Publikationen zu öffentlich geförderten Forschungsprojekten

The neurosurgical benefit of contactless in vivo optical coherence tomography regarding residual tumor detection: A clinical study
Patrick Kuppler, Paul Strenge, Birgit Lange et al., Front Oncol. (2023) 
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Differentiation of different stages of brain tumor infiltration using optical coherence tomography: Comparison of two systems and histology
Paul Strenge, Birgit Lange, Wolfgang Draxinger et al., Front. Oncol. (2022)
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Pulsed thulium laser blood vessel haemostasis as an alternative to bipolar forceps during neurosurgical tumor resection
Alessa Hutfilz, Dirk Theisen-Kunde, Matteo Mario Bonsanto, Ralf Brinkmann, Lasers Med Sci. 2023
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High speed 4D in-vivo OCT imaging of the human brain: creating high density datasets for machine learning toward identification of malign tissue in real time
Wolfgang Draxinger, Dirk Theisen-Kunde, Patrick Kuppler, Matteo Mario Bonsanto et al. (2023) Proc. SPIE. 12390, High-Speed Biomedical Imaging and Spectroscopy VIII
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Air-Jet based optical coherence elastography: processing and mechanical interpretation of brain tumor data
Nicolas Detrez, Sazgar Burhan, Matteo Mario Bonsanto et al. (2023) Proc. SPIE. 12381, Optical Elastography and Tissue Biomechanics X
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Phase analysis strategies for MHz OCE in the large displacement regime
Sazgar Burhan, Nicolas Detrez, Matteo Mario Bonsanto et al. (2023) Proc. SPIE. 12367, Optical Coherence Tomography and Coherence Domain Optical Methods in Biomedicine XXVII
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Characterization of brain tumor tissue by time-resolved, phase-sensitive optical coherence elastography at 3.2 MHz line rate
Sazgar Burhan, Nicolas Detrez, Matteo Mario Bonsanto et al. (2023) Proc. SPIE. 12368, Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XXI
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Dual wavelength analysis and classification of brain tumor tissue with optical coherence tomography
Paul Strenge, Birgit Lange, Matteo Mario Bonsanto et al. (2023) Proc. SPIE. 12368, Advanced Biomedical and Clinical Diagnostic and Surgical Guidance Systems XXI
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OCT-Guided Surgery for Gliomas: Current Concept and Future Perspectives
Yashin K, Bonsanto MM, Achkasova K, Zolotova A, Wael A-M, Kiseleva E, et al. OCT-Guided Surgery for Gliomas: Current Concept and Future Perspectives. Diagnostics. 2022; 12.
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Registration of histological brain images onto optical coherence tomography images based on shape information
Strenge P, Lange B, Grill C, Draxinger W, Danicke V, Theisen-Kunde D, et al. Registration of histological brain images onto optical coherence tomography images based on shape information. Phys Med Biol. 2022.
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1.6 MHz FDML OCT for Intraoperative Imaging in Neurosurgery
Theisen-Kunde D, Draxinger W, Bonsanto MM, Strenge P, Detrez N, Huber R, et al., editors. 1.6 MHz FDML OCT for Intraoperative Imaging in Neurosurgery. European Conferences on Biomedical Optics 2021 (ECBO); 2021 2021/06/20; Munich: Optical Society of America.
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Creating a depth-resolved OCT-dataset for supervised classification based on ex vivo human brain samples
Strenge P, Lange B, Grill C, Draxinger W, Danicke V, Theisen-Kunde D, et al. Creating a depth-resolved OCT-dataset for supervised classification based on ex vivo human brain samples: SPIE; 2021.
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Characterization of brain tumor tissue with 1310 nm optical coherence tomography
Strenge P, Lange B, Grill C, Draxinger W, Danicke V, Theisen-Kunde D, et al. Characterization of brain tumor tissue with 1310 nm optical coherence tomography: SPIE; 2021.
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Laser coagulation of brain tissue at 1480 nm and 1940 nm wavelengths
Hutfilz A, Theisen-Kunde D, Bonsanto MM, Brinkmann R. Laser coagulation of brain tissue at 1480 nm and 1940 nm wavelengths: SPIE; 2021.
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Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography
Detrez N, Rewerts K, Matthiae M, Buschschlüter S, Bonsanto MM, Theisen-Kunde D, et al., editors. Flow Controlled Air Puff Generator Towards In Situ Brain Tumor Detection Based on MHz Optical Coherence Elastography. European Conferences on Biomedical Optics 2021 (ECBO); 2021 2021/06/20; Munich: Optical Society of America.
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Phase-Sensitive Optical Coherence Elastography with a 3.2 MHz FDML-Laser Using Focused Air-Puff Tissue Indentation
Rewerts K, Matthiae M, Detrez N, Buschschlüter S, Bonsanto MM, Huber R, et al., editors. 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); 2021 2021/06/20; Munich: Optical Society of America.
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