Ultrasound Patterns of Vitiligo at High Frequency and Ultra‐High Frequency

Objectives To detect ultrasonographic anatomical alterations in all the skin layers in patients with vitiligo. Methods A prospective observational color Doppler ultrasound study was performed in nonsegmental face and/or neck vitiligo patients without a history of previous treatments. Two sites, a le...

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Veröffentlicht in:Journal of ultrasound in medicine 2024-09, Vol.43 (9), p.1605-1610
Hauptverfasser: Wortsman, Ximena, Araya, Irene, Maass, Maximiliano, Valdes, Pilar, Zemelman, Viviana
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Sprache:eng
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Zusammenfassung:Objectives To detect ultrasonographic anatomical alterations in all the skin layers in patients with vitiligo. Methods A prospective observational color Doppler ultrasound study was performed in nonsegmental face and/or neck vitiligo patients without a history of previous treatments. Two sites, a lesional area and a contralateral clinically healthy region, were ultrasonographically studied and compared in the same patient. All cases were studied in high‐frequency (24 MHz) and ultra‐high‐frequency (70 MHz) ultrasound devices with the highest axial spatial resolution available in the market. Demographic data of the sample, ultrasound grayscale, and color Doppler features were recorded and analyzed. Results Ten patients met the study criteria (60% females; mean age 49 years). All cases presented ultrasonographic undulation of the epidermis in the affected zones vs 50% in the healthy control regions, being more prominent in the vitiligo areas. Eighty percent demonstrated intense hypoechoic thin plaques in the upper dermis (subepidermal). All vitiligo areas presented thickening and hypoechogenicity of the regional hair follicles and/or pilosebaceous units. Ninety percent showed prominent sebaceous glands, and 20% demonstrated a hypoechoic cap surrounding the sebaceous glands in the lesional areas. Dermal hypervascularity was detected in 100% of the affected regions and 40% of the clinically healthy areas. Conclusion Ultrasound can identify subclinical inflammatory cutaneous patterns in the epidermis, dermis, hair follicles, pilosebaceous units, and sebaceous glands in vitiligo. This noninvasive information can support early detection, monitoring, and research, including the clinical trials of drugs used to manage this devastating disease.
ISSN:0278-4297
1550-9613
1550-9613
DOI:10.1002/jum.16481