Abstract
Polycystic ovary syndrome (PCOS) is a syndrome associated with insulin resistance (IR), obesity, infertility, and increased cardiometabolic risk. This is a descriptive review of several mechanisms that can explain the IR among women with PCOS, other risk factors for the development of diabetes, and the screening methods used for the detection of glucose intolerance in women with PCOS. Few mechanisms can explain IR in women with PCOS such as obesity, insulin receptor signaling defects, and inhibition of insulin-mediated glucose uptake in adipocytes. Women with PCOS have additional risk factors for the development of glucose intolerance such as family history of diabetes, use of oral contraceptives, anovulation, and age. The Androgen Society in 2007 and the Endocrine Society in 2013 recommended using oral glucose tolerance test as a screening tool for abnormal glucose tolerance in all women with PCOS. The approach to detection of glucose intolerance among women with PCOS varies among health care providers. Large prospective studies are still needed for the development of guidelines with strong evidence. When assessing risk of future diabetes in women with PCOS, it is important to take into account the method used for screening as well as other risk factors that these women might have.
Introduction
Polycystic ovary syndrome (PCOS) is a syndrome associated with insulin resistance (IR), obesity, infertility, and increased cardiometabolic risk. The diagnosis of PCOS based on the National Institutes of Health 1990 criteria includes clinical and/or biochemical evidence of hyperandrogenism and chronic anovulation and exclusion of other known disorders. According to the Rotterdam 2003 criteria, PCOS is diagnosed based on the presence of two of the following three features: oligo- or anovulation, clinical and/or biochemical signs of hyperandrogenism, or polycystic ovaries. Finally, the Androgen Excess Society 2006 criteria require the presence of hyperandrogenism (biochemical or clinical) with either oligoanovulation or polycystic ovaries.Citation1 The Endocrine Society 2013 guidelines suggested using the Rotterdam criteria for diagnosing PCOS.Citation1
There is a lack of large prospective studies investigating the natural history of glucose intolerance among women with PCOS. The Androgen Excess Society in 2007 and the Endocrine Society in 2013 recommended using oral glucose tolerance test (OGTT) as a screening method.Citation1 Few members of the Androgen Excess Society had the opinion that OGTT should only be performed in women with PCOS and a body mass index (BMI) >30 kg/m2 or in lean women with other risk factors.Citation2 Taking into consideration the cost and time needed to perform a 2-hour OGTT, the approach to detection of glucose intolerance among women with PCOS varies among health care providers. In this review, we summarize several mechanisms that can explain the IR which leads to glucose intolerance among women with PCOS, other risk factors for the development of diabetes, and the screening methods used for the detection of glucose intolerance in women with PCOS. Given the strong correlation of obesity and IR, we also examined separately the studies on lean women with PCOS. In this descriptive review, we used computerized search processes to identify English language articles related to PCOS and IR in the literature. The search strategy used to identify articles included combinations of the following terms: PCOS, IR, screening, lean PCOS, HbA1c, and OGTT.
Pathophysiology and risk factor for prediabetes in women with PCOS
There are a few different pathophysiologic mechanisms and risk factors for prediabetes in women with PCOS. A brief overview of these risk factors is given as follows.
Obesity is present in ~50%–80% of women with PCOS, but this relationship also depends on environmental factors.Citation3 Lower rates of obesity in women with PCOS have been reported in different countries around the world.Citation4 In populations where severe obesity is less prevalent such as the Asians and some Europeans, PCOS is still present at almost the same frequency.Citation5 One could argue that there are no more obese PCOS women than obese non-PCOS women in a certain community.Citation6 With increasing age, there is also worsening of BMI, waist-to-hip ratio, and IR among women with PCOS.Citation7–Citation10 The majority of obese women though are actually fertile and do not have reproductive abnormalities.Citation5 Furthermore, obesity increases over time the rate of conversion from normal to abnormal glucose tolerance and diabetes. Norman et al studied prospectively a group of 67 women with PCOS by performing a 75 g OGTT at baseline and after an average time of 6.2 years.Citation11 BMI was considered an independent risk factor for the development of diabetes in women with PCOS. In their study, PCOS women with a BMI >30 kg/m2 were ten times more likely to develop impaired glucose tolerance (IGT) or diabetes when compared to PCOS women with a BMI <25 kg/m2, and women with a BMI of 25–30 kg/m2 were seven times more likely to have deteriorated glucose profile with increasing age. The conversion rate from normal to abnormal glucose tolerance is worse in obese women with PCOS when compared to the general population. Legro et al found a conversion rate from normoglycemia to abnormal glucose of 16% per year in obese women with PCOS when compared to the expected conversion rate of 1%–5% per year in the general obese population,Citation12 but the conversion rate from IGT to diabetes was not increased (2% per year). In Norman et al’s study, although the conversion rate to diabetes was similar (2.6% per year), the risk of diabetes was significantly higher among women who had baseline IGT (8.6% per year).Citation11 In Legro et al’s study, there was an insufficient number of lean women with PCOS to assess the effect of BMI on conversion rates. Another group studied women with PCOS for 8 years and found that women who eventually developed type 2 diabetes had higher baseline BMI.Citation13 These studies highlight the synergic effect of obesity in deteriorating the glucose tolerance in PCOS women at baseline and over time.Citation14,Citation15
Studies have evaluated the subcutaneous and visceral fat distribution in obese PCOS women using dual-energy X-ray absorptiometry and magnetic resonance imaging techniques with conflicting results. Women with PCOS have an increased waist-to-hip ratio when compared to BMI-matched controls. Some studies have shown that women with PCOS have higher central adiposity and higher upper-to-lower body fat distribution measured by dual X-ray absorptiometry, magnetic resonance imaging, or ultrasound, even if they have the same total fat and trunk fat as BMI-matched controls.Citation16–Citation18 Central adiposity is a risk factor for prediabetes in women with PCOS.
Another risk factor for prediabetes among women with PCOS is their age. In a study of 112 women with PCOS and 86 controls, age, along with obesity, was one of the major determinants of IR and diabetes.Citation9 A large retrospective study of 2,301 women with PCOS also found significant correlation between age and risk of type 2 diabetes.Citation10 The same adverse effect of age on IR was found in a prospective study of 254 women with PCOS.Citation8 In a study on a Chinese population of 356 PCOS women and 974 infertile control women, age was also found to be a significant predictor of glucose intolerance during an OGTT.Citation19 In a study on a Korean population, the prevalence of glucose intolerance (calculated by OGTT) was 6.3% in women aged 16–19 years, 11.2% (14 of 125) in women with PCOS aged 20–29 years, and 34% (18 of 53) in women with PCOS aged 30–39 years.Citation20 These studies indicate that older age is a risk factor for IR.
Also, the use of oral contraceptives (OCs), a treatment option commonly used by women with PCOS, has been linked to worsening of IR in some studies.Citation21 Various OC pills can have different effects on the glucose metabolism. The mechanism by which OCs deteriorate IR is unclear. One proposed theory is that OCs decrease the insulin receptor binding.Citation22 Another theory is that use of OCs might impair beta-cell function, as some small studies have shown that women taking OCs have lower disposition index during the frequently sampled intravenous glucose tolerance test.Citation23
A large older study followed 1,060 women who were taking various types of OCs for at least 3 months and 418 control women. Depending on the dose and type of progestin, women who were taking OCs were found to have 43%–61% higher plasma glucose levels in the OGTT when compared to controls. The worst effect was seen with levonorgestrel combination pill, and the least effect with low-dose norethindrone pill.Citation24 These OCs contained 30–40 µg of ethinyl estradiol (EE), which is much higher than the doses used today.
Similar studies have been done in women with PCOS. The effect of metformin versus OC therapy on IR was evaluated in a study on 100 overweight women with PCOS. While metformin reduced IR by 34%, the high-dose OC (35 µg EE/2 mg cyproterone acetate) increased IR by 25%. The low-dose OC (20 µg EE/100 µg levonorgestrel plus aldactone) had a neutral effect. The BMI was stable during treatment.Citation25 Another group in Finland randomized 32 obese (BMI >27 kg/m2) women with PCOS to metformin or to EE 35 mg/cyproterone acetate 2 mg OC pill. This group observed worsening of glucose tolerance after 6 months.Citation26 On the contrary, when the same regimen of OC was used in lean (BMI <25 kg/m2) women with PCOS, no adverse effect on glucose tolerance was seen in the OGTT, which highlights a possible synergic effect of BMI and certain OCs in deteriorating the glucose tolerance.Citation27 In a more recent study that compared the metabolic effects of OC and exercise among 150 women with PCOS, no difference was seen in fasting glucose (FG), insulin, homeostasis model assessment, and area under the curve from an OGTT after 6 months of treatment with 3 mg drospirerone and 30 µg of EE.Citation28 These studies indicate that certain OCs can deteriorate glucose tolerance in women with PCOS.Citation29 It is therefore recommended that physicians consider other risk factors for prediabetes when prescribing OCs.Citation30
Race is also another determinant of future risk of diabetes. African-American, Caribbean-Hispanic, and south Asian women with PCOS are at a higher risk of diabetes.Citation10,Citation31 The prevalence of IGT among women with PCOS in the Mediterranean area, such as Spain and Italy, has been found to be lower when compared to studies done in the US. It is possible that racial, dietary, or lifestyle differences can explain this discrepancy.Citation9,Citation32 These studies highlight the importance of race as a risk factor for IR in women with PCOS.
Family history of diabetes has also been found in multiple studies to significantly increase the risk of development of glucose intolerance among women with PCOS.Citation9,Citation31–Citation33 In one of these studies, data from 408 women with PCOS were analyzed. Family history of diabetes was found in 44% of PCOS women with diabetes and 39% of women with IGT, but only 21% of PCOS women with normal glucose tolerance had a family history of diabetes.Citation31 These studies indicate that the presence of family history of diabetes is a risk factor for prediabetes in women with PCOS.
Women with PCOS who have highly irregular menstrual cycles are also at a higher risk of diabetes. Data from the Nurses Health Study II, in which 101,073 women were enrolled and followed for 12 years, showed that women with highly irregular menstrual cycles have an increased risk of developing diabetes.Citation34 Another large study followed a cohort of 23,571 women for 10 years and reached the same conclusion: irregular menstrual cycles are related to future risk of type 2 diabetes.Citation35 Recently, in a study among 494 women with PCOS, it was shown that patients with menstrual cycles >35 days had higher mean homeostasis model assessment – IR levels than controls, in contrast to women with PCOS and regular cycles who were no different than controls.Citation36 These studies illustrate the association of highly irregular menses with the risk of prediabetes in women with PCOS.
In summary, obesity and central adiposity, family history of diabetes, irregular menses, use of certain OCs, older age, and African-American, Caribbean-Hispanic, or south Asian race are risk factors for prediabetes in women with PCOS.
Molecular mechanisms of IR among women with PCOS
There are several molecular mechanisms that can explain IR among women with PCOS. Beta-cell dysfunction has been investigated as a possible mechanism for IR among women with PCOS.Citation37 Both obese and nonobese PCOS women have beta-cell dysfunction, although this is not associated with glucose intolerance in the majority of women.Citation38 The impaired beta-cell function can start early in life. Obese adolescents with PCOS have decreased first-phase insulin secretion, decreased glucose disposition index, and increased hepatic glucose production.Citation39
The insulin signal pathway can be impaired by tyrosine phosphatases that dephosphorylate the insulin receptor. Moreover, serine phosphorylation of the insulin receptor and insulin receptor substrates can also lead to IR.Citation3 Another mechanism for IR is failure of insulin to activate glycogen synthase (GS). GS is activated by decreased phosphorylation at regulatory sites. The IR in muscle tissue in PCOS women could be partially explained by impaired insulin activation of GS, including absent dephosphorylation.Citation40
Moreover, microscopically, the fat tissue in women with PCOS is different. The adipocytes in both obese and lean women with PCOS are larger in size and have increased CD11c expression, which has been linked to IR through increased release of inflammatory cytokines.Citation41,Citation42 In addition, the fat tissue is not just a storage tissue, but it secretes hormones, such as adiponectin and leptin. PCOS women have been found to have low adiponectin and high leptin, irrespective of BMI.Citation42,Citation43 These alterations in the function of adipose tissue can also partially explain the decreased insulin sensitivity in women with PCOS, given the insulin-sensitizing properties of adiponectin.
Finally, there is emerging evidence about the association of inflammation with IR in women with PCOS. Elevated inflammatory markers have been linked to IR in women with PCOS, such as CRP, interleukin-18, and TNF-α.Citation44,Citation45 Furthermore, adhesion molecules that are markers of endothelial dysfunction, such as soluble vascular cell adhesion molecule-1, soluble intercellular adhesion molecule-1, endothelin 1, and sE-selectin, have also been linked to IR in women with PCOS.Citation44,Citation46 Women with PCOS also exhibit abnormalities in their lipoprotein profile, such as low high-density lipoprotein and high low-density lipoprotein, which have been associated with IR and obesity.Citation47–Citation49
Screening methods for glucose intolerance in PCOS
The American Diabetes Association recommends testing for diabetes or prediabetes using the glycated hemoglobin (HbA1c), fasting plasma glucose, or 75 g 2-hour OGTT.Citation50 The Rotterdam PCOS Consensus Workshop Group in 2003 recommended using OGTT for women with PCOS with a BMI >27 kg/m2.Citation2 The Androgen Society recommended in 2007 using OGTT as a screening tool for abnormal glucose tolerance in all women with PCOS. A few members suggested performing an OGTT only in patients with a BMI ≥30 kg/m2 or in lean patients with additional risk factors.Citation51 The Endocrine Society 2013 guidelines did not alter this recommendation.Citation1 Several studies have shown that FG is not a sensitive measurement for diagnosing IGT and diabetes in women with PCOS.
The prevalence of IGT has been studied in women with PCOS. Glucose intolerance measured by 2-hour glucose after an OGTT was abnormal in 45% of 122 women with PCOS, of which 10% were diagnosed with diabetes. When using FG, abnormal result was found only in 15% of women, of which 6% were diagnosed with diabetes. This was clearly an evidence of poor sensitivity of FG to detect IGT or diabetes in women with PCOS.Citation33 Based on the 2-hour glucose value, 31% of women had IGT and 7.5% had diabetes. However, based on the FG value alone, only 3.2% of these women would have been diagnosed with diabetes.Citation8 When data from these two studies were merged, the FG was found to have a poor correlation with the 2-hour glucose in women with IGT (r=0.115).Citation31 In another study, 111 women with PCOS were screened for glucose abnormalities. Diabetes and IGT were diagnosed by OGTT in 4% and 20% of subjects, respectively. Screening of 111 PCOS women by using fasting plasma glucose failed to identify 41% of women with impaired glucose and 20% of diabetic subjects.Citation52 In a study done in Prague, 12.3% of 244 women with PCOS had abnormal FG, and 9.4% were found to have impaired glucose and 1.6% were found to have diabetes by OGTT. In this study, only seven of the 30 women identified by FG were found to have abnormal glucose tolerance by OGTT.Citation53 In Brazil, a study done in 85 young women with PCOS identified 27.0% with IGT and 4.8% with diabetes when the 2-hour glucose value from OGTT was used as a diagnostic criterion; however, only 15.3% were diagnosed with IGT and 1.2% with diabetes when the FG was used.Citation54 A small study in adolescents with PCOS showed again failure of FG to predict abnormal glucose tolerance (7% versus 33% in this study).Citation55 The same was shown in a study done in 194 Korean women with PCOS. FG failed to detect 94% of those with abnormal glucose tolerance detected by OGTT.Citation20 Receiver operating characteristic analysis in this study showed an FG >87.5 mg/dL to correspond to a 2-hour glucose from OGTT of >140 mg/dL. Of note, in these studies, some authors used the previous American Diabetes Association criteria of FG >110 mg/dL, and some used an FG >99 mg/dL to define abnormal FG. In our opinion, using a lower cut-off value of FG of 89 mg/dL in this particular population of women could potentially increase the sensitivity of the method. More studies are needed to investigate whether using an FG >89 mg/dL could be an alternate approach for screening women with PCOS.
Regarding the use of HbA1c, studies have shown conflicting results. Hurd et al showed that HbA1c had only fair agreement with OGTT in diagnosing IGT or diabetes among 111 PCOS women. HbA1c classified two women as IGT who were identified as having diabetes by OGTT. In addition, HbA1c classified 44% (12/27) of women as normal who had prediabetes according to OGTT. On the contrary, although not very sensitive, fasting plasma glucose had substantial agreement with OGTT when compared to HbA1c.Citation52 A second large study in 208 women with PCOS was done in Denmark. In this study, the sensitivity and specificity of a HbA1c value of 6.5% for the diagnosis of diabetes were 35% and 99%, respectively, when the 2-hour glucose determination by OGTT was used as a gold standard for diagnosis. The authors found a closer correlation of HbA1c with waist-to-hip ratio, BMI, and lipid profile than the 2-hour glucose, suggesting the use of HbA1c as a cardiovascular risk marker rather than a glucose intolerance marker,Citation56 which is expected given that a high HbA1c of 6.5% is diagnostic of diabetes, a known risk factor for cardiovascular disease. In a study done in Korea, HbA1c from 154 patients with PCOS was compared with HbA1c of healthy controls of similar age. Women were divided into groups according to their BMI. HbA1c in obese women with PCOS was similar to obese controls. In lean PCOS women, with a BMI <25 kg/m2, HbA1c ≥5.7% was significantly higher in PCOS patients when compared to lean control women. The authors suggested using HbA1c as a screening method for lean PCOS women. Unfortunately, this study was not designed to have 2-hour glucose determined from OGTT.Citation57 A small study done several years ago, using as an upper limit of normal HbA1c a cut-off value of 7.2%, failed to detect IGT in 27 women with PCOS.Citation58 More recently, another large study among 671 women with PCOS showed that the use of HbA1c and fasting plasma glucose cannot be recommended as a screening tool for prediabetes among women with PCOS.Citation59
In summary, more studies are needed to evaluate the utility of HbA1c as a screening tool for prediabetes in women with PCOS.
Glucose intolerance in lean PCOS women
In 2007, the Androgen Excess Society recommended that all women with PCOS should be screened with an OGTT for glucose intolerance, and the Endocrine Society 2013 guidelines also support this.Citation1 However, some studies have supported the idea that lean PCOS women have a lower risk of glucose intolerance.
The glucose intolerance was studied by OGTT among 254 women with PCOS in a clinical study. The prevalence of IGT was 5% (3/57) and diabetes was 1.8% (1/57) among PCOS women with a BMI <25 kg/m2. Among women with a BMI between 25 and 30 kg/m2, the prevalence of abnormal results increased significantly to 43% (13/31).Citation5,Citation8
In a Korean study of 194 women with PCOS, the prevalence of abnormal glucose profile was 5.9% among lean PCOS women, versus 30% and 36.4% among overweight and obese PCOS women, respectively. The prevalence of glucose intolerance in both lean and obese women with PCOS remained higher compared to age-matched Korean women.Citation20
In a cohort of 78 women with PCOS, only one of the 31 women (3%) with a BMI <25 kg/m2 showed glucose intolerance in the OGTT. BMI was highly predictive of glucose intolerance among women with PCOS.Citation60 Between a relatively lean PCOS group of 356 Chinese women (60% had a BMI <24 kg/m2), 7.6% had IGT, and 3.1% had diabetes.Citation19 Studies in Europe have shown a much lower rate of IGT in lean PCOS women.Citation61 In a study on 110 native Italian women with PCOS, 15% showed glucose abnormalities in OGTT, which were evident only in PCOS women who were obese (BMI >25 kg/m2).Citation61 The overweight population with PCOS (BMI 25–30 kg/m2) has a significant increase in the risk of glucose intolerance.Citation5,Citation11,Citation19
In summary, there is evidence of IGT in lean PCOS women compared to healthy women, but the prevalence of IGT and diabetes is lower when compared to obese PCOS women.
Conclusion
Women with PCOS are at a higher risk of developing glucose intolerance and diabetes than women in the general population. This seems to be driven by intrinsic insulin receptor defects and post-receptor defects that lead to hyperinsulinemia. Chronic hyperinsulinemia leads to beta-cell fatigue and increased risk of prediabetes and diabetes. Moreover, women with PCOS can have additional risk factors that are associated with a higher risk of IGT and diabetes. These factors include obesity, the use of OCs, older age, family history of diabetes, and highly irregular menses. Intervention with lifestyle modification, weight loss, exercise, and use of metformin ameliorates the hyperinsulinemia of PCOS. OCs improve the hyperandrogenism by decreasing ovarian steroidogenesis and also by increasing sex hormone-binding globulin and therefore decreasing the bioactive androgens. In the majority of women with PCOS, determination of FG alone might not be sufficient to diagnose glucose intolerance. HbA1c might be beneficial, but more studies are needed to validate its efficacy. All women with PCOS should be screened with an OGTT for glucose intolerance as recommended by the Endocrine Society 2013 guidelines. Larger studies are needed to assess the natural history of glucose intolerance in women with PCOS, when is the appropriate age to start screening for women with PCOS, how often should physicians repeat the OGTT, as well as the factors that could alter the conversion rates from normoglycemia to IGT and diabetes in women with PCOS.
Disclosure
The authors report no conflicts of interest in this work.
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