Characterization of reflection scanning near‐field optical microscopy and scanning tunnelling optical microscopy/photon scanning tunnelling microscopy working in preliminary approach constant height scanning mode

Barchiesi, Dominique

doi:10.1046/j.1365-2818.1999.00566.x

Cited by 5 publications

(1 citation statement)

References 41 publications

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“…Biological objects are soft samples and three dimensionally extended with large height modulations (typically in the range of some µm). These height modulations can limit the scan rate [57] and might cause interpretation problems since a strong coupling between topographic and optical imaging is not always preserved [2,21,25]. Recent estimates [4], however, have shown that also for biological samples near-field light microscopy with a spatial resolution in the sub-hundred nano-metre range becomes feasible.…”

Section: Introductionmentioning

confidence: 99%

Variations in Cell Surfaces of Estrogen Treated Breast Cancer Cells Detected by A Combined Instrument for Far‐Field and Near‐Field Microscopy

Perner¹,

Rapp²,

Dressler

et al. 2002

Analytical Cellular Pathology

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The response of single breast cancer cells (cell line T‐47D) to 17β‐estradiol (E2) under different concentrations was studied by using an instrument that allows to combine far‐field light microscopy with high resolution scanning near‐field (AFM/SNOM) microscopy on the same cell. Different concentrations of E2 induce clearly different effects as well on cellular shape (in classical bright‐field imaging) as on surface topography (atomic force imaging) and absorbance (near‐field light transmission imaging). The differences range from a polygonal shape at zero via a roughly spherical shape at physiological up to a spindle‐like shape at un‐physiologically high concentrations. The surface topography of untreated control cells was found to be regular and smooth with small overall height modulations. At physiological E2 concentrations the surfaces became increasingly jagged as detected by an increase in membrane height. After application of the un‐physiological high E2 concentration the cell surface structures appeared to be smoother again with an irregular fine structure. The general behaviour of dose dependent differences was also found in the near‐field light transmission images. In order to quantify the treatment effects, line scans through the normalised topography images were drawn and a rate of co‐localisation between high topography and high transmission areas was calculated. The cell biological aspects of these observations are, so far, not studied in detail but measurements on single cells offer new perspectives to be empirically used in diagnosis and therapy control of breast cancers.

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Section: Introductionmentioning

confidence: 99%

Variations in Cell Surfaces of Estrogen Treated Breast Cancer Cells Detected by A Combined Instrument for Far‐Field and Near‐Field Microscopy

Perner¹,

Rapp²,

Dressler

et al. 2002

Analytical Cellular Pathology

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Energy transfer from fluorescent thin films to metals in near-field optical microscopy: Comparison between time-resolved and intensity measurements

Pagnot

Barchiesi

Tribillon

1999

Applied Physics Letters

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The fluorescence intensity, fluorescence decay time, and shear-force images of a thin film have been simultaneously investigated by reflection scanning near-field optical microscopy using an uncoated fiber tip. The sample is made of a europium chelate embedded in a 32-nm thick polymer layer that coats a periodic structure of gold and chromium. It is contended that the three images carry different and somewhat complementary information; the shear force supplying the sample profile while the intensity mainly depends on the local sample’s reflectance. Moreover, the decay time exhibits the local-energy-transfer process that takes place between the metallic substrate and the dye layer.

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The spatial resolution of near-field optical microscope on chromosomes and cell traces

Beuthan

Minet

Müller

2001

IEEE J. Select. Topics Quantum Electron.

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Characterization of reflection scanning near‐field optical microscopy and scanning tunnelling optical microscopy/photon scanning tunnelling microscopy working in preliminary approach constant height scanning mode

Cited by 5 publications

References 41 publications

Variations in Cell Surfaces of Estrogen Treated Breast Cancer Cells Detected by A Combined Instrument for Far‐Field and Near‐Field Microscopy

Variations in Cell Surfaces of Estrogen Treated Breast Cancer Cells Detected by A Combined Instrument for Far‐Field and Near‐Field Microscopy

Energy transfer from fluorescent thin films to metals in near-field optical microscopy: Comparison between time-resolved and intensity measurements

The spatial resolution of near-field optical microscope on chromosomes and cell traces

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