières; A. Châtelain  et al.

DOI : 10.1007/BF02031377