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Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells

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Zeitschriftentitel: Scientific Reports
Personen und Körperschaften: Hofemeier, Arne D., Hachmeister, Henning, Pilger, Christian, Schürmann, Matthias, Greiner, Johannes F. W., Nolte, Lena, Sudhoff, Holger, Kaltschmidt, Christian, Huser, Thomas, Kaltschmidt, Barbara
In: Scientific Reports, 6, 2016, 1
Format: E-Article
Sprache: Englisch
veröffentlicht:
Springer Science and Business Media LLC
Schlagwörter:
Multidisciplinary
author_facet Hofemeier, Arne D.
Hachmeister, Henning
Pilger, Christian
Schürmann, Matthias
Greiner, Johannes F. W.
Nolte, Lena
Sudhoff, Holger
Kaltschmidt, Christian
Huser, Thomas
Kaltschmidt, Barbara
Hofemeier, Arne D.
Hachmeister, Henning
Pilger, Christian
Schürmann, Matthias
Greiner, Johannes F. W.
Nolte, Lena
Sudhoff, Holger
Kaltschmidt, Christian
Huser, Thomas
Kaltschmidt, Barbara
author Hofemeier, Arne D.
Hachmeister, Henning
Pilger, Christian
Schürmann, Matthias
Greiner, Johannes F. W.
Nolte, Lena
Sudhoff, Holger
Kaltschmidt, Christian
Huser, Thomas
Kaltschmidt, Barbara
spellingShingle Hofemeier, Arne D.
Hachmeister, Henning
Pilger, Christian
Schürmann, Matthias
Greiner, Johannes F. W.
Nolte, Lena
Sudhoff, Holger
Kaltschmidt, Christian
Huser, Thomas
Kaltschmidt, Barbara
Scientific Reports
Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
Multidisciplinary
author_sort hofemeier, arne d.
spelling Hofemeier, Arne D. Hachmeister, Henning Pilger, Christian Schürmann, Matthias Greiner, Johannes F. W. Nolte, Lena Sudhoff, Holger Kaltschmidt, Christian Huser, Thomas Kaltschmidt, Barbara 2045-2322 Springer Science and Business Media LLC Multidisciplinary http://dx.doi.org/10.1038/srep26716 <jats:title>Abstract</jats:title><jats:p>Tissue engineering by stem cell differentiation is a novel treatment option for bone regeneration. Most approaches for the detection of osteogenic differentiation are invasive or destructive and not compatible with live cell analysis. Here, non-destructive and label-free approaches of Raman spectroscopy, coherent anti-Stokes Raman scattering (CARS) and second harmonic generation (SHG) microscopy were used to detect and image osteogenic differentiation of human neural crest-derived inferior turbinate stem cells (ITSCs). Combined CARS and SHG microscopy was able to detect markers of osteogenesis within 14 days after osteogenic induction. This process increased during continued differentiation. Furthermore, Raman spectroscopy showed significant increases of the PO<jats:sub>4</jats:sub><jats:sup>3−</jats:sup> symmetric stretch vibrations at 959 cm<jats:sup>−1</jats:sup> assigned to calcium hydroxyapatite between days 14 and 21. Additionally, CARS microscopy was able to image calcium hydroxyapatite deposits within 14 days following osteogenic induction, which was confirmed by Alizarin Red-Staining and RT- PCR. Taken together, the multimodal label-free analysis methods Raman spectroscopy, CARS and SHG microscopy can monitor osteogenic differentiation of adult human stem cells into osteoblasts with high sensitivity and spatial resolution in three dimensions. Our findings suggest a great potential of these optical detection methods for clinical applications including <jats:italic>in vivo</jats:italic> observation of bone tissue–implant-interfaces or disease diagnosis.</jats:p> Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells Scientific Reports
doi_str_mv 10.1038/srep26716
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title Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_unstemmed Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_full Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_fullStr Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_full_unstemmed Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_short Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_sort label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
topic Multidisciplinary
url http://dx.doi.org/10.1038/srep26716
publishDate 2016
physical
description <jats:title>Abstract</jats:title><jats:p>Tissue engineering by stem cell differentiation is a novel treatment option for bone regeneration. Most approaches for the detection of osteogenic differentiation are invasive or destructive and not compatible with live cell analysis. Here, non-destructive and label-free approaches of Raman spectroscopy, coherent anti-Stokes Raman scattering (CARS) and second harmonic generation (SHG) microscopy were used to detect and image osteogenic differentiation of human neural crest-derived inferior turbinate stem cells (ITSCs). Combined CARS and SHG microscopy was able to detect markers of osteogenesis within 14 days after osteogenic induction. This process increased during continued differentiation. Furthermore, Raman spectroscopy showed significant increases of the PO<jats:sub>4</jats:sub><jats:sup>3−</jats:sup> symmetric stretch vibrations at 959 cm<jats:sup>−1</jats:sup> assigned to calcium hydroxyapatite between days 14 and 21. Additionally, CARS microscopy was able to image calcium hydroxyapatite deposits within 14 days following osteogenic induction, which was confirmed by Alizarin Red-Staining and RT- PCR. Taken together, the multimodal label-free analysis methods Raman spectroscopy, CARS and SHG microscopy can monitor osteogenic differentiation of adult human stem cells into osteoblasts with high sensitivity and spatial resolution in three dimensions. Our findings suggest a great potential of these optical detection methods for clinical applications including <jats:italic>in vivo</jats:italic> observation of bone tissue–implant-interfaces or disease diagnosis.</jats:p>
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author Hofemeier, Arne D., Hachmeister, Henning, Pilger, Christian, Schürmann, Matthias, Greiner, Johannes F. W., Nolte, Lena, Sudhoff, Holger, Kaltschmidt, Christian, Huser, Thomas, Kaltschmidt, Barbara
author_facet Hofemeier, Arne D., Hachmeister, Henning, Pilger, Christian, Schürmann, Matthias, Greiner, Johannes F. W., Nolte, Lena, Sudhoff, Holger, Kaltschmidt, Christian, Huser, Thomas, Kaltschmidt, Barbara, Hofemeier, Arne D., Hachmeister, Henning, Pilger, Christian, Schürmann, Matthias, Greiner, Johannes F. W., Nolte, Lena, Sudhoff, Holger, Kaltschmidt, Christian, Huser, Thomas, Kaltschmidt, Barbara
author_sort hofemeier, arne d.
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description <jats:title>Abstract</jats:title><jats:p>Tissue engineering by stem cell differentiation is a novel treatment option for bone regeneration. Most approaches for the detection of osteogenic differentiation are invasive or destructive and not compatible with live cell analysis. Here, non-destructive and label-free approaches of Raman spectroscopy, coherent anti-Stokes Raman scattering (CARS) and second harmonic generation (SHG) microscopy were used to detect and image osteogenic differentiation of human neural crest-derived inferior turbinate stem cells (ITSCs). Combined CARS and SHG microscopy was able to detect markers of osteogenesis within 14 days after osteogenic induction. This process increased during continued differentiation. Furthermore, Raman spectroscopy showed significant increases of the PO<jats:sub>4</jats:sub><jats:sup>3−</jats:sup> symmetric stretch vibrations at 959 cm<jats:sup>−1</jats:sup> assigned to calcium hydroxyapatite between days 14 and 21. Additionally, CARS microscopy was able to image calcium hydroxyapatite deposits within 14 days following osteogenic induction, which was confirmed by Alizarin Red-Staining and RT- PCR. Taken together, the multimodal label-free analysis methods Raman spectroscopy, CARS and SHG microscopy can monitor osteogenic differentiation of adult human stem cells into osteoblasts with high sensitivity and spatial resolution in three dimensions. Our findings suggest a great potential of these optical detection methods for clinical applications including <jats:italic>in vivo</jats:italic> observation of bone tissue–implant-interfaces or disease diagnosis.</jats:p>
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spelling Hofemeier, Arne D. Hachmeister, Henning Pilger, Christian Schürmann, Matthias Greiner, Johannes F. W. Nolte, Lena Sudhoff, Holger Kaltschmidt, Christian Huser, Thomas Kaltschmidt, Barbara 2045-2322 Springer Science and Business Media LLC Multidisciplinary http://dx.doi.org/10.1038/srep26716 <jats:title>Abstract</jats:title><jats:p>Tissue engineering by stem cell differentiation is a novel treatment option for bone regeneration. Most approaches for the detection of osteogenic differentiation are invasive or destructive and not compatible with live cell analysis. Here, non-destructive and label-free approaches of Raman spectroscopy, coherent anti-Stokes Raman scattering (CARS) and second harmonic generation (SHG) microscopy were used to detect and image osteogenic differentiation of human neural crest-derived inferior turbinate stem cells (ITSCs). Combined CARS and SHG microscopy was able to detect markers of osteogenesis within 14 days after osteogenic induction. This process increased during continued differentiation. Furthermore, Raman spectroscopy showed significant increases of the PO<jats:sub>4</jats:sub><jats:sup>3−</jats:sup> symmetric stretch vibrations at 959 cm<jats:sup>−1</jats:sup> assigned to calcium hydroxyapatite between days 14 and 21. Additionally, CARS microscopy was able to image calcium hydroxyapatite deposits within 14 days following osteogenic induction, which was confirmed by Alizarin Red-Staining and RT- PCR. Taken together, the multimodal label-free analysis methods Raman spectroscopy, CARS and SHG microscopy can monitor osteogenic differentiation of adult human stem cells into osteoblasts with high sensitivity and spatial resolution in three dimensions. Our findings suggest a great potential of these optical detection methods for clinical applications including <jats:italic>in vivo</jats:italic> observation of bone tissue–implant-interfaces or disease diagnosis.</jats:p> Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells Scientific Reports
spellingShingle Hofemeier, Arne D., Hachmeister, Henning, Pilger, Christian, Schürmann, Matthias, Greiner, Johannes F. W., Nolte, Lena, Sudhoff, Holger, Kaltschmidt, Christian, Huser, Thomas, Kaltschmidt, Barbara, Scientific Reports, Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells, Multidisciplinary
title Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_full Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_fullStr Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_full_unstemmed Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_short Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_sort label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
title_unstemmed Label-free nonlinear optical microscopy detects early markers for osteogenic differentiation of human stem cells
topic Multidisciplinary
url http://dx.doi.org/10.1038/srep26716