OBJECTIVE: Polycystic ovary syndrome (PCOS) is a common disorder in women of reproductive age. This study investigated the effects of L-carnitine on the clinical and laboratory findings of women with PCOS. METHODS: Eighty women diagnosed with PCOS between 2017 and 2018 by the Rotterdam Criteria were enrolled in the study; six were lost during the study. The participants were given L-carnitine 3 g daily (Pursinapharma, Iran) for three months. Blood samples were taken after overnight fasting at baseline and three months into the study to assess the levels of fasting glucose, insulin, triglycerides, high-density lipoprotein (HDL), low-density lipoprotein (LDL), free testosterone, dehydroepiandrosterone (DHEA), and the insulin resistance index (HOMA-IR). The patients were weighed before and after treatment and had their body mass index (BMI) calculated. Menstrual cycles and manifestations of hirsutism were also assessed. RESULTS: The data showed a significant improvement in insulin sensitivity and decreases in serum LDL levels and the BMI after three months of treatment. There was a significant increase in serum HDL levels. More regular menstrual cycles and decreased hirsutism were also observed. CONCLUSION: It appears that treatment with L-carnitine might decrease the risk of cardiovascular events by normalizing metabolic profiles and the BMI.
OBJECTIVE:Polycystic ovary syndrome (PCOS) is a common disorder in women of reproductive age. This study investigated the effects of L-carnitine on the clinical and laboratory findings of women with PCOS. METHODS: Eighty women diagnosed with PCOS between 2017 and 2018 by the Rotterdam Criteria were enrolled in the study; six were lost during the study. The participants were given L-carnitine 3 g daily (Pursinapharma, Iran) for three months. Blood samples were taken after overnight fasting at baseline and three months into the study to assess the levels of fasting glucose, insulin, triglycerides, high-density lipoprotein (HDL), low-density lipoprotein (LDL), free testosterone, dehydroepiandrosterone (DHEA), and the insulin resistance index (HOMA-IR). The patients were weighed before and after treatment and had their body mass index (BMI) calculated. Menstrual cycles and manifestations of hirsutism were also assessed. RESULTS: The data showed a significant improvement in insulin sensitivity and decreases in serum LDL levels and the BMI after three months of treatment. There was a significant increase in serum HDL levels. More regular menstrual cycles and decreased hirsutism were also observed. CONCLUSION: It appears that treatment with L-carnitine might decrease the risk of cardiovascular events by normalizing metabolic profiles and the BMI.
Polycystic ovary syndrome (PCOS) is a common disorder that affects 15-20% of women of
reproductive age. The characterization of PCOS may require ultrasound examination
and the observation of other signs such as irregular menstrual cycles,
hyperandrogenism leading to acne, alopecia, hirsutism, insulin resistance,
dyslipidemias, android obesity, early pregnancy loss, and infertility (Raja-Khan ; Stener-Victorin ;
Marshall & Dunaif, 2012).Despite the relevance and prevalence of PCOS, there is no consensus on how the
condition should be treated and managed. Different results have been reported from
treatment protocols using metformin and statins. Treatments with myo-inositol and
N-acetylcysteine have been recently described. Several methods have been used to
treat women with PCOS, but there is no agreement on which is the most effective.
These points stress the need for more research and studies on the matter (Banaszewska ; 2011; Kumar
; Salehpour ; Yang ; Unfer ; Aquino & Nori, 2014; Artini
).Conventional treatments for PCOS, which include management of symptoms and clinical
signs, have little effect on long-term complications such as cardiovascular disease
and hyperinsulinemia. In recent years, complementary therapies including lifestyle
changes, yoga, acupuncture, aromatherapy, homeopathy, weight loss, medicinal herbs,
and vitamins have been used (Genazzani ; Aquino & Nori,
2014; Ratnakumari ; Baillargeon &
Nestler, 2006).Several studies have described an association between PCOS and insulin resistance.
Central obesity has been described in 30-40% of women with PCOS, while
hyperinsulinemia affects more than 80% of them. Insulin resistance increases
significantly with obesity, which may disturb ovulation and increase androgen
levels. Some treatments of PCOS with metformin, pioglitazone, and troglitazone have
described improved ovarian function by managing hyperinsulinemia and insulin
resistance. Increased sensitivity to gonadotropins due to increased insulin
sensitivity may lead to spontaneous ovulation and pregnancy. Furthermore, treatments
that decrease insulin resistance - such as protocols with metformin - may increase
the fertility rates of women with PCOS (Genazzani
; 2007; Motta, 2012; Naderpoor ; De Leo ; Steiber
; Suvarna ; Ou ; Vanella ; Pillich ).Carnitine is a quaternary amine synthesized in the body from amino acids lysine and
methionine. In living cells, this chemical agent can transfer fatty acids from the
cytosol to the mitochondria to produce energy from fatty acids. Carnitine is often
used as a micronutrient and is divided into two types: L-carnitine (active form) and
D-carnitine (inactive form). L-carnitine plays an important role in glucose
metabolism and oxidative stress. L-carnitine can also stabilize the mitochondrial
membranes and prevent cell apoptosis (Ringseis
; Ismail
; Fenkci
). Some authors have looked into the
role of carnitine in the treatment of insulin resistance and in the accumulation of
acetyl coenzyme A. Insulin resistance has been linked to the occurrence of carnitine
deficiency during chronic metabolic stress conditions such as diabetes mellitus type
2 and obesity. Recent studies have reported decreased levels of L-carnitine in
patients with PCOS and apparently significant correlations between lower levels of
L-carnitine and greater chances of individuals with PCOS developing hyperinsulinemia
(Bacurau ;
Wächter ; Karlic & Lohninger,
2004; Jamilian ).This study aimed to assess the effects of L-carnitine on the clinical and laboratory
parameters and metabolic profiles of individuals with PCOS.
MATERIALS AND METHODS
Eighty women of reproductive age diagnosed with PCOS based on the Rotterdam criteria
(Rotterdam ESHRE/ASRM-Sponsored PCOS Consensus
Workshop Group, 2004a,b) were
enrolled in the study at the gynecology clinic of the Taleghani Hospital between
2017 and 2018. All participants gave written consent before joining the study. The
Ethics Committee of the Shahid Beheshti University of Medical Sciences (SBMU)
approved the study. Patients with adrenal deficiency or other endocrine conditions
and individuals on hormone therapy in the six months prior to the study were
excluded.The women included in the study received L-carnitine 3 g daily (Pursinapharma, Iran)
for three months. The patients were not instructed to follow a specific diet or
introduce lifestyle changes. Blood samples were taken after overnight fasting at
baseline and three months into the study to assess the levels of fasting glucose,
insulin, triglycerides, high-density lipoprotein (HDL), low-density lipoprotein
(LDL), free testosterone, dehydroepiandrosterone (DHEA), and the insulin resistance
index (HOMA-IR). The patients were weighed before and after treatment and had their
body mass index (BMI) calculated. The HOMA index was calculated as [baseline
glucose] x [baseline insulin]/22.5. Menstrual cycles and manifestations of hirsutism
were also assessed.Sample size was determined after consideration for type 1 statistical error <5%
and type 2 statistical error <20%. Results were shown as mean values plus or
minus SD (Standard Deviation). Statistical analysis was performed using statistical
software package SPSS 21.0 (SPSS Inc., Chicago, IL, USA). A P value
of 0.05 was considered significant.
RESULTS
Eighty patients with PCOS who met the inclusion criteria were enrolled in the study.
Six participants were lost during the study.Data are shown as mean values ± SD. Table
1 provides a summary of baseline characteristics and results after three
months of treatment. There were significant decreases in the levels of fasting
glucose, insulin, triglycerides, LDL, and in the BMI and HOMA index. There was a
significant increase in the level of HDL. Regular menstrual cycles were reported by
48.6% and 61.1% of the patients before and after treatment, respectively. No
relevant side effects were reported during and after the treatment.
Table 1
Patient characteristics and results
Pre treatment
Post treatment
p value
FBS (mg/dl±SD)
92.90±11.83
87.12±9.41
<0.001*
Free testosterone (ng/ml±SD)
0.483±0.149
0.467±0.144
0.232
Insulin (mUI/l±SD)
23.60±4.29
17.31±5.15
<0.001*
DHEA (micromol/l±SD)
1.454±0.190
1.406±0.336
0.252
Ferriman–Gallwey score
6.62±2.17
6.26±2.52
0.062
LDL (mg/dl±SD)
169.47±32.7
152.47±32.19
<0.001*
HDL (mg/dl±SD)
35.62±5.39
39.11±5.86
<0.001*
Triglycerides (mg/dl±SD)
202.03±45.31
166.92±40.76
<0.001*
BMI (kg/m2±SD)
28.28±2.6
26.82±2.46
<0.001*
Menstrual regularity (%)
48.6
61.1
<0.001*
HOMA-IR
96.22±18.18
67.04±22
<0.001*
Statistically significant difference
FBS: Fasting blood sugar, DHEA: Dehydroepiandrosterone LDL: Low-density lipoprotein,
HDL: High-density lipoprotein, BMI: Body mass index
SD:standard deviation
Patient characteristics and resultsStatistically significant differenceFBS: Fasting blood sugar, DHEA: Dehydroepiandrosterone LDL: Low-density lipoprotein,
HDL: High-density lipoprotein, BMI: Body mass indexSD:standard deviation
DISCUSSION
PCOS is a common disorder in women of reproductive age closely tied to insulin
resistance, a condition associated with obesity, metabolic syndrome, gestational
diabetes, type 2 diabetes, and cardiovascular disease. The management of PCOS may be
challenging on account of the comorbidities associated with the disease. Recent
studies have focused on the long-term complications of PCOS. Hormonal
contraceptives, insulin-sensitizing drugs such as metformin, thiazolidinediones,
myo-inositol, statins, orlistat, and N-acetylcysteine have been prescribed to women
with PCOS, but their usage is limited due to side effects.L-carnitine supplementation has been recently used in obesepatients to enhance the
metabolic cascade. In the body, L-carnitine is produced in the liver and kidneys and
stored in the musculoskeletal system, heart, brain, and sperm. L-carnitine
supplementation is used to increase energy consumption and reduce lipids and weight
(Vanella ;
Pillich ;
Ringseis ;
Ismail ;
Fenkci ).
L-carnitine plays an important role in glucose metabolism and oxidative stress.
According to the literature, low serum levels of L-carnitine, even in non-obesewomen, may be associated with insulin resistance and hyperandrogenism (Salehpour ; Celiket al., 2017; Samimi ; Ismail ).This study looked into the effects of L-carnitine on the clinical and laboratory
parameters of women with PCOS. The results showed a significant reduction in the BMI
and serum levels of TG, LDL, FBS, and insulin, in addition to increased serum HDL
levels. Improvement in menstrual cycle regularity was reported without drug-related
side effects. According to the results, it appears that treatment with L-carnitine
may have improved the hormonal and metabolic parameters of women with PCOS.Ismail reported
that prescribing L-carnitine to clomiphene-resistant patients with PCOS improved the
quality of ovulation, pregnancy rates, lipid profiles, and the BMI. It has been
established that L-carnitine is safe and may be used to eliminate the long-term
complications of PCOS. The long-term effects of L-carnitine for women with PCOS
should be further evaluated. Studies with longer treatment cycles should be
conducted to confirm the value of this therapy for women with PCOS at risk of
metabolic syndrome and cardiovascular disorders.
CONCLUSION
It appears that treatment with L-carnitine may decrease the risk of cardiovascular
events by normalizing metabolic profiles and the BMI.Acronyms:1. FBS: Fasting blood sugar2. BMI: Body mass index3. HDL: High density lipoprotein4. LDL: Low density lipoprotein5. TG: Triglycerides6. DHEA: Dehydroepiandrosterone7. PCOS: Polycystic ovary syndrome8. HOMA index: calculated as [baseline glucose] x [baseline
insulin]/22.5.9. SD: Standard Deviation
Authors: Reury F P Bacurau; Francisco Navarro; Reinaldo A Bassit; Marcela O Meneguello; Ronaldo V T Santos; André L R Almeida; Luís F B P Costa Rosa Journal: Nutrition Date: 2003-04 Impact factor: 4.008
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