Logo of the Physikalisch-Technische Bundesanstalt

Optical Medical Imaging

Working Group 8.31

Most recent

  • H. Ayaz, W. B. Baker, G. Blaney, D. A. Boas, H. Bortfeld, K. Brady, J. Brake, S. Brigadoi, E. M. Buckley, S. A. Carp, R. J. Cooper, K. R. Cowdrick, J. P. Culver, I. Dan, H. Dehghani, A. Devor, T. Durduran, A. T. Eggebrecht, L. L. Emberson, Q. Fang, S. Fantini, M. A. Franceschini, J. B. Fischer, J. Gervain, J. Hirsch, K.-S. Hong, R. Horstmeyer, J. M. Kainerstorfer, T. S. Ko, D. J. Licht, A. Liebert, R. Luke, J. M. Lynch, J. Mesquida, R. C. Mesquita, N. Naseer, S. L. Novi, F. Orihuela-Espina, T. D. O'Sullivan, D. S. Peterka, A. Pifferi, L. Pollonini, A. Sassaroli, J. R. Sato, F. Scholkmann, L. Spinelli, V. J. Srinivasan, K. St Lawrence, I. Tachtsidis, Y. Tong, A. Torricelli, T. Urner, H. Wabnitz, M. Wolf, U. Wolf, S. Xu, C. Yang, A. G. Yodh, M. A. Yücel, W. Zhou, "Optical imaging and spectroscopy for the study of the human brain: status report," Neurophotonics 9, 1-65 (2022). [doi: Opens external link in new window10.1117/1.NPh.9.S2.S24001]
  • L. Hacker, H. Wabnitz, A. Pifferi, J. T. Pfefer, B. W. Pogue, S. E. Bohndiek, "Criteria for the design of tissue-mimicking phantoms for the standardization of biophotonic instrumentation," Nat. Biomed. Eng. 6, 541-558 (2022) [doi: Opens external link in new window10.1038/s41551-022-00890-6]
  • D. Gorpas, H. Wabnitz, T. J. Pfefer, "Special section guest editorial: tissue phantoms to advance biomedical optical systems," J. Biomed. Opt. 27, 1-5 (2022). [doi: Opens external link in new window1.JBO.27.7.074701]
  • P. Lanka, L. Yang, D. Orive-Miguel, J. Deepak Veesa, S. Tagliabue, A. Sudakou, S. Samaei, M. Forcione, Z. Kovacsova, A. Behera, T. Gladytz, D. Grosenick, L. Hervé, T. Durduran, K. Bejm, M. Morawiec, M. Kacprzak, P. Sawosz, A. Gerega, A. Liebert, A. Belli, I. Tachtsidis, F. Lange, G. Bale, L. Baratelli, S. Gioux, A. Kalyanov, M. Wolf, S. Konugolu Venkata Sekar, M. Zanoletti, I. Pirovano, M. Lacerenza, L. Qiu, E. Ferocino, G. Maffeis, C. Amendola, L. Colombo, P. Levoni, M. Buttafava, M. Renna, L. Di Sieno, R. Re, A. Farina, L. Spinelli, A. Dalla Mora, D. Contini, P. Taroni, A. Tosi, A. Torricelli, H. Dehghani, H. Wabnitz, A. Pifferi, "Multi-laboratory performance assessment of diffuse optics instruments: the BitMap exercise," J. Biomed. Opt. 7, 1-27 (2022). [doi: Opens external link in new window10.1117/1.JBO.27.7.074716]
  • S. Schädel-Ebner, O. Hirsch, T. Gladytz, D. Gutkelch, K. Licha, J. Berger, D. Grosenick, "3D-printed tissue-simulating phantoms for near-infrared fluorescence imaging of rheumatoid diseases," J. Biomed. Opt. 7, 074702 (2022). [doi: Opens external link in new window10.1117/1.JBO.27.7.074702]
  • J. S. Periquito, T. Gladytz, J. M. Millward, P. Ramos Delgado, K. Cantow,, D. Grosenick, L. Hummel, A. Anger, K. Zhao, E. Seeliger, A. Pohlmann, S. Waiczies, T. Niendorf, "Continuous diffusion spectrum computation for diffusion-weighted magnetic resonance imaging of the kidney tubule system," Quant. Imaging Med. Surg. 11, 3098-3119 (2021). [doi: 1Opens external link in new window0.21037/qims-20-1360]
  • M. A. Yücel, A. v. Lühmann, F. Scholkmann, J. Gervain, I. Dan, H. Ayaz, D. Boas, R. J. Cooper, J. Culver, C. E. Elwell, A. Eggebrecht, M. A. Franceschini, C. Grova, F. Homae, F. Lesage, H. Obrig, I. Tachtsidis, S. Tak, Y. Tong, A. Torricelli, H. Wabnitz, and M. Wolf, "Best practices for fNIRS publications," Neurophotonics 8, 012101 (2021). [doi: Opens external link in new window10.1117/1.nph.8.1.012101]
  • L. Yang, H. Wabnitz, T. Gladytz, A. Sudakou, R. Macdonald, and D. Grosenick, "Space-enhanced time-domain diffuse optics for determination of tissue optical properties in two-layered structures," Biomed. Opt. Express 11, 6570–6589 (2020). [doi: Opens external link in new window10.1364/BOE.402181]
  • H. Wabnitz, D. Contini, L. Spinelli, A. Torricelli, and A. Liebert, "Depth-selective analysis in time-domain optical brain imaging: moments vs time windows," Biomed. Opt. Express 11, 4224–4243 (2020). [doi: Opens external link in new window10.1364/boe.396585]
  • N. A. Carbone, D. A. Vera, D. I. Iriarte, J. A. Pomarico, R. Macdonald, and D. Grosenick, "Camera-based CW diffuse optical tomography for obtaining 3D absorption maps by means of digital tomosynthesis," Biomed. Phys. Eng. Express 6, 065034 (2020). [doi: Opens external link in new window10.1088/2057-1976/abc633]
  • A. Sudakou, L. Yang, H. Wabnitz, S. Wojtkiewicz, and A. Liebert, "Performance of measurands in time-domain optical brain imaging: depth selectivity versus contrast-to-noise ratio," Biomed. Opt. Express 11, 4348–4365 (2020). [doi: Opens external link in new window10.1364/BOE.397483]
  • D. Grosenick and C. Bremer, "Fluorescence Imaging of Breast Tumors and Gastrointestinal Cancer," in O. Schober, F. Kiessling, J. Debus (eds) Molecular Imaging in Oncology. Recent Results in Cancer Research (Springer, 2020), Vol. 216, pp. 591–624. [doi: Opens external link in new window10.1007/978-3-030-42618-7_18]
  • G. R. Baez, H. A. García, D. Grosenick, and H. Wabnitz, "Implementation of the extended Kalman filter for determining the optical and geometrical properties of turbid layered media by time-resolved single distance measurements," Biomed. Opt. Express 11, 251–266 (2020). [doi: Opens external link in new window10.1364/BOE.11.000251]
  • L. Yang, H. Wabnitz, T. Gladytz, R. Macdonald, and D. Grosenick, "Spatially-enhanced time-domain NIRS for accurate determination of tissue optical properties," Opt. Express 27, 26415–26431 (2019). [doi: Opens external link in new window10.1364/OE.27.026415]
  • M. V. Waks Serra, D. Grosenick, R. Macdonald, J. A. Pomarico, and D. I. Iriarte, "A systematic study on fluorescence contrast in near infrared diffuse transmittance imaging with indocyanine green," J. Near Infrared Spectrosc. 27, 333–334 (2019). [doi: Opens external link in new window10.1177/0967033519857733]
  • C. Hornberger and H. Wabnitz, "Approaches for calibration and validation of near-infrared optical methods for oxygenation monitoring," Biomed. Eng. / Biomed. Tech., (2018) [doi:Opens external link in new window10.1515/bmt-2017-0116].
  • D. Grosenick, H. Wabnitz, and R. Macdonald, "Diffuse near-infrared imaging of tissue with picosecond time resolution," Biomed. Eng. / Biomed. Tech., (2018) [doi:Opens external link in new window10.1515/bmt-2017-0067].
  • P. Lemaillet, C. C. Cooksey, J. Hwang, H. Wabnitz, D. Grosenick, L. Yang, and D. W. Allen, "Correction of an adding-doubling inversion algorithm for the measurement of the optical parameters of turbid media," Biomed. Opt. Express 9, 55–71 (2018) [doi: Opens external link in new window10.1364/BOE.9.000055].
  • A. Pohlmann, K. Cantow, T. Huelnhagen, D. Grosenick, J. dos Santos Periquito, L. Boehmert, T. Gladytz, S. Waiczies, B. Flemming, E. Seeliger, and T. Niendorf, "Experimental MRI Monitoring of Renal Blood Volume Fraction Variations En Route to Renal Magnetic Resonance Oximetry," Tomography 3, 188–200 (2017) [doi:Opens external link in new window10.18383/j.tom.2017.00012].
  • V. Wycisk, K. Achazi, O. Hirsch, C. Kuehne, J. Dernedde, R. Haag, and K. Licha, "Heterobifunctional Dyes: Highly Fluorescent Linkers Based on Cyanine Dyes," ChemistryOpen 6, 437–446 (2017) [doi:Opens external link in new window10.1002/open.201700013].
  • H. A. García, D. I. Iriarte, J. A. Pomarico, D. Grosenick, and R. Macdonald, “Retrieval of the optical properties of a semiinfinite compartment in a layered scattering medium by single-distance, time-resolved diffuse reflectance measurements,” J. Quant. Spectrosc. Radiat. Transf. 189, 66–74 (2017) [doi:Opens external link in new window10.1016/j.jqsrt.2016.11.018].
  • V. Wycisk, K. Achazi, P. Hillmann, O. Hirsch, C. Kuehne, J. Dernedde, R. Haag, and K. Licha, "Responsive Contrast Agents: Synthesis and Characterization of a Tunable Series of pH-Sensitive Near-Infrared Pentamethines," ACS Omega 1, 808–817 (2016) [doi:Opens external link in new window10.1021/acsomega.6b00182].
  • A. von Luhmann, H. Wabnitz, T. Sander, and K.-R. Muller, “M3BA: A Mobile, Modular, Multimodal Biosignal Acquisition architecture for miniaturized EEG-NIRS based hybrid BCI and monitoring,” IEEE Trans. Biomed. Eng. PP(99), 1–12 (2016) [doi:Opens external link in new window10.1109/TBME.2016.2594127].
  • D. Grosenick, H. Rinneberg, R. Cubeddu, and P. Taroni, “Review of optical breast imaging and spectroscopy.,” J. Biomed. Opt. 21(9), 91311 (2016) [doi:Opens external link in new window10.1117/1.JBO.21.9.091311].
  • L. Di Sieno, H. Wabnitz, A. Pifferi, M. Mazurenka, Y. Hoshi, A. Dalla Mora, D. Contini, G. Boso, W. Becker, F. Martelli, A. Tosi, and R. Macdonald, “Characterization of a time-resolved non-contact scanning diffuse optical imaging system exploiting fast-gated single-photon avalanche diode detection,” Rev. Sci. Instrum. 87(3), 035118 (2016) [doi:Opens external link in new window10.1063/1.4944562].
  • K. Cantow, A. Pohlmann, B. Flemming, F. Ferrara, S. Waiczies, D. Grosenick, T. Niendorf, and E. Seeliger, “Acute effects of ferumoxytol on regulation of renal hemodynamics and oxygenation.,” Sci. Rep. 6, 29965 (2016) [doi:Opens external link in new window10.1038/srep29965].
  • M. Welter, T. Fredrich, H. Rinneberg, and H. Rieger, “Computational Model for Tumor Oxygenation Applied to Clinical Data on Breast Tumor Hemoglobin Concentrations Suggests Vascular Dilatation and Compression.,” PLoS One 11(8), e0161267 (2016) [doi:Opens external link in new window10.1371/journal.pone.0161267].
  • M. Ferrari, J. P. Culver, Y. Hoshi, and H. Wabnitz, “Special Section Guest Editorial: Clinical near-infrared spectroscopy and imaging of the brain.,” J. Biomed. Opt. 21(9), 91301 (2016) [doi:Opens external link in new window10.1117/1.JBO.21.9.091301].
  • M. Ferrari, J. P. Culver, Y. Hoshi, and H. Wabnitz, “Special Section Guest Editorial: Clinical near-infrared spectroscopy and imaging of the brain,” Neurophotonics 3(3), 31401 (2016) [doi:Opens external link in new window10.1117/1.NPh.3.3.031401].

To top

2011 - 2015

  • F. Martelli, S. Del Bianco, L. Spinelli, S. Cavalieri, P. Di Ninni, T. Binzoni, A. Jelzow, R. Macdonald, and H. Wabnitz, “Optimal estimation reconstruction of the optical properties of a two-layered tissue phantom from time-resolved single-distance measurements.,” J. Biomed. Opt. 20(11), 115001 (2015) [doi:Opens external link in new window10.1117/1.JBO.20.11.115001].
  • A. Pifferi, A. Torricelli, R. Cubeddu, G. Quarto, R. Re, S. K. V Sekar, L. Spinelli, A. Farina, F. Martelli, and H. Wabnitz, “Mechanically switchable solid inhomogeneous phantom for performance tests in diffuse imaging and spectroscopy.,” J. Biomed. Opt. 20(12), 121304 (2015) [doi:Opens external link in new window10.1117/1.JBO.20.12.121304].
  • F. S. Mehrabadi, O. Hirsch, R. Zeisig, P. Posocco, E. Laurini, S. Pricl, R. Haag, W. Kemmner, and M. Calderón, “Structure–activity relationship study of dendritic polyglycerolamines for efficient siRNA transfection,” RSC Adv. 5(96), 78760–78770 (2015) [doi:Opens external link in new window10.1039/C5RA10944B].
  • T. Niendorf, A. Pohlmann, K. Arakelyan, B. Flemming, K. Cantow, J. Hentschel, D. Grosenick, M. Ladwig, H. Reimann, S. Klix, S. Waiczies, and E. Seeliger, “How bold is blood oxygenation level-dependent (BOLD) magnetic resonance imaging of the kidney? Opportunities, challenges and future directions,” Acta Physiol. (Oxf). 213(1), 19–38 (2015) [doi:Opens external link in new window10.1111/apha.12393].
  • D. Grosenick, K. Cantow, K. Arakelyan, H. Wabnitz, B. Flemming, A. Skalweit, M. Ladwig, R. Macdonald, T. Niendorf, and E. Seeliger, “Detailing renal hemodynamics and oxygenation in rats by a combined near-infrared spectroscopy and invasive probe approach,” Biomed. Opt. Express 6(2), 309–323 (2015) [doi:Opens external link in new window10.1364/BOE.6.000309].
  • L. Szyc, S. Bonifer, A. Walter, U. Jagemann, D. Grosenick, and R. Macdonald, “Development of a handheld fluorescence imaging camera for intraoperative sentinel lymph node mapping,” J. Biomed. Opt. 20(5), 051025 (2015) [doi:Opens external link in new window10.1117/1.JBO.20.5.051025].
  • A. Poellinger and D. Grosenick, “Optical imaging in mammography,” in Compr. Biomed. Physics, Vol. 4, pp. 345–362, Elsevier (2014) [doi:Opens external link in new window10.1016/B978-0-444-53632-7.00426-3].
  • H. Wabnitz, A. Jelzow, M. Mazurenka, O. Steinkellner, R. Macdonald, D. Milej, N. Zolek, M. Kacprzak, P. Sawosz, R. Maniewski, A. Liebert, S. Magazov, J. C. Hebden, F. Martelli, P. Di Ninni, G. Zaccanti, A. Torricelli, D. Contini, R. Re, L. Zucchelli, L. Spinelli, R. Cubeddu, and A. Pifferi, “Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol,” J. Biomed. Opt. 19(8), 86012 (2014) [doi:Opens external link in new window10.1117/1.JBO.19.8.086012].
  • H. Wabnitz, D. R. Taubert, M. Mazurenka, O. Steinkellner, A. Jelzow, R. Macdonald, D. Milej, P. Sawosz, M. Kacprzak, A. Liebert, R. Cooper, J. C. Hebden, A. Pifferi, A. Farina, I. Bargigia, D. Contini, M. Caffini, L. Zucchelli, L. Spinelli, R. Cubeddu, and A. Torricelli, “Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol,” J. Biomed. Opt. 19(8), 86010 (2014) [doi:Opens external link in new window10.1117/1.JBO.19.8.086010].
  • N. A. Carbone, G. R. Baez, H. A. García, M. V. Waks Serra, H. O. Di Rocco, D. I. Iriarte, J. A. Pomarico, D. Grosenick, and R. Macdonald, “Diffuse reflectance optical topography: location of inclusions in 3D and detectability limits,” Biomed. Opt. Express 5(5), 1336 (2014) [doi:Opens external link in new window10.1364/BOE.5.001336].
  • D. Grosenick and R. Macdonald, “Diffuse optische Bildgebung,” in Biomed. Tech. - Medizinische Bildgeb. Band 7, pp. 505–518 (2014) [doi:Opens external link in new window10.1515/9783110252149.505].
  • A. Jelzow, H. Wabnitz, I. Tachtsidis, E. Kirilina, R. Brühl, and R. Macdonald, “Separation of superficial and cerebral hemodynamics using a single distance time-domain NIRS measurement,” Biomed. Opt. Express 5(5), 1465–1482 (2014) [doi:Opens external link in new window10.1364/BOE.5.001465].
  • D. Milej, A. Gerega, H. Wabnitz, and A. Liebert, “A Monte Carlo study of fluorescence generation probability in a two-layered tissue model,” Phys. Med. Biol. 59(6), 1407–1424 (2014) [doi:Opens external link in new window10.1088/0031-9155/59/6/1407].
  • A. Sassaroli, A. Pifferi, D. Contini, A. Torricelli, L. Spinelli, H. Wabnitz, P. Di Ninni, G. Zaccanti, and F. Martelli, “Forward solvers for photon migration in the presence of highly and totally absorbing objects embedded inside diffusive media.,” J. Opt. Soc. Am. A 31(3), 460–469 (2014) [doi:Opens external link in new window10.1364/JOSAA.31.000460].
  • L. Spinelli, M. Botwicz, N. Zolek, M. Kacprzak, D. Milej, P. Sawosz, A. Liebert, U. Weigel, T. Durduran, F. Foschum, A. Kienle, F. Baribeau, S. Leclair, J.-P. Bouchard, I. Noiseux, P. Gallant, O. Mermut, A. Farina, A. Pifferi, A. Torricelli, R. Cubeddu, H.-C. H.-C. Ho, M. Mazurenka, H. Wabnitz, K. Klauenberg, O. Bodnar, C. Elster, M. Bénazech-Lavoué, Y. Bérubé-Lauzière, F. Lesage, D. Khoptyar, a. a. Subash, S. Andersson-Engels, P. Di Ninni, F. Martelli, and G. Zaccanti, “Determination of reference values for optical properties of liquid phantoms based on Intralipid and India ink,” Biomed. Opt. Express 5(7), 2037 (2014) [doi:Opens external link in new window10.1364/BOE.5.002037].
  • F. Martelli, P. Di Ninni, G. Zaccanti, D. Contini, L. Spinelli, A. Torricelli, R. Cubeddu, H. Wabnitz, M. Mazurenka, R. Macdonald, A. Sassaroli, and A. Pifferi, “Phantoms for diffuse optical imaging based on totally absorbing objects, part 2: experimental implementation.,” J. Biomed. Opt. 19(7), 76011 (2014) [doi:Opens external link in new window10.1117/1.JBO.19.7.076011].
  • F. Martelli, A. Pifferi, D. Contini, L. Spinelli, A. Torricelli, H. Wabnitz, R. Macdonald, A. Sassaroli, and G. Zaccanti, “Phantoms for diffuse optical imaging based on totally absorbing objects, part 1: Basic concepts.,” J. Biomed. Opt. 18(6), 066014 (2013) [doi:Opens external link in new window10.1117/1.JBO.18.6.066014].
  • E. Kirilina, N. Yu, A. Jelzow, H. Wabnitz, A. M. Jacobs, and I. Tachtsidis, “Identifying and quantifying main components of physiological noise in functional near infrared spectroscopy on the prefrontal cortex.,” Front. Hum. Neurosci. 7, 864 (2013) [doi:Opens external link in new window10.3389/fnhum.2013.00864].
  • M. Mazurenka, L. Di Sieno, G. Boso, D. Contini, A. Pifferi, A. D. Mora, A. Tosi, H. Wabnitz, and R. Macdonald, “Non-contact in vivo diffuse optical imaging using a time-gated scanning system,” Biomed. Opt. Express 4(10), 2257–2268 (2013) [doi:Opens external link in new window10.1364/BOE.4.002257].
  • U. Resch-Genger, W. Bremser, D. Pfeifer, M. Spieles, A. Hoffmann, P. C. DeRose, J. C. Zwinkels, F. Gauthier, B. Ebert, R. D. Taubert, C. Monte, J. Voigt, J. Hollandt, and R. Macdonald, “State-of-the art comparability of corrected emission spectra. 1. Spectral correction with physical transfer standards and spectral fluorescence standards by expert laboratories.,” Anal. Chem. 84(9), 3889–3898 (2012) [doi:Opens external link in new window10.1021/ac2034503].
  • K. Wan, B. Ebert, J. Voigt, Q. Wang, Y. Dai, R. Haag, and W. Kemmner, “In vivo tumor imaging using a novel RNAi-based detection mechanism.,” Nanomedicine 8(4), 393–398 (2012) [doi:Opens external link in new window10.1016/j.nano.2012.02.004].
  • A. Liebert, H. Wabnitz, and C. Elster, “Determination of absorption changes from moments of distributions of times of flight of photons: optimization of measurement conditions for a two-layered tissue model.,” J. Biomed. Opt. 17(5), 057005 (2012) [doi:Opens external link in new window10.1117/1.JBO.17.5.057005].
  • W. Kemmner and B. Ebert, “Nachweis von Tumorzellen durch Blockade der Hämsynthese,” Laborpraxis 36(11), 26–28 (2012).
  • E. Kirilina, A. Jelzow, A. Heine, M. Niessing, H. Wabnitz, R. Brühl, B. Ittermann, A. M. Jacobs, and I. Tachtsidis, “The physiological origin of task-evoked systemic artefacts in functional near infrared spectroscopy.,” Neuroimage 61(1), 70–81 (2012) [doi:Opens external link in new window10.1016/j.neuroimage.2012.02.074].
  • V. Fusco, B. Ebert, J. Weber-Eibel, C. Jost, B. Fleige, M. Stolte, G. Oberhuber, H. Rinneberg, H. Lochs, and M. Ortner, “Cancer prevention in ulcerative colitis: long-term outcome following fluorescence-guided colonoscopy,” Inflamm Bowel Dis 18(3), 489–495 (2012) [doi:Opens external link in new window10.1002/ibd.21703].
  • D. Grosenick, H. Wabnitz, and B. Ebert, “Review: Recent advances in contrast-enhanced near infrared diffuse optical imaging of diseases using indocyanine green,” J. Near Infrared Spectrosc. 20(1), 203–221 (2012) [doi:Opens external link in new window10.1255/jnirs.964].
  • U. Resch-Genger, W. Bremser, D. Pfeifer, M. Spieles, A. Hoffmann, P. C. DeRose, J. C. Zwinkels, F. Gauthier, B. Ebert, R. D. Taubert, J. Voigt, J. Hollandt, and R. Macdonald, “State-of-the art comparability of corrected emission spectra. 2. Field laboratory assessment of calibration performance using spectral fluorescence standards.,” Anal. Chem. 84(9), 3899–3907 (2012) [doi:Opens external link in new window10.1021/ac203451g].
  • A. Jelzow, H. Wabnitz, H. Obrig, R. Macdonald, and J. Steinbrink, “Separation of indocyanine green boluses in the human brain and scalp based on time-resolved in-vivo fluorescence measurements.,” J. Biomed. Opt. 17(5), 057003 (2012) [doi:Opens external link in new window10.1117/1.JBO.17.5.057003].
  • I. Gemeinhardt, D. Puls, O. Gemeinhardt, M. Taupitz, S. Wagner, B. Schnorr, K. Licha, M. Schirner, B. Ebert, D. Petzelt, R. Macdonald, and J. Schnorr, “Near-infrared fluorescence imaging of experimentally collagen-induced arthritis in rats using the nonspecific dye tetrasulfocyanine in comparison with gadolinium-based contrast-enhanced magnetic resonance imaging, histology, and clinical score.,” J. Biomed. Opt. 17(10), 106008 (2012) [doi:Opens external link in new window10.1117/1.JBO.17.10.106008].
  • M. Mazurenka, A. Jelzow, H. Wabnitz, D. Contini, L. Spinelli, A. Pifferi, R. Cubeddu, A. D. Mora, A. Tosi, F. Zappa, and R. Macdonald, “Non-contact time-resolved diffuse reflectance imaging at null source-detector separation.,” Opt. Express 20(1), 283–290 (2012) [doi: 10.1364/OE.20.000283].
  • O. Steinkellner, H. Wabnitz, A. Jelzow, R. Macdonald, C. Gruber, J. Steinbrink, and H. Obrig, “Cerebral perfusion in acute stroke monitored by time-domain near-infrared reflectometry,” Biocybern. Biomed. Eng. 32(1), 3–16 (2012).
  • T. Dziekan, C. Weissbach, J. Voigt, B. Ebert, R. Macdonald, M. L. Bahner, M. Mahler, M. Schirner, M. Berliner, B. Berliner, J. Osel, and I. Osel, “Detection of rheumatoid arthritis by evaluation of normalized variances of fluorescence time correlation functions.,” J. Biomed. Opt. 16(7), 076015 (2011) [doi:Opens external link in new window10.1117/1.3599958].
  • B. Ebert, B. Riefke, U. Sukowski, and K. Licha, “Cyanine dyes as contrast agents for near-infrared imaging in vivo: acute tolerance, pharmacokinetics, and fluorescence imaging.,” J. Biomed. Opt. 16(6), 066003 (2011) [doi:Opens external link in new window10.1117/1.3585678].
  • D. Grosenick, A. Hagen, O. Steinkellner, A. Poellinger, S. Burock, P. M. Schlag, H. Rinneberg, and R. Macdonald, “A multichannel time-domain scanning fluorescence mammograph: performance assessment and first in vivo results,” Rev. Sci. Instrum. 82(2), 024302 (2011) [doi:Opens external link in new window10.1063/1.3543820].
  • K. Licha, P. Welker, M. Weinhart, N. Wegner, S. Kern, S. Reichert, I. Gemeinhardt, C. Weissbach, B. Ebert, R. Haag, and M. Schirner, “Fluorescence imaging with multifunctional polyglycerol sulfates: Novel polymeric near-IR probes targeting inflammation,” Bioconjug. Chem. 22(12), 2453–2460 (2011) [doi:Opens external link in new window10.1021/bc2002727].
  • K. Klauenberg, B. Ebert, J. Voigt, M. Walzel, J. E. Noble, A. E. Knight, and C. Elster, “Bayesian analysis of an international ELISA comparability study.,” Clin. Chem. Lab. Med. 49(9), 1459–1468 (2011) [doi:Opens external link in new window10.1515/CCLM.2011.648].
  • A. Poellinger, S. Burock, D. Grosenick, A. Hagen, L. Lüdemann, F. Diekmann, F. Engelken, R. Macdonald, H. Rinneberg, and P. M. Schlag, “Breast cancer: early-and late-fluorescence near-infrared imaging with indocyanine green—a preliminary study,” Radiology 258(2), 409–416 (2011) [doi:10.1148/radiol.10100258].
  • S. Leistner, T. Sander-Thoemmes, H. Wabnitz, M. Moeller, M. Wachs, G. Curio, R. Macdonald, L. Trahms, and B.-M. Mackert, “Non-invasive simultaneous recording of neuronal and vascular signals in subacute ischemic stroke.,” Biomed. Tech. (Berl). 56(2), 85–90 (2011) [doi:Opens external link in new window10.1515/BMT.2011.002].

To top

2006 - 2010

  • T. H. Sander, S. Leistner, H. Wabnitz, B.-M. Mackert, R. Macdonald, and L. Trahms, “Cross-correlation of motor activity signals from dc-magnetoencephalography, near-infrared spectroscopy, and electromyography.,” Comput. Intell. Neurosci., 785279 (2010) [doi:Opens external link in new window10.1155/2010/785279].
  • H. Wabnitz, M. Moeller, A. Liebert, H. Obrig, J. Steinbrink, and R. Macdonald, “Time-resolved near-infrared spectroscopy and imaging of the adult human brain.,” Adv. Exp. Med. Biol. 662, 143–148 (2010) [doi:Opens external link in new window10.1007/978-1-4419-1241-1_20].
  • M.-A. Ortner, V. Fusco, B. Ebert, U. Sukowski, J. Weber-Eibel, B. Fleige, M. Stolte, G. Oberhuber, H. Rinneberg, and H. Lochs, “Time-gated fluorescence spectroscopy improves endoscopic detection of low-grade dysplasia in ulcerative colitis.,” Gastrointest. Endosc. 71(2), 312–318 (2010) [doi:Opens external link in new window10.1016/j.gie.2009.09.029].
  • T. Fischer, B. Ebert, J. Voigt, R. Macdonald, U. Schneider, A. Thomas, B. Hamm, and K.-G. A. Hermann, “Detection of rheumatoid arthritis using non-specific contrast enhanced fluorescence imaging.,” Acad. Radiol. 17(3), 375–381 (2010) [doi:Opens external link in new window10.1016/j.acra.2009.09.016].
  • O. Steinkellner, C. Gruber, H. Wabnitz, A. Jelzow, J. Steinbrink, J. B. Fiebach, R. Macdonald, and H. Obrig, “Optical bedside monitoring of cerebral perfusion: technological and methodological advances applied in a study on acute ischemic stroke,” J. Biomed. Opt. 15(6), 061708 (2010) [doi:Opens external link in new window10.1117/1.3505009].
  • S. Vollmer, A. Vater, K. Licha, I. Gemeinhardt, O. Gemeinhardt, J. Voigt, B. Ebert, J. Schnorr, M. Taupitz, R. Macdonald, and M. Schirner, “Extra domain B fibronectin as a target for near-infrared fluorescence imaging of rheumatoid arthritis affected joints in vivo.,” Mol. Imaging 8(6), 330–340 (2009).
  • A. Hagen, D. Grosenick, R. Macdonald, H. Rinneberg, S. Burock, P. Warnick, A. Poellinger, and P. M. Schlag, “Late-fluorescence mammography assesses tumor capillary permeability and differentiates malignant from benign lesions,” Opt. Express 17(19), 17016–17033 (2009) [doi:Opens external link in new window10.1364/OE.17.017016].
  • R. Ziegler, T. Nielsen, T. Koehler, D. Grosenick, O. Steinkellner, A. Hagen, R. Macdonald, and H. Rinneberg, “Nonlinear reconstruction of absorption and fluorescence contrast from measured diffuse transmittance and reflectance of a compressed-breast-simulating phantom,” Appl. Opt. 48(24), 4651–4662 (2009) [doi:Opens external link in new window10.1364/AO.48.004651].
  • H. Rinneberg, D. Grosenick, K. T. Moesta, H. Wabnitz, J. Mucke, G. Wübbeler, R. Macdonald, and P. M. Schlag, “Detection and characterization of breast tumours by time-domain scanning optical mammography,” Opto-Electronics Rev. 16(2), 147–162 (2008) [doi:Opens external link in new window10.2478/s11772-008-0004-5].
  • A. Liebert, H. Wabnitz, N. Zołek, and R. Macdonald, “Monte Carlo algorithm for efficient simulation of time-resolved fluorescence in layered turbid media,” Opt. Express 16(17), 1859–1876 (2008) [doi:Opens external link in new window10.1364/OE.16.013188].
  • W. Kemmner, K. Wan, S. Rüttinger, B. Ebert, R. Macdonald, U. Klamm, and K. T. Moesta, “Silencing of human ferrochelatase causes abundant protoporphyrin-IX accumulation in colon cancer.,” FASEB J. 22(2), 500–509 (2008) [doi:Opens external link in new window10.1096/fj.07-8888com].
  • J. Steinbrink, A. Liebert, H. Wabnitz, R. Macdonald, H. Obrig, A. Wunder, R. Bourayou, T. Betz, J. Klohs, U. Lindauer, U. Dirnagl, and A. Villringer, “Towards noninvasive molecular fluorescence imaging of the human brain.,” Neurodegener. Dis. 5(5), 296–303 (2008) [doi:Opens external link in new window10.1159/000135614].
  • B.-M. Mackert, S. Leistner, T. Sander, A. Liebert, H. Wabnitz, M. Burghoff, L. Trahms, R. Macdonald, and G. Curio, “Dynamics of cortical neurovascular coupling analyzed by simultaneous DC-magnetoencephalography and time-resolved near-infrared spectroscopy.,” Neuroimage 39(3), 979–986 (2008) [doi:Opens external link in new window10.1016/j.neuroimage.2007.09.037].
  • J. E. Noble, L. Wang, E. Cerasoli, A. E. Knight, R. A. Porter, E. Gray, C. Howe, E. Hannes, P. Corbisier, J. Wang, L. Wu, I. Altieri, M. Patriarca, A. Hoffman, U. Resch-Genger, B. Ebert, J. Voigt, Y. Shigeri, M. S. Vonsky, L. A. Konopelko, A. K. Gaigalas, and M. J. A. Bailey, “An international comparability study to determine the sources of uncertainty associated with a non-competitive sandwich fluorescent ELISA.,” Clin. Chem. Lab. Med. 46(7), 1033–1045 (2008) [doi:Opens external link in new window10.1515/CCLM.2008.182].
  • H. O. Di Rocco, D. I. Iriarte, J. A. Pomarico, H. F. Ranea Sandoval, R. Macdonald, and J. Voigt, “Determination of optical properties of slices of turbid media by diffuse CW laser light scattering profilometry,” J. Quant. Spectrosc. Radiat. Transf. 105(1), 68–83 (2007) [doi:Opens external link in new window10.1016/j.jqsrt.2006.10.003].
  • T. H. Sander, A. Liebert, M. Burghoff, H. Wabnitz, R. Macdonald, and L. Trahms, “Cross-correlation analysis of the correspondence between magnetoencephalographic and near-infrared cortical signals.,” Methods Inf. Med. 46(2), 164–168 (2007).
  • D. Grosenick, A. Kummrow, R. Macdonald, P. M. Schlag, and H. Rinneberg, “Evaluation of higher-order time-domain perturbation theory of photon diffusion on breast-equivalent phantoms and optical mammograms,” Phys. Rev. E 76(6), 061908 (2007) [doi:Opens external link in new window10.1103/PhysRevE.76.061908].
  • T. H. Sander, A. Liebert, B. M. Mackert, H. Wabnitz, S. Leistner, G. Curio, M. Burghoff, R. Macdonald, and L. Trahms, “DC-magnetoencephalography and time-resolved near-infrared spectroscopy combined to study neuronal and vascular brain responses.,” Physiol. Meas. 28(6), 651–664 (2007) [doi:10.1088/0967-3334/28/6/004].
  • W. Kilian, A. Haller, F. Seifert, D. Grosenick, and H. Rinneberg, “Free precession and transverse relaxation of hyperpolarized 129Xe gas detected by SQUIDs in ultra-low magnetic fields,” Eur. Phys. J. D 42(2), 197–202 (2007) [doi:Opens external link in new window10.1140/epjd/e2007-00026-8].
  • T. Fischer, I. Gemeinhardt, S. Wagner, D. V Stieglitz, J. Schnorr, K.-G. A. Hermann, B. Ebert, D. Petzelt, R. Macdonald, K. Licha, M. Schirner, V. Krenn, T. Kamradt, and M. Taupitz, “Assessment of unspecific near-infrared dyes in laser-induced fluorescence imaging of experimental arthritis.,” Acad. Radiol. 13(1), 4–13 (2006) [doi:Opens external link in new window10.1016/j.acra.2005.07.010].

To top

1996 - 2005

  • A. Liebert, H. Wabnitz, H. Obrig, R. Erdmann, M. Möller, R. Macdonald, H. Rinneberg, A. Villringer, and J. Steinbrink, “Non-invasive detection of fluorescence from exogenous chromophores in the adult human brain.,” Neuroimage 31(2), 600–608 (2006) [doi:Opens external link in new window10.1016/j.neuroimage.2005.12.046].
  • A. Pifferi, A. Torricelli, A. Bassi, P. Taroni, R. Cubeddu, H. Wabnitz, D. Grosenick, M. Möller, R. Macdonald, J. Swartling, T. Svensson, S. Andersson-Engels, R. L. P. van Veen, H. J. C. M. Sterenborg, J.-M. Tualle, H. L. Nghiem, S. Avrillier, M. Whelan, and H. Stamm, “Performance assessment of photon migration instruments: the MEDPHOT protocol,” Appl. Opt. 44(11), 2104–2114 (2005) [doi:Opens external link in new window10.1364/AO.44.002104].
  • A. Liebert, H. Wabnitz, J. Steinbrink, M. Möller, R. Macdonald, H. Rinneberg, A. Villringer, and H. Obrig, “Bed-side assessment of cerebral perfusion in stroke patients based on optical monitoring of a dye bolus by time-resolved diffuse reflectance,” Neuroimage 24(2), 426–435 (2005) [doi:Opens external link in new window10.1016/j.neuroimage.2004.08.046].
  • B. Wassermann, A. Kummrow, K. T. Moesta, D. Grosenick, J. Mucke, H. Wabnitz, M. Möller, R. Macdonald, P. M. Schlag, and H. Rinneberg, “In-vivo tissue optical properties derived by linear perturbation theory for edge-corrected time-domain mammograms,” Opt. Express 13(21), 8571–8583 (2005) [doi:Opens external link in new window10.1364/OPEX.13.008571].
  • D. Grosenick, K. T. Moesta, M. Möller, J. Mucke, H. Wabnitz, B. Gebauer, C. Stroszczynski, B. Wassermann, P. M. Schlag, and H. Rinneberg, “Time-domain scanning optical mammography: I. Recording and assessment of mammograms of 154 patients,” Phys. Med. Biol. 50(11), 2429–2449 (2005) [doi:Opens external link in new window10.1088/0031-9155/50/11/001].
  • C. Perlitz, K. Licha, F.-D. Scholle, B. Ebert, M. Bahner, P. Hauff, K. T. Moesta, and M. Schirner, “Comparison of two tricarbocyanine-based dyes for fluorescence optical imaging.,” J. Fluoresc. 15(3), 443–454 (2005) [doi:Opens external link in new window10.1007/s10895-005-2636-x].
  • D. Grosenick, H. Wabnitz, K. T. Moesta, J. Mucke, P. M. Schlag, and H. Rinneberg, “Time-domain scanning optical mammography: II. Optical properties and tissue parameters of 87 carcinomas.,” Phys. Med. Biol. 50(11), 2451–2468 (2005) [doi:Opens external link in new window10.1088/0031-9155/50/11/002].
  • H. Rinneberg, D. Grosenick, K. T. Moesta, J. Mucke, B. Gebauer, C. Stroszczynski, H. Wabnitz, M. Möller, B. Wassermann, and P. M. Schlag, “Scanning time-domain optical mammography: detection and characterization of breast tumors in vivo,” Technol. Cancer Res. Treat. 4(5), 483–496 (2005) [doi:Opens external link in new window10.1177/153303460500400503].
  • T. Dierkes, D. Grosenick, K. T. Moesta, M. Möller, P. M. Schlag, H. Rinneberg, and S. R. Arridge, “Reconstruction of optical properties of phantom and breast lesion in vivo from paraxial scanning data,” Phys. Med. Biol. 50(11), 2519–2542 (2005) [doi:Opens external link in new window10.1088/0031-9155/50/11/006].
  • K. Licha, N. Debus, S. Emig-Vollmer, B. Hofmann, M. Hasbach, D. Stibenz, S. Sydow, M. Schirner, B. Ebert, D. Petzelt, C. Bührer, W. Semmler, and R. Tauber, “Optical molecular imaging of lymph nodes using a targeted vascular contrast agent.,” J. Biomed. Opt. 10(4), 41205 (2005) [doi:Opens external link in new window10.1117/1.2007967].
  • U. Resch-Genger, K. Hoffmann, W. Nietfeld, A. Engel, J. Neukammer, R. Nitschke, B. Ebert, and R. Macdonald, “How to improve quality assurance in fluorometry: fluorescence-inherent sources of error and suited fluorescence standards.,” J. Fluoresc. 15(3), 337–362 (2005) [doi:Opens external link in new window10.1007/s10895-005-2630-3].
  • A. Liebert, H. Wabnitz, J. Steinbrink, H. Obrig, M. Möller, R. Macdonald, A. Villringer, and H. Rinneberg, “Time-resolved multidistance near-infrared spectroscopy of the adult head: intracerebral and extracerebral absorption changes from moments of distribution of times of flight of photons,” Appl. Opt. 43(15), 3037–3047 (2004) [doi:Opens external link in new window10.1364/AO.43.003037].
  • D. Grosenick, H. Wabnitz, K. T. Moesta, J. Mucke, M. Möller, C. Stroszczynski, J. Stößel, B. Wassermann, P. M. Schlag, and H. Rinneberg, “Concentration and oxygen saturation of haemoglobin of 50 breast tumours determined by time-domain optical mammography,” Phys. Med. Biol. 49(7), 1165–1181 (2004) [doi:Opens external link in new window10.1088/0031-9155/49/7/006].
  • M.-A. E. J. Ortner, B. Ebert, E. Hein, K. Zumbusch, D. Nolte, U. Sukowski, J. Weber-Eibel, B. Fleige, M. Dietel, M. Stolte, G. Oberhuber, R. Porschen, B. Klump, H. Hörtnagl, H. Lochs, and H. Rinneberg, “Time gated fluorescence spectroscopy in Barrett’s oesophagus,” Gut 52(1), 28–33 (2003) [doi:Opens external link in new window10.1136/gut.52.1.28].
  • D. Grosenick, K. T. Moesta, H. Wabnitz, J. Mucke, C. Stroszczynski, R. Macdonald, P. M. Schlag, and H. Rinneberg, “Time-domain optical mammography: initial clinical results on detection and characterization of breast tumors,” Appl. Opt. 42(16), 3170–3186 (2003).
  • A. Liebert, H. Wabnitz, and D. Grosenick, “Evaluation of optical properties of highly scattering media by moments of distributions of times of flight of photons,” Appl. Opt. 42(28), 5785–5792 (2003) [doi:Opens external link in new window10.1364/AO.42.005785].
  • A. Liebert, H. Wabnitz, D. Grosenick, and R. Macdonald, “Fiber dispersion in time domain measurements compromising the accuracy of determination of optical properties of strongly scattering media,” J. Biomed. Opt. 8(3), 512–516 (2003) [doi:Opens external link in new window10.1117/1.1578088].
  • V. Chernomordik, D. W. Hattery, D. Grosenick, H. Wabnitz, H. Rinneberg, K. T. Moesta, P. M. Schlag, and A. H. Gandjbakhche, “Quantification of optical properties of a breast tumor using random walk theory,” J. Biomed. Opt. 7(1), 80–87 (2002) [doi:Opens external link in new window10.1117/1.1427049].
  • J. Steinbrink, H. Wabnitz, H. Obrig, A. Villringer, and H. Rinneberg, “Determining changes in NIR absorption using a layered model of the human head.,” Phys. Med. Biol. 46(3), 879–896 (2001).
  • B. Ebert, U. Sukowski, D. Grosenick, H. Wabnitz, K. T. Moesta, K. Licha, A. Becker, W. Semmler, P. M. Schlag, and H. Rinneberg, “Near-infrared fluorescent dyes for enhanced contrast in optical mammography: phantom experiments.,” J. Biomed. Opt. 6(2), 134–140 (2001) [doi:Opens external link in new window10.1117/1.1350561].
  • J. Steinbrink, M. Kohl, H. Obrig, G. Curio, F. Syré, F. Thomas, H. Wabnitz, H. Rinneberg, and a Villringer, “Somatosensory evoked fast optical intensity changes detected non-invasively in the adult human head.,” Neurosci. Lett. 291(2), 105–108 (2000) [doi:Opens external link in new window10.1016/S0304-3940(00)01395-1].
  • D. Grosenick, H. Wabnitz, H. Rinneberg, K. T. Moesta, and P. M. Schlag, “Development of a time-domain optical mammograph and first in vivo applications,” Appl. Opt. 38(13), 2927–2943 (1999) [doi:Opens external link in new window10.1364/AO.38.002927].
  • H. Wabnitz and H. Rinneberg, “Imaging in turbid media by photon density waves: spatial resolution and scaling relations.,” Appl. Opt. 36(1), 64–74 (1997) [doi:Opens external link in new window10.1364/AO.36.000064]. 
  • D. Grosenick, H. Wabnitz, and H. Rinneberg, “Time-resolved imaging of solid phantoms for optical mammography,” Appl. Opt. 36(1), 221–231 (1997) [doi:Opens external link in new window10.1364/AO.36.000221].
  • U. Sukowski, F. Schubert, D. Grosenick, and H. Rinneberg, “Preparation of solid phantoms with defined scattering and absorption properties for optical tomography,” Phys. Med. Biol. 41(9), 1823–1844 (1996) [doi:Opens external link in new window10.1088/0031-9155/41/9/017.

To top