Prof. Rolf-Markus Szeimies Profile

Prof. Rolf-Markus Szeimies

at Klinikum Vest GmbH

SPIE Involvement:

Author

Publications (12)

Proceedings Article | 7 August 2019 Presentation + Paper

Light emitting fabrics for PDT: technology and results of clinical studies

Serge Mordon, Elise Thecua, Fabienne Lecomte, Anne-Sophie Vignion-Dewalle, Pascal Deleporte, Cyril Maire, Henry Abi-Rached, Claire Vicentini, Theresa Hommel, R. Markus Szeimies, Laurent Mortier

Proceedings Volume 11070, 110705L (2019) https://doi.org/10.1117/12.2524874

KEYWORDS: Photodynamic therapy, Light, Dermatology, Light sources, Skin, Optical fibers, Manufacturing

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A homogeneous and reproducible fluence rate delivery during clinical PDT plays a determinant role in preventing underor overtreatment. In Dermatology, topical PDT has been carried out with a wide variety of light sources delivering a broad range of light doses. However, these light sources do not deliver a uniform light distribution on the skin due to their structure and morphology and the complexities of the human anatomy. The development of a flexible light source able to generate uniform light on all its surface would considerably improve the homogeneity of light delivery. The integration of plastic optical fibers (POF) into textile structures offers an interesting alternative. The homogeneous light side-emission from the fabric is obtained by controlling the bending angles of POF inside the LEF due to specific architecture generated by knitting of textile structure. LEF of different surfaces can be easily manufactured (up to 500cm² The LEF thickness is less than 1 mm. The mean irradiance is typically 2.5 mW.cm^-2. W-1 with heterogeneity of 12.5% at any point of the LEF. The temperature elevation remains below 1°C. These LEF were evaluated in Dermatology for the treatment of Actinic Keratosis. Two clinical evaluation were performed. The first one was a monocentric, randomized, controlled, phase II clinical study (ClinicalTrials.gov Identifier: NCT03076918). Twenty five (25) patients with grade I-II actinic keratosis (AK) of the forehead and scalp were treated with methyl aminolevulinate photodynamic therapy in two symmetrical areas. One area was treated with the conventional LED panel (154 AK), whereas the other area was treated with the LEF device (156 AK). The second clinical was performed in 2 centers. This new LEF device was a more ergonomic and compact version of the original system developed for FLEXIPDT. In this clinical study (ClinicalTrials.gov Identifier: NCT03076892), the irradiance has been reduced from 12.3 mW/cm² to 1.3 mW/cm² and the light dose from 37 J/cm² to 12 J/cm² . Compared to Conventional PDT, the 2 protocols clearly shown that LEF are equivalent and even superior in terms of efficacy for treating AK of the forehead and scalp. However, the use of LEF resulted in much lower pain scores and fewer adverse effects. In conclusion, thanks to LEF, PDT of AK can be conducted in all weather conditions, in any geographic location, year-round and benefits from the optimal adaptability of the flexible, light-emitting, fabrics to the treatment area. At last, LEF can be easily can be easily manufactured in large series.

Proceedings Article | 6 February 2017 Presentation + Paper

Light emitting fabric for photodynamic treatment of actinic keratosis

E. Thecua, C. Vicentini, A-S. Vignion, F. Lecomte, P. Deleporte, L. Mortier, R.-M. Szeimies, S. Mordon

Proceedings Volume 10037, 100370L (2017) https://doi.org/10.1117/12.2252201

KEYWORDS: Photodynamic therapy, Optical fibers, Light, Laser therapeutics, Laser optics, Sun, Phototherapy, Light sources, Light emitting diodes, Laser sources, Dermatology, Skin, Photography

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Proceedings Article | 31 January 1996 Paper

9-acetoxy-2,7,12,17-tetrakis-(B-methoxyethyl)-porphycene (ATMPn): a novel photosensitizer for photodynamic therapy--intracellular uptake and distribution in vitro

Rolf-Markus Szeimies, Sigrid Karrer, Pia Steinbach, Helmut Messmann, Michael Landthaler

Proceedings Volume 2625, (1996) https://doi.org/10.1117/12.230953

KEYWORDS: Luminescence, Photodynamic therapy, In vitro testing, Skin, Flow cytometry, Confocal microscopy, Rhodamine, Dermatology, Microscopy, Fluorescence correlation spectroscopy

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Proceedings Article | 31 January 1996 Paper

Targeting of the tumor microcirculation with a new photosensitizer

Christoph Abels, Marc Dellian, Rolf-Markus Szeimies, Pia Steinbach, C. Richert, Alwin Goetz

Proceedings Volume 2625, (1996) https://doi.org/10.1117/12.230983

KEYWORDS: Tumors, Luminescence, Photodynamic therapy, Tissues, Melanoma, Microscopy, Photosensitizer targeting, Tissue optics, Skin, Solids

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Tumors are characterized by an insufficient neoangiogenesis. Therefore targeting of the fragile tumor microcirculation by photodynamic therapy (PDT) may induce easily tumor ischemia leading to tumor necrosis. Nine-acetoxy-2,7,12,17-tetrakis-((beta) -methoxyethyl)- prophycene (ATMPn) is a chemically pure, lipophilic substance and revealed superior photodynamic characteristics in vitro as compared to Photofrin^R. In this study pharmacokinetics, photodynamic effects and localization of ATMPn incorporated in small unilamellar liposomes in tumor and surrounding normal tissue were evaluated. Amelanotic melanomas (A-Mel-3) were implanted in dorsal skin fold chambers fitted to Syrian Golden hamsters (70 - 80 g b.w.). Fluorescence kinetics of ATMPn administered intravenously (1.4 micrometers ol/kg b.w.; n equals 8) were monitored by intravital microscopy. Quantitative measurements of fluorescence intensity were carried out by digital image analysis. For tumor growth studies 1.4 micrometers ol/kg was injected 24 h (n equals 3), 3 h (n equals 3), 1 min (n equals 6) and 2.8 micrometers ol/kg 1 min (n equals 6) before PDT (630 nm, 100 mW/cm², 100 J/cm²). Tumor growth was measured over 28 days. Solid tumors (n equals 3) were excised 1 min after injection of ATMPn (1.4 micrometers ol/kg) and cryostat sections (10 micrometers) were analyzed by confocal laser scanning microscopy (CSLM) to determine tissue localization of dye. Maximal fluorescence (mean plus or minus S.E.) arose in tumor (94 plus or minus 7%) and surrounding host tissue (67 plus or minus 5%) 30 s post injection followed by a rapid decrease. Hardly any fluorescence was detectable after 12 h. Only PDT 1 min after injection of ATMPn was effective yielding 1/6 complete remission (1.4 micrometers ol/kg) and 3/6 complete remissions (2.8 mmol/kg), respectively. At that time dye is primarily localized in vessels and vessel walls as shown by CSLM. ATMPn in liposomes reveals very rapid kinetics thus suitable for intraoperative PDT. Moreover, PDT (2.8 micrometers ol/kg) at time, when dye is localized in tumor microcirculation, exhibits best tumor killing effects.

Proceedings Article | 31 January 1996 Paper

Topical application of a novel porphycene dye for photodynamic therapy: penetration studies in human perilesional skin and basal cell carcinoma

Sigrid Karrer, Christoph Abels, Rolf-Markus Szeimies, Wolfgang Baeumler, Ulrich Hohenleutner, Alwin Goetz, Michael Landthaler

Proceedings Volume 2625, (1996) https://doi.org/10.1117/12.230942

KEYWORDS: Skin, Luminescence, Photodynamic therapy, Tumors, Tissues, Dermatology, Tissue optics, Optical microscopy, Microscopy, Melanoma

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Proceedings Article | 31 January 1996 Paper

Topical photodynamic therapy with 5-aminolevulinic acid in the treatment of actinic keratoses: a first clinical study

Sigrid Karrer, Rolf-Markus Szeimies, Angela Sauerwald, Michael Landthaler

Proceedings Volume 2625, (1996) https://doi.org/10.1117/12.231002

KEYWORDS: Photodynamic therapy, Head, Light sources, Safety, Combustion, Light, Chromium, Dermatology, Laser induced plasma spectroscopy

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Proceedings Article | 31 January 1996 Paper

Wavelength-dependent in-vitro and in-vivo photodynamic effects after sensitization with 5-aminolevulinic acid induced protoporphyrin IX

Rolf-Markus Szeimies, Christoph Abels, Clemens Fritsch, Pia Steinbach, Wolfgang Baeumler, Helmut Messmann, Alwin Goetz, Guenter Goerz, Michael Landthaler

Proceedings Volume 2625, (1996) https://doi.org/10.1117/12.230993

KEYWORDS: Tumors, Photodynamic therapy, In vitro testing, In vivo imaging, Luminescence, Melanoma, Dye lasers, Scanning electron microscopy, Absorbance, Dermatology

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