Dermoscopy of Bacterial, Viral, and Fungal Skin Infections: A Systematic Review of the Literature

Leprosy (Hansen’s disease) is a chronic granulomatous disorder caused by Mycobacterium leprae and typified by a wide clinical spectrum ranging from paucibacillary tuberculoid pole to multibacillary lepromatous pole [5, 11, 12].

Dermoscopy of various subtypes of leprosy has been described (Fig. 2a–f), with borderline tuberculoid (BT) form being the first variant studied from a dermoscopic point of view in a study by Ankad et al. [13] In detail, the main findings observed in this analysis included white areas, yellow globules, decreased density of hairs/white dots, and branching vessels histologically related to decreased number of melanocytes, dermal granulomas, destruction of appendageal structures by granulomatous inflammation, and dilated dermal vessels, respectively [13]. Similar findings were reported by other subsequent studies [11, 14, 15]. Additionally, the analysis by Ankad et al. also highlighted that facial lesions tend to feature more prominent vascular structures and yellow areas along with coiled hairs due to histological changes typical of this area, i.e., richer vascularity, thinner epidermis, and involvement of hair shaft of facial vellus [13].

Vinay et al. and Mohta et al. described dermoscopic features across the entire spectrum of leprosy, with yellow/yellowish-orange areas, appendageal structures (eccrine dots and hairs) reduction, and vascular structures (mainly branching vessels) being the most common findings in all subtypes [11, 14]. Moreover, diminished pigment network was observed in all forms except lepromatous leprosy, in which the authors found an increased pigment network resulting from basal layer pigmentation [11, 14].

Of note, Mohta et al. also described a relative sparing of vellus hair and the presence of focal areas of hyperpigmentation along with loss of pigment network in tuberculoid and borderline lepromatous leprosy, respectively [14]. Further dermoscopic features reported by another three case series/report in lepromatous leprosy/leproma included white streaks, white scaling, and cicatricial nacreous center [15‐17].

When it comes to lepromatous reactions, four studies are available for type 1 reaction (T1R) and three for type 2 reaction (T2R) [11, 12, 14, 15, 18]. The most common dermoscopic features of T1R included intense erythema, vessels, and violaceous to brown periappendageal pigmentation, white globules resulting from dermal edema, and scaling/follicular plugging owing to hyperkeratosis/follicular hyperkeratosis [11, 14, 15, 18]. Additionally, Mohta et al. also reported accentuation of normal skin markings with triangular and star-shaped silvery-white scaling [14]. On the other hand, T2R has been described as typified by vascular structures related to increased vascularity/vasculitis on histology, including erythema, vascular dilatation, red dots, and milky-red structureless areas; hyperpigmentation may also be seen [11, 12, 14, 15]. Notably, dermoscopic findings typical of underlying leprosy subtype have also been reported in lepromatous reactions [11, 12, 14, 15, 18].

Finally, histoid leprosy has also been extensively investigated, with six studies reporting its findings [11, 14, 19‐22]. Main characterizing dermoscopic features included white/white–yellow areas and yellowish-orange areas histologically related to whorled arrangement of spindle-shaped histiocytes in the expansile granuloma; shiny white structures (shiny white area, crystalline lines, or rosettes), yellowish-brown to pink background, peripheral hyperpigmentation, scaling, follicular plugs and vessels (linear branching, hairpin, and crown-like) are possible additional findings [11, 14, 19‐22].

Syphilis is an infectious disorder caused by Treponema pallidum, usually transmitted through sexual contact that is characterized by a variable clinical presentation [5]. Dermoscopy has been found to be helpful in facilitating the recognition of several types of syphilitic lesions (Fig. 3a–c).

Peripheral scaling with outward progression, often surrounded by an erythematous halo, was reported to be the most common finding in palmar syphiloderm according to two case reports [23, 24]. Diffuse dotted vessels and orangish background (related to dermal hemosiderin deposits) were other described findings [23, 24], with the latter one being a helpful clue to differentiate syphilis from papular palmar psoriasis, which lacks such a feature but may display peripheral scaling similarly to syphilis [24]. The presence of orange color on palmar lesions was also described in another case report investigating dermoscopic features of skin lesions at different stages of secondary syphilis [25]. The same report observed a change in scaling pattern on nonpalmar lesions over the time, with white scales in skin furrows evolving into a peripheral rim of thin scales [25].

A single case report on dermoscopy of condyloma lata is available, with four different main findings being reported, i.e., milky-red globules and glomerular vessels (due to papillary dermal capillary dilatation), peripheral yellowish structureless area (due to macerated horny layer), whitish-pink network on the raised border (related to prominent acanthosis), and central multiple, white, small, round structures (corresponding to follicular plugs) [26].

Finally, nonspecific vascular findings (dotted, short-linear, linear-irregular, and hairpin vessels) along with white scales were observed in a single instance of penile annular syphiloderm [27, 28].

Lupus vulgaris is the most common subtype of cutaneous tuberculosis seen in previously sensitized patients [1, 29]. Dermoscopy of lupus vulgaris was first reported in four patients by Brasiello et al., who identified two main findings, i.e., orange–yellow areas and focused linear-branching vessels, histologically corresponding to granulomas and dilated vessels in the dermis (Fig. 3d) [29]; such findings were then confirmed by several studies [30, 31].

Further additional dermoscopic features described in the literature include milia-like cysts, whitish scales, pigmentation structures, follicular plugs, and whitish reticular streak [29‐31]. Notably, in a recent study on 19 patients by Ankad et al. [32], yellowish-white globules, pinkish-red background, white structureless areas due to fibrosis, and white/yellow scales were found to be present in all cases.

Tuberculosis verrucosa cutis (TBVC) is a primary form of tuberculosis occurring in a previously sensitized host due to direct bacterial inoculation [33]. A single report on dermoscopy of TBVC has been published, with the following findings being described [34]: yellow–orange globular areas and yellowish–reddish background resulting from epithelioid cell granuloma, as well as papillated surface, dirty white thick scales, and irregularly dilated vessels due to papillomatosis, hyperkeratosis, and angiogenesis, respectively (Fig. 3e) [34].

Lichen scrofulosorum (LS) is the most common tuberculid, usually seen in children and adolescents [35, 36]. Reported dermoscopic findings of LS include follicular and perifollicular dots, central brown follicular plug, marginal rim of white scales, halo of pallor, marginal hyperpigmentation, and telagiectasias (Fig. 3f) [35, 36]. The perifollicular dots are believed to be secondary to granulomatous infiltration in the perifollicular lesion [35].

Mycobacterium marinum is a slow-growing atypical mycobacterium which grows in saltwater conditions; infection is commonly seen upon exposure to nonchlorinated aqueous environment [37]. There is a single report on dermoscopy of Mycobacterium marinum infection that described two lesions, one displaying orange-whitish central areas with looped vessels surrounded by an erythematous background along with fine scaling and dotted vessels, and the other one showing multiple structured, orangish, rounded areas with surrounding crown-shaped looped vessels [37]. Orange color was correlated with dermal tuberculoid granulomas composed of inflammatory nodular infiltrate [37].

Peruvian wart is the eruptive phase of Carrion’s disease, an infection caused by Bartonella bacilliformis; on the basis of the size of the lesions, there are three clinical types, i.e., miliary (1–4 mm), mular (> 5 mm), and nodular or subdermic [38]. A single dermoscopy report on Peruvian wart is available, with miliary lesions showing vascular component with circular scale, mular lesions featuring a vascular component with a central depression, and nodular lesions exhibiting a nonspecific pattern [38].

Staphylococcal scalded skin syndrome (SSSS) is caused by exfoliative toxin produced by some strains of Staphylococcus aureus. It is imperative to differentiate SSSS from toxic epidermal necrolysis (TEN) to initiate an appropriate treatment [39]. Dermoscopy has been found to be helpful in this regard by showing a partially intact epidermis and less leachate at fresh exfoliation site, suggesting subcorneal detachment (Fig. 3g); this is different from TEN, in which epidermis is destroyed and there is more leachate [39].

Pitted keratolysis (PK) is a plantar infection caused by Corynebacterium species manifesting as multiple small pits over the soles [40]. Lockwood et al. first reported dermoscopic findings of PK, with pit walls of heterogeneous architecture being the main feature (Fig. 3h) [40]. In a recent study on 40 naval cadets, white opaque or, less commonly, black/brown opaque pits of various sizes and configurations were found to be the most common finding; other reported features included interrupted dermatoglyphic lines and “bead” sign [41].

Bacterial folliculitis typically presents as papulopustular eruption and is most commonly due to Staphylococcus aureus, yet pseudomonas folliculitis is also frequently seen in daily practice as edematous papular/papulopustular lesions resulting from direct contact with contaminated water [5, 42, 43]. Dermoscopic features of staphylococcal folliculitis was investigated in 55 patients in a prospective study, and central round pustules with peripheral sparse dotted vessels were the main finding [42]. Conversely, Errichetti et al. observed a pinkish-pale background due to dermal edema along with a central vellus hair in an instance of pseudomonas folliculitis [43].

Trichobacteriosis is a superficial bacterial infection caused by Corynebacterium species (mainly C. flavescens) presenting as yellow, black, or red concretions attached to axillary or pubic hair shafts [5]. Several studies investigated dermoscopic features of this condition and found waxy white-yellowish concretions adherent along the entire length of hair shafts to be the typical feature; various configuration of such concretions have been reported, including flame, skewer, brush-like or plume appearance (Fig. 3i) [44‐50].

Warts are frequent skin infections caused by various strains of human papillomavirus (HPV); the main clinical subtypes include anogenital, flat, palmoplantar, and common warts [2‐4]. Dermoscopy can aid in diagnosis and treatment follow-up of such lesions [6].

Anogenital warts are the most studied variant from a dermoscopic point of view (Fig. 4a, b) [2, 51‐61]. Three main patterns have been reported, i.e., “mosaic” (relatively flattened and rounded structures, which are similar in diameter and resemble a jigsaw puzzle among each other), “knob-like” (short and closely aggregated knob-like projections, which are similar in both diameter and length among each other), and “finger-like” (relatively long, usually markedly separated finger-like projections, which are similar in diameter but different in length among each other) [2, 6, 51‐61]. A combination of such patterns and unspecific presentations (not classifiable according to the previous three patterns) may also be observed [2, 51‐58]. Several vascular structures can be observed in anogenital warts, including dotted and glomerular, looped, coiled, comma, and hairpin vessels [2, 6, 51‐61]. Interestingly, Dong et al. correlated the clinical and dermoscopic features of genital warts of 61 lesions from 48 patients and found mosaic pattern to be more common in relatively flat lesions, whereas more raised lesions predominantly showed knob-like and finger-like pattern [2]. Additionally, the same study found hairpin, glomerular/dotted, and no vessels being associated to finger-like, knob-like/mosaic, and unspecified patterns, respectively [2]. Other features reported in the literature include “brain-like” pattern (exophytic papillary structures, some with jet black pigmentation, along with red dots surrounded by whitish halo) in a case of pigmented, hemorrhagic genital wart [59], and grayish dots surrounded by white halo over a blue–white structureless background in a case of plaque-like wart over the glans penis [60].

Moving to flat warts, according to literature data, the typical dermoscopic pattern consists of regularly distributed dotted or globular vessels histologically corresponding to dilated vessels in dermal papillae over a light red, yellow–brown, red-gray or pale background; perivascular white halos are often seen (Fig. 4c) [4, 62‐68].

When it comes to palmoplantar warts, dermoscopy has been reported to show a quite repetitive appearance typified by homogeneous black to red dots and globules over a white or light brownish background with interrupted skin lines (Fig. 4d) [66, 67, 69‐76]. Additional described features include linear and coiled vessels surrounded by white halos, hemorrhages/crusting, papillomatous surface, yellow to yellow–gray structureless areas, “frogspawn-like” appearance, “falooda seed-like” appearance (regular black dots interrupting the dermatoglyphics), and “parallel ridge” pattern (band-like pigmentation on the ridges) [66, 67, 69‐76]. Dermoscopic examination has also been found to be helpful in assessing post-treatment response/recurrence of palmoplantar warts [66, 67, 74, 77].

Finally, dermoscopy of common warts was first described by Zalaudek et al., who reported multiple densely packed papillae, with central red dot or loop surrounded by whitish halo giving rise to a “frogspawn” appearance [4]. Subsequent studies have described other features, including “mosaic” pattern, “keratotic projection” pattern, “finger-like” pattern, “knob-like” pattern, “frogspawn” pattern, “daisy flower” pattern, vascular structures (dotted, linear, looped, coiled, and hairpin vessels), and hemorrhagic crusting (Fig. 4e, f) [66, 79‐81]. Usefulness of dermoscopy in post-treatment follow-up of common warts has also been demonstrated to assess complete clearance of lesions [67, 78].

Molluscum contagiosum (MC) is a frequent skin viral infection due to a poxvirus (molluscum contagiosum virus), commonly seen in children and sexually active adults [3, 6]. It clinically presents as dome-shaped, umbilicated, skin-colored to pinkish-white papules with translucent, glossy appearance [3, 6]. Dermoscopy can be an useful supportive diagnostic tool, especially in atypical presentations, such as central umbilication absence and single/giant lesions [3, 6].

The most commonly reported dermoscopic features of MC include white/yellow-white globules that often coalesce to form polylobular structures and peripheral vascular structures usually not crossing the center of the lesions; central pore or umbilication may also be seen (Fig. 4g, h) [82‐92]. Several shapes of vessels have been reported, i.e., crown-like, linear, branching, hairpin, punctiform, radial, dotted, and serpentine [82‐92]; combinations of vascular structures are possible and may give rise to particular morphologies, such as “flower” pattern (radial vessels along with crown-like vessels) [84]. From a dermoscopic–pathological correlation point of view, white/yellow-white globules correspond to lobules containing hyalinized molluscum bodies (Henderson–Paterson bodies), while peripheral vessels represent dilated vessels in the dermis [82, 83].

Further patterns reported in the literature include the “white target pattern,” consisting of a small, central whitish discoid area and surrounding hairpin vessels [93], and “swimming goggle” appearance, typified by smooth, shiny clods, with reddish surface and surrounding vessels [94]. Additionally, extraction dermoscopy of MC has been reported to show white bodies with visible vessels running across the surface which corresponds to the in vivo finding of crown vessels [95].

Ecthyma contagiosum (orf) is a zoonotic disease caused by a DNA parapoxvirus usually transmitted to humans from infected goat and sheep, and presenting on the hands, fingers, feet, legs, and face as single or multiple papules/nodules that ulcerate and then crust [102, 103].

Several articles on dermoscopy of orf have been published (Fig. 4i) [102‐106], with the study by Ayhan et al. on 26 lesions reporting the following main dermoscopic features: central erosion–ulceration, peripheral yellow–white or erythematous ring, and black dots [102]. Additional findings described by the same study included blue–gray areas, orange–yellow streaks, grayish–whitish streaks, central yellow–white areas, crusting, yellow–white globules, and vessels (dotted, comma-like, polymorphic, and glomerular) [102].

Of note, the authors identified four different general patterns: central yellow–white area and surrounding erythematous ring in type 1; central orange–yellow streaks with violaceous erythematous base, surrounding grayish-white streaks and erythematous ring outside in type 2; central ulceration, yellow–white ring around and ring of erythema outside in type 3; and central erythema or ulcer-crusted area with surrounding yellow–white ring in type 4 [102].

Other reports showed similar features, though further findings were also described in single instances, i.e., hairpin and arborizing vessels, milky-red globules and lacunae, and linearly arranged multiple red–pink clods with surrounding white network [103‐106].

Milker’s nodule (MN) is a cutaneous zoonotic infection caused by paravaccinia virus and transmitted to humans from infected cattle’s udder, body, and oral cavity [102]. A single study assessing 20 lesions is available from the literature [102]. According to this analysis, the most common dermoscopic features of MN included erosion–ulceration with an erythematous ring, black dots, and dotted vessels [102]. Other possible findings were yellow–white globule, yellow–white ring, blue–grey areas, orange–yellow streaks, grayish–whitish streaks, central yellow–white area, crusting, comma vessels, polymorphic vessels, glomerular vessels, hairpin vessels, and milky-red globules [102] The study demonstrated no significant dermoscopic differences between the lesions of Milker’s nodule and orf, with the four general patterns described for the latter being visible even in the former [102].

Sporotrichosis is a subcutaneous mycosis caused by Sporothrix schenckii, which is endemic in tropical/subtropical areas [108]. Clinical presentations include cutaneous, lymphocutaneous, and disseminated subtype; dermoscopy has recently been employed in all these three variants [108, 109].

In detail, yellowish structureless areas, white-scar like areas, arborizing telangiectasia over generalized erythema, and clustered pustules at the periphery were observed in a case of disseminated cutaneous sporotrichosis [109]. When it comes to cutaneous and lymphocutaneous sporotrichosis, Vinay et al. found yellow–orange areas (histologically related to granulomas) on an erythematous background, linear unfocused telangiectatic vessels, superficial ulcerations, and hemorrhagic crusting to be the most salient findings [108]. Of note, the authors also observed a dermoscopic variability based on disease stage, with early and evolving lesions being typified by diffuse background erythema (representing ongoing inflammation), yellowish-orange areas and variable telangiectatic vessels and healing lesions by white fibrotic strands and linear telangiectatic vessels [108]. Additionally, they also found follicular plugs (named “yellow tears”) on lesions located on the face (Fig. 5a) [108].

Blastomycosis is a deep mycosis endemic in North America that is caused by inhalation of Blastomyces dermatitidis, clinically manifesting as verrucous, ulcerated, or subcutaneous nodules [110, 111]. In the report by Wang et al., overlapping papillomatous structures showing a pink hue along with scales, irregular vessels, and hemorrhagic crusting were observed on dermoscopy [110]. A similar pattern was also seen in another instance, yet vessels were described as polymorphic, and white/red structureless areas as well as blood spots were also described [111].

Tinea nigra is a superficial fungal infection caused by dematiaceous fungus Hortaea werneckii that manifests as a gradually progressive, irregular brown to black macule over glabrous skin [4, 6]. Dermoscopy of tinea nigra has been extensively investigated by several studies [112‐127], with the typical pattern consisting of homogeneous, fine, wispy pigmented spicules distributed either irregularly or in a reticular arrangement without following dermatoglyphics (Fig. 5b) [112‐121]. Such spicules have been reported to represent pigmented hyphae in the stratum corneum [123]. More uncommon but possible dermoscopic presentations include irregularly distributed brownish dots displaying filamentous arrangement not adhering to dermatoglyphic lines [117, 122, 123] and a parallel ridge pattern [124, 125].

White piedra is a superficial mycosis caused by several Trichosporon species, which presents as multiple white to tan irregular nodules along the hair shaft [62]. Dermoscopy has been shown to support its diagnosis by revealing multiple, irregularly, scattered, yellow to white concretions or ovular masses along the hair shaft [50, 128, 129]. Notably, in a report by Zhuang et al. dermoscopic appearance of white piedra turned out to be similar to that of trichobacteriosis, with yellow nodules being distributed along the entire length of hair shafts to form a sheath [130].

Tinea manuum (TM) is superficial dermatophyte infection occurring on palms and interdigital spaces appearing as more or less diffuse white scaling or keratoderma [131, 132]. According to two case reports, dermoscopy may be of aid in assisting clinical diagnosis by showing white scaling predominantly located in the skin furrows (Fig. 5c). This particular distribution pattern is typical of TM compared with other forms of keratoderma and is due to the tropism of the fungus form more humid areas [131, 132]. Additional dermoscopic findings described in the literature include whiting scaling in adjoining dermatoglyphics, brown scales resulting from dried vesicles, intense erythema, and dotted vessels in the skin furrows [132, 133].

Tinea corporis (TC) is a dermatophyte infection presenting as annular erythematous plaques with peripheral scaling often involving trunk and limbs. Initial descriptions came from single case reports or small case series [63, 132, 134], with several findings being identified, including erythematous background, scales, follicular micropustules, brown spots surrounded by white-yellowish halo with or without vellus hair loss, and mixed vessels (dotted and linear) [63, 132, 134]. Subsequently, in a study on 30 patients, Bhat et al. found “follicular” findings to be relevant clues to recognize TC, especially scaly broken hairs but also “wavy” hair and “Morse code” hair [132]. Additionally, Lekkas et al. studied dermoscopic findings in 36 microscopically positive cases of TC and reported peripherally distributed white scales, outward peeling direction of scales, and randomly distributed dotted vessels to be strong indicators of TC (Fig. 5d) [136].

Besides diagnostic purposes, dermoscopy has also been found helpful in choosing treatment, with vellus hair involvement on dermoscopic assessment (seen as either brown spots surrounded by white halo or loss of vellus hair) being an indicator for starting systemic antifungal therapy owing to lower efficacy of topical treatments in this scenario [134]. Recently, dermoscopy of treated TC healed as hypertrophic scars and multiple comedones has been described, with evidence of double opening comedones with a “dominant” orifice connected with a smaller orifice by a thin layer of epidermis [137].

Tinea incognito typically results from corticosteroid misuse in TC; dermoscopy of this condition has been described by three single case reports and two case series [132, 138‐141]. Besides erythematous background, peripheral whitish scales and micropustules at the borders, the main dermoscopic features of tinea incognito turned out to be follicular findings, mainly including Morse code hairs of vellus hairs, follicular micropustules, and easily deformable, weakened, and transparent hairs with unusual bends (Fig. 5e) [132, 138‐141].

Tinea of vellus hair is an uncommon infection affecting mostly children and caused by zoophilic or geophilic species presenting as follicular micropustules and inflammatory or excoriated papules [142]. Dermoscopic features described in this condition include yellowish scaling, follicular micropustules, broken hairs, corkscrew hairs, black dots, dystrophic hairs, “Morse code” hairs, coiled hairs, white sheath around vellus hair shafts, empty follicles, and erythematous background and vessels [142‐144].

Majocchi’s granuloma is a deep and persistent suppurative and granulomatous folliculitis due to dermatophytes [145]. Dermoscopic features have been described in two case reports and included yellowish-orange structureless areas, central crust surrounded by a blue structureless area, polymorphous vessels (serpentine, coiled, and looped vessels showing bulbous endings), hemorrhages and clod vessels of different sizes [145, 146].

Talaromyces marneffei infection is a systemic mycosis often involving the skin with nonspecific lesions that mainly affects people with severe immunodeficiency (e.g., AIDS) [147]. Dermoscopy has been reported to be helpful in providing clues for early diagnosis of skin lesions, including homogeneous round whitish background (granulomas comprised of yeast ingested histiocytes) along with central keratin plug or hemorrhagic ulcer surrounded by punctiform, tufted, and hairpin vessels [147, 148]. Moreover, Xu et al. reported four dermoscopic patterns; i.e., molluscum type, folliculitis/acne type, xanthoma type, and ulcers [149].

Cryptococcosis is a systemic fungal infection caused by C. neoformans seen predominantly in patients with reduced cell-mediated immunity [150]. Dermoscopy of skin lesions has been reported in a single instance, which described a central white structureless area and a peripheral yellowish halo histologically corresponding to fibrosis and granulomatous inflammation, respectively; vessels may also be seen as the result of angiogenesis [150].

Chromoblastomycosis is a subcutaneous mycosis caused by Fonsacea and Cladophialophora species [151]. Dermoscopy of this condition has been investigated in six single case reports, with yellow–orange ovoid structures and pink–white areas along with interspersed brown, reddish-brown, or black dots being found to be the most common finding (Fig. 5f) [151‐156]. Pigmented dots are believed to represent trans-epithelial elimination of inflammatory cells and fungal elements, while yellow–orange areas would correspond to mycotic granulomas [151‐156]. Additional features included scales, crust, white net-like pattern, and polymorphic vessels [151‐156].

Mycetoma is a subcutaneous mycosis presenting with the triad of soft tissue swelling, sinuses, and grains [12]. Dermoscopy has been reported to facilitate its diagnosis by showing yellow, brown–black, or red globules/grains, especially when grains are missing clinically (Fig. 5g) [157‐160]. Other possible dermoscopic findings include yellow and white areas, blue–white areas surrounded by white halo, scales, erosions, blood spots, and polymorphic vessels [157‐160]. Some authors also found dermoscopy to be helpful in post-treatment monitoring by observing a reduction in yellow globules, scaling, blood spots, and vessels [158].

Pityriasis versicolor (PV) is a superficial cutaneous mycosis caused by Malassezia yeasts presenting as either hypo- or hyperpigmented patches with fine scaling mainly affecting the trunk [161, 162]. The main study on dermoscopy of PV was performed on 125 patients by Mathur et al., who reported three common features for both hypo- and hyperpigmented lesions, i.e., nonuniform pigmentation, inconspicuous ridges and furrows, and scaling (mainly patchy or in the furrows) (Fig. 5h) [163]. The presence of white scaling in skin creases has been confirmed as a dermoscopic clue for PV by other reports [161, 162].

Other relevant findings described for both hypo- and hyperpigmented PV by an observational study of 30 patients included altered pigmentary network, “contrast halo” sign (increased or decreased pigmentation around primary decreased or increased pigmentary network, respectively), and folliculocentric pattern of pigmentary changes [164].

Pityrosporum folliculitis is a hair follicle infection due to yeasts of the Malassezia family [165]. Jakhar et al. assessed dermoscopic pattern in 15 patients and found several features, with the most common ones being folliculocentric papules and pustules with surrounding erythema and perilesional dirty white scaling (Fig. 5i) [165]. Additionally, they also observed keratosis pilaris-like appearance (coiled/looped hair follicle with surrounding erythema and scaling) as well as perilesional hypopigmentation or brownish discoloration occurring in regressing lesions [165].

Subsequently, Durdu et al. studied dermoscopic findings of 52 cases of pityrosporum folliculitis, comparing them with other causes of both infectious and noninfectious folliculitis and concluded that peripheral, regularly distributed dotted vessels in the absence of other diagnostic findings were the main dermoscopic clue of such a condition, with a sensitivity and specificity of 67.3 and 93.1, respectively [42].