Two‐photon laser‐scanning fluorescence microscopy applied for studies of human skin

Ericson, Marica B.; Simonsson, Carl; Guldbrand, Stina; Ljungblad, Carl; Paoli, John; Smedh, Maria

doi:10.1002/jbio.200810022

Cited by 28 publications

(15 citation statements)

References 29 publications

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“…The skin morphology of normal skin agrees well with MPM images of human skin obtained in other studies. 9,13 In Fig. 2a, an MPM image at a superficial depth of 3 µm is demonstrated.…”

Section: Resultsmentioning

confidence: 99%

In Vivo Multiphoton Microscopy for Investigating Biomechanical Properties of Human Skin

2010

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The biomechanical properties of living cells depend on their molecular building blocks, and are important for maintaining structure and function in cells, the extracellular matrix, and tissues. These biomechanical properties and forces also shape and modify the cellular and extracellular structures under stress. While many studies have investigated the biomechanics of single cells or small populations of cells in culture, or the properties of organs and tissues, few studies have investigated the biomechanics of complex cell populations in vivo. With the use of advanced multiphoton microscopy to visualize in vivo cell populations in human skin, the biomechanical properties are investigated in a depth-dependent manner in the stratum corneum and epidermis using quasi-static mechanical deformations. A 2D elastic registration algorithm was used to analyze the images before and after deformation to determine displacements in different skin layers. In this feasibility study, the images and results from one human subject demonstrate the potential of the technique for revealing differences in elastic properties between the stratum corneum and the rest of the epidermis. This interrogational imaging methodology has the potential to enable a wide range of investigations for understanding how the biomechanical properties of in vivo cell populations influence function in health and disease.

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“…The skin morphology of normal skin agrees well with MPM images of human skin obtained in other studies. 9,13 In Fig. 2a, an MPM image at a superficial depth of 3 µm is demonstrated.…”

Section: Resultsmentioning

confidence: 99%

In Vivo Multiphoton Microscopy for Investigating Biomechanical Properties of Human Skin

2010

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“…For measuring depth profiles of structures in phantoms with low light scattering and absorption it is well suited, but skin in contrast is highly scattering and therefore strongly reduces the imaging depth. Two-photon microscopy as used by other groups [7,9] might solve this problem or at least enhance the imaging depth to get useful information of the dye distribution in deeper tissue layers.…”

Section: Discussionmentioning

confidence: 98%

4D confocal microscopy method for drug localization in the skin

et al. 2011

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A 4D confocal microscopy (xyzλ) method for measuring the drug distribution in skin samples after a permeation study is investigated. This approach can be applied to compare different drug carrier systems in pharmaceutical research studies.For the development of this detection scheme phantom permeation studies and preliminary skin measurements are carried out. The phantom studies are used to detect the permeation depth and the localization of the external applied fluorescent dye naphthofluorescein that is used as a model agent. The skin study shows the feasibility of the method for real tissue.For the differentiation of tissue/phantom and the dye, spectral unmixing is performed using the spectral information detected by a confocal microscope. The results show that it is possible to identify and localize external dyes in the phantoms as well as in the skin samples.

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“…Therefore, preventive and periodical skin checkups are of special importance. Technological advancements in imaging systems have led to the development of convocal laser scanning microscopy (Ericson et al, 2008). This technique enables the examination of skin lesions in vivo and significantly higher prediction success than reported for dermoscopic examination can be achieved for the diagnosis of melanoma (Rajadhyaksha, 2009).…”

Section: Discussionmentioning

confidence: 99%

Confocal Laser Scanning Microscopy in Dermatology: Manual and Automated Diagnosis of Skin Tumours

Wiltgen¹

2011

Laser Scanning, Theory and Applications

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Two‐photon laser‐scanning fluorescence microscopy applied for studies of human skin

Cited by 28 publications

References 29 publications

In Vivo Multiphoton Microscopy for Investigating Biomechanical Properties of Human Skin

In Vivo Multiphoton Microscopy for Investigating Biomechanical Properties of Human Skin

4D confocal microscopy method for drug localization in the skin

Confocal Laser Scanning Microscopy in Dermatology: Manual and Automated Diagnosis of Skin Tumours

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