Skin, similar to other human organs, can be affected by all types of pathological changes, including hereditary, inflammatory, neoplastic, endocrinal, traumatic, and degenerative affection [
The incidence and prevalence of skin disorders are mainly related to the ethnic and the genetic constitution of the community. In addition, hygiene, dietary style, social background, and weather conditions are important contributing factors.
Population-based epidemiological studies of skin disease are relatively inadequate. Because these epidemiologic studies have been published through many decades in different journals, many dermatologists are not aware of these data [
In Saudi Arabia, the large epidemiological studies on patterns of skin diseases are scanty. Previous epidemiological studies in Saudi Arabia investigated the pattern of skin and skin-related diseases in different regions of Saudi Arabia such as Madinah, Al-Khobar, Jeddah, Al-Baha, Hail, Abha, Qassim, and Najran [
Therefore, this systematic review and meta-analysis was conducted to gather available epidemiological data describing the pattern of skin diseases and investigate the current evidence of frequency, type, and distribution of skin disorders in different geographical areas in Saudi Arabia.
All steps of this systematic review were performed in strict compliance with the Cochrane handbook of systematic reviews and meta-analysis [
The following medical electronic databases were searched: PubMed, SCOPUS, and Web of Science through October 2019 using the following query: [(prevalence OR incidence OR epidemiology OR pattern of skin disease OR skin disease pattern)] AND (melanocytic nevi OR Vitiligo OR Melasma OR Dermatitis OR eczema OR acne OR alopecia OR fungal skin disease OR cutaneous leishmaniasis OR scabies OR warts OR chicken pox OR herpes simplex OR herpes zoster OR onychomycosis OR tinea OR dermatophytosis OR candidiasis OR pityriasis versicolorversicolor OR psoriasis OR Lichen planus OR pityriasis rosea OR skin cancer OR skin malignancy OR skin carcinoma OR melanoma) AND Saudi Arabia. The bibliography of eligible studies was searched to find relevant articles.
All published cross-sectional studies that provided data on relevant incidence or prevalence of skin disease in Saudi Arabia were included. Excluded articles included all studies with a small sample size (less than 100 patients), reviews, case reports, conference abstracts, or case series, studies with self-reported data unless diagnoses were validated by a trained physician, studies on specific ethnic or social groups, non-English articles, and duplicate references.
Eligibility screening was conducted in two steps, each by two independent reviewers (MA and MA) as follows: (a) title and abstract screening for matching the inclusion criteria and (b) full-text screening for eligibility to meta-analysis. Disagreements were resolved upon the opinion of a third reviewer (HA).
Two independent reviewers (MA and MA) extracted the data that included the following: (a) general characteristics of each study including study setting, study design, sample size; (b) patients’ baseline characteristics of each study including age, gender, and nationality; (c) types and proportion of the reported skin diseases; (d) risk of bias criteria.
To assess the risk of bias within the included cross-sectional studies, two independent reviewers (MA and MA) used the risk of bias assessment tool developed by Hoy et al. [
All statistical analysis was performed using the Comprehensive Meta-Analysis software (CMA version 3) for Windows. The mean proportions of skin diseases were pooled in a meta-analysis model, using the Mantel–Haenszel method. The analysis was performed under the fixed-effects model for homogeneous data and the random-effects model for heterogeneous data. Heterogeneity among studies was assessed using
Our search yielded a total of 1701 studies. Following screening and excluding duplicates, we remained with 95 studies that entered full-text screening. Finally, 14 studies were included in this systematic review as reported in the PRISMA flow diagram (Figure
PRISMA flow diagram.
The fourteen Saudi studies reported the frequency of the skin disease patterns in different regions in Saudi Arabia with a total sample size of 30436 patients. Only two studies reported the pattern of skin cancers only in southeastern and western regions in Saudi Arabia, with a total sample size of 395 patients with skin cancer [
Baseline characteristics and summary of the included studies.
Study ID | Region | Type of study | Sample size | Nationality | Time Period | Criteria of classification | Age (years) | Gender | Most common age | ||
---|---|---|---|---|---|---|---|---|---|---|---|
Saudi | Expatriates | Male, | Female, | ||||||||
Albasri et al. 2018 | Madinah | Retrospective hospital-based study (pathology based) | 202 | NR | Jan 2006 to Dec 2017 | NR | 60.1 ± 15 | 139 (68.8%) | 63 (31.2%) | 60–69 | |
Albasri et al. 2019 | Madinah | Retrospective hospital-based study (pathology based) | 1125 | NR | Jan 2006 to Dec 2017 | ICD-10 | 36.9 ± 9.8 | 579 (51.5%) | 546 (48.5%) | 20–49 | |
Alakloby 2005 | King Fahd Hospital, Al-Khobar, eastern province | Prospective hospital-based study | 1676 | 432 (85.5%) | 244 (14.6%) | Aug 2002 to Jul 2003 | ICD | NR | 820 (49%) | 856 (51%) | Adults 1,274 (76%) 13 years, and children 402 (24%) <13 years |
Ahmed et al. 2016 | Qunfudah region | Retrospective hospital-based study | 792 | NR | Oct 2015 to Sep 2016 | NR | Mean age in females (29.2) and males (31.1) | 342 (43.2%) | 450 (56.8%) | 15–24 (25.1%) | |
Alghanmi et al. 2013 | Jeddah | Retrospective hospital-based study (pathology based) | 360 | NR | Jan 2005 to Dec 2010 | NR | NR | F > M | F > M | >46 | |
Al-Maghrabi et al. 2004 | Al-Baha, south western region | Retrospective hospital-based study (pathology based) | 193 | 189 (98%) | 4 (2%) | Jan 1990 to Jul 2003 | NR | Mean age 62.2 years | 119 (62%) | 74 (38%) | 60–80 |
Al-Saeed et al. 2006 | Al-Khobar city, eastern province | Cross-sectional study | 2239 | 1844 (82.4%) | 395 (17.6%) | Jan to Mar 2003 | ICD-10 | 10.49 ± 2.64 | Female schoolchildren | 6–17 | |
Al Shammrie et al. 2017 | Hail region | Retrospective hospital-based study | 13778 | 12,574 (92%) | 1204 (8%) | Jan 2008 to Dec 2014 with missing two years (2010–2011) | NR | NR | 5473 (40%) | 8305 (60%) | NR |
Alshammari et al. 2018 | Hail region | Retrospective hospital-based study (histopathology based) | 458 | NR | NR | Jan 2014 to Apr 2017 | NR | 34.29 ± 17.5 | 242 (52.8%) | 216 (47.2%) | 30–39 |
Alshamrani et al. 2019 | Jeddah, western region | Retrospective hospital-based study | 1244 | 809 (65%) | 435 (35%) | January 2017 to December 2017 | ICD-10 | 35 ± 3.8 | 365 (29.3%) | 879 (70.7% | Children 127 (10.2%) (<13 years), adults 982 (78.9%) (13–60 years), and elders 135 (10.9%) (>60 years) |
Al Shobaili 2010 | Qassim region | Prospective hospital-based study | 3051 | 3051 (100%) | 0 | Mar 2008 to Feb 2009 | NR | 25.3 ± 14.9 | 1786 (58.5%) | 1265 (41.5%) | 5–34 |
Bahamdan et al. 1995 | Abha, southern region, Saudi Arabia | Prospective hospital-based study | 1223 | 939 (76.8%) | 284 (23.2%) | Mar 1992 to Mar 1993 | ICD-9 | NR | 667 (54.54%) | 556 (45.46%) | Adults 848 (>13 years) and children 375 (30.7%) (<13 years). |
Parthasaradhi et al. 1998 | Hail region, Saudi Arabia | Prospective hospital-based study | 3298 | 2772 (84.05%) | 526 (15.95%) | Jul 1995 to Jun 1997 | ICD-9 | NR | 1819 (55.16%) | 1479 (44.84%) | Adults 2535 (>13 years) and children 763 (<13 years) |
Shelleh et al. 2004 | Najran | Retrospective hospital-based study (pathology based) | 1192 | 1003 (84.1%) | 189 (15.9%) | Dec 2000 to Dec 2001 | ICD-9 | NR | 562 (47.1%) | 630 (52.9%) | Children 302 (25.3%) and adults 890 |
Overall low risk of bias was observed in accordance with the Hoy et al. [
Evaluation of the risk of bias in included primary studies.
Study ID | Q1 | Q2 | Q3 | Q4 | Q5 | Q6 | Q7 | Q8 | Q9 | Q10 | Overall risk of study bias |
---|---|---|---|---|---|---|---|---|---|---|---|
Albasri et al. 2018 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Albasri et al. 2019 | High risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Alakloby 2005 | High risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Ahmed et al. 2016 | High risk | High risk | High risk | Low risk | Low risk | Low risk | High risk | Low risk | Low risk | Low risk | Moderate risk |
Alghanmi et al. 2013 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Al-Maghrabi et al. 2004 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Al-Saeed et al. 2006 | High risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | High risk | Low risk | Low risk |
Al Shammrie et al. 2017 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | High risk | Low risk | Low risk |
Alshammari et al. 2018 | High risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Alshamrani et al. 2019 | High risk | Low risk | Low risk | Low risk | High risk | Low risk | Low risk | Low risk | High risk | Low risk | Low risk |
Al Shobaili 2010 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Bahamdan et al. 1995 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Parthasaradhi et al. 1998 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
Shelleh et al. 2004 | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk | Low risk |
List of the 10 questions (Q1–Q10) applied to the studies: Q1. Was the study’s target population a close representation of the national population in relation to relevant variables, e.g., age, sex, occupation? Q2. Was the sampling frame a true or close representation of the target population? Q3. Was some form of random selection used to select the sample, OR, was a census undertaken? Q4. Was the likelihood of nonresponse bias minimal? Q5. Were data collected directly from the subjects (as opposed to a proxy)? Q6. Was an acceptable case definition used in the study? Q7. Was the study instrument that measured the parameter of interest shown to have reliability and validity (if necessary)? Q8. Was the same mode of data collection used for all subjects? Q9. Was the length of the shortest prevalence period for the parameter of interest appropriate? Q10. Were the numerator(s) and denominator(s) for the parameter of interest appropriate?
The overall mean proportion of pigmentary disorders, as reported by 11 studies (16658 patients), was 16.1% (95% CI, 15.4%–16.9%) (Figure
Forest plot of the pooled proportion for the prevalence of (a) pigmentary disorders, (b) dermatitis, (c) infectious diseases, (d) disorders of skin appendages, and (e) papulosquamous disorders.
Pooled proportion of the skin diseases pattern in Saudi Arabia.
Skin diseases | Pooled proportion (%) | 95% CI | |
---|---|---|---|
Pigmentary Disorder | |||
Melanocytic nevi | 54.2 | 52.2%–56.1% | |
Postinflammatory hypo- and hyperpigmentation | 47 | 45%–49% | |
Vitiligo | 6 | 5.6%–6.3% | |
Melasma | 2.5 | 2.2%–3% | |
Dermatitis/eczema and related conditions | |||
Contact dermatitis | 4.7 | 4.3%–5.1% | |
Seborrheic dermatitis | 2.3 | 2%–2.7% | |
Atopic dermatitis | 1.2 | 1.1%–1.3% | |
Pityriasis alba | 1.6 | 1.2%–2.1% | |
Disorder of skin appendages | |||
Acne | 1.8 | 1.7%–1.8% | |
Alopecia | 7.5 | 7.1%–7.8% | |
Infectious diseases | |||
Cutaneous leishmaniasis | 4 | 3.7%–4.3% | |
Scabies | 0.6 | 0.4%–0.8% | |
Warts | 7.2 | 6.8%–7.5% | |
Chicken pox | 6.9 | 6.2%–7.7% | |
Herpes simplex | 1.2 | 0.9%–1.5% | |
Herpes zoster | 1.8 | 1.5%–2.2% | |
Bacterial | 3.3 | 3%–3.6% | |
Onychomycosis | 2.8 | 2.3%–3.4% | |
Tinea | 2.3 | 2.1%–2.5% | |
Dermatophytosis | 6.6 | 5.8%–7.4% | |
Candidiasis | 1.6 | 1.3%–2% | |
Pityriasis versicolor | 1.2 | 0.8%–1.7% | |
Papulosquamous disorders | |||
Psoriasis | 3.9 | 3.6%–4.1% | |
Lichen planus | 1.8 | 1.6%–2.1% | |
Pityriasis rosea | 1.2 | 1%–1.5% |
Considering dermatitis or eczema, the pooled proportion form 12 studies (29244 patients) resulted in an overall prevalence of 24% (95% CI, 23.6%–24.6%) (Figure
Comparison between males and females regarding the skin diseases pattern in Saudi Arabia.
Skin diseases | Males | Total | Females | Total | Odds ratio (95% CI) |
---|---|---|---|---|---|
Pigmentary Disorder | |||||
Melanocytic nevi | 48 | 944 | 92 | 1425 | 0.48 (0.33, 0.69) |
Postinflammatory hypo and hyperpigmentation | 20 | 1185 | 41 | 1735 | 0.58 (0.33, 1.00) |
Vitiligo | 149 | 3671 | 119 | 3770 | 1.20 (0.94, 1.55) |
Melasma | 18 | 3218 | 86 | 2881 | 0.18 (0.11, 0.31) |
Dermatitis/eczema and related conditions | |||||
Contact dermatitis | 222 | 4812 | 270 | 4946 | 0.82 (0.68, 0.98) |
Seborrheic dermatitis | 93 | 4250 | 88 | 4316 | 1.13 (0.84, 1.52) |
Atopic dermatitis | 501 | 4812 | 487 | 4946 | 1.11 (0.97, 1.27) |
Disorder of skin appendages | |||||
Acne | 353 | 3566 | 636 | 3844 | 0.57 (0.49, 0.65) |
Alopecia | 179 | 4145 | 378 | 4390 | 0.48 (0.40, 0.58) |
Infectious diseases | |||||
Cutaneous leishmaniasis | 185 | 4250 | 78 | 4316 | 2.07 (1.58, 2.72) |
Scabies | 25 | 3671 | 21 | 3770 | 1.19 (0.67, 2.12) |
Warts | 356 | 4250 | 239 | 4316 | 1.49 (1.25, 1.77) |
Chicken pox | 46 | 3306 | 25 | 2891 | 1.53 (0.94, 2.50) |
Herpes simplex | 28 | 3671 | 21 | 3770 | 1.44 (0.80, 2.58) |
Herpes zoster | 72 | 3430 | 62 | 3460 | 1.23 (0.86, 1.75) |
Bacterial | 190 | 4549 | 118 | 4169 | 1.80 (1.41, 2.30) |
Dermatophytosis | 192 | 3430 | 157 | 3460 | 1.53 (1.22, 1.91) |
Candidiasis | 41 | 3671 | 53 | 3770 | 0.69 (0.46, 1.05) |
Pityriasis versicolor | 49 | 1852 | 28 | 2291 | 2.22 (1.37, 3.58) |
Papulosquamous disorders | |||||
Psoriasis | 163 | 4250 | 159 | 4316 | 1.11 (0.88, 1.39) |
Lichen planus | 63 | 4250 | 84 | 4316 | 0.78 (0.56, 1.09) |
Pityriasis rosea | 46 | 4250 | 55 | 4316 | 0.83 (0.56, 1.22) |
Skin infection represented about 18.5% (95% CI, 18.1%–19%), as reported by 12 studies (29244 patients) (Figure
The pooled proportion of cutaneous leishmaniasis and warts was significantly higher in females than males: OR 2.07 (95% CI, 1.58–2.72) and OR 1.49 (95%CI, 1.25–1.77), while the bacterial infection was more common in males: OR 1.80 (95% CI, 1.41–2.30) (Table
Regarding the diseases of skin appendages, the mean proportion was 24.8% (95% CI, 24.3–25.3) (Figure
On the other hand, papulosquamous disorders represented 5.3% (95% CI, 5%–5.6%) of the skin diseases in Saudi Arabia (Figure
Finally, the overall mean proportion of benign skin neoplasms, as reported by two studies (1244 patients) was 21.2% (95% CI, 18%–24.7%) (Figure
Forest plot of the pooled proportion for the prevalence of skin cancer: (a) benign neoplasm and (b) malignant neoplasm.
Pie chart summary of the pooled proportion for the prevalence malignant neoplasm.
This systematic review presented a summary of population-based data describing the pattern of skin disease in Saudi Arabia. Previous studies investigated the pattern of skin and skin-related diseases in different regions of Saudi Arabia such as Madinah, Al-Khobar, Jeddah, Al-Baha, Hail, Abha, Qassim, and Najran through population-based cross-sectional studies, which reflect the true pattern of skin diseases in Saudi Arabia [
The different patterns of skin disorders in different cities in Saudi Arabia might be justified by overcrowding and/or poor living conditions in some cities. Other ecological and environmental considerations should be considered.
Fourteen Saudi studies with a total sample size of 30436 were included in this systematic review and meta-analysis reporting the frequency of the skin disease patterns in different regions in Saudi Arabia. The average sample size of the individual studies is 2000 patients, which is small to determine the true pattern of skin disease in a large country as Saudi Arabia.
In the present study, dermatitis or eczema represented a high prevalence of skin disorders in Saudi Arabia, with an overall prevalence of 24% from a total sample size of 29244 patients. Contact dermatitis and seborrheic dermatitis were common. This prevalence is supported by various studies conducted in Saudi Arabia with reported prevalences of 19.6% [
Skin infections and infestations prevalence have been reported with an overall pooled proportion of 18.5% derived from 12 studies with an overall sample size of 29244 patients.
Cutaneous leishmaniasis was the most common parasitic skin diseases, while the warts were the most common viral infection followed by chickenpox. In addition, bacterial skin diseases represented 3.3% of the total prevalence of skin disease in Saudi Arabia.
Similar to the results of this study, a review of population-based studies from the Rochester epidemiology project showed that skin-related infections and infestations have a high prevalence rate. The incidence of herpes zoster has repeatedly been found to be very high (590 Per 100,000 person-years). The incidence of lower extremity cellulitis is also very common (213 Per 100,000 person-years) [
A recent study reported that 10.9% of the population had a fungal infection in Jeddah, Saudi Arabia [
Regarding skin appendages disorders, the mean prevalence was 24.8% in Saudi Arabia. Acne served the highest proportion of them. Saudi studies reported that acne is the second most common skin disease in Jeddah, Saudi Arabia [
This meta-analysis reported a 5.3% prevalence of papulosquamous disorders in an overall sample size of 30076 patients from 11 studies. Psoriasis represents 3.9%, while Lichen planus represents 1.8%. Papulosquamous disorders had a higher prevalence in Jaddah (8%), Al-jouf (7.4%), Najran (6.7), and Al-Khobar (6.5%). The prevalence was lower prevalence in Asir (4.8%) and Qunfudah (4.2%) [
In Cairo, Egypt, the most common skin disease was infections (45.4%) followed by hypersensitivity diseases (22.08%) and adnexal disorders (16.17%). Papulosquamous disorders represented about 4.69% of the total prevalence of skin diseases. Lastly, pigmentary disorders represented only 4.24% and skin neoplasm 1.29%.
In this meta-analysis of Saudi studies, the overall mean proportion of pigmentary disorders as reported by 11 studies was 16.1% from a total sample size of 16658 patients. Melanocytic nevi and vitiligo were the most common pigmentary disorders in Saudi Arabia.
Lastly, the overall prevalence of benign skin neoplasms as reported by two studies was 21.2%, while malignant neoplasms were 5%. Basal cell carcinoma and squamous cell carcinoma were the most common malignant cancer in Saudi Arabia. Malignant melanoma represents 3.8% of malignant skin cancer. These figures are believed to be not representable as skin cancer is barely seen in Saudi Arabia.
The many strength points of this meta-analysis are the large numbers of included studies with a large sample size that covers most of the Saudi regions. Besides, we reported the first class of evidence form studies with low risk of bias according to the Hoy et al. [
For future researches, we recommend a comprehensive nationwide population-based study to identify the prevalence of skin diseases in Saudi Arabia.
In conclusion, Adnexal disorders and dermatitis are the most common skin disease in Saudi Arabia followed by skin infection and pigmentary disorders. Dermatological educational programs for primary healthcare physicians should be implemented to provide rapid detection of cases at early stages
The authors declare that they have no conflicts of interest.
The author would like to thank Dr. Malik Almohideb (2nd reviewer) (email:
Supplementary file 1: risk of bias assessment tool. Supplementary file 2: forest plot of the pooled proportion for the prevalence of pigmentary disorders. Supplementary file 3: forest plot of the pooled proportion for the prevalence of dermatitis/eczema and related conditions. Supplementary file 4: forest plot of the pooled proportion for the prevalence of skin infections. Supplementary file 5: forest plot of the pooled proportion for the prevalence of diseases of skin appendages. Supplementary file 6: forest plot of the pooled proportion for the prevalence of papulosquamous disorders.