Evaluation of hair surface structure and morphology of patients with lichen planopilaris (LPP) by atomic force microscopy (AFM).

BACKGROUND: Lichen planopilaris (LPP) is a chronic lymphocytic skin disease manifested by progressive scarring alopecia. The diagnosis of LPP is made based on histopathological examination, although it is not always definite. The current study evaluates the effectiveness of non-invasive atomic force microscopy (AFM) hair examination in detecting morphological differences between healthy and diseased hair. MATERIALS AND METHODS: Here, three to five hairs from lesional skin of 10 LPP patients were collected and examined at nine locations using AFM. At least four images were taken at each of the nine sites. Metric measurements were taken and metric (length, width, and scale step height) and morphological features (striated and smooth surface of scales, the presence of endocuticle and cortex, shape of scales edges, scratches, pitting, cracks, globules, and wavy edge) were compared with hair from healthy controls. In addition, areas on diseased hair where the process of pathological, unnatural delamination of the hair fiber occurs are described. RESULTS: There was a statistically significant difference in the number of scratches in the initial sections of the LPP hair, in the intensity of wavy edges along the entire length of the tested hair, and in the number of scales with pitting in the middle section of the hair. In addition, a statistically significant higher number of scales with striated surface was found in LPP group starting at 3.5 cm from the root continuing towards the free end of the hair. Other morphological changes such as presence of cortex, globules, oval indentations, and rod-like macrofibrillar elements were also assessed, however, detailed results are not presented, as the differences shown in the number of these morphological changes were not significantly different. CONCLUSION: This publication outlines the differences between virgin, healthy Caucasian hair, and the hair of LPP patients. The results of this study can be used for further research and work related to LPP. This is the first attempt to characterize the hair of LPP patients using AFM.

Pruritus in Lichen Planopilaris and Frontal Fibrosing Alopecia-Clinical Characteristics and Dermoscopic Correlations.

Background: Lichen planopilaris (LPP) and frontal fibrosing alopecia (FFA) are the most common causes of lymphocytic scarring alopecia. Itching of the scalp is a common accompanying symptom. The aim of the study was the clinical assessment of pruritus and its correlation with dermoscopic features. Methods: Sixty-one patients with scarring alopecia were analyzed (LPP = 16; FFA = 33; coexisting LPP-FFA = 12). Each patient underwent a trichoscopic examination. Itch severity and characteristics were assessed using a Visual Analogue Scale (VAS), 4-item Itch Questionnaire and 12-item Descriptive Pruritus Assessment Questionnaire. Results: Itching of the scalp occurred in 73.8% of the patients (mean maximal VAS 5.3 ± 3.1 points). Pruritus was most frequently accompanied by tingling (19.7%) or burning (14.8%) sensations. The following factors most frequently increased the severity of pruritus: sweating, heat, stress and hot water. On the other hand, cold water and cold air often relieved symptoms. There was a significant relationship between itch and perifollicular scaling (p = 0.011), hair diameter diversity (p = 0.008) and white halo (p = 0.016). Conclusions: Pruritus was the main subjective complaint reported by patients suffering from LPP and FFA. A better understanding of pruritic features may help in the selection of an effective therapeutic strategy.

Evaluation of Surface Structure and Morphological Phenomena of Caucasian Virgin Hair with Atomic Force Microscopy.

Background and Objectives: Atomic force microscopy (AFM) as a type of scanning microscopy (SPM), which has a resolution of fractions of a nanometer on the atomic scale, is widely used in materials science. To date, research using AFM in medicine has focused on neurodegenerative diseases, osteoporosis, cancer tumors, cell receptors, proteins and the DNA mismatch repair (MMR) system. Only a few small studies of hair imaging have been conducted, mostly in biotechnology or cosmetology. Thanks to the possibilities offered by AFM imaging, dermatologists can non-invasively assess the condition of hair and its possible disorders. Our goal was to capture images and microscopically analyze morphological changes in the surface of healthy hair. Materials and Methods: In this study, three to five hairs were collected from each person. Each hair was examined at nine locations (0.5; 1.0; 1.5; 2.0; 3.5; 4.5; 5.5; 6.5 and 7.0 cm from the root). At least 4 images (4-10 images) were taken at each of the 9 locations. A total of 496 photos were taken and analyzed. Metric measurements of hair scales, such as apparent length, width and scale step height, were taken. Results: This publication presents the changes occurring in hair during the natural delamination process. In addition, morphoological changes visualized on the surface of healthy hair (pitting, oval indentations, rod-shaped macro-fibrillar elements, globules, scratches, wavy edge) are presented. A quantitative analysis of the structures found was carried out. Conclusions: The findings of this study can be used in further research and work related to the subject of human hair. They can serve as a reference for research on scalp and hair diseases, as well as hair care.