PMOS Guide South Africa

PMOS (Polyendocrine Metabolic Ovarian Syndrome): The Complete Guide for South African Women

The condition was called PCOS. The science has moved on. Here is everything you need to know about what it is, what causes it, and what actually works.

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New name, clearer science: PCOS was renamed PMOS (Polyendocrine Metabolic Ovarian Syndrome) in May 2025 following a Lancet consensus. This guide uses the updated terminology throughout.
Hormone Reset PMOS: The Complete Guide for South African Women
📅 Published: 📅 Last updated: ✍ Dr Olwethu Sotondoshe 🕑 20 min read
For decades, millions of women were told they had Polycystic Ovarian Syndrome, a name that pointed the diagnostic lens almost entirely at the ovaries and left the deeper metabolic and endocrine picture largely unaddressed. In May 2025, The Lancet published a landmark consensus renaming the condition Polyendocrine Metabolic Ovarian Syndrome, or PMOS, a name that finally reflects what the evidence has been showing for years: this is a whole-body hormonal and metabolic condition, not simply an ovarian one. For South African women, who carry some of the highest rates of PMOS in sub-Saharan Africa and who face specific barriers to diagnosis and care, this guide is the most comprehensive resource currently available.

Whether you have a diagnosis, suspect you have PMOS, or are trying to understand why your hormones, weight, skin, and mood have been consistently dysregulated, this guide gives you the full clinical picture and a clear, root-cause path forward.

The Short Answer

PMOS is a common hormonal and metabolic condition affecting approximately one in eight South African women of reproductive age. It is characterised by elevated androgens, disrupted ovulation, insulin resistance, and a cluster of systemic symptoms including irregular periods, weight gain, acne, hair loss, and mood disruption. The condition is significantly underdiagnosed, frequently mismanaged, and responds well to a root-cause approach that addresses insulin resistance, adrenal function, and hormonal balance together rather than as separate problems.

1 in 8 South African women of reproductive age are affected by PMOS
70% of women with PMOS remain undiagnosed for years despite clear symptoms
80% of PMOS cases involve insulin resistance as a primary metabolic driver
4x higher risk of developing type 2 diabetes compared to women without PMOS

What Is PMOS and Why Was the Name Changed?

Polyendocrine Metabolic Ovarian Syndrome, or PMOS, is the updated name for the condition previously called Polycystic Ovarian Syndrome (PCOS). The rename was formalised in a May 2025 Lancet consensus paper reflecting decades of accumulating evidence that the condition is far broader than the original name suggested.

Why the name changed

From PCOS to PMOS: What the New Name Means

The original name, Polycystic Ovarian Syndrome, implied the primary problem was structural: cysts on the ovaries. In reality, the follicular cysts visible on ultrasound are a consequence of disrupted ovulation, not the cause of the condition. The new name, Polyendocrine Metabolic Ovarian Syndrome, captures the true scope: multiple endocrine glands are involved (poly-endocrine), the metabolic system is centrally disrupted (metabolic), and the ovarian effects are downstream consequences (ovarian). This shift in framing has direct implications for how the condition is treated, because it redirects clinical attention from the ovary to the underlying hormonal and metabolic drivers.

PMOS is now understood as a condition of systemic hormonal and metabolic dysregulation. The ovarian effects, including irregular cycles, anovulation, and follicular cysts, are produced by upstream drivers: insulin resistance, elevated androgens, disrupted LH/FSH signalling, adrenal dysfunction, and chronic inflammation. Treating only the ovarian symptoms, as many conventional approaches do, without addressing these root causes is why outcomes are so frequently incomplete.

Factor Old framing: PCOS New framing: PMOS
Primary focus Ovarian cysts and reproductive function Whole-body hormonal and metabolic dysregulation
Specialist referral Gynaecologist Endocrinologist, integrative medicine, metabolic specialist
Core driver Excess androgens and ovarian dysfunction Insulin resistance, multi-gland endocrine disruption
Treatment focus OCP to regulate cycles, metformin for insulin Root-cause metabolic correction, lifestyle, targeted nutrition
Long-term view Reproductive concern primarily Lifelong metabolic health, cardiovascular and diabetes risk

How Common Is PMOS in South African Women?

PMOS affects approximately 8 to 13 percent of women of reproductive age globally, making it the most common endocrine condition in women. South African data, while limited, suggests prevalence at the higher end of the global range, with several factors contributing to elevated risk in the local population.

Insulin resistance, the central metabolic driver of PMOS, is particularly prevalent in South Africa due to the interaction of dietary patterns high in refined carbohydrates, high chronic stress loads, and genetic predisposition among several South African population groups. Urban Black South African women appear to carry a specific pattern of PMOS that presents with strong metabolic features and insulin resistance but sometimes without the hyperandrogenism and hirsutism more typical in other ethnic groups, which means symptoms are different enough that the condition is frequently missed entirely.

Dr Olz Clinical Insight
“The diagnostic criteria for PMOS were developed primarily in European and American populations. When I see South African women in practice, particularly Black South African women, the presentation is often predominantly metabolic: weight that won’t shift, blood sugar instability, chronic fatigue, and irregular cycles, without the classic hirsutism that traditionally flags the condition. Because the textbook picture doesn’t match, these women spend years without a diagnosis. The rename to PMOS is a step in the right direction because it de-centres the androgenic features and places metabolic dysfunction front and centre.”
Dr Olwethu Sotondoshe | Natural Hormone Health Practitioner & Homeopath | Ask Dr Olz

The Full Spectrum of PMOS Symptoms

PMOS produces symptoms across multiple body systems simultaneously, which is why it is so frequently misdiagnosed or incompletely treated. The symptom picture varies between individuals depending on which of the four PMOS types applies, which is covered in the next section.

Menstrual and Reproductive
  • Irregular, infrequent, or absent periods
  • Long cycles (more than 35 days)
  • Heavy or unpredictable flow
  • Lack of ovulation (anovulation)
  • Difficulty conceiving
  • Recurrent early miscarriage
Androgenic (Androgen Excess)
  • Acne, particularly jaw, chin, and neck
  • Hirsutism: excess facial or body hair
  • Scalp hair thinning or loss
  • Oily skin
  • Deepening voice (severe cases)
Metabolic
  • Weight gain resistant to diet and exercise
  • Abdominal fat accumulation
  • Sugar and carbohydrate cravings
  • Energy crashes after meals
  • Skin tags or darkened skin in creases
  • Elevated fasting insulin or glucose
Mood and Cognitive
  • Anxiety, often disproportionate to trigger
  • Depression and low mood
  • Brain fog and poor concentration
  • Emotional reactivity and mood swings
  • Low motivation and drive
Other Systemic Signs
  • Chronic fatigue
  • Sleep disruption
  • Headaches and migraines
  • Gut issues: bloating, constipation, IBS
  • Thyroid dysfunction (common co-occurrence)
  • Elevated cholesterol or triglycerides
On Imaging and Blood Tests
  • Multiple follicles on ovarian ultrasound
  • Elevated LH to FSH ratio
  • High free testosterone or DHEA-S
  • High fasting insulin
  • Elevated anti-Mullerian hormone (AMH)
  • Low SHBG (sex hormone binding globulin)

What Causes PMOS: The Root-Cause Picture

PMOS does not have a single cause. It is the result of several intersecting drivers that create a self-reinforcing hormonal and metabolic cycle. Understanding each driver is essential for understanding why a single-focus treatment so rarely resolves the full condition.

Insulin Resistance: The Central Driver

Insulin resistance is present in up to 80 percent of PMOS cases and is the most clinically important driver of the condition’s metabolic features. When cells become resistant to insulin, the pancreas compensates by producing more. Chronically elevated insulin directly stimulates the theca cells of the ovaries to produce excess testosterone. It also suppresses the liver’s production of sex hormone binding globulin (SHBG), which means more testosterone is biologically free and active. The result is a hyperandrogenic state that drives acne, hirsutism, and hair loss, and simultaneously disrupts the LH surge needed for ovulation, producing irregular cycles and anovulation. Insulin resistance is the thread that connects the metabolic and reproductive features of PMOS in a single mechanistic loop.

HPA Axis Dysregulation and Adrenal Androgens

The adrenal glands produce a significant proportion of androgens in women, including DHEA-S and androstenedione. In women under chronic stress, adrenal androgen production is amplified, contributing to the hyperandrogenic picture independently of ovarian androgen excess. This is why stress management is not peripheral to PMOS treatment. It is a direct androgen-lowering intervention. South African women carrying significant chronic stress loads have a specific vulnerability to adrenal-driven PMOS that is frequently missed when assessment focuses only on ovarian androgens.

Chronic Inflammation

Low-grade systemic inflammation is now recognised as both a feature and a driver of PMOS. Inflammatory signalling directly stimulates ovarian androgen production and impairs insulin receptor function, worsening insulin resistance. Dietary triggers of inflammation, particularly refined carbohydrates, seed oils, and food sensitivities, interact with gut dysbiosis and environmental toxin exposure to maintain the inflammatory state that keeps PMOS active even when dietary changes appear reasonable on the surface.

Gut Dysbiosis

Women with PMOS consistently show altered gut microbiome composition compared to controls, with reduced microbial diversity and changes in the species responsible for short-chain fatty acid production and androgen metabolism. The gut microbiome directly influences insulin sensitivity, systemic inflammation, oestrogen recycling through the oestrobolome, and even the hypothalamic signalling that governs LH and FSH release. Gut health is not a secondary concern in PMOS; it is a mechanistic target.

Genetic Predisposition

PMOS has a significant heritable component, running in families through both the maternal and paternal lines. If your mother, sister, or maternal aunt has PMOS, your risk is significantly elevated. Genetic predisposition does not mean the condition is inevitable. It means the threshold for environmental triggers to tip the system into PMOS is lower, making early identification of risk factors and preventive lifestyle measures particularly valuable.

The Four Clinical Types of PMOS

Not all PMOS presentations are identical. Recognising the four clinical subtypes matters because each has a different primary driver and responds to a different treatment emphasis. Treating a woman with adrenal PMOS as if she had classic insulin-driven PMOS produces incomplete results.

Type 1: Insulin-Driven
  • Most common type (up to 80%)
  • Central driver: insulin resistance
  • Strong metabolic features
  • Weight gain, sugar cravings, acanthosis nigricans
  • Elevated fasting insulin is the key diagnostic marker
  • Responds well to low-GI nutrition and insulin sensitisers
Type 2: Adrenal-Driven
  • Central driver: elevated DHEA-S from adrenal glands
  • Androgens from adrenal rather than ovarian source
  • Stress is a primary aggravating factor
  • Often missed because ovarian androgens appear normal
  • Responds well to adrenal support and stress reduction
  • Common in high-stress South African women
Type 3: Inflammatory
  • Central driver: chronic low-grade inflammation
  • Gut dysbiosis frequently present
  • Elevated inflammatory markers (CRP, homocysteine)
  • Food sensitivities often implicated
  • Responds to anti-inflammatory nutrition and gut repair
  • Often co-occurs with thyroid autoimmunity
Type 4: Post-Pill
  • Triggered by stopping combined oral contraceptives
  • OCP suppresses ovulation and masks androgen excess
  • Symptoms emerge after stopping: irregular cycles, acne
  • Frequently mistaken for a new condition
  • Was often present before the pill, now unmasked
  • Responds to hormonal and nutritional restoration

Important: Many women present with a combination of types, most commonly insulin-driven plus adrenal or inflammatory components. A comprehensive assessment panel identifies which drivers are active in your specific case, rather than applying a one-size-fits-all treatment protocol.

How PMOS Is Diagnosed in South Africa

The current diagnostic standard uses the Rotterdam Criteria, which requires two of the following three features: irregular or absent ovulation, clinical or biochemical evidence of excess androgens, and polycystic ovarian morphology on ultrasound. With PMOS, the expectation is that updated criteria will place greater emphasis on metabolic markers, particularly fasting insulin and insulin resistance assessment, which are currently not part of the formal diagnostic criteria despite being present in the majority of cases.

Blood Markers to Request

A comprehensive PMOS diagnostic panel should include free and total testosterone, DHEA-S, SHBG, LH and FSH with their ratio, anti-Mullerian hormone (AMH), fasting insulin, fasting glucose and HbA1c, a full thyroid panel with free T3, anti-TPO antibodies, oestradiol, progesterone timed to the luteal phase, full lipid panel, and CRP as an inflammatory marker. Ferritin, vitamin D, zinc, and magnesium round out the nutritional picture. This is a considerably more comprehensive panel than the basic hormone and glucose screen typically ordered in primary care.

Why Ultrasound Alone Is Insufficient

A pelvic ultrasound showing polycystic ovarian morphology is a supportive finding, not a standalone diagnosis. Many women without PMOS have multiple follicles on ultrasound, particularly in the years after puberty or while using hormonal contraception. Conversely, women with clear PMOS features including insulin resistance, irregular cycles, and androgen excess may not show classic polycystic morphology on imaging. Diagnosis should be based on the full clinical and biochemical picture rather than imaging alone.

Getting Diagnosed in South Africa

The diagnostic journey for PMOS in South Africa typically begins with a GP or gynaecologist. However, because the comprehensive metabolic panel described above is rarely ordered in full through standard primary care, many women receive either a partial diagnosis or are told they do not have the condition based on an incomplete assessment. Integrative hormone practitioners, including through the Hormone Reset telehealth service, can order the full PMOS assessment panel and interpret results using functional optimal ranges rather than the broad reference ranges applied in standard pathology reports.

Conventional vs Integrative Treatment Approaches

Understanding the difference between how PMOS is typically managed in conventional care and how it is approached through a root-cause integrative lens is important for making informed decisions about your own treatment pathway.

Approach Conventional care Integrative root-cause
Cycle regulation Combined oral contraceptive pill Restore ovulation through metabolic correction
Insulin resistance Metformin Low-GI nutrition, berberine, inositol, resistance training
Androgen excess Anti-androgens (spironolactone), OCP Reduce insulin, support liver androgen clearance, DIM, zinc
Fertility Clomiphene or letrozole to induce ovulation Restore natural ovulation through metabolic and hormonal correction
Long-term management Medication ongoing; lifestyle as adjunct Lifestyle and nutrition as primary; supplements and medications as support
Mental health Antidepressants or referral to psychology Address insulin and androgen drivers of mood; targeted nutrition

Conventional treatments are not without value. Metformin is a well-evidenced insulin sensitiser. Letrozole has strong data for ovulation induction. The limitation of the conventional approach is not individual treatment choice but the absence of the metabolic and lifestyle foundation that determines whether any treatment produces lasting results. Metformin works better in a woman also eating to support insulin sensitivity. Ovulation induction is more likely to produce a healthy pregnancy in a woman whose inflammatory and nutritional status has been optimised first.

The Root-Cause Treatment Approach to PMOS

Effective PMOS management is a layered, personalised strategy. The sequence matters, and the foundation must be established before any targeted intervention can work to its full potential.

Step 1: Correct Insulin Resistance

Insulin resistance is the most impactful single target in PMOS. The dietary approach focuses on eliminating refined carbohydrates and processed sugars, eating adequate protein at every meal to blunt the post-meal glucose spike, including healthy fats to support hormonal synthesis without raising insulin, and eating in a way that keeps blood sugar stable across the day rather than spiking and crashing. Myo-inositol and D-chiro-inositol have the strongest evidence base of any nutritional supplement in PMOS, directly improving insulin signalling in ovarian tissue and restoring ovulation in a meaningful proportion of women with insulin-driven PMOS. Berberine is a well-evidenced insulin sensitiser with efficacy comparable to metformin in clinical trials. Resistance training is non-negotiable, as it is the most effective non-pharmacological intervention for improving insulin sensitivity in skeletal muscle.

Step 2: Reduce Androgens Through the Root

Rather than blocking androgens at the receptor level, the root-cause approach reduces androgen production by addressing the drivers. Lowering insulin reduces ovarian androgen production directly. Reducing adrenal stress reduces DHEA-S. Supporting liver androgen clearance through DIM, calcium D-glucarate, and adequate B vitamins reduces active androgen load. Saw palmetto and spearmint tea have supporting evidence for reducing free testosterone through 5-alpha reductase inhibition and androgen receptor competition respectively. These are not quick fixes. They work on the production side rather than the blocking side, which produces a different quality of outcome.

Step 3: Restore Ovulation Naturally

Ovulation is the body’s most sensitive indicator of hormonal health. In PMOS, ovulation fails because the LH surge required to trigger follicle release is disrupted by elevated insulin and androgens. As insulin and androgens normalise, ovulation typically resumes without direct ovulation induction. This process takes three to six months of consistent metabolic correction. Tracking ovulation through basal body temperature or LH strips provides objective confirmation of progress. The goal is not only a period, but a period preceded by confirmed ovulation, which indicates genuine hormonal recovery rather than breakthrough bleeding.

Step 4: Address Inflammation and Gut Health

Anti-inflammatory nutrition, including omega-3 fatty acids, turmeric, and a diverse fibre intake from non-starchy vegetables, directly reduces the inflammatory signalling that maintains androgen production and insulin resistance. Gut repair through probiotic-rich foods, prebiotic fibre, and targeted gut support where dysbiosis is identified improves insulin sensitivity, reduces systemic inflammation, and supports the oestrobolome function that governs overall hormonal balance. This layer is often the missing piece in women who have made good dietary changes without seeing the expected improvement.

Step 5: Support Mental Health Through the Hormonal Channel

PMOS-associated anxiety and depression have a direct biochemical basis: elevated androgens disrupt neurotransmitter balance, insulin resistance impairs glucose delivery to the brain, and the chronic inflammatory state reduces serotonin and dopamine availability. Addressing these hormonal drivers produces measurable mood improvement that is not achievable through psychological intervention alone when the underlying biochemistry remains dysregulated. This is covered in detail in our dedicated guide to PMOS and mental health.

Dr Olz Clinical Insight
“When a woman with PMOS tells me she has tried everything and nothing works, what I most often find is that she has tried individual interventions in isolation: the pill, then metformin, then a supplement, then a diet. What has almost never been done is a comprehensive, sequenced approach that addresses insulin resistance, adrenal function, gut health, inflammation, and nutritional gaps simultaneously and in the right order. PMOS is a multi-system condition. It requires a multi-system response. When that response is structured correctly, the results are often genuinely transformative.”
Dr Olwethu Sotondoshe | Natural Hormone Health Practitioner & Homeopath | Ask Dr Olz

Long-Term Health Implications of Unmanaged PMOS

PMOS is not solely a reproductive condition. When left unmanaged or inadequately treated, it carries meaningful long-term health risks that extend well beyond fertility. Understanding these risks is important for prioritising treatment, particularly in South Africa where access to specialist care is limited and the condition is frequently deprioritised once fertility is no longer the primary concern.

Type 2 Diabetes

Women with PMOS have a four-fold increased risk of developing type 2 diabetes compared to women without the condition. This risk is driven by the underlying insulin resistance that is central to the condition and is substantially modifiable through the lifestyle and nutritional interventions described in this guide. Insulin resistance is not a fixed state. It is a dynamic, reversible condition that responds to targeted intervention at any age.

Cardiovascular Disease

PMOS is associated with elevated cardiovascular risk through multiple mechanisms: insulin resistance drives dyslipidaemia (elevated triglycerides, low HDL), chronic inflammation damages vascular endothelium, and androgen excess contributes to unfavourable blood pressure and cardiac remodelling. These risks become clinically significant in midlife and beyond. Managing PMOS actively in the reproductive years is preventive cardiology.

Endometrial Cancer Risk

Chronic anovulation in PMOS means the endometrium is exposed to oestrogen without the opposing protective effect of progesterone, which is only produced after ovulation. Prolonged unopposed oestrogen exposure significantly increases endometrial cancer risk. Restoring ovulation, or using bioidentical progesterone to provide endometrial protection in anovulatory women, is therefore not only a fertility intervention but a cancer-risk reduction strategy.

Mental Health Burden

Women with PMOS have significantly higher rates of anxiety, depression, eating disorders, and disordered body image than the general population. These are not simply psychological reactions to having a chronic condition. They have direct biochemical drivers in the hormonal and inflammatory environment of PMOS, as explored in depth in our guide to PMOS, anxiety, and depression.

Think You Might Have PMOS?

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Frequently Asked Questions
What is the difference between PCOS and PMOS?

PMOS is the updated name for what was previously called PCOS (Polycystic Ovarian Syndrome), formalised in a May 2025 Lancet consensus. The rename reflects a better understanding of the condition: it is not primarily an ovarian or cystic condition, but a whole-body polyendocrine and metabolic disorder. The ovarian features, including follicular cysts and irregular cycles, are downstream consequences of insulin resistance, androgen excess, and disrupted signalling across multiple endocrine glands. The new name redirects clinical attention to the root causes rather than the ovarian symptoms.

Can PMOS be cured?

PMOS cannot be cured in the sense of eliminating a genetic predisposition. However, it can be managed to the point where symptoms resolve, ovulation restores, metabolic markers normalise, and the associated long-term health risks are substantially reduced. Many women achieve full symptomatic remission through a comprehensive, root-cause approach that addresses insulin resistance, adrenal function, inflammation, and gut health. This is not a managed condition in the way that requires lifelong pharmaceutical intervention for most women. It is a condition that responds to the right environmental inputs.

Does PMOS go away after menopause?

The reproductive manifestations of PMOS, including irregular cycles and ovulation failure, naturally resolve at menopause when ovarian function ceases. However, the underlying metabolic drivers, particularly insulin resistance, do not resolve at menopause and in fact tend to worsen as oestrogen declines further reduces insulin sensitivity. The long-term cardiovascular and metabolic risks associated with PMOS extend through and beyond menopause, which is why managing the condition actively during the reproductive years is important not only for fertility but for lifelong metabolic health.

Can you have PMOS without polycystic ovaries on ultrasound?

Yes. The presence of polycystic ovarian morphology on ultrasound is one of three Rotterdam criteria, any two of which are required for diagnosis. Many women with PMOS have normal-appearing ovaries on imaging, particularly if their primary phenotype is insulin-driven without strong androgenic features. Equally, many women without PMOS have multiple ovarian follicles on ultrasound, particularly in the post-pubertal years or while using hormonal contraception. Ultrasound is a supportive finding, not a diagnostic requirement.

What is the best diet for PMOS in South Africa?

The dietary approach with the strongest evidence for PMOS targets insulin resistance directly: prioritising protein and healthy fats at every meal, eliminating refined carbohydrates and added sugars, replacing high-GI staples including white pap, white rice, and white bread with lower-GI alternatives including legumes, sweet potato, and whole grains, eating abundant non-starchy vegetables for fibre and anti-inflammatory phytonutrients, and including omega-3 rich foods including fatty fish, walnuts, and flaxseed. This approach is covered in detail in our dedicated guide to PMOS and diet in South Africa.

Does PMOS affect mental health?

Yes, significantly and through direct biochemical mechanisms. Women with PMOS have higher rates of anxiety, depression, and disordered eating than the general population. Elevated androgens disrupt neurotransmitter balance. Insulin resistance impairs brain glucose metabolism and serotonin production. Chronic inflammation reduces dopamine and serotonin availability. These are not purely psychological responses to having a difficult condition, although that stress is real and adds to the burden. They are direct biological effects of the hormonal environment of PMOS, and they respond to hormonal and metabolic correction.

Dr Olwethu Sotondoshe, Natural Hormone Health Practitioner and Homeopath, founder of Ask Dr Olz
Dr Olwethu Sotondoshe Natural Hormone Health Practitioner & Homeopath | Pr. No. 0980765

Dr Olwethu Sotondoshe is the founder of Ask Dr Olz, a South African telehealth practice dedicated to helping women understand and resolve the root causes of hormonal and metabolic conditions including PMOS. He takes a personalised, evidence-informed approach combining nutrition guidance, lifestyle optimisation, and targeted supplementation to deliver lasting results accessible across South Africa.

Learn more about Dr Olz and the Hormone Reset approach
Medical Disclaimer: The content on this page is intended for general educational purposes only and does not constitute medical advice, diagnosis, or treatment. Always consult a qualified healthcare practitioner before making changes to your health or supplement regimen. Dr Olwethu Sotondoshe (Pr. No. 0980765) provides consultations via telehealth for personalised clinical guidance.