2013

Ingo Rohde, Jennifer- M. Masch, Dirk Theisen-Kunde, Martin Marczynski-Bühlow, Georg Lutter, and Ralf Brinkmann,
Cardiovascular damage after cw and Q-switched 2μm laser irradiation, 2013. pp. 88030I-88030I-6.
Datei: 12.2033550
Bibtex: BibTeX
@inproceedings{Rohde2013,
   author = {Rohde, Ingo and Masch, Jennifer- M. and Theisen-Kunde, Dirk and Marczynski-Bühlow, Martin and Lutter, Georg and Brinkmann, Ralf},
   title = {Cardiovascular damage after cw and Q-switched 2μm laser irradiation},
   volume = {8803},
   pages = {88030I-88030I-6},
   note = {10.1117/12.2033550},
   abstract = {Aiming for laser-assisted resection of calcified aortic valve structures for Transcatheter Aortic Valve Implantation (TAVI), a Q-switched Tm:YAG laser emitting at a wavelength of 2.01 μm was used to evaluate the cutting efficiency on highly calcified human aortic leaflets in-vitro. The calcified aortic leaflets were examined regarding ablation rates and debris generation, using a pulse energy of 4.3 mJ, a pulse duration of 0.8-1 μs and a repetition rate of 1 kHz. The radiation was transmitted via a 200 μm core diameter quartz fiber. Resection was performed in a fiber-tissue contact mode on water-covered samples in a dish. The remnant particles were analyzed with respect to quantity and size by light microscopy. Additionally, soft tissue of porcine aortic vessels was examined for histologically detectable thermo-mechanical damage after continuous wave and Q-switched 2μm laser irradiation. An ablation rate of 36.7 ± 25.3 mg/min could be realised on highly calcified aortic leaflets, with 85.4% of the remnant particles being <6 μm in diameter. The maximum damaged area of the soft tissue was < 1 mm for both, cw and pulsed laser irradiation. This limits the expected collateral damage of healthy tissue during the medical procedure. Overall, the Q-switched Tm:YAG laser system showed promising results in cutting calcified aortic valves, transmitting sufficient energy through a small flexible fibre.},
   url = {http://dx.doi.org/10.1117/12.2033550},
   type = {Conference Proceedings},
year = { 2013}
}
Kathrin Bliedtner, Eric Seifert, and Ralf Brinkmann,
Temperature induced tissue deformation monitored by dynamic speckle interferometry, in Studierendentagung , Universität zu Lübeck, 2013.
Datei: download
Bibtex: BibTeX
@inproceedings{Bliedtner2013,
   author = {Bliedtner, Kathrin and Seifert, Eric and Brinkmann, Ralf},
   title = {Temperature induced tissue deformation monitored
by dynamic speckle interferometry},
   booktitle = {Studierendentagung},
   publisher = {Universität zu Lübeck},
   type = {Conference Proceedings},
year = { 2013},
url = { http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.714.8862&rep=rep1&type=pdf}
}
Jens Horstmann, and Ralf Brinkmann,
Non-contact photoacoustic tomography using holographic full field detection, Proc. SPIE, 2013. pp. 880007-880007-6.
Datei: 12.2033599
Bibtex: BibTeX
@inproceedings{Horstmann2013,
   author = {Horstmann, Jens and Brinkmann, Ralf},
   title = {Non-contact photoacoustic tomography using holographic full field detection},
   publisher = {Proc. SPIE},
   volume = {8800},
   pages = {880007-880007-6},
   note = {10.1117/12.2033599},
   abstract = {An innovative very fast non-contact imaging technique for Photoacoustic Tomography is introduced. It is based on holographic optical speckle detection of a transiently altering surface topography for the reconstruction of absorbing targets. The surface movement is obtained by parallel recording of speckle phase changes known as Electronic Speckle Pattern Interferometry. Due to parallelized 2-D camera detection and repetitive excitation with variable delay with respect to the image acquisition, data recording of whole volumes for Photoacoustic Imaging can be completed in times far below one second. The size of the detected area is scalable by optical magnification. As a proof of concept, an interferometric setup is realized, capable of surface displacement detection with an axial resolution of less than 3 nm. The potential of the proposed method for in vivo Photoacoustic Imaging is discussed.},
   url = {http://dx.doi.org/10.1117/12.2033599},
   type = {Conference Proceedings},
year = { 2013}
}
Peer K Fink, Dierck Hillmann, Gesa L Franke, Dirk Ramm, and P Koch,
Stray light rejection by structured illumination, in Studierendentagung , Universität zu Lübeck, 2013.
Bibtex: BibTeX
@inproceedings{Fink2013,
   author = {Fink, Peer K and Hillmann, Dierck and Franke, Gesa L and Ramm, Dirk and Koch, P and Hüttmann, Gereon},
   title = {Stray light rejection by structured illumination},
   booktitle = {Studierendentagung},
   publisher = {Universität zu Lübeck},
   type = {Conference Proceedings},
year = { 2013}
}
Dominico Klawitter, Dierck Hillmann, Philipp Steven, and J Wenzel,
Speckle variance optical coherence tomography for imaging microcirculation, in Studierendentagung , Universität zu Lübeck, 2013.
Datei: download
Bibtex: BibTeX
@inproceedings{Klawitter2013,
   author = {Klawitter, Dominico and Hillmann, Dierck and Pieper, M and Steven, Philipp and Wenzel, J and Hüttmann, Gereon},
   title = {Speckle variance optical coherence tomography for
imaging microcirculation},
   booktitle = {Studierendentagung},
   publisher = {Universität zu Lübeck},
   type = {Conference Proceedings},
url = { http://citeseerx.ist.psu.edu/viewdoc/download?doi=10.1.1.716.940&rep=rep1&type=pdf},
year = { 2013}
}

2012

T. Just, T. Wiechmann, O. Stachs, J. Stave, R. Guthoff, and H. W. Pau,
Confocal endomicroscopy of the larynx, Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Hyun Wook, Kang and Bodo, E. Knudsen and Brian Jet-Fei, Wong and Justus, F. Ilgner and Krzysztof, Izdebski and Melissa, J. Suter and Stephen, Lam and Matthew, Brenner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, Madsen and Anita, Mahadevan-Jansen and Jansen, E. Duco and Andreas, Mandelis, Eds. SPIE, 2012. pp. 82072H.
Bibtex: BibTeX
@inproceedings{
   author = {Just, T. and Wiechmann, T. and Stachs, O. and Stave, J. and Guthoff, R. and Huttmann, G. and Pau, H. W.},
   title = {Confocal endomicroscopy of the larynx},
   editor = {Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Hyun Wook, Kang and Bodo, E. Knudsen and Brian Jet-Fei, Wong and Justus, F. Ilgner and Krzysztof, Izdebski and Melissa, J. Suter and Stephen, Lam and Matthew, Brenner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, Madsen and Anita, Mahadevan-Jansen and Jansen, E. Duco and Andreas, Mandelis},
   publisher = {SPIE},
   volume = {8207},
   pages = {82072H},

}
Rehman Ansari, Redouane Aherrahrou, Zouhair Aherrahrou, Jeanette Erdmann, and Achim Schweikard,
Quantitative analysis of cardiomyocyte dynamics with optical coherence phase microscopy, Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin, Eds. SPIE, 2012. pp. 821338.
Datei: 12.911781
Bibtex: BibTeX
@inproceedings{Ansari2012,
   author = {Ansari, Rehman and Aherrahrou, Redouane and Aherrahrou, Zouhair and Erdmann, Jeanette and Huttmann, Gereon and Schweikard, Achim},
   title = {Quantitative analysis of cardiomyocyte dynamics with optical coherence phase microscopy},
   editor = {Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {8213},
   pages = {821338},
year = { 2012},
url = {https://doi.org/10.1117/12.911781}

}
Hendrik Spahr, Linda Rudolph, and Heike Muller,
Imaging of photothermal tissue expansion via phase sensitive optical coherence tomography, Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin, Eds. SPIE, 2012. pp. 82131S.
Datei: 12.911429
Bibtex: BibTeX
@inproceedings{Spahr2012,
   author = {Spahr, Hendrik and Rudolph, Linda and Muller, Heike and Birngruber, Reginald and Huttmann, Gereon},
   title = {Imaging of photothermal tissue expansion via phase sensitive optical coherence tomography},
   editor = {Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {8213},
   pages = {82131S},
year = { 2012},
url = { https://doi.org/10.1117/12.911429}

}
R. Orzekowsky-Schröder,
Imaging of immune cell dynamics in small intestine and the eye by 2-photon microcopy, in 7th Workshop on Advanced Multiphoton and Fluorescence Lifetime Imaging Techniques (FLIM 2012) , 2012.
Bibtex: BibTeX
@inproceedings{Hüttmann2012,
   author = {Hüttmann, G. and Orzekowsky-Schröder, R.},
   title = {Imaging of immune cell dynamics in small intestine and the eye  by 2-photon microcopy},
   booktitle = {7th Workshop on Advanced Multiphoton and Fluorescence Lifetime Imaging Techniques (FLIM 2012)},
year = { 2012},
   abstract = {Autofluorescence based 2-photon microscopy was investigated as a
tool for studying the dynamics of immunological processes in vivo. Nearly
all tissue components were simultaneously visible by autofluorescence and a
nearly complete visualization of tissue architecture was possible. Within
the tissue, immune competent cells like lymphocytes, macrophages and
dendritic cells were visualized in their dynamic interaction with other
cells or surrounding tissues.
Immunological processes were studied in the small intestine and at the
surface of the eye. Excitation and emission spectra of the different mucosal
tissue components were quantitatively determined and a compared to the
respective spectra of endogenous chromophores. It was shown, that by using
only two excitation wavelengths within the tuning range of a Ti:Saphire
laser enterocytes, antigen presenting cells and lysosomes of the small
intestine could be discriminated based on the excitation and emission
properties. By additionally using an intravital nuclear stain, motion of
lymphocytes in the lamina propria and the epithelium of small intestine
villi was quantitatively analyzed. 

2-photon microscopy was also a powerful tool for studying the conjunctiva
and cornea of the eye. Lymphocyte dynamics and uptake of microspheres or
fluorescing heat-inactivated E. coli was followed over time in the
conjunctiva-associated lymphoid tissue of mice. In a different mouse model
of suture induced corneal hem- and lymphangiogenesis, immune cell migration
into lymphatic vessels and luminal transport of individual cells was
observed in vivo.

Autofluorescence based 2-photon intravital microscopy is a valuable tool to
study dynamic immunological processes. While tissue autofluorescence gives a
good overview over all relevant structures and allows for discriminating
different cell types by spectral analysis, the additional combination of
specific staining with external dyes or fluorescent proteins is easily
possible and enhances the potential of the technique further. },

}
M. Hagen-Eggert, and P. Koch,
Analysis of the signal fall-off in spectral domain optical coherence tomography systems, Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin, Eds. SPIE, 2012. pp. 82131K.
Datei: 12.910921
Bibtex: BibTeX
@inproceedings{Hagen-Eggert,
   author = {Hagen-Eggert, M. and Koch, P. and Huttmann, G.},
   title = {Analysis of the signal fall-off in spectral domain optical coherence tomography systems},
   editor = {Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {8213},
   pages = {82131K},
url = {https://doi.org/10.1117/12.910921},
   year = { 2012}

}
Gesa Lilith Franke, Dierck Hillmann, Thorsten Claussen, Christian Luhrs, and Peter Koch,
High resolution holoscopy, Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin, Eds. SPIE, 2012. pp. 821324.
Datei: 12.911166
Bibtex: BibTeX
@inproceedings{Franke-2012,
   author = {Franke, Gesa Lilith and Hillmann, Dierck and Claussen, Thorsten and Luhrs, Christian and Koch, Peter and Huttmann, Gereon},
   title = {High resolution holoscopy},
   editor = {Joseph, A. Izatt and James, G. Fujimoto and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {8213},
   pages = {821324},
URL = { https://doi.org/10.1117/12.911166},
year = { 2012}

}
Christoph Otte, and Alexander Schlaefer,
Feasibiliy of optical detection of soft tissue deformation during needle insertion, David, R. Holmes, III and Kenneth, H. Wong, Eds. SPIE, 2012. pp. 83160V.
Datei: 12.912538.short
Bibtex: BibTeX
@inproceedings{Otte2012,
   author = {Otte, Christoph and Huttmann, Gereon and Schlaefer, Alexander},
   title = {Feasibiliy of optical detection of soft tissue deformation during needle insertion},
   editor = {David, R. Holmes, III and Kenneth, H. Wong},
   publisher = {SPIE},
   volume = {8316},
   pages = {83160V},
year = { 2012},
url = { https://www.spiedigitallibrary.org/conference-proceedings-of-spie/8316/83160V/Feasibiliy-of-optical-detection-of-soft-tissue-deformation-during-needle/10.1117/12.912538.short}

}

2011

Andreas Fritz, Andrea Zegelin, Lars Ptaszynski, and Ralf Brinkmann,
Dynamics of laser induced micro bubble clusters on tissue phantoms, 2011. pp. 78850S-78850S-6.
Datei: 12.875031.short
Bibtex: BibTeX
@inproceedings{Fritz2011,
   author = {Fritz, Andreas and Zegelin, Andrea and Ptaszynski, Lars and Birngruber, Reginald and Brinkmann, Ralf},
   title = {Dynamics of laser induced micro bubble clusters on tissue phantoms},
   volume = {7885},
   pages = {78850S-78850S-6},
   note = {10.1117/12.875031},
   abstract = {Selective retina treatment (SRT) is a laser based method to treat retinal diseases associated with disorders of the retinal pigment epithelium (RPE) while preserving photoreceptors and choroid. Applying microsecond laser pulses to the 100- 200 strongly absorbing melanin granules inside the RPE cells induces transient micro bubbles which disrupt the cells. Aim of this work is to understand bubble dynamics in clusters with respect to the influence of the adjacent retina. Bubble dynamics were investigated in vitro on porcine RPE. An about 200 μm thick layer of agarose gel was applied to the RPE layer in order to simulate the mechanical properties of retina. Different laser pulse durations from 1 ns (532 nm, Nd:YAG) to 1.7 μs (527 nm, Nd:YLF) were used. The bubbles were investigated interferometrically (fiber interferometer @ 830 nm) and with fast flash photography (25 ns flash duration). Bubble lifetimes were measured. The results show that with retina phantoms the bubble formation threshold was reached at 2.5 times higher irradiation than without retina phantom for 1.7 μs laser pulses. The microbubbles generated with 1 ns laser pulses were almost not influenced by the agarose layer. Irradiation twofold over bubble formation threshold resulted in 3.5 times longer bubble lifetimes for μs and 2 times longer for ns pulse durations, respectively.},
   url = {https://www.spiedigitallibrary.org/conference-proceedings-of-spie/7885/1/Dynamics-of-laser-induced-micro-bubble-clusters-on-tissue-phantoms/10.1117/12.875031.short},
   type = {Conference Proceedings},
year = { 2011}
}
M. Hagen-Eggert, D. Hillmann, and P. Koch,
Diffusion-sensitive Fourier-domain optical coherence tomography, James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin, Eds. SPIE, 2011. pp. 78892B.
Datei: 12.873815.short
Bibtex: BibTeX
@inproceedings{Hagen-Eggert2011,
   author = {Hagen-Eggert, M. and Hillmann, D. and Koch, P. and Huttmann, G.},
   title = {Diffusion-sensitive Fourier-domain optical coherence tomography},
   editor = {James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {7889},
   pages = {78892B},

}
Tim Bonin, and Peter Koch,
Comparison of fast swept source full-field OCT with conventional scanning OCT, Rainer, A. Leitgeb and Brett, E. Bouma, Eds. SPIE, 2011. pp. 80911K.
Bibtex: BibTeX
@inproceedings{Bonin2011,
   author = {Bonin, Tim and Koch, Peter and Huttmann, Gereon},
   title = {Comparison of fast swept source full-field OCT with conventional scanning OCT},
   editor = {Rainer, A. Leitgeb and Brett, E. Bouma},
   publisher = {SPIE},
   volume = {8091},
   pages = {80911K},
year = { 2011}

}
Tim Bonin, Martin Hagen-Eggert, Gesa Franke, and Peter Koch,
Ultra highspeed in-vivo Fourier domain full-field OCT of the human retina, James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin, Eds. SPIE, 2011. pp. 788906.
Bibtex: BibTeX
@inproceedings{Bonin2011,
   author = {Bonin, Tim and Hagen-Eggert, Martin and Franke, Gesa and Koch, Peter and Huttmann, Gereon},
   title = {Ultra highspeed in-vivo Fourier domain full-field OCT of the human retina},
   editor = {James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {7889},
   pages = {788906},
year = { 2011}

}
Jens Horstmann, Alexander Baade, and Ralf Brinkmann,
Photoacoustic blood vessel detection during surgical laser interventions, SPIE ECBO, 2011. pp. 80920Z-80920Z-6.
Datei: 12.889635
Bibtex: BibTeX
@inproceedings{Horstmann2011,
   author = {Horstmann, Jens and Baade, Alexander and Brinkmann, Ralf},
   title = {Photoacoustic blood vessel detection during surgical laser interventions},
   publisher = {SPIE ECBO},
   volume = {8092},
   pages = {80920Z-80920Z-6},
   note = {10.1117/12.889635},
   abstract = {This paper presents a discussion about the potential of photoacoustics with regard to its application in surgical assistance during minimally invasive, laser assisted interventions. Aim of the work is the detection of obscured large blood vessels in order to prevent unintentional dissection. Based on spectroscopic investigations of the target tissue (liver), a wavelength for the photoacoustic excitation laser was chosen with respect to a high absorption contrast between the vessel and the surrounding liver tissue. An experimental setup featuring a simple liver model is created. Preliminary results show, that vessels with a diameter of 2 mm can be detected up to a distance of 1 mm from the treatment fibre. It is shown, that detection of acoustic waves induced inside liver is feasible over distances higher than 10 cm.},
   url = {http://dx.doi.org/10.1117/12.889635},
   type = {Conference Proceedings},
year = { 2011}
}
Heike H. Muller, Lars Ptaszynski, Kerstin Schlott, Tim Bonin, Marco Bever, Stefan Koinzer, and Ralf Brinkmann,
Imaging of temperature distribution and retinal tissue changes during photocoagulation by high speed OCT, James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin, Eds. SPIE, 2011. pp. 78890E.
Datei: 12.874788
Bibtex: BibTeX
@inproceedings{Müller-2011-2,
   author = {Muller, Heike H. and Ptaszynski, Lars and Schlott, Kerstin and Bonin, Tim and Bever, Marco and Koinzer, Stefan and Birngruber, Reginald and Brinkmann, Ralf and Huttmann, Gereon},
   title = {Imaging of temperature distribution and retinal tissue changes during photocoagulation by high speed OCT},
   editor = {James, G. Fujimoto and Joseph, A. Izatt and Valery, V. Tuchin},
   publisher = {SPIE},
   volume = {7889},
   pages = {78890E},
URL = { https://doi.org/10.1117/12.874788},
year = { 2011}

}
Kerstin Schlott, Stefan Koinzer, Lars Ptaszynski, Susanne Luft, Marco Bever, Johann Roider, and Ralf Brinkmann,
Optoacoustic temperature determination and automatic coagulation control in rabbits, in Ophthalmic Technologies XXI , Ho, Fabrice Manns; Per G. Söderberg; Arthur, Eds. Proc. SPIE, 2011.
Datei: 12.875104
Bibtex: BibTeX
@inproceedings{Schlott2011,
   author = {Schlott, Kerstin and Koinzer, Stefan and Ptaszynski, Lars and Luft, Susanne and Baade, Alex and Bever, Marco and Roider, Johann and Birngruber, Reginald and Brinkmann, Ralf},
   title = {Optoacoustic temperature determination and automatic coagulation control in rabbits},
   booktitle = {Ophthalmic Technologies XXI },
   editor = {Ho, Fabrice Manns; Per G. Söderberg; Arthur},
   publisher = {Proc. SPIE},
   volume = {7885},
   note = {10.1117/12.875104},
   abstract = {Retinal laser photocoagulation is an established treatment method for many retinal diseases like macula edema or diabetic retinopathy. The selection of the laser parameters is so far based on post treatment evaluation of the lesion size and strength. Due to local pigment variations in the fundus and individual transmission the same laser parameters often lead to an overtreatment. Optoacoustic allows a non invasive monitoring of the retinal temperature increase during retinal laser irradiation by measuring the temperature dependent pressure amplitudes, which are induced by short probe laser pulses. A 75 ns/ 523 nm Nd:YLF was used as a probe laser at a repetition rate of 1 kHz, and a cw / 532 nm treatment laser for heating. A contact lens was modified with a ring-shaped ultrasonic transducer to detect the pressure waves at the cornea. Temperatures were collected for irradiations leading to soft or invisible lesions. Based on this data the threshold for denaturation was found. By analyzing the initial temperature increase, the further temperature development during irradiation could be predicted. An algorithm was found to calculate the irradiation time, which is needed for a soft lesion formation, from the temperature curve. By this it was possible to provide a real-time dosimetry by automatically switching off the treatment laser after the calculated irradiation time. Automatically controlled coagulations appear softer and more uniformly.},
   keywords = {AutoPhoN},
   url = {http://dx.doi.org/10.1117/12.875104},
   type = {Conference Proceedings},
year = { 2011}
}
Dierck Hillmann, Christian Luhrs, Tim Bonin, Peter Koch, and Alfred Vogel,
Holoscopy: holographic optical coherence tomography, Rainer, A. Leitgeb and Brett, E. Bouma, Eds. Proc. SPIE, 2011. pp. 80911H.
Datei:
Bibtex: BibTeX
@inproceedings{Hillmann2011,
   author = {Hillmann, Dierck and Luhrs, Christian  and Bonin, Tim  and Koch, Peter and Vogel, Alfred  and Huttmann, Gereon },
   title = {Holoscopy: holographic optical coherence tomography},
   editor = {Rainer, A. Leitgeb and Brett, E. Bouma},
   publisher = {Proc. SPIE},
   volume = {8091},
   pages = {80911H},
   url = {http://link.aip.org/link/?PSI/8091/80911H/1
http://dx.doi.org/10.1117/12.889485},
   type = {Conference Proceedings},
year = { 2011}
}
T. Just, H. W. Pau, and E. Lankenau,
OCT in the field of laryngology: further perspectives, Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Hyun Wook, Kang and Bodo, E. Knudsen and Brian, J. Wong and Justus, F. R. Ilgner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, J. Madsen and Andreas, Mandelis and Anita, Mahadevan-Jansen and Jansen, E. Duco, Eds. SPIE, 2011. pp. 78831W.
Bibtex: BibTeX
@inproceedings{Just2011,
   author = {Just, T. and Pau, H. W. and Lankenau, E. and Huttmann, G.},
   title = {OCT in the field of laryngology: further perspectives},
   editor = {Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Hyun Wook, Kang and Bodo, E. Knudsen and Brian, J. Wong and Justus, F. R. Ilgner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, J. Madsen and Andreas, Mandelis and Anita, Mahadevan-Jansen and Jansen, E. Duco},
   publisher = {SPIE},
   volume = {7883},
   pages = {78831W},
Year = { 2011}

}

2010

Regina Orzekowsky-Schroeder, Antje Klinger, Anna Schuth, Sebastian Freidank, Andreas Gebert, and Alfred Vogel,
Intravital real-time study of tissue response to controlled laser-induced cavitation using 500-ps UV laser pulses focused in murine gut mucosa under online dosimetry and spectrally resolved 2-photon microscopy, Daniel, L. Farkas and Dan, V. Nicolau and Robert, C. Leif, Eds. SPIE, 2010. pp. 756815.
Datei: 12.843102
Bibtex: BibTeX
@inproceedings{Orzekowsky2010,
   author = {Orzekowsky-Schroeder, Regina and Klinger, Antje and Schuth, Anna and Freidank, Sebastian and Huttmann, Gereon and Gebert, Andreas and Vogel, Alfred},
   title = {Intravital real-time study of tissue response to controlled laser-induced cavitation using 500-ps UV laser pulses focused in murine gut mucosa under online dosimetry and spectrally resolved 2-photon microscopy},
   editor = {Daniel, L. Farkas and Dan, V. Nicolau and Robert, C. Leif},
   publisher = {SPIE},
   volume = {7568},
   pages = {756815},
url = { https://doi.org/10.1117/12.843102},
year = { 2010}

}
T. Just, E. Lankenau, and H. W. Pau,
An optical coherence tomography study for imaging the round window niche and the promontorium tympani, Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Reza, S. Malek and Brian, J. Wong and Justus, F. R. Ilgner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, J. Madsen and Andreas, Mandelis and Anita, Mahadevan-Jansen and Jansen, E. Duco, Eds. SPIE, 2010. pp. 754833.
Datei: 12.848384
Bibtex: BibTeX
@inproceedings{Just,
   author = {Just, T. and Lankenau, E. and Huttmann, G. and Pau, H. W.},
   title = {An optical coherence tomography study for imaging the round window niche and the promontorium tympani},
   editor = {Nikiforos, Kollias and Bernard, Choi and Haishan, Zeng and Reza, S. Malek and Brian, J. Wong and Justus, F. R. Ilgner and Kenton, W. Gregory and Guillermo, J. Tearney and Laura, Marcu and Henry, Hirschberg and Steen, J. Madsen and Andreas, Mandelis and Anita, Mahadevan-Jansen and Jansen, E. Duco},
   publisher = {SPIE},
   volume = {7548},
   pages = {754833},

}
Y. Xie, T. Bonin, S. Loeffler, G. Huettmann, V. Tronnier, and U. G. Hofmann,
Fiber spectral domain optical coherence tomography for in vivo rat brain imaging, Jurgen, Popp and Wolfgang, Drexler and Valery, V. Tuchin and Dennis, L. Matthews, Eds. SPIE, 2010. pp. 77152F.
Datei: 12.854798
Bibtex: BibTeX
@inproceedings{Xie,
   author = {Xie, Y. and Bonin, T. and Loeffler, S. and Huettmann, G. and Tronnier, V. and Hofmann, U. G.},
   title = {Fiber spectral domain optical coherence tomography for in vivo rat brain imaging},
   editor = {Jurgen, Popp and Wolfgang, Drexler and Valery, V. Tuchin and Dennis, L. Matthews},
   publisher = {SPIE},
   volume = {7715},
   pages = {77152F},
year = { 2010},
URL = { https://doi.org/10.1117/12.854798}

}

2009

A Fritz, L Ptaszynski, and H Stoehr,
Dynamic of laser induced transient microbubble clusters, (BiOS), Conference on Biomedical Optics, Eds. Proc SPIE, 2009.
Datei: abstract.cfm
Bibtex: BibTeX
@inproceedings{Fritz2009,
   author = {Fritz, A and Ptaszynski, L and Stoehr, H and Brinkmann, R},
   title = {Dynamic of laser induced transient microbubble clusters},
   editor = {(BiOS), Conference on Biomedical Optics},
   publisher = {Proc SPIE},
   type = {Conference Proceedings},
year = { 2009},
URL = { https://www.osapublishing.org/abstract.cfm?uri=ECBO-2009-7373_0D}
}