Abstract

There has been a marked revival of interest in brillouin light scattering spectroscopy/microscopy over the last decade in regards to applications related to all optically studying the mechanical problems associated with systems of biological and medical interest. This revival has been driven by advancements in spectrometer design, together with mounting evidence of the critical role that mechanical properties can play in biological processes as well as the onset of diverse diseases. This feature issue contains a series of papers spanning some of the latest developments in the field of Brillouin light scattering spectroscopy and microscopy as applied to systems of biomedical interest.

© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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References

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  1. A. Fiore and G. Scarcelli, “Single etalon design for two-stage cross-axis VIPA spectroscopy,” Biomed. Opt. Express 10(3), 1475–1481 (2019).
    [Crossref] [PubMed]
  2. R. J. Jimenez Rioboo, M. Desco, and M. V. Gomez-Garviro, “Impact of optical tissue clearing on the Brillouin signal from biological tissue samples,” Biomed. Opt. Express. in press.
  3. D. Fioretto, S. Caponi, and F. Palombo, “Brillouin-Raman mapping of natural fibers with spectral moment analysis,” Biomed. Opt. Express 10(3), 1469–1474 (2019).
    [Crossref] [PubMed]
  4. N. Correa, S. Harding, M. Bailey, S. Brasselet, and F. Palombo, “Image analysis applied to Brillouin images of tissue-mimicking collagen gelatins,” Biomed. Opt. Express 10(3), 1329–1338 (2019).
    [Crossref] [PubMed]
  5. M. Pochylski, “Structural relaxation in the wave-vector dependence of the longitudinal rigidity modulus,” Biomed. Opt. Express 10(4), 1957–1964 (2019).
    [Crossref]
  6. G. Rohman, S. Ramtani, S. Changotade, C. Langueh, D. Lutomski, Y. Roussigné, F. Tétard, F. Caupin, and P. Djemia, “Characterization of elastomeric scaffolds developed for tissue engineering applications by compression and nanoindentation tests, μ-Raman and μ-Brillouin spectroscopies,” Biomed. Opt. Express 10(4), 1649–1659 (2019).
    [Crossref]
  7. M. Troyanova-Wood, Z. Meng, and V. Yakovlev, “Differentiating melanoma and healthy tissues based on elasticity-specific Brillouin microspectroscopy,” Biomed. Opt. Express 10(4), 1774–1781 (2019).
    [Crossref]
  8. M. Nikolić and G. Scarcelli, “Long-term Brillouin imaging of live cells with reduced absorption-mediated damage at 660nm wavelength,” Biomed. Opt. Express 10(4), 1567–1580 (2019).
    [Crossref]
  9. M. A. Cardinali, D. Dallari, M. Govonic, C. Stagni, F. Marmi, M. Tschon, S. Brogini, D. Fioretto, and A. Morresi, “Brillouin micro-spectroscopy of subchondral and trabecular bone of human femoral head,” Biomed. Opt. Express 10(5), 2606–2611 (2019).
    [Crossref]
  10. C. Bevilacqua, H. Sánchez-Iranzo, D. Richter, A. Diz-Muñoz, and R. Prevedel, “Imaging mechanical properties of sub-micron ECM in live zebrafish using Brillouin microscopy,” Biomed. Opt. Express 10(3), 1420–1431 (2019).
    [Crossref] [PubMed]
  11. P.-J. Wi, M. I. Masouleh, D. Dini, C. Pateron, P. Torok, D. R. Overby, and I. V. Kabakova, “Detection of proteoglycan loss from articular cartilage using brillouin microscopy, with applications to osteoarthritis,” Biomed. Opt. Express 10(5), 2457–2466 (2019).
    [Crossref]
  12. O. Andriotis, K. Elsayad, D. Smart, M. Nalbach, D. Davies, and P. Thurner, “Hydration and nanomechanical changes in collagen fibrils bearing advanced glycation end-products,” Biomed. Opt. Express 10(4), 1841–1855 (2019).
    [Crossref]
  13. S. Coppola, T. Schmidt, G. Ruocco, and G. Antonacci, “Quantifying cellular forces and biomechanical properties by correlative micropillar traction force and Brillouin microscopy,” Biomed. Opt. Express 10(5), 2202–2212 (2019).
    [Crossref]
  14. C. Ballmann, Z. Meng, and V. Yakovlev, “Nonlinear Brillouin spectroscopy: what makes it a better tool for biological viscoelastic measurements,” Biomed. Opt. Express 10(4), 1750–1759 (2019).
    [Crossref]
  15. F. Pérez-Cota, R. J. Smith, H. N. Elshikha, and M. Clark, “New insights into the mechanical properties of Acanthamoeba castellanii cysts as revealed by phonon microscopy,” Biomed. Opt. Express 10(5), 2399–2408 (2019).
    [Crossref]

2019 (14)

A. Fiore and G. Scarcelli, “Single etalon design for two-stage cross-axis VIPA spectroscopy,” Biomed. Opt. Express 10(3), 1475–1481 (2019).
[Crossref] [PubMed]

D. Fioretto, S. Caponi, and F. Palombo, “Brillouin-Raman mapping of natural fibers with spectral moment analysis,” Biomed. Opt. Express 10(3), 1469–1474 (2019).
[Crossref] [PubMed]

N. Correa, S. Harding, M. Bailey, S. Brasselet, and F. Palombo, “Image analysis applied to Brillouin images of tissue-mimicking collagen gelatins,” Biomed. Opt. Express 10(3), 1329–1338 (2019).
[Crossref] [PubMed]

M. Pochylski, “Structural relaxation in the wave-vector dependence of the longitudinal rigidity modulus,” Biomed. Opt. Express 10(4), 1957–1964 (2019).
[Crossref]

G. Rohman, S. Ramtani, S. Changotade, C. Langueh, D. Lutomski, Y. Roussigné, F. Tétard, F. Caupin, and P. Djemia, “Characterization of elastomeric scaffolds developed for tissue engineering applications by compression and nanoindentation tests, μ-Raman and μ-Brillouin spectroscopies,” Biomed. Opt. Express 10(4), 1649–1659 (2019).
[Crossref]

M. Troyanova-Wood, Z. Meng, and V. Yakovlev, “Differentiating melanoma and healthy tissues based on elasticity-specific Brillouin microspectroscopy,” Biomed. Opt. Express 10(4), 1774–1781 (2019).
[Crossref]

M. Nikolić and G. Scarcelli, “Long-term Brillouin imaging of live cells with reduced absorption-mediated damage at 660nm wavelength,” Biomed. Opt. Express 10(4), 1567–1580 (2019).
[Crossref]

M. A. Cardinali, D. Dallari, M. Govonic, C. Stagni, F. Marmi, M. Tschon, S. Brogini, D. Fioretto, and A. Morresi, “Brillouin micro-spectroscopy of subchondral and trabecular bone of human femoral head,” Biomed. Opt. Express 10(5), 2606–2611 (2019).
[Crossref]

C. Bevilacqua, H. Sánchez-Iranzo, D. Richter, A. Diz-Muñoz, and R. Prevedel, “Imaging mechanical properties of sub-micron ECM in live zebrafish using Brillouin microscopy,” Biomed. Opt. Express 10(3), 1420–1431 (2019).
[Crossref] [PubMed]

P.-J. Wi, M. I. Masouleh, D. Dini, C. Pateron, P. Torok, D. R. Overby, and I. V. Kabakova, “Detection of proteoglycan loss from articular cartilage using brillouin microscopy, with applications to osteoarthritis,” Biomed. Opt. Express 10(5), 2457–2466 (2019).
[Crossref]

O. Andriotis, K. Elsayad, D. Smart, M. Nalbach, D. Davies, and P. Thurner, “Hydration and nanomechanical changes in collagen fibrils bearing advanced glycation end-products,” Biomed. Opt. Express 10(4), 1841–1855 (2019).
[Crossref]

S. Coppola, T. Schmidt, G. Ruocco, and G. Antonacci, “Quantifying cellular forces and biomechanical properties by correlative micropillar traction force and Brillouin microscopy,” Biomed. Opt. Express 10(5), 2202–2212 (2019).
[Crossref]

C. Ballmann, Z. Meng, and V. Yakovlev, “Nonlinear Brillouin spectroscopy: what makes it a better tool for biological viscoelastic measurements,” Biomed. Opt. Express 10(4), 1750–1759 (2019).
[Crossref]

F. Pérez-Cota, R. J. Smith, H. N. Elshikha, and M. Clark, “New insights into the mechanical properties of Acanthamoeba castellanii cysts as revealed by phonon microscopy,” Biomed. Opt. Express 10(5), 2399–2408 (2019).
[Crossref]

Andriotis, O.

Antonacci, G.

Bailey, M.

Ballmann, C.

Bevilacqua, C.

Brasselet, S.

Brogini, S.

Caponi, S.

Cardinali, M. A.

Caupin, F.

Changotade, S.

Clark, M.

Coppola, S.

Correa, N.

Dallari, D.

Davies, D.

Desco, M.

R. J. Jimenez Rioboo, M. Desco, and M. V. Gomez-Garviro, “Impact of optical tissue clearing on the Brillouin signal from biological tissue samples,” Biomed. Opt. Express. in press.

Dini, D.

Diz-Muñoz, A.

Djemia, P.

Elsayad, K.

Elshikha, H. N.

Fiore, A.

Fioretto, D.

Gomez-Garviro, M. V.

R. J. Jimenez Rioboo, M. Desco, and M. V. Gomez-Garviro, “Impact of optical tissue clearing on the Brillouin signal from biological tissue samples,” Biomed. Opt. Express. in press.

Govonic, M.

Harding, S.

Jimenez Rioboo, R. J.

R. J. Jimenez Rioboo, M. Desco, and M. V. Gomez-Garviro, “Impact of optical tissue clearing on the Brillouin signal from biological tissue samples,” Biomed. Opt. Express. in press.

Kabakova, I. V.

Langueh, C.

Lutomski, D.

Marmi, F.

Masouleh, M. I.

Meng, Z.

Morresi, A.

Nalbach, M.

Nikolic, M.

Overby, D. R.

Palombo, F.

Pateron, C.

Pérez-Cota, F.

Pochylski, M.

Prevedel, R.

Ramtani, S.

Richter, D.

Rohman, G.

Roussigné, Y.

Ruocco, G.

Sánchez-Iranzo, H.

Scarcelli, G.

Schmidt, T.

Smart, D.

Smith, R. J.

Stagni, C.

Tétard, F.

Thurner, P.

Torok, P.

Troyanova-Wood, M.

Tschon, M.

Wi, P.-J.

Yakovlev, V.

Biomed. Opt. Express (14)

D. Fioretto, S. Caponi, and F. Palombo, “Brillouin-Raman mapping of natural fibers with spectral moment analysis,” Biomed. Opt. Express 10(3), 1469–1474 (2019).
[Crossref] [PubMed]

N. Correa, S. Harding, M. Bailey, S. Brasselet, and F. Palombo, “Image analysis applied to Brillouin images of tissue-mimicking collagen gelatins,” Biomed. Opt. Express 10(3), 1329–1338 (2019).
[Crossref] [PubMed]

M. Pochylski, “Structural relaxation in the wave-vector dependence of the longitudinal rigidity modulus,” Biomed. Opt. Express 10(4), 1957–1964 (2019).
[Crossref]

G. Rohman, S. Ramtani, S. Changotade, C. Langueh, D. Lutomski, Y. Roussigné, F. Tétard, F. Caupin, and P. Djemia, “Characterization of elastomeric scaffolds developed for tissue engineering applications by compression and nanoindentation tests, μ-Raman and μ-Brillouin spectroscopies,” Biomed. Opt. Express 10(4), 1649–1659 (2019).
[Crossref]

M. Troyanova-Wood, Z. Meng, and V. Yakovlev, “Differentiating melanoma and healthy tissues based on elasticity-specific Brillouin microspectroscopy,” Biomed. Opt. Express 10(4), 1774–1781 (2019).
[Crossref]

M. Nikolić and G. Scarcelli, “Long-term Brillouin imaging of live cells with reduced absorption-mediated damage at 660nm wavelength,” Biomed. Opt. Express 10(4), 1567–1580 (2019).
[Crossref]

M. A. Cardinali, D. Dallari, M. Govonic, C. Stagni, F. Marmi, M. Tschon, S. Brogini, D. Fioretto, and A. Morresi, “Brillouin micro-spectroscopy of subchondral and trabecular bone of human femoral head,” Biomed. Opt. Express 10(5), 2606–2611 (2019).
[Crossref]

C. Bevilacqua, H. Sánchez-Iranzo, D. Richter, A. Diz-Muñoz, and R. Prevedel, “Imaging mechanical properties of sub-micron ECM in live zebrafish using Brillouin microscopy,” Biomed. Opt. Express 10(3), 1420–1431 (2019).
[Crossref] [PubMed]

P.-J. Wi, M. I. Masouleh, D. Dini, C. Pateron, P. Torok, D. R. Overby, and I. V. Kabakova, “Detection of proteoglycan loss from articular cartilage using brillouin microscopy, with applications to osteoarthritis,” Biomed. Opt. Express 10(5), 2457–2466 (2019).
[Crossref]

O. Andriotis, K. Elsayad, D. Smart, M. Nalbach, D. Davies, and P. Thurner, “Hydration and nanomechanical changes in collagen fibrils bearing advanced glycation end-products,” Biomed. Opt. Express 10(4), 1841–1855 (2019).
[Crossref]

S. Coppola, T. Schmidt, G. Ruocco, and G. Antonacci, “Quantifying cellular forces and biomechanical properties by correlative micropillar traction force and Brillouin microscopy,” Biomed. Opt. Express 10(5), 2202–2212 (2019).
[Crossref]

C. Ballmann, Z. Meng, and V. Yakovlev, “Nonlinear Brillouin spectroscopy: what makes it a better tool for biological viscoelastic measurements,” Biomed. Opt. Express 10(4), 1750–1759 (2019).
[Crossref]

F. Pérez-Cota, R. J. Smith, H. N. Elshikha, and M. Clark, “New insights into the mechanical properties of Acanthamoeba castellanii cysts as revealed by phonon microscopy,” Biomed. Opt. Express 10(5), 2399–2408 (2019).
[Crossref]

A. Fiore and G. Scarcelli, “Single etalon design for two-stage cross-axis VIPA spectroscopy,” Biomed. Opt. Express 10(3), 1475–1481 (2019).
[Crossref] [PubMed]

Other (1)

R. J. Jimenez Rioboo, M. Desco, and M. V. Gomez-Garviro, “Impact of optical tissue clearing on the Brillouin signal from biological tissue samples,” Biomed. Opt. Express. in press.

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