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Publications

RS ZELLTECHNIK BROCHURES

The Optical Stretcher

OPTICAL STRETCHER TECHNOLOGY

Lincoln, B., Schinkinger, S., Travis, K., Wottawah, F., Ebert, S., Sauer, F., Guck, J., 2007. Reconfigurable microfluidic integration of a dual-beam laser trap with biomedical applications. Biomed. Microdevices 9, 703–710. doi:10.1007/s10544-007-9079-xEbert, S., Travis, K., Lincoln, B., Guck, J., 2007. Fluorescence ratio thermometry in a microfluidic dual-beam laser trap. Opt. Express 15, 15493–15499. doi:10.1364/OE.15.015493Jensen-McMullin, C., Lee, H.P., Lyons, E.R.L., 2005. Demonstration of trapping, motion control, sensing and fluorescence detection of polystyrene beads in a multi-fiber optical trap. Opt. Express 13, 2634–2642. doi:10.1364/OPEX.13.002634Wottawah, F., Schinkinger, S., Lincoln, B., Ananthakrishnan, R., Romeyke, M., Guck, J., K?s, J., 2005. Optical Rheology of Biological Cells. Phys. Rev. Lett. 94, 098103. doi:10.1103/PhysRevLett.94.098103Lincoln, B., Erickson, H.M., Schinkinger, S., Wottawah, F., Mitchell, D., Ulvick, S., Bilby, C., Guck, J., 2004. Deformability-based flow cytometry.Cytometry A 59A, 203–209. doi:10.1002/cyto.a.20050

THEORETICAL MODELS

Ananthakrishnan, R., Guck, J., Wottawah, F., Schinkinger, S., Lincoln, B., Romeyke, M., Kas, J., 2005. Modelling the structural response of an eukaryotic cell in the optical stretcher. Curr. Sci. 88.B. Bareil, P., Sheng, Y., Chiou, A., 2006. Local scattering stress distribution on surface of a spherical cell in optical stretcher. Opt. Express 14, 12503–12509. doi:10.1364/OE.14.012503 Bareil, P.B., Sheng, Y., Chen, Y.-Q., Chiou, A., 2007. Calculation of spherical red blood cell deformation in a dual-beam optical stretcher. Opt. Express 15, 16029–16034. doi:10.1364/OE.15.016029 Boyde, L., Ekpenyong, A., Whyte, G., Guck, J., 2012. Comparison of stresses on homogeneous spheroids in the optical stretcher computed with geometrical optics and generalized Lorenz–Mie theory. Appl. Opt. 51, 7934–7944. doi:10.1364/AO.51.007934Ekpenyong, A.E., Posey, C.L., Chaput, J.L., Burkart, A.K., Marquardt, M.M., Smith, T.J., Nichols, M.G., 2009. Determination of cell elasticity through hybrid ray optics and continuum mechanics modeling of cell deformation in the optical stretcher. Appl. Opt. 48, 6344–6354. doi:10.1364/AO.48.006344Teo, S.-K., Goryachev, A.B., Parker, K.H., Chiam, K.-H., 2010. Cellular deformation and intracellular stress propagation during optical stretching.Phys. Rev. E 81, 051924. doi:10.1103/PhysRevE.81.051924

CANCER RESEARCH AND DIAGNOSTICS

Kastl, L., Budde, B., Isbach, M., Rommel, C., Kemper, B., Schnekenburger, J., 2015. Optomechanical properties of cancer cells revealed by light-induced deformation and quantitative phase microscopy. pp. 952908–952908–6. doi:10.1117/12.2184764Martin, M., Müller, K., Cadenas, C., Hermes, M., Zink, M., Hengstler, J.G., K?s, J.A., 2012. ERBB2 overexpression triggers transient high mechanoactivity of breast tumor cells. Cytoskeleton 69, 267–277. doi:10.1002/cm.21023Fritsch, A., H?ckel, M., Kiessling, T., Nnetu, K.D., Wetzel, F., Zink, M., K?s, J.A., 2010. Are biomechanical changes necessary for tumour progression? Nat. Phys. 6, 730–732. doi:10.1038/nphys1800Brunner, C., Niendorf, A., K?s, J.A., 2009. Passive and active single-cell biomechanics: a new perspective in cancer diagnosis. Soft Matter 5, 2171–2178. doi:10.1039/B807545JRemmerbach, T.W., Wottawah, F., Dietrich, J., Lincoln, B., Wittekind, C., Guck, J., 2009. Oral Cancer Diagnosis by Mechanical Phenotyping. Cancer Res. 69, 1728–1732. doi:10.1158/0008-5472.CAN-08-4073Martin, M., Mueller, K., Wottawah, F., Schinkinger, S., Lincoln, B., Romeyke, M., K?s, J.A., 2006. Feeling with light for cancer. p. 60800P–60800P–10. doi:10.1117/12.637899Guck, J., Schinkinger, S., Lincoln, B., Wottawah, F., Ebert, S., Romeyke, M., Lenz, D., Erickson, H.M., Ananthakrishnan, R., Mitchell, D., K?s, J., Ulvick, S., Bilby, C., 2005. Optical Deformability as an Inherent Cell Marker for Testing Malignant Transformation and Metastatic Competence. Biophys. J. 88, 3689–3698. doi:10.1529/biophysj.104.045476

STEM CELL RESEARCH

Ekpenyong, A.E., Whyte, G., Chalut, K., Pagliara, S., Lautenschlaeger, F., Fiddler, C., Paschke, S., Keyser, U.F., Chilvers, E.R., Guck, J., 2012.Viscoelastic Properties of Differentiating Blood Cells Are Fate- and Function-Dependent. Plos One 7, e45237. doi:10.1371/journal.pone.0045237Galle, J., Bader, A., Hepp, P., Grill, W., Fuchs, B., Kas, J.A., Krinner, A., MarquaB, B., Muller, K., Schiller, J., Schulz, R.M., von Buttlar, M., von der Burg, E., Zscharnack, M., Loffler, M., 2010. Mesenchymal Stem Cells in Cartilage Repair: State of the Art and Methods to monitor Cell Growth, Differentiation and Cartilage Regeneration. Curr. Med. Chem. 17, 2274–2291. doi:10.2174/092986710791331095Maloney, J.M., Nikova, D., Lautenschlager, F., Clarke, E., Langer, R., Guck, J., Van Vliet, K.J., 2010. Mesenchymal Stem Cell Mechanics from the Attached to the Suspended State. Biophys. J. 99, 2479–2487. doi:10.1016/j.bpj.2010.08.052Lautenschl?ger, F., Paschke, S., Schinkinger, S., Bruel, A., Beil, M., Guck, J., 2009. The regulatory role of cell mechanics for migration of differentiating myeloid cells. Proc. Natl. Acad. Sci. 106, 15696–15701 doi:10.1073/pnas.0811261106

IMMUNE SYSTEM

Man, S.M., Ekpenyong, A., Tourlomousis, P., Achouri, S., Cammarota, E., Hughes, K., Rizzo, A., Ng, G., Wright, J.A., Cicuta, P., Guck, J.R., Bryant, C.E., 2014. Actin polymerization as a key innate immune effector mechanism to control Salmonella infection. Proc. Natl. Acad. Sci. 201419925 doi:10.1073/pnas.1419925111

BASIC RESEARCH

Schmidt, B.U.S., Kie?ling, T.R., Warmt, E., Fritsch, A.W., Stange, R., K?s, J.A., 2015. Complex thermorheology of living cells. New J. Phys. 17, 073010. doi:10.1088/1367-2630/17/7/073010Chan, C.J., Ekpenyong, A.E., Golfier, S., Li, W., Chalut, K.J., Otto, O., Elgeti, J., Guck, J., Lautenschl?ger, F., 2015. Myosin II Activity Softens Cells in Suspension. Biophys. J. 108, 1856–1869. doi:10.1016/j.bpj.2015.03.009Gladilin, E., Gonzalez, P., Eils, R., 2014. Dissecting the contribution of actin and vimentin intermediate filaments to mechanical phenotype of suspended cells using high-throughput deformability measurements and computational modeling. J. Biomech. 47, 2598–2605. doi:10.1016/j.jbiomech.2014.05.020Maloney, J.M., Vliet, K.J.V., 2014. Chemoenvironmental modulators of fluidity in the suspended biological cell. Soft Matter. doi:10.1039/C4SM00743CWarmt, E., Kie?ling, T.R., Stange, R., Fritsch, A.W., Zink, M., K?s, J.A., 2014. Thermal instability of cell nuclei. New J. Phys. 16, 073009. doi:10.1088/1367-2630/16/7/073009Gyger, M., Stange, R., Kiessling, T.R., Fritsch, A., Kostelnik, K.B., Beck-Sickinger, A.G., Zink, M., Kaes, J.A., 2014. Active contractions in single suspended epithelial cells. Eur. Biophys. J. Biophys. Lett. 43, 11–23. doi:10.1007/s00249-013-0935-8Seltmann, K., Fritsch, A.W., K?s, J.A., Magin, T.M., 2013. Keratins significantly contribute to cell stiffness and impact invasive behavior. Proc. Natl. Acad. Sci. 201310493. doi:10.1073/pnas.1310493110Maloney, J.M., Lehnhardt, E., Long, A.F., Van Vliet, K.J., 2013. Mechanical fluidity of fully suspended biological cells. Biophys. J. 105, 1767–1777. doi:10.1016/j.bpj.2013.08.040Kie?ling, T.R., Stange, R., K?s, J.A., Fritsch, A.W., 2013. Thermorheology of living cells—impact of temperature variations on cell mechanics. New J. Phys. 15, 045026. doi:10.1088/1367-2630/15/4/045026Kie?ling, T.R., Herrera, M., Nnetu, K.D., Balzer, E.M., Girvan, M., Fritsch, A.W., Martin, S.S., K?s, J.A., Losert, W., 2013. Analysis of multiple physical parameters for mechanical phenotyping of living cells. Eur. Biophys. J. 42, 383–394. doi:10.1007/s00249-013-0888-yPaschke, S., Weidner, A.F., Paust, T., Marti, O., Beil, M., Ben-Chetrit, E., 2013. Technical advance: Inhibition of neutrophil chemotaxis by colchicine is modulated through viscoelastic properties of subcellular compartments. J. Leukoc. Biol. 94, 1091–1096. doi:10.1189/jlb.1012510Chalut, K.J., H?pfler, M., Lautenschl?ger, F., Boyde, L., Chan, C.J., Ekpenyong, A., Martinez-Arias, A., Guck, J., 2012. Chromatin decondensation and nuclear softening accompany Nanog downregulation in embryonic stem cells. Biophys. J. 103, 2060–2070. doi:10.1016/j.bpj.2012.10.015Matthews, H.K., Delabre, U., Rohn, J.L., Guck, J., Kunda, P., Baum, B., 2012. Changes in Ect2 localization couple actomyosin-dependent cell shape changes to mitotic progression. Dev. Cell 23, 371–383. doi:10.1016/j.devcel.2012.06.003Mauritz, J.M.A., Esposito, A., Tiffert, T., Skepper, J.N., Warley, A., Yoon, Y.-Z., Cicuta, P., Lew, V.L., Guck, J.R., Kaminski, C.F., 2010. Biophotonic techniques for the study of malaria-infected red blood cells. Med. Biol. Eng. Comput. 48, 1055–1063. doi:10.1007/s11517-010-0668-0Rusciano, G., 2010. Experimental analysis of Hb oxy–deoxy transition in single optically stretched red blood cells. Phys. Med. 26, 233–239. doi:10.1016/j.ejmp.2010.02.001

AGING PROCESSES

Schulze, C., Wetzel, F., Kueper, T., Malsen, A., Muhr, G., Jaspers, S., Blatt, T., Wittern, K.-P., Wenck, H., K?s, J.A., 2010. Stiffening of Human Skin Fibroblasts with Age. Biophys. J. 99, 2434–2442. doi:10.1016/j.bpj.2010.08.026

VESICLES

Delabre, U., Feld, K., Crespo, E., Whyte, G., Sykes, C., Seifert, U., Guck, J., 2015. Deformation of phospholipid vesicles in an optical stretcher. Soft Matter. doi:10.1039/C5SM00562KSolmaz, M.E., Sankhagowit, S., Biswas, R., Mejia, C.A., Povinelli, M.L., Malmstadt, N., 2013. Optical stretching as a tool to investigate the mechanical properties of lipid bilayers. Rsc Adv. 3, 16632–16638. doi:10.1039/c3ra42510j Solmaz, M.E., Biswas, R., Sankhagowit, S., Thompson, J.R., Mejia, C.A., Malmstadt, N., Povinelli, M.L., 2012. Optical stretching of giant unilamellar vesicles with an integrated dual-beam optical trap. Biomed. Opt. Express 3, 2419–2427. doi:10.1364/BOE.3.002419

TECHNICAL ADVANCES

Grosser, S., Fritsch, A.W., Kie?ling, T.R., Stange, R., K?s, J.A., 2015. The lensing effect of trapped particles in a dual-beam optical trap. Opt. Express 23, 5221–5235. doi:10.1364/OE.23.005221Bellini, N., Bragheri, F., Cristiani, I., Guck, J., Osellame, R., Whyte, G., 2012. Validation and perspectives of a femtosecond laser fabricated monolithic optical stretcher. Biomed. Opt. Express 3, 2658–2668. doi:10.1364/BOE.3.002658 Bellini, N., Vishnubhatla, K.C., Bragheri, F., Ferrara, L., Minzioni, P., Ramponi, R., Cristiani, I., Osellame, R., 2010. Femtosecond laser fabricated monolithic chip for optical trapping and stretching of single cells. Opt. Express 18, 4679–4688. doi:10.1364/OE.18.004679�Ї��(w��)�̣��˼S�Ƽ��޹�˾ �R�� 18601970048

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