Katharina Rewerts

Doktorandin / PhD Student

AG Brinkmann/AG Huber



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Publikationen

2021

  • K. Rewerts, M. Matthiae, N. Detrez, S. Buschschlüter, M. Bonsanto, R. Huber and R. Brinkmann: Phase-Sensitive Optical Coherence Elastography with a 3.2 MHz FDML-Laser Using Focused Air-Puff Tissue Indentation. in ECBO, OSA, 2021
    BibTeX
    @inproceedings{Rewerts2021,
       author = {K. Rewerts, M. Matthiae, N. Detrez, S. Buschschlüter, M. Bonsanto, R. Huber and R. Brinkmann},
       title = {Phase-Sensitive Optical Coherence Elastography with a 3.2 MHz FDML-Laser Using Focused Air-Puff Tissue Indentation},
       booktitle = {ECBO},
       publisher = {OSA},
       year = {2021},
       type = {Conference Proceedings},
       keywords = {AG-Huber_OCT},
    }
    
  • K. Rewerts, M. Matthiae, N. Detrez, S. Buschschlueter, M.M. Bonsanto, R. Huber and R. Brinkmann: Phase-Sensitive Optical Coherence Elastography with a 3.2 MHz FDML-Laser Using Focused Air-Puff Tissue Indentation. European Conferences on Biomedical Optics 2021 (ECBO), pp. ETh3A.3, Optical Society of America, 2021
    BibTeX Link
    @inproceedings{Rewerts2021ECBO,
    author = {K. Rewerts, M. Matthiae, N. Detrez, S. Buschschlueter, M.M. Bonsanto, R. Huber and R. Brinkmann},
    journal = {European Conferences on Biomedical Optics 2021 (ECBO)},
    keywords = {AG-Huber_OCT},
    pages = {ETh3A.3},
    publisher = {Optical Society of America},
    title = {Phase-Sensitive Optical Coherence Elastography with a 3.2 MHz FDML-Laser Using Focused Air-Puff Tissue Indentation},
    year = {2021},
    url = {http://www.osapublishing.org/abstract.cfm?URI=ECBO-2021-ETh3A.3},
    abstract = {Tumor discrimination from healthy tissue is often performed by haptically probing tissue elasticity. We demonstrate non-contact elastography using air-puff excitation and tissue indentation measurement by phase-sensitive OCT with a 3.2 MHz FDML-laser.},
    }
  • Detrez, N;Rewerts, K;Matthiae, M;Buschschlüter, S;Bonsanto, M;Theisen-Kunde, D and Brinkman, R: Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography. in ECBO, Osa, 2021
    BibTeX
    @inproceedings{Detrez2021,
       author = {Detrez, N;Rewerts, K;Matthiae, M;Buschschlüter, S;Bonsanto, M;Theisen-Kunde, D and Brinkman, R},
       title = {Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography},
       booktitle = {ECBO},
       publisher = {Osa},
    Year = {2021},
       type = {Conference Proceedings}
    }
    
  • N. Detrez, K. Rewerts, M. Matthiae, S. Buschschlueter, M.M. Bonsanto, D. Theisen-Kunde and R. Brinkmann: Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography. European Conferences on Biomedical Optics 2021 (ECBO), pp. EW4A.10, Optical Society of America, 2021
    BibTeX Link
    @inproceedings{Detrez:21,
    author = {N. Detrez, K. Rewerts, M. Matthiae, S. Buschschlueter, M.M. Bonsanto, D. Theisen-Kunde and R. Brinkmann},
    journal = {European Conferences on Biomedical Optics 2021 (ECBO)},
    keywords = {AG-Huber_OCT},
    pages = {EW4A.10},
    publisher = {Optical Society of America},
    title = {Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography},
    year = {2021},
    url = {http://www.osapublishing.org/abstract.cfm?URI=ECBO-2021-EW4A.10},
    abstract = {A precision air puff excitation system for MHz Optical Coherence Elastography in neurosurgery was developed. It enables non-contact soft-tissue excitation down to {\textmu}N, with direct, noncontact force determination via gas flow measurement.},
    }