Peter Åberg scite author profile

Electrical bio-impedance can be used to assess skin cancers and other cutaneous lesions. The aim of this study was to distinguish skin cancer from benign nevi using multifrequency impedance spectra. Electrical impedance spectra of about 100 skin cancers and 511 benign nevi were measured. Impedance of reference skin was measured ipsi-laterally to the lesions. The impedance relation between lesion and reference skin was used to distinguish the cancers from the nevi. It was found that it is possible to separate malignant melanoma from benign nevi with 75% specificity at 100% sensitivity, and to distinguish nonmelanoma skin cancer from benign nevi with 87% specificity at 100% sensitivity. The power of skin cancer detection using electrical impedance is as good as, or better than, conventional visual screening made by general practitioners.

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Non-invasive bioimpedance of intact skin: mathematical modeling and experiments

Birgersson

Åberg

et al. 2010

Physiol. Meas.

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The functional integrity and pathology of the skin is reflected in its electrical impedance spectra. Non-invasive electrical impedance measurements of intact skin are dominated by the high impedic stratum corneum in low frequencies and with increasing frequency gradually comes to be dominated by viable skin. Models of this multi-layered organ can increase our understanding of the actual physical properties/dimensions and facilitate better diagnostics in certain applications. Therefore, a mathematical model considering conservation of charge in the various layers of the skin and adjacent electrodes is derived and validated with experimental findings; the latter was carried out on 60 young female subjects. The impact of the stratum corneum thickness, inundation, solvent and cohort size on the electrical properties is studied. Both model parameters and experimental conditions were adjusted for calibration and subsequent validation of the model with measurements. It is found that both the model's thickness of the stratum corneum as well as experimental soaking conditions (both time and saline concentration) affect the fit between the model and measurements. It is concluded that it is essential that the electrical properties of the skin are presented in the context of the ion concentration (if a moisturizer is employed) as well as the soaking time. Further refinements should be made to determine even more accurate dielectrical properties of the stratum corneum and viable skin layers by accounting for the true skin thickness and the heterogeneity of the skin layers-this would be useful in applications where subtle alterations in the skin are of interest.

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Electrical impedance spectroscopy and the diagnostic accuracy for malignant melanoma

Åberg

Birgersson

Elsner

et al. 2011

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The results suggest that electrical impedance spectra can distinguish between malignant melanoma and benign skin lesions. Although it is indicated that the accuracy of the device is clinically promising, the overall performance, and the sensitivity to thin malignant melanomas, must be improved and thoroughly validated before the instrument can be used as a routine stand-alone diagnostic decision support tool. The technique is under revision to further improve the reproducibility, specificity and sensitivity.

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Non‐invasive and microinvasive electrical impedance spectra of skin cancer – a comparison between two techniques

Åberg

Geladi²,

Nicander

et al. 2005

Skin Research and Technology

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Assessment of skin lesions and skin cancer using simple electrical impedance indices

Åberg

Nicander²,

Holmgren

et al. 2003

Skin Research and Technology

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Peter Åberg

Skin Cancer Identification Using Multifrequency Electrical Impedance—A Potential Screening Tool

Non-invasive bioimpedance of intact skin: mathematical modeling and experiments

Electrical impedance spectroscopy and the diagnostic accuracy for malignant melanoma

Non‐invasive and microinvasive electrical impedance spectra of skin cancer – a comparison between two techniques

Assessment of skin lesions and skin cancer using simple electrical impedance indices

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