Biochemical and hormonal abnormalities in adult female acne

Prevalence of adult patients with acne is increasing and women comprise majority of the cases. There is lack of data on biochemical and hormonal abnormalities in adult female acne (AFA).

adult acne are more common in women. 3 Hormonal alteration, stress, increased use of cosmetics and exposure to hot and humid conditions might play a role in increased prevalence of adult acne in females. 4 In past few years, acne is considered as a chronic systemic disease, rather than a transient pubertal dermatological disease. 5 Lipid alterations like high serum total cholesterol (TC), triglycerides (TG) and low high density lipoprotein (HDL) have also been linked to acne. 6

| Objective
The primary objective was to determine biochemical and hormonal abnormalities in adult female acne (AFA). The secondary objective was to describe the clinical characteristics, aggravating factors and other comorbidities in AFA.

| MATERIAL S AND ME THODS
This cross-sectional observational study was conducted from November 2018 to March 2020 in Dermatology outpatient department of a tertiary care hospital in North India. Adult females (age > 25 years) with clinical diagnosis of acne were included in study.
Postmenopausal women, pregnant and lactating women, patient taking oral contraceptive pills or acnegenic drugs, hormonal therapy were excluded from the study. A detailed history including age of onset, duration, seasonal aggravation, and premenstrual flare were taken.
Clinical assessment of each patient included site and morphology of lesion, severity and grading of acne and associated features like seborrhea, patterned alopecia, hirsutism etc. Acne was graded according to the Investigator Global Assessment score tool for Acne vulgaris severity grading. Body mass index (BMI) was graded according to Asian classification of adult nutritional status. Hirsutism was diagnosed by a Modified Ferriman-Gallwey score and alopecia was graded by Ludwig scale. Subjects underwent a detailed hormonal (Total testosterone, luteinizing hormone, follicle stimulating hormone, thyroid stimulating hormone and prolactin) and biochemical ( Transabdominal ultrasound pelvis was done with the help of Toshiba Xario ultrasound machine by using curvilinear/linear probe of 3.5 and 7.5 MHz frequency respectively. On ultrasound pelvis, PCOS was diagnosed when there was antral follicle count (AFC) of ±12 and/or ovarian volume of 10 ml or more.
The data collected was entered in a Microsoft excel spreadsheet and for analysis statistical package for social sciences (SPSS) software version 23 was used.

| Statistical analysis
Continuous variables were expressed as mean ± standard deviation, median and range. Categorical variables were expressed as frequencies and percentages. To check normality of data Shapiro-Wilk test was used. Fisher's exact test was used to find out the association of acne severity with biochemical parameters, hormonal parameters and obesity. A p value was considered significant if <0.05.

| RE SULTS
Our study included 60 clinically diagnosed cases of AFA.

| Demographic characteristics
The age ranged between 26-41 years with mean age at presentation being 29.45 ± 4.18 years. Majority of patients 43 (71.7%) were in age group of 25-30 years as shown in Figure 1. The mean age of onset was 24.97 ± 5.66 years. Overall mean disease duration was 4.39 ± 4.60 years.

| Biochemical/hormonal and radiological parameters
Biochemical and hormonal abnormalities deranged in AFA patients in our study are shown in Table 1. Raised FBG was found in 25% patients. 6 (10%) had raised serum insulin levels. HOMA-IR index was found to be deranged in 33 (55%) patients. At least one lipid alteration was reported in 91.6% of the patients. Serum TG was raised in 20%, decreased HDL (66.7%), raised TC (38.3%), and raised LDL (50%).
USG was suggestive of PCOS in 2 cases only.

| Association
No association was found between acne severity and biochemical and hormonal parameters. (Tables 2 and 3). Similarly, no association was found between acne severity and BMI.

| DISCUSS ION
Although acne has traditionally been viewed as a disorder of adolescent, the prevalence of adult patients with acne is rising. 4 In our study, mean age at presentation was 29.45 ± 4.18 years which was similar to studies by George et al. 7 and Khunger et al. 4 Majority of patients, 71.7% were in the age group of 25-30 years in our study.
This age is of great social and psychological importance for adult female and becomes even more important for working women. This is similar to studies by Khunger et al. 4 and Dreno et al. 8 where 79.4% and 53.2% of patients were in age group of 26-30 years. However, Di Landro et al., 9 found majority (56.9%) of patients were in age group of 30-39 years.
Majority (35%) of the patients, had their onset between 26-30 years. This is in contrast to studies by Dreno et al. 8 and Chlebus et al. 10 where majority had their onset in the adolescent. We found persistent acne (53.3%) more common than late-onset acne (46.7%) which is in consonance to other studies. 4,10,11 However, Sardana et.
al., 12 found late-onset acne (56.6%) to be more common than persistent acne (43.3%). Family history of acne was present in 40% cases in our study. This has been reported in 10%-56.8% of the cases from various studies. 8,12 Seasonal aggravation was seen in 45% patients.
Out of these, 25 had summer aggravation while only 2 had winter aggravation. Similarly, seasonal aggravation was noted in 44.5% of patients in a study from South India. 7 Summer aggravation may be due to the ultraviolet radiation induced inflammation and generation of squalene peroxides which are comedogenic in nature. 4 50% patients in our study reported aggravation on exposure to sunlight.
Khunger et al. 4 and George et al. 7 noticed aggravation on sun exposure in 33.2% and 26.4% of patients respectively. This was slightly lesser than our study.
15% patients reported irregular menstrual cycles in our study.
In a study from India, menstrual irregularity was noted in 25.8% of patients which was higher than our study. 12 50% patients reported premenstrual flare-up of acne in our study. Premenstrual flare has been reported in 30%-78% of the cases. 12,13 Our results were also in this range. Premenstrual flare may be due to hydration induced cyclical narrowing of pilosebaceous orifice between days 16-20 of menstrual cycle. 7 Stress has also been implicated in pathogenesis of AFA. It increases levels of pro-inflammatory cytokines and corticotrophin releasing hormone and thus increasing the level of cortisol. 14 We noted that 66.6% patients had history of stressful life events.
Stress as a worsening factor has been reported in 50%-71% of patients. 13 Acne is clearly exacerbated by obesity associated disorders such as hyperandrogenism and hirsutism. Androgens, insulin and growth hormone are frequently elevated in obese patients. 15 In our study, 53.3% cases were pre-obese with BMI between 25-29.9 kg/m 2 .
Tanghetti et al. 16 reported BMI ≥25 kg/m 2 in 51.9% of their patients similar to our study.
Papules were the most common morphological pattern in our study. This is similar to other studies, where papules were also the most common morphological pattern. 12,13,17 In our study, scarring was found in only 2 patients. Khunger et al. 4 and Tanghetti et al. 16 reported scarring in 76.4% and 63% of patients respectively.
Cheeks were most common site affected in our study. Similarly, cheeks were the most common site affected in other studies. 4,9,16 Our study reported acne on trunk along with face in only 8.3% patients. Since, pure truncal involvement is not cosmetically distressing, it may be possible that fewer patients are seeking treatment for only truncal acne.
Majority (61.7%) of patients had mild acne, followed by moderate, severe and almost clear acne. In a multicenter case-control study, most of the cases had moderate acne (50.2%) followed by mild (42%) and severe (7.8%). 9 However, Capitanio et al. 18  In biochemical parameters, we evaluated FBG, Insulin, HOMA-IR index, and lipid profile. Our study showed that 25% patients had raised FBG. In a case-control study by Balta et al., 21 no statistically significant difference in mean FBG was found between cases and controls. Insulin and IGF-1 increases sebum production and also increases synthesis and bioavailability of androgen. 22 Raised insulin levels suppresses sex hormone binding globulin (SHBG) concentration, increases androgen levels and contributes to acne. IGF-1 stimulates lipid synthesis in sebaceous glands through induction of sterol response element binding protein-1 (SREBP1). This overstimulated SREBP1 increases sebum production and enhances concentration of monounsaturated fatty acids in sebum and thus, increases colonization of P. acnes and acne formation. 22 10% patients had raised serum insulin in our study. Khunger et al. 4 reported raised insulin in only 2 (0.86%) patients which was lesser than our study. Shrestha 23 in her study evaluated C-peptide which was found to be altered in 10.3% of patients. C-peptide is a measure of endogenous insulin secretion and is more stable than insulin. 24 In our study, insulin resistance was evaluated using HOMA-IR index and was raised in 55% cases. Balta et al. 21  Since adult acne is more common in females, so underlying hormonal abnormalities have been put as an important underlying factor.
Androgens such as TT, dehydroepiandrosterone sulfate (DHEA-S) and DHT regulate genes which are responsible for sebaceous gland growth and sebum production. 25  Women with hyperprolactinemia might present with hyperandrogenic signs like hirsutism and acne. This may be due to increased DHEA-S secretion from adrenals and reduced SHBG, leading to high free TT levels. 5 We found raised PRL in only 3.3% patients while it was raised in 21.6% of patients in a recent study. 12 Women with PCOS are frequently overweight, have raised serum androgen levels and are insulin resistant, all of which predispose to acne. 27  is sub-optimal visualization of ovaries. 28 Measurement of antimullerian hormone(AMH) is also considered good tool for diagnosing PCOS. 28 However, it was not done in our study due to unavailability of resources.
We did not find statistically significant association between acne severity and FBG, insulin and HOMA-IR index. There is only 1 study 21 on association of acne severity with FBG, insulin and HOMA-IR index. In this study, no association was found between acne severity and FBG, insulin and HOMA-IR index, similar to our study.
We did not find any statistically significant association between acne severity and lipid profile. Romanska-Gocka et al. 29 and da Cunha et al. 6 in their studies reported no association between acne severity and lipid profile. Our results were consistent with their results.
However, both these studies included patients with age ≥20 years. 6,29 We observed no association between acne severity and any of hormonal parameters (LH/ FSH/TSH/Prolactin/Testosterone/LH/ FSH ratio). Association of acne severity and hormonal parameters has been done in only few studies in literature. 2,23 These studies also reported no association between acne severity and hormonal parameters which was in consonance to our study. Similarly, Bansal et al. 17 found no association between acne severity and hormonal parameters (TT, PRL, TSH, LH, FSH) except LH/FSH ratio where positive association was found.
In our study, no association was found between acne severity and obesity. There is only one 30 study on association between acne severity and obesity in adult female. Lu et al. 30 in their study found that BMI was negatively associated with acne lesion counts in moderate-to-severe AFA.

| CON CLUS ION
Our study highlighted the importance of measuring lipid profile in AFA and calculating HOMA-IR index for measuring insulin resistance rather than simply measuring serum insulin levels. In our study, additional parameter deranged in significant number of patients was

CO N FLI C T O F I NTE R E S T
None.

DATA AVA I L A B I L I T Y S TAT E M E N T
The data that support the findings of this study are available from the corresponding author upon reasonable request.

E TH I C S S TATEM ENT
The study was approved by the Institutional Ethics Committee.