What are the common nail changes associated with alopecia areata. How prevalent are nail abnormalities in alopecia areata patients. What are the clinical features of alopecia areata-related nail changes. How can alopecia areata nail changes be differentiated from other nail disorders. What treatment options are available for managing nail changes in alopecia areata.

Prevalence and Significance of Nail Changes in Alopecia Areata

Nail changes are a frequent and often overlooked manifestation of alopecia areata (AA), a common autoimmune condition characterized by hair loss. Recent studies have shed light on the prevalence and impact of these nail abnormalities:

• Average prevalence of nail changes in AA patients: 30%
• Most common nail manifestations:
  • Pitting: 20% prevalence
  • Trachyonychia: 8% prevalence
• Other reported findings: red spotted lunulae, onycholysis, punctate leukonychia

Are nail changes in alopecia areata merely a cosmetic concern? While the aesthetic impact can be significant, nail abnormalities associated with AA can also lead to functional impairment. This dual burden of cosmetic disfigurement and reduced nail function can have a substantial negative impact on patients’ quality of life.

Clinical Features of Nail Changes in Alopecia Areata

Understanding the various nail manifestations of alopecia areata is crucial for accurate diagnosis and appropriate management. Here are the key clinical features to look out for:

Pitting

Pitting is the most common nail change observed in AA patients. These are small, punctate depressions on the nail plate surface. The pits in AA tend to be:

• Superficial
• Regular in size and shape
• Geometrically arranged

Trachyonychia

Trachyonychia, also known as “sandpaper nails,” is characterized by rough, brittle nails with excessive longitudinal ridging. In AA patients, trachyonychia may present as:

• Opaque, lusterless nails
• Fine longitudinal striations
• Diffuse nail plate roughness

Red Spotted Lunulae

Red spotted lunulae are a less common but distinctive nail change in AA. They appear as:

• Small, reddish spots on the lunula (the white half-moon at the base of the nail)
• Often visible through the proximal nail fold

Onycholysis

Onycholysis refers to the separation of the nail plate from the underlying nail bed. In AA patients, it may present as:

• Distal separation of the nail plate
• White or opaque appearance of the affected area

Punctate Leukonychia

Punctate leukonychia manifests as small white spots on the nail plate. In AA, these spots may be:

• Scattered across the nail surface
• Variable in size and number

Pathogenesis of Nail Changes in Alopecia Areata

To effectively manage nail changes in AA, it’s essential to understand their underlying mechanisms. What causes these nail abnormalities in alopecia areata patients?

The pathogenesis of nail changes in AA is believed to be similar to that of hair loss, involving:

• Autoimmune-mediated inflammation targeting the nail matrix
• Disruption of normal nail plate formation
• Alterations in nail growth and keratinization processes

The specific mechanisms leading to different nail manifestations may vary. For instance:

• Pitting: Likely results from focal inflammation in the proximal nail matrix
• Trachyonychia: May be caused by more diffuse inflammation affecting the entire nail matrix
• Red spotted lunulae: Possibly due to dilated capillaries in the nail bed

Understanding these pathogenic mechanisms can guide the development of targeted therapies for nail changes in AA.

Differential Diagnosis: Distinguishing AA Nail Changes from Other Conditions

Accurately diagnosing nail changes in alopecia areata requires careful consideration of other potential causes. How can clinicians differentiate AA-related nail abnormalities from other nail disorders?

Several conditions can mimic or coexist with AA-related nail changes, including:

• Onychomycosis (fungal nail infection)
• Psoriasis
• Lichen planus
• Nail eczema
• Traumatic nail injuries

Key factors to consider in the differential diagnosis include:

1. Clinical history: Presence of AA, timing of nail changes relative to hair loss
2. Nail examination: Pattern and distribution of changes across multiple nails
3. Associated symptoms: Presence or absence of pain, itching, or other local symptoms
4. Additional testing: Fungal cultures, nail clippings for histopathology, or nail unit biopsy in select cases

It’s important to note that patients with AA may have concurrent nail conditions unrelated to their AA. Therefore, a thorough evaluation is crucial for accurate diagnosis and appropriate management.

Clinical Course and Prognosis of AA-Related Nail Changes

Understanding the natural history of nail changes in alopecia areata is essential for patient counseling and treatment planning. What can patients expect regarding the progression and resolution of their nail abnormalities?

The clinical course of AA-related nail changes can vary significantly among individuals. Key observations include:

• Onset: Nail changes may precede, coincide with, or follow the onset of hair loss
• Progression: Some patients experience worsening of nail changes over time, while others may have stable or improving nail appearance
• Resolution: Nail changes may resolve spontaneously, particularly in cases of limited AA
• Recurrence: Nail abnormalities may recur with subsequent AA flares

Factors that may influence the prognosis of AA-related nail changes include:

• Severity and extent of AA
• Duration of nail involvement
• Response to treatment
• Presence of other autoimmune conditions

While some patients may experience complete resolution of nail changes, others may have persistent abnormalities despite improvement in hair growth. Long-term follow-up and management are often necessary to optimize nail health in AA patients.

Management Strategies for Nail Changes in Alopecia Areata

Effectively treating nail changes in alopecia areata can significantly improve patients’ quality of life. What are the current management options available for AA-related nail abnormalities?

Treatment approaches for nail changes in AA often parallel those used for scalp involvement. However, the unique anatomy and growth characteristics of nails may necessitate specific considerations. Management strategies include:

Topical Therapies

• Corticosteroids: High-potency topical steroids applied to the proximal nail fold or under occlusion
• Calcineurin inhibitors: Tacrolimus or pimecrolimus ointments for less potent, long-term use
• Minoxidil: May promote nail growth in some cases

Intralesional Treatments

• Corticosteroid injections: Administered into the proximal nail fold or nail matrix
• Methotrexate: Limited evidence for intralesional use in severe cases

Systemic Therapies

• Oral corticosteroids: Short courses for severe, rapidly progressive cases
• Immunosuppressants: Methotrexate, cyclosporine, or JAK inhibitors for refractory cases

Physical Modalities

• Phototherapy: PUVA or narrow-band UVB for selected patients
• Excimer laser: Targeted treatment for individual nails

Supportive Care

• Nail care education: Proper trimming, moisturizing, and protection techniques
• Cosmetic camouflage: Nail polishes or artificial nails for aesthetic improvement

It’s important to note that treatment responses can be variable, and combining multiple modalities may be necessary for optimal results. Additionally, addressing underlying AA and managing any concurrent nail conditions are crucial components of comprehensive nail care in these patients.

Future Directions in Research and Treatment

As our understanding of alopecia areata and its nail manifestations continues to evolve, what are the promising areas of research and potential future treatments?

Several exciting avenues are being explored to improve the management of nail changes in AA:

Advanced Imaging Techniques

• High-resolution ultrasound: For early detection and monitoring of nail unit inflammation
• Optical coherence tomography: To assess nail plate and matrix changes non-invasively

Targeted Therapies

• JAK inhibitors: Oral and topical formulations showing promise in clinical trials
• Biologics: Investigating the potential of drugs targeting specific immune pathways

Regenerative Medicine

• Platelet-rich plasma (PRP): Exploring its potential to promote nail matrix regeneration
• Stem cell therapies: Investigating the use of various stem cell sources for nail unit repair

Personalized Medicine Approaches

• Genetic profiling: Identifying biomarkers to predict treatment response and disease course
• Microbiome studies: Exploring the role of nail microbiome in AA-related nail changes

These emerging areas of research hold promise for developing more effective and targeted treatments for nail changes in AA. As our understanding deepens, we may be able to offer personalized treatment plans that address both hair and nail manifestations of this complex autoimmune condition.

Continued research efforts and larger controlled trials are essential to validate these approaches and guide evidence-based treatment decisions. The future of managing nail changes in alopecia areata looks promising, with the potential for significant improvements in patient outcomes and quality of life.

Nail changes in alopecia areata: an update and review

Review

. 2018 Jul;57(7):776-783.

doi: 10.1111/ijd.13866.

Epub 2018 Jan 10.

Khatiya Chelidze 
¹
, Shari R Lipner 
¹

Affiliations

Affiliation

• ¹ Department of Dermatology, Weill Cornell Medicine, New York, NY, USA.

• PMID:

  29318582

• DOI:

  10.1111/ijd.13866

Review

Khatiya Chelidze et al.

Int J Dermatol.

2018 Jul.

. 2018 Jul;57(7):776-783.

doi: 10.1111/ijd.13866.

Epub 2018 Jan 10.

Authors

Khatiya Chelidze 
¹
, Shari R Lipner 
¹

Affiliation

• ¹ Department of Dermatology, Weill Cornell Medicine, New York, NY, USA.

• PMID:

  29318582

• DOI:

  10.1111/ijd.13866

Abstract

Nail changes are a common feature of alopecia areata (AA) and are a significant source of cosmetic disfigurement and functional impairment. This review provides an update of the prevalence, clinical and histopathological features, pathogenesis, differential diagnosis, clinical course, prognosis, and management of nail changes in patients with AA. Searches for peer-reviewed journal articles were conducted using the PubMed/MEDLINE database with the search terms “nail changes alopecia areata,” “alopecia areata nails,” and specific searches on “trachyonychia alopecia areata” and “pitting alopecia areata.” Other sources of articles included the reference lists of retrieved articles. Nail changes are a common feature of AA, with an average prevalence of 30%, and can cause significant disfigurement and loss of function. Pitting and trachyonychia were by far the most common manifestations of AA, with an average prevalence of 20 and 8%, respectively. Red spotted lunulae, onycholysis, and punctate leukonychia were other reported findings. Other etiologies, such as onychomycosis or lichen planus, may coexist with or confound the diagnosis. There is limited published data on the clinical manifestations of AA-associated nail changes and therapeutic options. Larger controlled trials are necessary to guide treatment decisions.

© 2018 The International Society of Dermatology.

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Nail Involvement in Alopecia Areata: A Questionnaire-based Survey on Clinical Signs, Impact on Quality of Life and Review of the Literature | HTML

Nail Involvement in Alopecia Areata: A Questionnaire-based Survey on Clinical Signs, Impact on Quality of Life and Review of the Literature

Yvonne B. M. Roest¹, Henriët van Middendorp², Andrea W. M. Evers², Peter C. M. van de Kerkhof¹, and Marcel C. Pasch¹

¹Department of Dermatology, Radboud University Nijmegen Medical Center, Nijmegen, and ²Health, Medical and Neuropsychology Unit, Institute of Psychology, Leiden University, Leiden, The Netherlands

Alopecia areata (AA) is an immune-mediated disease causing temporary or permanent hair loss. Up to 46% of patients with AA also have nail involvement. The aim of this study was to determine the presence, types, and clinical implications of nail changes in patients with AA. This questionnaire-based survey evaluated 256 patients with AA. General demographic variables, specific nail changes, nail-related quality of life (QoL), and treatment history and need were evaluated. Prevalence of nail involvement in AA was 64.1%. The specific nail signs reported most frequently were pitting (29. 7%, p = 0.008) and trachyonychia (18.0%). Red spots on the lunula were less frequent (5.1%), but very specific for severe AA. Nail-related QoL was only minimally affected by nail changes. In conclusion, nail involvement is common in patients with AA and presents mostly with pitting and trachyonychia. The presence of these nail changes reflects the severity of the disease, with red spots on the lunula as a predictor for severe alopecia.

Key words: alopecia areata; quality of life; prevalence; nail disease; survey.

Accepted Oct 2, 2017; Epub ahead of print Oct 2, 2017

Acta Derm Venereol 2018; 98: XX–XX.

Corr: Yvonne B. M. Roest, Department of Dermatology, (370), Radboud University Nijmegen Medical Center, PO Box 9101, NL-6500 HB Nijmegen, The Netherlands. E-mail: [email protected]

Alopecia areata (AA) is an immune-mediated disease that is characterized by non-scarring hair loss. The disease may be limited to one or more discrete, well-circumscribed round or oval patches of hair loss on the scalp or body (alopecia areata focalis; AAF), or it may affect the entire scalp (alopecia areata totalis; AAT), or even the entire body (alopecia areata universalis; AAU). The natural course of the disease is unpredictable, but often benign. Spontaneous regrowth of hair occurs in 80% of patients within the first year, but relapses at any given time are not uncommon. Poor prognostic factors include bald patches persisting for more than one year, onset of hair loss before puberty, a positive family history of AA, ophiasis pattern, associated nail changes, atopy, and Down syndrome (1). Severity of AA at onset is perhaps the most important negative prognostic factor (2). A lifetime incidence between 0.57% and 3.8% has been reported in hospital-based studies worldwide (3). AA may appear at any age, but as many as 60% of patients with AA will present with their first patch before 20 years of age (4), and prevalence peaks between the 2^nd and 4^th decades of life (1).

AA is a lymphocyte cell-mediated inflammatory form of hair loss in which a complex interplay between genetic factors and underlying autoimmune aetiopathogenesis is suggested, although the exact aetiological pathway is unknown (5). Some studies have shown association with other auto-immune diseases, including asthma, atopic dermatitis, and vitiligo (6).

Many patients with AA also have nail involvement, with a reported incidence ranging from 9% to 46% (7, 8). Incidence is much lower in patients with focal AA than in patients with severe forms of AA (9, 10), and may be higher in children than in adults (8, 11). Nail changes may either precede the hair loss or occur months or years later, and may persist even after hair regrowth. The patho-genic mechanism of nail changes in AA is unknown, but it has been proposed that because the nails are similar in structure and growth to hair follicles, they are affected by the same inflammatory reaction that targets hair follicles in AA. Histopathological observations using light and electron microscopic techniques show that most of the nail changes in AA are found within the proximal matrix, and are less pronounced in the distal matrix, and negligible in the nail bed (12). The fact that the nail matrix is far more often involved than the nail bed results in a clinical presentation of matrix-derived nail changes that may include pitting, trachyonychia, onychorrhexis, Beau’s lines, onychomadesis, and nail thinning with or without koilonychia (8). Anonychia and scarring are not typically seen. Red spots on the lunula are rarely present, but are highly suggestive for the diagnosis AA (13). Nail bed signs are uncommon and only one case of severe onycholysis has been reported to date (14).

Studies in the field of nail changes in patients with AA are sparse. The aim of this study was to evaluate nail involvement in patients with AA, the impact on quality of life (QoL), and to evaluate a potential unmet need for treatment.

This study was conducted in collaboration with the Dutch Alopecia Patient Association between April 2013 and October 2013. A questionnaire was distributed to all 930 members of the alopecia association, together with a letter inviting participation and explaining the purpose of the study, and reply-paid envelopes. The questionnaire was completed anonymously and no incentives were given. It contained questions concerning general demographic variables, QoL, and specific nail changes thought to be attributed to AA. Also, patients experience of current and previous treatments for the nails were assessed. Nail signs assumed to be due to AA, i.e. pitting, trachyonychia, leukonychia, crumbling, red spots on the lunula, and koilonychia were illustrated with photographs. Based on these photographs, patients could indicate which of these nail features were present. If patients had other nail changes, they could report these in their own words, and these were categorized later by an experienced dermatologist. QoL was assessed using the nail psoriasis QoL scale (NPQ10), a questionnaire primarily developed and validated to measure QoL in patients with nail psoriasis (15). This scale was used unmodified for the measurement of QoL for patients with AA with nail involvement. The first question concerns the pain intensity of nail changes and the other 9 questions concern the functional impairment caused by their nail involvement in daily life. Each response is scored from 0 to 2, with the response “not” and “never” scoring 0, “sometimes” and “a little” scoring 1, and “very” and “always” scoring 2 points. The question concerning the interference of nail changes with the ability to drive a car was removed because the target population also included minors. The NPQ10 scale used therefore has a range from 0 (no impairment of QoL) to 18 (maximum impairment of QoL).

Data were entered in a database and statistical analysis was subsequently performed using Statistical Package for Social Sciences (SPSS 20.0, IBM Corp, Armonk, NY, USA). Descriptive statistics were provided using mean ± standard deviation (SD) and median (range) for normally and non-parametrically distributed numerical values, respectively. Frequencies and percentages were used for categorical variables. Missing values were not included to calculate percentages. Continuous variables with normal distribution were tested by unpaired t-test and the results are presented as mean ± SD. Categorical variables were represented by frequencies and percentages and analysed by χ² or Fisher’s exact test. Missing values were not included in calculations of percentages. Statistical analysis of more than 2 means was performed with one-way analysis of variance (ANOVA). Statistical significance was considered at a level of 5% (p < 0.05) for all tests.

A total of 930 questionnaires were distributed and 347 were returned within 6 months, a response rate of 37.3%. Most patients (88.2%) had AA. Other respondents had other types of alopecia, mostly pattern hair loss (PHL; 8.7%). Fifty questionnaires from patients with AA were excluded because the questions concerning nail involvement were not completed, resulting in 256 questionnaires from patients with AA that were available for analysis. The 30 questionnaires from patients with PHL served as controls, because nail involvement has not been reported in these patients, while questionnaires from patients with cicatricial alopecia, telogen effluvium, and trichotillomania were excluded because of their low prevalence. Also, questionnaires from patients with AA diffusa were excluded because it was considered that some patients might not have been able to discriminate between this type of AA and other more diffuse forms of non-scarring alopecia.

The distribution of patient characteristics is shown in Table I. Most patients had severe AA: 74.6% had AAT or AAU, while 25.4% had AAF. A vast majority of respondents were female (83.8%), and a small majority of respondents (64.1%) had experienced nail involvement at any time during the course of their AA. The incidence of nail abnormalities in the control group was 36.6%, which is significantly lower than among any group of patients with AA (p = 0.007). More than 65% of patients with AA with nail involvement had AAU (p = 0.002), while most patients without nail involvement (54.3%) had milder forms of AA. There was a tendency for nail involvement to be more frequent in males than in females (p = 0.056). The mean age ± SD of the respondents with AA was 48. 5 ± 13.6 years. Patients with nail involvement were slightly older than those with AA without nail involvement. The mean age of onset of hair loss was 25.9 ± 16.1 years without significant differences between patients with AA with and without nail involvement. Nail changes developed, a mean of 7.9 years later than the alopecia (Table II).

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Table I. Characteristics of patients with and without nail involvement in alopecia areata (AA) and the control group (pattern hair loss, PHL)

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Table II. Characteristics of patients with nail changes divided into the 3 forms of alopecia

In over half of the patients with AA, only the fingernails were involved. Isolated involvement of the toenails was reported in 1 out of 8 patients with AA, while involvement of both toenails and fingernails was reported by one-third of respondents. The mean number of involved fingers was 7, and was similar among all 3 groups of patients with AA (p = 0. 90), while the mean number of involved toenails was higher among patients with AAU than among those with AAF or AAT (p = 0.009).

A total of 164 patients with AA reported that their nails had been affected at some time during the course of the disease. This corresponds to 64.1% of the returned complete questionnaires. The reported nail signs are shown in Table III and were compared with the control PHL group.

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Table III. Nail signs in patients with alopecia areata (AA) compared with control group (pattern hair loss, PHL)

Pitting, crumbling, leukonychia, and trachyonychia are the most commonly observed nail changes in AA. Of these, leukonychia and crumbling were also reported in rather high percentages in the control group. Koilonychia (3.1%) and red spots on the lunula (5.1%) were reported in a few patients with AA, but in none of the control patients. Brittleness, splitting, onychorrhexis, and onychoschizia are signs of brittle nail syndrome and were reported in approximately 10% of both the patients with AA and the controls. Onycholysis, slow nail growth, disappearing lunula, and onychomadesis were all reported once in AA (n = 1, 0.4%).

All nail features were reported more frequently in patients with AAU than in patients with AAF/AAT, but this difference was significant only for red spots on the lunula (p = 0.04).

The results for nail-related QoL are shown in Table IV (NPQ10). The mean NPQ10 of patients with nail changes and mean ± SD AA score was 0.91 ± 1.61. There was no significant difference between sex and QoL (NPQ10 was 0.84 in males and 0.92 in females, respectively). There was a tendency to a higher impairment score in patients with both toenail and fingernail involvement, compared with patients with only fingernail or only toenail involvement. (NPQ10 was 1.07, 0.88, 0.86, respectively, p = 0.066). Looking at the activities or complaints separately, patients with nail involvement were most restricted in putting on socks. The results in NPQ10 of the control patients were not significantly different from those with AA (data not shown). The mean NPQ10 in this group was 1.40. Similar to patients with AA, putting on socks was also the problem most often encountered the control group.

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Table IV. Nail-specific quality of life results (NPQ10)

Twenty-two (13.8%) of the 164 patients with AA with nail involvement indicated having received any treatment for their nail disorder. Topical corticosteroids were mentioned by 4 patients, tar ointment by one, topical chlorhexidine cream by one, an unspecified cream/ointment by 2 patients, and intralesional steroids by one patient. Oral treatments included biotin (n = 2), vitamin B complex (n = 1), vitamin D (n = 1), vitamin E (n = 1), and antifungals (n = 8). Other systemic treatments, including oral corticosteroids, methotrexate, or cyclosporine were not reported. Of all mentioned therapies, 8 patients experienced positive treatment results with vitamin B complex (n = 1), vitamin D (n = 1), vitamin E (n = 1), biotin (n = 2), chlorhexidine cream (n = 1), nail hardener (n = 1), and pedicure treatment (n = 1).

Patients were asked about their desire for effective treatment of nail changes caused by AA. If patients had not received treatment in the past, they were asked about their desire to have treatment. Thirty-five percent reported a desire for such a treatment, while 65% considered their nail abnormalities too limited to justify any treatment. Furthermore, 76.9% of patients with nail changes had no confidence in the effectiveness of available treatment options, 28.7% thought that treatment would be uncomfortable, and 39.8% of the patients assumed it would be time-consuming. Fig. 1 shows the amount of time patients reported being willing to spend on treatment of their nails per day. Most patients wanted to spend less than 5 min per day. Less than 10% were willing to spend more than 15 min per day in order to improve their nails.

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Fig. 1. The time patients with alopecia areata (AA) are willing to spend treating their nail abnormalities.

Nail changes occur frequently in patients with AA and indicate a poor prognostic factor (7). The aim of this study was to evaluate the prevalence and signs of nail involvement in patients with AA, the impact on QoL, and to evaluate a potential unmet need for treatment. Our results showed nail involvement in most patients with AA, more frequently in patients with AAU than in patients with AAF. Pitting, leukonychia, and trachyonychia were reported most often, but red spots on the lunula appear to be most specific for (severe) AA. QoL in patients with AA was only minimally affected by their nail changes. The nail-specific unmet medical needs appeared to be low, possibly due to lack of awareness of therapeutic options.

Among the 256 respondents in this study, nail involvement was reported in 64.1%. Severity of alopecia was a major determinant in reported incidence. Nail involvement was reported in 53.8% (35/65) of patients with AAF, while 71.8% (107/149) of the patients with AAU reported nail involvement. Patients with PHL were included as controls because nail involvement has not been reported in these patients. Also, among these controls, nail signs were reported relatively frequently, in 36.6% (11/30), but significantly less frequently than in patients with AA. The reported prevalence and incidence of nail involvement in AA in the literature ranges from 9.0% to 46% (Table V) (5, 7–9, 11, 16–18). Reported incidence was lowest in a retrospective file study focusing on several clinical characteristics of 216 Korean patients with AAT or AAU (9). Nail signs were not specified in this study, but were more frequently noted in the clinical file in early-onset patients with AA (16.9%) than in patients with late-onset AA (7.1%). A higher prevalence of nail abnormalities in children (46%) than in adults with AA (19%) was also reported by Tosti et al. (8). In our study the age of onset of AA did not differ between patients with AA with nail involvement, and those with AA without nail involvement. This might be due to the specific design of our study, which included patients who had been diagnosed, on a mean of 24 years previously. Nail abnormalities developed, on a mean of 7 years after the onset of the hair loss. This suggests that even if nail involvement is more present in children presenting with AA, nail involvement will occur in the course of the disease as frequently in patients with later onset AA. Most studies reported a lower incidence or prevalence of nail involvement in AA than our study. There are several possible explanations for this. Firstly, we reported the lifetime incidence of nail changes, while several other studies reported point-prevalence of nail changes at the time of the first visit to an outpatient clinic, or during a short period of follow-up. Secondly, our group consisted of patients with severe AA; almost 60% had AAU. Nail involvement is more frequent among patients with severe AA, not only in this study, but also in other reports (8, 11, 16, 17, 7). Sharma et al. (11) reported a prevalence of nail dystrophy of 19.1% in their whole group, with a higher incidence of 49.4% in the severe forms of AA. Garcia-Hernandez & Rodriguez-Pichardo (16) reported nail changes as a risk factor for developing severe forms of alopecia. In the study by Gandhi et al. (17), none of the patients with AAF had nail changes. A third factor that might have affected the results is the scoring of nail involvement. This study used patient-reported data with photographs in a questionnaire. Patients themselves may have a low threshold for reporting abnormalities. The relevance of this factor is underlined by the high incidence of nail abnormalities reported in the control group (36.6%). Only one other study on nail involvement in AA included a control group (11). Unfortunately, the incidence of nail involvement in their control group was not all reported, but it appears to be even higher than in patients with AA. Nail involvement was reported in 19.8% of patients with AA, leukonychia was present in 15. 1% of controls, and longitudinal ridges in 26.4% of controls.

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Table V. Literature overview of nail signs in patients with alopecia areata (AA)

Apart from one patient with onycholysis, only signs of nail matrix disease were observed in our study. The absence of nail bed signs, such as onycholysis and subungual hyperkeratosis, indicates that the nail matrix is the only site of inflammation in AA (12). The specific nail signs that were reported most frequently in patients with AA were pitting (29.7%), and trachyonychia (18.0%). Both of these were more frequent than among the controls. Red spots on the lunula were reported by fewer patients with AA (5.1%), but not at all reported in the control group. Patients with AAU had a significantly higher risk of developing red spots on the lunula (8.1% vs. 0.9%) than did patients with AAT and AAF. Pitting and trachyonychia were also the most common nail changes in all previous studies (8, 11, 17). Sharma et al. (11) reported that longitudinal ridging, pigmented longitudinal bands, and punctate leukonychia did not occur more often in AA than in controls. Van der Velden et al. (19) has shown recently that leukonychia is a nail feature that is not disease-specific, which presents in 65% of healthy subjects. Also in our patients, leukonychia was found as a non-specific feature. Sharma et al. (11) introduced terminal “V” nicks of the nail plate as a new change recorded in association with AA. In our study, 3.1% of patients with AA reported distal notching. However, 3.4% of controls reported the same sign. Thus, leukonychia and distal notcching does not appear to be a specific sign for AA of the nails. Three out of 274 children were reported by Tosti et al. (8) to experience onychomadesis during the acute onset of AA universalis. In our population, only one patient reported onychomadesis, making it a rare sign of AA of the nails.

Patients with AA often experience marked psychological distress. The disease can have detrimental impact on patients QoL. A recent systematic review showed that patients with AA consistently demonstrate poor QoL scores, with greater extent of scalp involvement associated with lower QoL (20). Health-related QoL in AA is similar to that of other chronic dermatological diseases, such as psoriasis or chronic dermatitis. Also, nail disease may have serious effects on QoL. For example, patients with psoriasis have a significantly lower QoL when the nails are involved than when the nails are uninvolved (21). Many tools have been used to assess QoL in patients with AA, including the Dermatology Life Quality Index (DLQI), Skindex-16, Short Form Health Survey (SF-36), and several others (20). None of these questionnaires include questions concerning nail involvement. Therefore, no date or scoring systems were available to access the contribution of nail involvement in QoL of patients with AA. In this study, we used the NPQ10 scale, which is a QoL questionnaire specifically related to the impact of nail impairments on QoL, developed for nail psoriasis (15). The results show a low impact of nail changes on the QoL of patients with AA with a mean score of 0.91, which was similar to the controls. Nail involvement in AA appears to be much less troublesome than in nail psoriasis, because the mean score in those patients was 9.9 (22). In general, nail psoriasis is more extensive, painful, and has major signs of nail bed disease, for example onycholysis, which may cause a major handicap for patients, resulting in higher scores on the QoL scale. A more specific QoL questionnaire focusing solely on nail matrix signs could be designed and validated for nail changes in AA, but from our results it is suggested that nail involvement is of major importance for only a few individual patients with AA.

A minority of 13.7% of patients with AA received any treatment for their nails. In most cases, this treatment was considered ineffective. Approximately one-third of patients with AA desire an effective treatment for their nails, while most considered their nail abnormalities too limited to justify any treatment. The unmet need for treatment in patients with AA is much lower compared with nail psoriasis patients (22), which correlates with the much higher impact nail involvement has in psoriasis, as measured by NPQ10.

In summary, nail involvement in patients with AA is common and presents mostly with pitting and trachyonychia. The severity of the nail changes reflects the severity of the disease, with red spots on the lunula as a predictor for severe alopecia. Impairment of QoL by nail involvement is limited in the majority of patients, and the unmet need for treatment is lower compared with nail psoriasis. However, the latter could be an underestimation, since lack of awareness of therapeutic options may play a role. Nail involvement should not be overlooked in trials on AA, because its presence and improvement may be a relevant factor in individual patients.

This project was funded by by the Dutch alopecia areata association, Zoetermeer, the Netherlands.

The authors have no conflicts of interest to declare.

1. Alkhalifah A, Alsantali A, Wang E, McElwee KJ, Shapiro J. Alopecia areata update: part I. Clinical picture, histopathology, and pathogenesis. J Am Acad Dermatol 2010; 62: 177–188, quiz 89–90.
   View article    Google Scholar
2. van der Steen PH, van Baar HM, Happle R, Boezeman JB, Perret CM. Prognostic factors in the treatment of alopecia areata with diphenylcyclopropenone. J Am Acad Dermatol 1991; 24: 227–230.
   View article    Google Scholar
3. Villasante Fricke AC, Miteva M. Epidemiology and burden of alopecia areata: a systematic review. Clin Cosmet Investig Dermatol 2015; 8: 397–403.
   View article    Google Scholar
4. Price VH. Alopecia areata: clinical aspects. J Invest Dermatol 1991; 96: 68S.
   View article    Google Scholar
5. Tan E, Tay YK, Goh CL, Chin Giam Y. The pattern and profile of alopecia areata in Singapore – a study of 219 Asians. Int J Dermatol 2002; 41: 748–753.
   View article    Google Scholar
6. Mohan GC, Silverberg JI. Association of vitiligo and alopecia areata with atopic dermatitis: a systematic review and meta-analysis. JAMA Dermatol 2015; 151: 522–528.
   View article    Google Scholar
7. Ranawaka RR. An observational study of alopecia areata in Sri Lankan adult patients. Ceylon Med J 2014; 59: 128–131.
   View article    Google Scholar
8. Tosti A, Morelli R, Bardazzi F, Peluso AM. Prevalence of nail abnormalities in children with alopecia areata. Pediatr Dermatol 1994; 11: 112–115.
   View article    Google Scholar
9. Cho HH, Jo SJ, Paik SH, Jeon HC, Kim KH, Eun HC, et al. Clinical characteristics and prognostic factors in early-onset alopecia totalis and alopecia universalis. J Korean Med Sci 2012; 27: 799–802.
   View article    Google Scholar
10. Kasumagic-Halilovic E, Prohic A. Nail changes in alopecia areata: frequency and clinical presentation. J Eur Acad Dermatol Venereol 2009; 23: 240–241.
    View article    Google Scholar
11. Sharma VK, Dawn G, Muralidhar S, Kumar B. Nail changes in 1000 Indian patients with alopecia areata. J Eur Acad Dermatol Venereol 1998; 10: 189–191.
    View article    Google Scholar
12. Laporte M, Andre J, Stouffs-Vanhoof F, Achten G. Nail changes in alopecia areata: light and electron microscopy. Arch Dermatol Res 1988; Suppl 280: S85–S89.
    View article    Google Scholar
13. Shelley WB. The spotted lunula. A neglected nail sign associated with alopecia areata. J Am Acad Dermatol 1980; 2: 385–387.
    View article    Google Scholar
14. Tosti A, Pazzaglia M, Venturi M, Chiacchio NC, Jr. Severe onycholysis in a card illusionist with alopecia areata universalis. Int J Trichology 2013; 5: 81–82.
    View article    Google Scholar
15. Ortonne JP, Baran R, Corvest M, Schmitt C, Voisard JJ, Taieb C. Development and validation of nail psoriasis quality of life scale (NPQ10). J Eur Acad Dermatol Venereol 2010; 24: 22–27.
    View article    Google Scholar
16. Garcia-Hernandez MJ, Rodriguez-Pichardo A. Multivariate analysis in alopecia areata: risk factors and validity of clinical forms. Arch Dermatol 1999; 135: 998–999.
    View article    Google Scholar
17. Gandhi V, Baruah MC, Bhattacharaya SN. Nail changes in alopecia areata: incidence and pattern. Indian J Dermatol Venereol Leprol 2003; 69: 114–115.
    View article    Google Scholar
18. Goh C, Finkel M, Christos PJ, Sinha AA. Profile of 513 patients with alopecia areata: associations of disease subtypes with atopy, autoimmune disease and positive family history. J Eur Acad Dermatol Venereol 2006; 20: 1055–1060.
    View article    Google Scholar
19. van der Velden HM, Klaassen KM, van de Kerkhof PC, Pasch MC. Fingernail psoriasis reconsidered: a case-control study. J Am Acad Dermatol 2013; 69: 245–252.
    View article    Google Scholar
20. Liu LY, King BA, Craiglow BG. Health-related quality of life (HRQoL) among patients with alopecia areata (AA): A systematic review. J Am Acad Dermatol 2016; 75: 806–812 e3.
    View article    Google Scholar
21. van der Velden HM, Klaassen KM, van de Kerkhof PC, Pasch MC. The impact of fingernail psoriasis on patients’ health-related and disease-specific quality of life. Dermatology 2014; 229: 76–82.
    View article    Google Scholar
22. Klaassen KM, van de Kerkhof PC, Pasch MC. Nail psoriasis: a questionnaire-based survey. Br J Dermatol 2013; 169: 314–319.
    View article    Google Scholar

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