Improved Resolution of Magnetic Resonance Microscopy in Examination of Skin Tumors

Gammal, S. El; Hartwig, Roland; Aygen, S.; Bauermann, T.; Gammal, Claudia El; Altmeyer, Peter

doi:10.1111/1523-1747.ep12349003

Cited by 33 publications

(13 citation statements)

References 16 publications

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“…Noninvasive imaging techniques have been developed that today allow a fast and precise examination of the different skin layers. These techniques are based on sonography or magnetic resonance, or they use light like confocal microscopy or optical coherence tomography (Corcuff and Lé vê que, 1993;Fornage, 1993;el Gammal et al, 1994;Schmitt et al, 1994;Stiller et al, 1994;el Gammal et al, 1996;Corcuff and Pié rard, 1998).…”

Section: Introductionmentioning

confidence: 99%

Thickness of the stratum corneum of the volar fingertips

et al. 2000

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Section: Introductionmentioning

confidence: 99%

Thickness of the stratum corneum of the volar fingertips

et al. 2000

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“…However, the similar appearance of the pigmented and non‐pigmented tumors on T 1 W images was more unexpected. Indeed, pigmented melanoma lesions were reported to exhibit a hyperintense signal on T 1 W images when compared with the surrounding tissues, subcutis included and when compared with non‐pigmented tumors . The only notable difference between the B16 group and the others was the presence of hypointense spots visible in some tumors (3/6) of this group, as shown in Fig.…”

Section: Resultsmentioning

confidence: 80%

Influence of paramagnetic melanin on the MRI contrast in melanoma: a combined high‐field (11.7 T) MRI and EPR study

Godechal

Mignion

Karroum

et al. 2014

Contrast Media & Molecular

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Melanoma is the most dangerous form of skin cancer and its incidence is rising each year. Because the current methods of diagnosis based on the visual aspect of the tumor show limitations, several new techniques are emerging to help in this diagnosis, amongst which are magnetic resonance imaging (MRI) and electron paramagnetic resonance (EPR). The origin of the typical contrast pattern observable in melanoma in T1 - and T2 -weighted images remains to be elucidated and is a source of controversy. In addition, melanin could create sufficient magnetic inhomogeneities to allow its visualization on T2 *-weighted images using high-field MRI. In order to elucidate the possible role of melanin in the MRI contrast of melanoma, the present study was designed to correlate the paramagnetic content in melanin pigment to the contrast on T1 -, T2 - and T2 *-weighted images. MR images were obtained in vivo at 11.7 T using four types of experimental tumors with different pigmentations (B16, HBL, LND1 melanomas and KHT sarcomas). The paramagnetic content in melanin pigment was measured by EPR. No significant correlation was observed between the content in melanin and the relaxation times T1 , T2 and T2 *, emphasizing that the presence of pigment alone has negligible effect on the MRI contrast.

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“…Although magnetic resonance imaging cannot yet reliably discriminate benign from malignant skin lesions, 94,95 it may be used to measure melanoma thickness or volume in the future. 96-98 …”

Section: Magnetic Resonance Imagingmentioning

confidence: 99%

Current and emerging technologies in melanoma diagnosis: the state of the art

Psaty

Halpern

2009

Clinics in Dermatology

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Relative to other specialties, dermatologists have been slow to adopt advanced technologic diagnostic aids. After all, most skin disease can be diagnosed by simple visual inspection, and the skin is readily accessible for a diagnostic biopsy. Diagnostic aids such as total body photography and dermoscopy improve the clinician's ability to diagnose melanoma beyond unaided visual inspection, however, and are now considered mainstream methods for early detection. Emerging technologies such as in vivo reflectance confocal microscopy are currently being investigated to determine their utility for noninvasive diagnosis of melanoma. This review summarizes the currently available cutaneous imaging devices and new frontiers in noninvasive diagnosis of skin disease. We anticipate that multimodal systems that combine different imaging technologies will further improve our ability to detect, at the bedside, melanoma at an earlier stage.

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Improved Resolution of Magnetic Resonance Microscopy in Examination of Skin Tumors

Cited by 33 publications

References 16 publications

Thickness of the stratum corneum of the volar fingertips

Thickness of the stratum corneum of the volar fingertips

Influence of paramagnetic melanin on the MRI contrast in melanoma: a combined high‐field (11.7 T) MRI and EPR study

Current and emerging technologies in melanoma diagnosis: the state of the art

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