Infertility and Subfertility

NICE guideline [NG257] Fertility problems: assessment and treatment. Published: Mar 2026.

NICE CKS Infertility. Last revised: Jul 2023.

Article Last Updated:26/04/2026

Infertility and Subfertility

Infertility is defined by the WHO as failure to achieve pregnancy after 12 months or more of regular unprotected sexual intercourse, while subfertility describes reduced fertility with a prolonged time to conception. Causes may involve female factors, male factors, both partners, or no identifiable cause.

This updated UKMLA guide to infertility and subfertility is based primarily on NICE NG257, which covers causes, risk factors, referral criteria, investigations, management, assisted reproductive technology (ART), and complications.

Note: For clarity and to reduce repetition in this article:

Females = women, trans men, and non-binary people with female reproductive organs
Males = men, trans women, and non-binary people with male reproductive organs

Definition

WHO definition (more widely used): failure to achieve pregnancy after 12 months or more of regular unprotected sexual intercourse.

Primary infertility: in couples who have never achieved pregnancy
Secondary infertility: in couples who have achieved pregnancy at least once before (with the same or different sexual partner)

NICE defines infertility as the period of time people have been trying to conceive without success, after which formal investigation is justified and possible treatment implemented.

Subfertility: describes any form of reduced fertility, characterised by a prolonged time taken to achieve pregnancy despite regular unprotected sexual intercourse.

Epidemiology

Infertility is common, it affects ~1 in 7 heterosexual couples in the UK.

Causes

Main causes of infertility in the UK:

Male factors (30%)
Ovulatory disorders (25%)
Tubal damage (20%)
Uterine or peritoneal disorder (10%)
No identifiable cause (25%)

~40% of infertility cases are due to factors affecting both the male and female partners.

Female Infertility

Category	Causes
Ovulatory disorders	Ovulatory disorders are categorised into 3 groups (WHO): Group 1: hypothalamic-pituitary failure (~10%) Functional hypothalamic amenorrhoea (from underweight, eating disorders, excessive exercise) Hypogonadotropic hypogonadism (e.g. Kallmann syndrome, however causes is unknown in most cases) Group 2: hypothalamic-pituitary-ovarian failure (~85%) PCOS – most common Hyperprolactinaemia Group 3: ovarian failure (~4-5%) Primary ovarian insufficiency (premature ovarian failure) Turner syndrome Other conditions that can cause ovulatory disorders: Hyperthyroidism and hypothyroidism Cushing’s syndrome Chronic diseases (e.g. uncontrolled diabetes, cancer, AIDS, end-stage kidney disease, malabsorption)
Tubal damage	PID Any pelvic infections (e.g. STIs, appendicitis, diverticulitis) Endometriosis Previous tubal surgeries / sterilisation
Uterine or peritoneal factors	Uterine factors: Adhesions (Asherman syndrome) Polyps Submucosal fibroids Uterine septae Peritoneal factors: Peritubular adhesions Endometriosis Altered tubal motility Fimbrial end blockage

Male Infertility

Category	Causes
Testicular failure	Most cases of testicular failure are unknown Acquired causes include: Varicocele – most common identifiable and correctable cause ^[Ref] Testicular torsion / trauma Orchitis Systemic disease / radiotherapy / chemotherapy Genetic / congenital causes Klinefelter syndrome Y chromosome microdeletions Cryptorchidism (undescended testis) Certain endocrine disorders are associated with low testosterone levels (e.g. hyperprolactinaemia, Kallmann syndrome)
Obstructive azoospermia	Absence of spermatozoa in the ejaculate, due to an obstruction in the genital tract Causes include: Cystic fibrosis (classic cause) Vasectomy Epididymal / prostatic infections Complications of surgery (e.g. inguinal repair, orchiopexy for cryptorchidism) Congenital defects (e.g. congenital bilateral absence of vas deferens, prostatic cysts, idiopathic epididymal obstruction)
Ejaculatory and erectile dysfunction	Erectile dysfunction: persistent inability to attain and maintain an erection sufficient to permit satisfactory sexual performance Ejaculatory disorders include: Premature / delayed ejaculation Retrograde ejaculation Painful ejaculation Anorgasmia (perceived absence of orgasm, which can give rise to anejaculation)
Abnormal sperm function and quality	Causes include: Kartagener syndrome (immotile cilia syndrome) Urogenital tract infections (e.g. prostatitis, orchitis, epididymitis) Use of anabolic steroids Presence of antisperm antibodies

Risk Factors

Female Infertility

Age (the physiological maximum potential for reproduction starts declining significantly at ~32 y/o and declines rapidly after 37 y/o)
STIs (esp. chlamydia and gonorrhoea)
Obesity and low body weight
Lifestyle factors
- Smoking
- Stress
Exposure to pesticides, nitrous oxide, metals (lead, cadmium, manganese), solvents, formaldehyde and other occupational and environmental hazards
Drugs (e.g. NSAIDs, chemotherapy, metoclopramide, methyldopa, sertraline, fluoxetine, and antipsychotics, recreational drugs)

Male Infertility

Age (>55 y/o may affect sperm motility)
STIs
Obesity
Lifestyle factors
- Smoking
- Excessive alcohol intake
- Stress
- Tight underwear (elevated scrotal temperature reduces semen quality)
Exposure to pesticides, nitrous oxide, metals (lead, cadmium, manganese), solvents, formaldehyde and other occupational and environmental hazards
Drugs
- Sulfasalazine – affects spermatogenesis
- 5-alpha reductase inhibitors – can cause sexual dysfunction
- Hormone treatment (esp. testosterone supplementation, anabolic steroid) – can inhibit spermatogenesis and impair fertility
- Certain antipsychotics, antidepressants, antihypertensives – can cause retrograde ejaculation and orgasmic dysfunction
- Recreational drugs

Patient Education

Initial advice to people concerned about delays in conception:

Aspect	Description / advice
Chance of conception	For females aged <40 y/o in a heterosexual couple, who are not using contraception and have regular vaginal intercourse, the approximate pregnancy rates are: 80% conceive within 1 year 90% conceive within 2 years (cumulative rate) Specifically, among those who do not conceive in the 1st year, ~50% will conceive in the 2nd year
Frequency and timing of sexual intercourse	Regular vaginal sexual intercourse every 2-3 days to optimise the chance of pregnancy

Advice on factors that can affect fertility:

Aspect	Description / advice
Alcohol consumption	For females who are planning to become pregnant: Drink no more than 1 or 2 units of alcohol, once or twice per week Avoid episodes of alcohol intoxication Safest approach: avoid alcohol completely For males: Low-risk drinking (<14 units per week, spread across at least 3 days) is unlikely to affect semen quality Excessive alcohol intake can impact semen quality
Smoking	Smoking reduces fertility, lowers the chance of conception, and can impair semen quality. Advise smoking cessation to improve fertility and overall health (see the Smoking Cessation article for more information)
Caffeine consumption	There is no consistent evidence of an association between consumption of caffeinated beverages (e.g. tea, coffee, energy drinks, colas) and fertility problems
Extremes of body weight	Extremes of body weight could negatively impact fertility, including: Obesity (BMI ≥30 kg/m²), and Underweight (BMI <18.5 kg/m²)

When to Refer / Investigate

The following applies to those who present with the inability to conceive

Scenario	Referral timing
No suspected or known clinical cause of infertility	Refer both partners for further investigations if NOT conceived after 1 year of unprotected vaginal sexual intercourse
Female ≥36 y/o	Refer to specialist upon presentation (do NOT wait further) – to discuss options for attempting conception, further assessment and appropriate treatment
Either partner has suspected or known clinical cause of infertility, or history of predisposing factors for infertility
Person is using artificial insemination to conceive, with no suspected or known clinical cause of infertility	Refer for further investigations if NOT conceived after 6 cycles If the partner’s sperm is being used, also investigate their partner
Planned treatment may result in infertility (e.g. treatment for cancer)	Expedite fertility specialist referral

For those who do not yet meet the referral criteria above (e.g. <36 y/o woman presenting after 6 months of trying to conceive), provide appropriate patient education as outlined above and arrange suitable follow-up.

Assessment, Investigation and Diagnosis

In most cases, assessment and investigation in both male and female partners are necessary.

Males

Initial work-up:

1st line test: semen analysis (compare to WHO reference values)
If the semen analysis is abnormal → repeat semen analysis
- Ideally, 3 months after the initial test, to allow time for the cycle of spermatozoa formation to be completed
- Exception: repeat the test ASAP if there is gross spermatozoa deficiency (azospermia or severe oligozoospermia)
If both semen analyses are abnormal:
- Physical examination of the scrotum and testes, and
- Consider measuring serum testosterone and gonadotropin levels

Key categories of sperm abnormality (in accordance with the WHO reference values):

Azoospermia = absence of sperm in the ejaculate
- Obstructive azoospermia = normal FSH, normal testis size, dilated epididymis
- Non-obstructive azoospermia = elevated FSH, testicular atrophy
Oligozoospermia = low sperm concentration
Asthenozoospermia = reduced progressive motility
Teratozoospermia = low % of morphologically normal sperm

Other tests:

Test	Indications
CFTR genetic mutation testing	Presence of: Idiopathic obstructive azoospermia, and/or Vas deferens abnormalities
Y chromosome microdeletion testing	Presence of: Idiopathic azoospermia, or Sperm concentration <1 million per mL
Karyotyping	Idiopathic azoospermia Consider in those with a persistent sperm concentration <5 million per mL

Do not offer routine testing for antisperm antibodies.

Do not carry out testing for sperm DNA integrity (fragmentation).

Females

Tests to Confirm Ovulation

Test of choice: serum progesterone level

Timing to measure depends on the person’s menstrual cycle regularity:

Regular cycles: measure at mid-luteal phase (7 days before the expected next menstrual period) (e.g. day 21 of a 28-day cycle, or day 28 of a 35-day cycle)
Irregular cycles:
- Measure ~7 days before the expected next menstrual period
- Repeat measurement weekly until the next menstrual cycle starts

Do not use basal body temperature charts to confirm ovulation because they are not reliable in predicting ovulation.

Ovarian Reserve Testing

Use maternal age as an initial predictor of the overall chance of becoming pregnant through spontaneous conception or with IVF

Measure AMH levels or AFC to predict ovarian response and likelihood of live birth following assisted conception

Do not use anti-Müllerian hormone (AMH) measurement as a predictor of clinical pregnancy through spontaneous conception.

Do not use FSH measurement as a predictor of ovarian response or outcome of assisted conception.

Tubal / Uterine Abnormalities Testing

Choice of test depends on whether the patient has comorbidities:

No comorbidities → hysterosalpingography to screen for tubal occlusion
- Alternative: hysterosalpingo-contrast ultrasound
Presence of comorbidities → laparoscopy and dye to assess both tubal and pelvic pathologies simultaneously

Only offer hysteroscopy if a uterine / endometrial abnormality is clinically suspected (e.g. adhesions, polyps, submucosal fibroids)

The 3 investigations listed above may sound similar, but they assess different structures and have distinct roles:

Hysterosalpingography (less invasive) = X-ray + contrast dye passed through the cervix to assess whether the fallopian tubes are patent and outline the uterine cavity (primary role = test for tubal patency)
Laparoscopy + dye (invasive) = a 2-component procedure
- Laparoscopy: a camera is inserted through small abdominal incisions to inspect the abdominopelvic cavity directly
- Dye test: dye is passed through the cervix into the uterus, then through the fallopian tubes, and the surgeon observes whether the dye spills from the fimbrial ends of the tubes into the pelvis (if there is no / reduced spill → possible tubal blockage)
Hysteroscopy = a camera is passed through the cervix into the uterus to directly inspect the endometrial cavity for intrauterine pathology. Does not assess tubal patency or the pelvis

Other Tests

The following tests are NOT routinely performed:

Serum gonadotrophin levels (LH and FSH) – only in the presence of irregular menstrual cycles
Serum prolactin measurement – only for those with ovulatory disorder, galactorrhoea, pituitary tumour
TFT – only if there are symptoms of thyroid disease
Coeliac testing (see the Coeliac Disease article for more information) – consider in cases of unexplained subfertility

Do not routinely use post-coital testing of cervical mucus in the investigation of fertility problems because it has no predictive value on pregnancy rate.

Management of Infertility Causes

Disclaimer:

Infertility management is a vast topic, as there are many underlying causes and each has its own dedicated treatment approach.

This section provides a simplified overview based on the management options specifically covered in the NICE guideline. It does NOT cover the management of every single cause of infertility.

Male Factor Infertility

Management largely depends on the underlying cause:

Cause of male factor infertility	Recommended management
Hypogonadotropic hypogonadism (e.g. Kallmann syndrome)	Gonadotrophin therapy
Varicocele	Consider radiological or surgical treatment (e.g. varicocelectomy) if the patient has reduced semen parameters and is trying to conceive spontaneously
Azoospermia (absence of sperm in the ejaculate)	Obstructive azoospermia → surgical correction / surgical sperm retrieval Non-obstructive azoospermia → surgical sperm retrieval
Ejaculatory failure	Management depends on the underlying cause

Do NOT offer gonadotropin or anti-oestrogen therapy in those with impaired semen parameters but no evidence of hypogonadotrophic hypogonadism.

Do not offer androgens to treat semen abnormalities.

Female Factor Infertility

Management largely depends on the underlying cause:

Cause of female factor infertility	Recommended management
Hypogonadotropic hypogonadism (e.g. Kallmann syndrome, functional hypothalamic amenorrhoea)	Gonadotropin therapy (LH activity or GnRH) For those with functional hypothalamic amenorrhoea, also advise: Increase body weight to >18.5 kg/m² (if underweight) Reduce / moderate excessive exercise levels
PCOS	Disclaimer on PCOS management guidelines Historically, there was no standalone NICE guideline on PCOS. Instead, it was previously covered within the older NICE fertility guideline CG156 (Feb 2013) In March 2026, NICE updated this guideline as NG257, which updates and replaces CG156. In NG257, the previous recommendations on PCOS have been removed because NICE is developing a dedicated PCOS guideline. The dedicated NICE PCOS guideline is currently in development, with expected publication on 09 December 2026. The final scope states that NICE proposes to adapt the International Evidence-Based Guideline for the Assessment and Management of Polycystic Ovary Syndrome (2023), produced by Monash University and partners. Therefore, until the standalone NICE PCOS guideline is published, this section is based primarily on the 2023 International Evidence-Based PCOS Guideline. Optimise preconception health and lifestyle (to be implemented prior to and alongside medical treatments): Healthy lifestyle (healthy eating and regular physical activity) Weight management (aim to maintain 18.5-24.9 kg/m²) Optimise blood pressure, smoking cessation, alcohol intake, sleep, and mental / emotional health Interventions: 1st line: ovulation induction with letrozole (alternative: clomiphene citrate and/or metformin) 2nd line: gonadotrophins OR laparoscopic ovarian surgery (ovarian drilling) 3rd line: assisted reproductive technology (IVF +/- ICSI)
Hyperprolactinaemia-associated ovulatory disorder	Offer cabergoline (dopamine agonist)
Tubal disease	Mild tubal disease → consider tubal surgery Proximal tubal obstruction → consider fallopian tube catheterisation (hysteroscopic or radiological guidance)
Hydrosalpinges (if undergoing IVF)	Laparoscopic salpingectomy or tubal occlusion before IVF
Intrauterine adhesions (Asherman syndrome)	Hysteroscopic adhesiolysis
Endometriosis	Initial management: discuss either of the following options: Expectant management for up to 2 years (including time already spent trying to conceive before assessment), or Surgical treatment (laparoscopic surgery / interventions) If expectant management and surgical treatment failed or are not appropriate: Intrauterine insemination with ovarian stimulation (gonadotrophins) IVF Do NOT offer hormonal treatment (i.e. COCP, progestogens, GnRH agonist) – they do NOT improve spontaneous pregnancy rates.

For those who are offered ovulation induction (gonadotrophins or clomiphene):

Use ovarian ultrasound monitoring to measure follicular size and number
To reduce risk of multiple pregnancy and ovarian hyperstimulation syndrome (see ART section below for more information)

Unexplained Fertility Problems

For individuals with unexplained fertility problems, advise them to have regular unprotected vaginal intercourse for 2 years before considering treatment.

Treatment options:

Intrauterine insemination with ovarian stimulation (gonadotrophins)
IVF

Do not offer ovarian stimulation as a stand-alone treatment for unexplained fertility problems.

Assisted Reproductive Technology (ART)

Overview:

Assisted reproductive technology	Description
Intrauterine insemination (IUI)	Prepared sperm is placed directly into the uterine cavity around ovulation to increase the chance of fertilisation (in vivo)
In vitro fertilisation (IVF)	Eggs are collected and fertilised with sperm in the laboratory (in vitro) The embryo is then transferred into the uterus
Intracytoplasmic sperm injection (ICSI)	A specialised form of IVF in which a single sperm is injected directly into an egg to aid fertilisation The main difference is at the fertilisation stage: Standard IVF: eggs and sperm are mixed together in the laboratory to allow fertilisation to occur ICSI: one sperm is selected and artificially injected into the egg
Donor insemination	Donor sperm is used instead of partner sperm Usually performed via IUI, sometimes as part of IVF
Oocyte donation	Donor egg is used, usually part of IVF
Fertility preservation	Eggs, sperm, or embryos are collected, frozen and stored for future use (IUI / IVF)

Indications to Offer ART

Unstimulated Intrauterine Insemination (IUI)

Indications to offer unstimulated IUI (exact wording: NICE recommends offering IUI before considering IVF in the following situations):

People who are unable to have vaginal intercourse due to a physical disability or psychosexual problem
- Physical disability include conditions that affect mobility, positioning, pain, coordination of ability to have intercourse safely (e.g. motor neuron disease, spinal cord injury, multiple sclerosis, cerebral palsy)
- Psychosexual problems include vaginismus, severe dyspareunia, erectile dysfunction, sexual anxiety
Males with azoospermia, where surgical sperm retrieval is not suitable or has been unsuccessful, and who wish to use donor sperm treatment
People using donor insemination who have not conceived after 6 cycles

Unstimulated IUI relies on the woman’s spontaneous ovulation without any fertility medications. The timing of ovulation can be determined by measuring the endogenous LH surge. IUI is then performed shortly after the LH surge.

Stimulated IUI may be used in some specialist settings, which involves administering medications (e.g. clomiphene citrate, letrozole, gonadotropin), early in the menstrual cycle to promote follicular growth. However, this is not the main focus of the current NICE recommendations.

In Vitro Fertilisation (IVF)

Offer IVF if the female is <42 y/o PLUS any of the following:

Treatment for an identified cause of infertility has been unsuccessful or is not suitable
Unexplained infertility, with no conception after 2 years of regular unprotected vaginal intercourse +/- intrauterine insemination
No conception after 12 cycles of artificial insemination, of which at least 6 cycles should be intrauterine insemination

Disclaimer:

The decision to offer IVF is often complex and individualised. It takes into account the patient’s wishes, clinical circumstances, age, fertility factors, likelihood of success, risks, and local service/funding criteria. The points listed above are simplified criteria for when IVF may be considered / when a patient may be eligible for assessment, rather than an automatic guarantee that IVF will be offered.

Basic steps of IVF:

Pre-treatment assessment: fertility history, investigations, ovarian reserve assessment (e.g. AMH / AFC), semen analysis, and treatment planning
Controlled ovarian stimulation: hormonal medication (e.g. gonadotrophins) is used to stimulate the ovaries to develop multiple follicles/eggs in one cycle (rather than the usual single egg)
Prevention of premature ovulation: additional medication (e.g. GnRH antagonist) may be used to prevent ovulation occurring too early during stimulation
Monitoring response: ultrasound scans +/- blood tests are used to assess follicle growth and adjust treatment if needed
Triggering final oocyte maturation: when follicles are ready, a “trigger” medication (typically hCG, or GnRH agonist) is given to complete egg maturation before collection
Egg collection (oocyte retrieval): eggs are collected from the ovaries using a transvaginal ultrasound-guided procedure
Fertilisation in the laboratory: eggs are fertilised with sperm:
1. Standard IVF = eggs + sperm incubated together
2. ICSI = a single sperm injected into an egg
Embryo culture: fertilised eggs develop into embryos in the lab over several days
Embryo transfer: a selected embryo is transferred into the uterus
Luteal support: progesterone is commonly given after egg collection / transfer to support implantation and the early luteal phase
Pregnancy test: performed later to assess treatment success

Intracytoplasmic Sperm Injection (ICSI)

Offer ICSI using surgically retrieved sperm or frozen–thawed oocytes.

Consider IVF with ICSI if:

The male partner has abnormal semen parameters, or
Previous IVF cycles have resulted in failed fertilisation or a very low fertilisation rate
- Note that this refers to failure at the fertilisation stage, rather than any unsuccessful IVF cycle
- ICSI may improve fertilisation when sperm–egg interaction is the issue, but it does not necessarily improve outcomes if failure occurred for other reasons (e.g. poor oocyte quality, poor embryo development, implantation failure, miscarriage)

Note that ICSI is a fertilisation method used within an IVF cycle, not a standalone treatment done independently of IVF. So when ICSI is being considered, it is generally in the context of a couple already undergoing assisted conception with IVF.

Donor Insemination

Indications:

Azoospermia (obstructive and non-obstructive)
Severe deficits in sperm quality, and do not wish to undergo IVF with ICSI

Consider donor insemination in:

High risk of passing a genetic disorder to the child (autosomal dominant and X-linked conditions like hereditary cancer syndromes, Marfan syndrome, Huntington’s disease)
High risk of transmitting infectious disease via the semen to the female partner or child (e.g.. HIV)
Severe rhesus isoimmunisation

Donor insemination is only suitable when the female partner is ovulating and has patent, functional fallopian tubes. These factors should be assessed before treatment.

Donor insemination is mainly used when infertility is related to the male partner.

Oocyte Donation

Indications:

Premature ovarian insufficiency (premature ovarian failure)
Gonadal dysgenesis (e.g. Turner syndrome)
Certain cases of failed IVF

Consider if there is a high risk of passing a genetic disorder to the child

Fertility Preservation

Consider fertility preservation for patients who are about to undergo treatment likely to impair fertility (e.g. gonadotoxic treatment), such as: ^[Ref]

Chemotherapy, particularly higher-risk agents
- Platinum agents (e.g. cisplatin, carboplatin)
- Alkylating agents (e.g. busulfan, cyclophosphamide)
Radiation therapy involving the gonads / hypothalamus / pituitary / uterus
Haematopoietic stem cell transplantation (including conditioning / induction regimens)
Surgery affecting reproductive organs (e.g. orchiectomy, oophorectomy)

Complications of ART

Shared Complications

The single most significant risk is multiple gestation / births (e.g. twins and triplets)

ART also increases the risk of developing other obstetric complications (4Ps): ^[Ref]

Placenta praevia (odds ratio 6.0)
Pre-eclampsia
Placental abruption
Vasa praevia
Stillbirth
Caesarean delivery

OHSS (Ovarian Hyperstimulation Syndrome)

OHSS is an uncommon but serious iatrogenic complication associated with controlled ovarian stimulation during IVF

^[Ref]

Cause	OHSS can occur whenever ovarian stimulation is used, including: IVF +/- ICSI – classic cause and has the highest risk due to the aggressive stimulation protocol Stimulated IUI Oocyte donation Fertility preservation
Pathophysiology	In ovarian stimulation, hormonal medication (e.g. gonadotrophins) is used to stimulate the ovaries to develop multiple follicles When the trigger medication is given (typically hCG), it acts on the multiple follicles to trigger supraphysiologic VEGF secretion VEGF increases capillary permeability → fluid shifts from intravascular to extravascular spaces → intravascular depletion
Risk factors	Previous OHSS Young age PCOS Multiple pregnancies Lean physique
Clinical manifestation	Onset can be early (<9 days of stimulation) or late (>9 days) Mild OHSS Abdominal distension / discomfort Enlarged ovaries Mild nausea and vomiting Mild dyspnoea Severe OHSS can lead to life-threatening complications Fluid shifting → ascites, pleural effusion Intravascular hypovolaemia → shock, AKI, VTE
Diagnosis	Clinical
Management	Prevention is the cornerstone In at-risk patients, use GnRH agonist trigger instead of hCG If OHSS develops, management is primarily supportive