EVALUATION OF THYROID FUNCTION TESTS BEFORE AND AFTER SYSTEMIC ISOTRETINOIN TREATMENT OF ACNE VULGARIS PATIENTS

Document Type : Original Article

Authors

Department of Dermatology, Venereology and Andrology, Faculty of Medicine, Al-Azhar University

Abstract

Background: Acne, also known as acne vulgaris, is a long-term skin disease that occurs when hair follicles are clogged with dead skin cells and oil from the skin. It is characterized by blackheads or whiteheads, pimples, oily skin, and possible scarring.
Objective: To evaluate TSH, free T3 and free T4 in patients with acne treated with systemic isotretinoin at baseline and after three months of treatment to find any alteration in TFTs.
Patients and methods: This study was conducted on thirty patients with treatment for acne vulgaris.  The study was done in Al-Azhar university hospitals from June 2018-February 2019.
Results: The mean and standard deviation of age was 30.62 ± (7.6) years. There was no statistical difference in age distribution, i.e. normally distributed. As regard sex, there was 38 (76%) females and 12 (24%) males. The ratio of female to male was 3:1.Serum levels of thyroid function tests were compared by using Wilcoxon comparison test for non-parametric tests. There was a statistically significant difference between both variables. TSH levels markedly elevated in comparison to before treatment. In contrast to TSH levels, T3 and T4 reduced significantly when compared to before treatment levels.
Conclusion: Dermatologists need to be aware about possible TFTs abnormalities during systemic isotretinoin therapy. Clinical symptoms regarding thyroid disease for both hypothyroidism and hyperthyroidism should be evaluated regularly at visits, and patients with concomitant thyroid function disease should be monitored for TFTs.

Keywords

Main Subjects


EVALUATION OF THYROID FUNCTION TESTS BEFORE AND AFTER SYSTEMIC ISOTRETINOIN TREATMENT OF ACNE VULGARIS PATIENTS

By

Fayrouz Adel Ahmed, Amr Mohamed Zaky and Sameh Mohamed Abd El-Qodos*

Department of Dermatology, Venereology and Andrology, Faculty of Medicine, Al-Azhar University

Corresponding author: Fayrouz Adel Ahmed,

E-mail: fayrouz_adel96@gmail.com

ABSTRACT

Background: Acne, also known as acne vulgaris, is a long-term skin disease that occurs when hair follicles are clogged with dead skin cells and oil from the skin. It is characterized by blackheads or whiteheads, pimples, oily skin, and possible scarring.

Objective: To evaluate TSH, free T3 and free T4 in patients with acne treated with systemic isotretinoin at baseline and after three months of treatment to find any alteration in TFTs.

Patients and methods: This study was conducted on thirty patients with treatment for acne vulgaris.  The study was done in Al-Azhar university hospitals from June 2018-February 2019.

Results: The mean and standard deviation of age was 30.62 ± (7.6) years. There was no statistical difference in age distribution, i.e. normally distributed. As regard sex, there was 38 (76%) females and 12 (24%) males. The ratio of female to male was 3:1.Serum levels of thyroid function tests were compared by using Wilcoxon comparison test for non-parametric tests. There was a statistically significant difference between both variables. TSH levels markedly elevated in comparison to before treatment. In contrast to TSH levels, T3 and T4 reduced significantly when compared to before treatment levels.

Conclusion: Dermatologists need to be aware about possible TFTs abnormalities during systemic isotretinoin therapy. Clinical symptoms regarding thyroid disease for both hypothyroidism and hyperthyroidism should be evaluated regularly at visits, and patients with concomitant thyroid function disease should be monitored for TFTs.

Keywords: Thyroid function, Systemic Isotretinoin Treatment, Acne vulgaris.

 

 

INTRODUCTION

     Acne primarily affects skin with greater number of oil glands, including the face, upper part of chest, and backduring puberty in both sexes, acne is often brought on by an increase in androgens such as testosterone. Excessive growth of the bacteria propionibacterium acnes, which is normally present on the skin, is often involved (Poli and Revuz, 2018).

     Isotretinoin (13-cis retinoic acid),a biologically active metabolite of vitamin A, has been used in the treatment of moderate or severe nodulocystic acne, disorders of sebaceous gland and keratinization and in the prevention of skin cancer (Al-Kathiri and Al-Najjar, 2018).

     With the increasing use of isotretinoin especially for the treatment of acne vulgaris and other disorders, the interest in the effect of this retinoid on other organs and the metabolic system has increased considerably (Gualtieri et al., 2020).

     The effect of vitamin A on the synthesis of thyroid hormone has been known for many years. Simkins demonstrated successful treatment of patients with hyperthyroidism with a massive dose of vitamin A (Khiali et al., 2018).

     The aim of this study was to evaluate TSH, free T3 and free T4 in patients with acne treated with systemic isotretinoin at baseline and after three months of treatment to find any alteration in TFTs.

PATIENTS AND METHODS

     This study was conducted on fifty patients with acne vulgaris.  The study was done atn Al-Azhar University Hospitals from June 2018-February 2019.

     This was a prospective, uncontrolled and observational study for 50 patients. IRB approval was taken prior to launch the study.

Inclusion criteria:

     All patients with acne vulgaris treated with systemic isotretinoin for at least 3 months.

Exclusion criteria:

1.  All patients experienced clinical symptoms of hypothyroidism such as increased sensitivity to cold, unexplained weight gain, puffy face, hoarseness, thinning hair, slowed heart rate or impaired memory after isotretinoin therapy for 4 months.

2.  Patients with hyperthyroidism.

3.  Patients with liver affection.

4.  Patients with systemic disease affecting thyroid function.

5.  Any contraindication of systemic isotretinoin treatment (pregnancy, lactating, age.....etc).

All patients were exposed to:

•   History taking.

•   Clinical and physical examination.

•   Informed written consent from the patient.

     Acne type and severity and grading were assessed into:

I.  Mild: Few to numerous comedones, few to several papules or pustules and no nodules.

II. Moderate: Numerous or extensive comedones, several-to-many papules or pustules and few to several nodules.

III.  Severe: Numerous or extensive papules or pustules and many nodules.

     Isotretinoin therapy was initiated at a dose of 0.5–0.8 mg/kg body weight. The drug was administered to acne patients twice daily with meals. Treatment was continued for at least 3 months.

     Biochemical parameters were screened prior to initiation (pre-treatment) and 3 months after the start of isotretinoin treatment, (post-treatment). Those parameters were free triiodothyronine, free thyroxine, thyroid stimulating hormone, anti-thyroid peroxidase and antithyroglobulin.

     Fasting blood samples were obtained by venepuncture of the large antecubital veins after a12-h fasting period. The samples were centrifuged immediately, the plasma separated and all samples were studied using the same kits. Free triiodothyronine, free thyroxine and thyroid stimulating hormone, were measured using electrochemiluminescent immunoassay methods.

 

Statistical Analysis:

     Analysis of data was done by IBM computer using SPSS (statistical program for the social science version 25) as follows: Description of quantitative variables as mean, SD and range. Description of qualitative variables as number and percentage median, interquartile range. Mann Whitney test was used instead of unpaired t-test in non- parametric data. Wilsxon test was used to compare quantitative variables in the same group before and after.


 

RESULTS

 

 

     The mean and standard deviation of age was 30.62(7.6) years. There was no statistical difference in age distribution (i.e. normally distributed) (Figure 1). As regard sex, there was 38 (76%) female and 12 (24%) male. The ratio of female to male was 3:1 (Figure 2).


 


Figure (1):      Age histogram


Figure (2): Pie chart of gender.

 

 

     Prior to induction of therapy, thyroid function tests were drawn and tabulated in Table 1. Figures 3-5 illustrated the distribution of data in histogramic distribution, in all figures; normal range was plotted to facilitate understanding of distribution.

 

 

Table (1):   Statistical description of thyroid function tests prior and after induction of treatment

Pre Induction of Treatment

TSH

T3

T4

Mean

1.9354

3.2386

13.9886

95% Confidence Interval for Mean

Lower Bound

2.6805

13.1884

13.1884

Upper Bound

3.7967

14.7888

14.7888

5% Trimmed Mean

1.8661

2.9958

14.0783

Median

1.8050

2.8450

13.7350

Variance

1.010

3.856

7.928

Std. Deviation

1.00491

1.96367

2.81576

Minimum

.43

.46

2.41

Maximum

4.80

15.82

19.08

Range

4.37

15.36

16.67

Interquartile Range

.85

.66

2.70

Post induction of treatment

TSH

T3

T4

Mean

3.1190

3.0830

12.9122

95% Confidence Interval for Mean

Lower Bound

2.74

2.646

12.1378

Upper Bound

3.49

3.51

13.6866

5% Trimmed Mean

3.0222

2.8529

12.8736

Median

2.7800

2.8100

12.3700

Variance

1.728

2.354

7.426

Std. Deviation

1.31466

1.53441

2.72504

Minimum

1.07

1.70

2.60

Maximum

7.09

12.39

20.80

Range

6.02

10.69

18.20

Interquartile Range

1.91

.66

2.44

           

 

     Serum levels of thyroid function tests were compared by using Wilcoxon comparison test for non-parametric tests. It has been found that there was a statistically significant difference between both variables   Again, TSH levels were markedly elevated in comparison to before treatment (0.00001). In contrast to TSH levels, T3 and T4 were reduced significantly when compared to before treatment levels (Table 2).

 

 

Table (2):   Mean comparison between after and before treatment thyroid serum concentration

Groups

 

Serum concentration

Pre-treatment

Post-treatment

Z score

95%

CI

P value

Sig.

TSH

1.9354±1

3.11±1.3

-6.154

0.71-1.63

0.00001

HS

T3

3.2386 ±1.9

3.08±1.5

-3.007

2.7281-3.1259

0.003

S

T4

13.9886±2.8

12.9122 ±2.7

-4.861

12.9-14.27

0.000001

HS

 

 

DISCUSSION

     This study was conducted on thirty patients with treatment for acne vulgaris.  The study was done in Al-Azhar University Hospitals from June 2018-February 2019. The study aimed to evaluate TSH, free T3 and free T4 in patients with acne treated with systemic isotretinoin at baseline and after three months of treatment to find any alteration in TFTs.

     In our study the mean and standard deviation of age was 30.62±7.6 years. There were 76% females and 24% males. The ratio of female to male was 3:1. In Yıldırım et al. (2016) the mean 20.47 ± 3.15 years.

     Nugroho and Schweiger, (2017) recorded a case of 16 years girl with hyperthyroidism and a known history of retinoid treatment for acne vulgaris.

     Isotretinoin is the sole systemic retinoid that is efficiently used in the treatment of severe acne. However, its potential side effect on thyroid functions remains unknown although many studies have focused on it before (Masood and Hakeem, 2011).

     In our study, serum levels of thyroid function tests were compared by using Wilcoxon comparison test for non-parametric tests. It has been found that there was a statistically significant difference between both variables. Again, TSH levels were markedly elevated in comparison to before treatment. In contrast to TSH levels, T3 and T4 reduced significantly when compared to before treatment levels.

     The earliest study regarding retinoid’s effects on sTFTs showed that a dosage of 0.8 mg/kg/day oral isotretinoin for three months led to decrease in serum T4 levels where normal levels were restored one month after cessation of treatment (Yıldırım et al., 2016) reported a case of acute thyrotoxicosis in a 26-year-old male returned to normal ranges 12 weeks after cessation of isotretinoin treatment (Masood and Hakeem, 2011).

     Although bexarotene, a RXR selective retinoid, is clearly known to lead hypothyroidism both by central way and by changing peripheral metabolism of thyroid hormones (Smit et al., 2010), Possible mechanism for isotretinoin’s effects on sTFTs are yet to be determined.

     In 2015, a study from Turkey revealed that serum fT3 and TSH levels decreased significantly after three months of isotretinoin treatment (Karadag et al., 2015).

     Decreases in serum TSH and fT3 levels may be induced by central hypothyroidism due to RXR-mediated suppression of TSHβ gene expression (Karadag et al., 2015). Isotretinoin’s effect on thyroid metabolism may be dose-dependent due to the fact that continuous high and low dose isotretinoin treatment decreased serum fT3 levels, while no effect was reported with intermittent treatment (Karadag et al., 2015).

     Whether the values of sTFTs can revert back after the end of the isotretinoin treatment remains to be determined. Short and long-term effects of different dosages of isotretinoin treatment on serum thyroid hormones needs further evaluation.

CONCLUSION

     Dermatologists need to be aware about possible TFTs abnormalities during systemic isotretinoin therapy. Clinical symptoms regarding thyroid disease for both hypothyroidism and hyperthyroidism should be evaluated regularly at visits, and patients with concomitant thyroid function disease should be monitored for TFTs.

REFERENCES

  1. Al-Kathiri L and Al-Najjar T (2018): Severe Nodulocystic Acne not responding to Isotretinoin Therapy Successfully Treated with Oral Dapsone. Oman Medical Journal, 33(5): 433–436.
  2. Gualtieri B, Panduri S, Chiricozzi A and Romanelli M (2020): Isotretinoin-triggered acne fulminans: a rare, disabling occurrence. G Ital Dermatol Venereol., 155(3):361-362.
  3. Karadag AS, Takci Z, Ertugrul D, Bilgili SG, Balahoroglu R and Takir M (2015): The Effect of Different Doses of Isotretinoin on Pituitary Hormones’. Dermatology, 230(4): 354–359.
  4. Khiali S, Gharekhani A and Entezari-Maleki T (2018): Isotretinoin; A review on the Utilization Pattern in Pregnancy. Advanced Pharmaceutical Bulletin Iran, 8(3): 377–382.
  5. Masood MQ and Hakeem H. (2011): Isotretinoin Associated Reversible Hypothyroidism. Thyroid, 21(9): 1039–1040.
  6. Nugroho J and Schweiger B. (2017): Isotretinoin as a Possible Environmental Trigger to Autoimmunity in Genetically Susceptible Patients. Case Reports in Pediatrics, 2017: 1–3.
  7. Pile HD and Nicolas D. (2018): Isotretinoin. Treasure Island. FL. Europe PMC, 2018: 1-8.
  8. Poli F and Revuz J. (2018): Acne flare on isotretinoin: A pointer to diagnosis of hidradenitis suppurativa. Annales de Dermatologie et de Venereologie, 146(1):4-8.
  9. Smit JWA, Stokkel MPM, Pereira AM, Romijn JA and Visser TJ. (2010): Bexarotene-induced hypothyroidism: bexarotene stimulates the peripheral metabolism of thyroid hormones. Journal of Clinical Endocrinology and Metabolism, 92: 2496–2499.

10. Yıldırım N, Doğan S and Atakan N (2016): Evaluation of thyroid function tests of acne vulgaris patients treated with systemic isotretinoin. Journal of Dermatological Treatment, 28: 141-144.

 

تقييم إختبارات وظائف الغدة الدرقية قبل و بعد العلاج بالايزوتريتنوين في مرضى العدّ الشائع

فيروز عادل أحمد، عمــرو محمــد زکــــى، سامح محمد عبد القدوس

قسم الأمراض الجلدية والتناسلية وأمراض الذکورة، کلية الطب، جامعةالأزهر

E-mail: fayrouz_adel96@gmail.com

خلفية البحث: يعتبر مرض العدّ الشائع من الامراض الجلدية الشائعة في طب الامراض الجلدية. وقد تفاوتت درجات شدة المرض من البسيطة إلى الشديدة کما تفاوتت معها طرائق العلاج والمتابعة. وواحدة من طرق العلاج الحديثة لمرضى العدّ الشائع هي إستخدام الايزوتريتنوين. وقد وُجِدَ بالبحث والتقصي في المقالات السابقة أن هذا العلاج قد إرتبط غير مرة بتغيراتٍ في وظائف الغدة الدرقية، وأدى غير مرةٍ إلى إنخفاضها والتسبب بمتلازمة نقص إفراز الغدة الدرقية.

الهدف من البحث: تقييم وظائف الغدة الدرقية في مرضى العدّ الشائع الذين تم علاجهم بواسطة الايزوتريتينوين بعد ثلاثة أشهر من العلاج وإجراء المقارنة الحسابية بين کلا القيميتين لکل وظيفة.

المرضي وطرق البحث: تم إجراء البحث على خمسون مريضاً زاروا العيادة الخارجية بين شهر يونيو 2018 وشهر فبراير2019 في مستشفيات جامعة الازهر. تم تحديد الحالات ووصف العلاج بُعيد أخذ عينات أولية لوظائف الغدة الدرقية ومتابعتها بعد 3 أشهر.

نتائج البحث: کان معدل العمر في المرضى30-62 سنة ووجد أن النساء يشکلن 76% من الحالات في العينة بواقع 38 إمرأة. وبمقارنة القيم ما قبل وما بعد فقد کان هناک إختلافا ذا قيمة احصائية وذلک بإرتفاع قيمة الهرمون المحفز للغدة مع إنخفاض هرمون الغدة الثلاثي والرباعي بما يشير لضعف قابلية الغدة نفسها على الافراز.

الإستنتاج: من المهم بمکان أن يعي الأطباء المعنيين بعلاج العدّ الشائع قيمة التأثيرات العامة التي يسببها الايزوتريتينوين، ويجب أن يتم عمل مراجعة لکل الأعراض التي ترافق المريض بعد العلاج وفي کل زيارة.

الکلمات الدالة : وظائف الغدة الدرقية – الايزوتريتنموين – العد الشائع

  1. REFERENCES

    1. Al-Kathiri L and Al-Najjar T (2018): Severe Nodulocystic Acne not responding to Isotretinoin Therapy Successfully Treated with Oral Dapsone. Oman Medical Journal, 33(5): 433–436.
    2. Gualtieri B, Panduri S, Chiricozzi A and Romanelli M (2020): Isotretinoin-triggered acne fulminans: a rare, disabling occurrence. G Ital Dermatol Venereol., 155(3):361-362.
    3. Karadag AS, Takci Z, Ertugrul D, Bilgili SG, Balahoroglu R and Takir M (2015): The Effect of Different Doses of Isotretinoin on Pituitary Hormones’. Dermatology, 230(4): 354–359.
    4. Khiali S, Gharekhani A and Entezari-Maleki T (2018): Isotretinoin; A review on the Utilization Pattern in Pregnancy. Advanced Pharmaceutical Bulletin Iran, 8(3): 377–382.
    5. Masood MQ and Hakeem H. (2011): Isotretinoin Associated Reversible Hypothyroidism. Thyroid, 21(9): 1039–1040.
    6. Nugroho J and Schweiger B. (2017): Isotretinoin as a Possible Environmental Trigger to Autoimmunity in Genetically Susceptible Patients. Case Reports in Pediatrics, 2017: 1–3.
    7. Pile HD and Nicolas D. (2018): Isotretinoin. Treasure Island. FL. Europe PMC, 2018: 1-8.
    8. Poli F and Revuz J. (2018): Acne flare on isotretinoin: A pointer to diagnosis of hidradenitis suppurativa. Annales de Dermatologie et de Venereologie, 146(1):4-8.
    9. Smit JWA, Stokkel MPM, Pereira AM, Romijn JA and Visser TJ. (2010): Bexarotene-induced hypothyroidism: bexarotene stimulates the peripheral metabolism of thyroid hormones. Journal of Clinical Endocrinology and Metabolism, 92: 2496–2499.

    10. Yıldırım N, Doğan S and Atakan N (2016): Evaluation of thyroid function tests of acne vulgaris patients treated with systemic isotretinoin. Journal of Dermatological Treatment, 28: 141-144.