Brain Tumours in Adults

NICE guideline [NG99] Brain tumours (primary) and brain metastases in over 16s. Last updated: Jan 2021.

Article Last Updated:04/06/2026

Brain Tumours in Adults

Brain tumours in adults include primary brain tumours, such as meningiomas, gliomas and glioblastoma, and secondary brain tumours, also known as brain metastases.

This updated UKMLA guide to brain tumours in adults is based primarily on NICE NG99, which covers primary vs secondary tumours, causes, risk factors, symptoms, diagnosis, and management.

Disclaimer:

Brain tumours are a highly specialist topic. This article provides a simplified, exam-focused overview and intentionally omits many specialist details, including detailed molecular classification and tumour-specific treatment protocols. NICE guidance contains detailed neuro-oncology recommendations; therefore, this article focuses on key shared clinical features, general investigation and management principles, and selected additional information on the most common tumour types relevant to medical students and junior doctors.

Overview and Types

In adults, the most common type of brain tumour is secondary brain tumours (brain metastasis) ^[Ref]

Most common types of primary brain tumours: ^[Ref]

Meningiomas are the most common primary brain tumour overall (~35% of all primary brain tumours)
- Meningiomas are mostly benign and low-grade
Gliomas are the most common malignant brain tumour
- Glioblastoma is the most common and aggressive type (~15% of all primary brain tumours and 45% of all malignant primary brain tumours)

Classifying Types of Brain Tumour

This section provides a simplified overview to aid understanding and does not cover the full classification of brain tumours.

Brain tumours are commonly described using two main questions:

How aggressive is it? (using grade 1-4)
What cell / tissue does it arise from? (using tumour type)

Grading and tissue of origin are related, but are independent classification systems.

1. Tumour grading:

Grade 1-2 = low grade = slower growing and less aggressive
Grade 3-4 = high grade = faster growing and more aggressive

Important: low-grade does not mean harmless, as even slow-growing brain tumours can cause serious symptoms due to mass effect, raised ICP or compression of important structures.

2. Cell / tissue of origin:

Gliomas (tumours arising from glial / supporting cells of the CNS) – umbrella term covering:
- Astrocytoma
- Oligodendroglioma
- Ependymoma
- Glioblastoma (an aggressive grade 4 astrocytic glioma)
Non-gliomas
- Meningioma
- Pituitary tumour (see the Pituitary Tumours article for more information)
- Vestibular schwannoma
- Medulloblastoma (mainly in children)

Primary Brain Tumour

Causes and Risk Factors

Exposure to ionising radiation (e.g. CT head, radiation therapy) is the only identified environmental factor

Follows a dose-response relationship
Most commonly results in meningiomas

There is NO increased risk of developing brain tumours from mobile phone use.

Risk factors: ^[Ref1]^[Ref2]

Advancing age
- Mean age of diagnosis for meningioma = 65 y/o
- Mean age of diagnosis for glioblastoma = 64 y/o
Family history
Cancer predisposition syndromes
- Li Fraumeni syndrome
- Neurofibromatosis type 1
- Lynch syndrome, Cowden syndrome
- Von Hippel-Lindau-Syndrome

Clinical Features

Low-grade brain tumours (e.g. meningiomas) often present with progressive or subacute neurological symptoms. The classic triad of:

New-onset unprovoked seizures (most common initial presentation seen in 58% of low-grade gliomas)
Focal neurological deficits and cognitive decline
Headache – less common in low-grade tumours
- Classic ‘brain tumour headache’: mild at onset, starts upon waking, disappears shortly after arising (but only present in 25-33% of patients)

Up to 10% of cases are asymptomatic and discovered incidentally during brain imaging for unrelated reasons

Focal neurological deficit patterns depend on the location of the tumour. High yield summary:

Tumour location	Symptom pattern
Frontal lobe	Personality / behavioural change Executive dysfunction
Temporal lobe	Receptive dysphasia Memory symptoms Seizures
Parietal lobe	Sensory loss Neglect Calculation or writing difficulty
Occipital lobe	Visual field defects
Cerebellum	Ataxia Broad-based gait Nystagmus Slurred speech

High-grade tumours (e.g. glioblastoma) often present acutely where symptoms develop rapidly (over hours to weeks):

Headache – significantly more common in high-grade tumours than low-grade tumours
Focal neurological deficits (due to aggressive brain infiltration or oedema)
- Motor weakness (seen in ~20% patients)
- Aphasia / language difficulties (seen in ~20% patients)
- Visual disturbances
Cognitive and behavioural decline
Seizures – less common as an initial presenting symptom compared to low-grade tumours

High-grade brain tumours can cause intra-tumoural haemorrhage

Investigation and Diagnosis

Initial work up: neuroimaging

1st line: MRI brain
- If MRI is contraindicated → CT head
Further imaging
- Consider advanced MRI techniques (e.g. MR perfusion, MR spectroscopy) for low-grade tumours on standard MRI to assess the potential of a high-grade transformation
- Consider CT imaging if bone involvement is suspected with a meningioma

Neuroimaging findings: ^[Ref1]^[Ref2]

General brain tumour features	Space-occupying lesion with surrounding oedema May exert mass effect (e.g. midline shift) Contrast enhancement
Meningioma features	Extra-axial Mass attached to the dura (arises outside the brain parenchyma and compresses adjacent brain) Classic hallmark: dural tail Well-circumscribed and homogeneously enhancing mass May cause adjacent skull hyperostosis or calcification (mainly seen on CT)
Glioblastoma features	Intra-axial (found within the brain parenchyma, often supratentorial) Irregular thick ring enhancement with heterogeneous enhancement Central necrosis Marked surrounding oedema and mass effect May cross the corpus callosum giving a “butterfly glioma” pattern

Tissue biopsy is NOT always required, and depends on multiple factors:

If the disease is resectable → proceed straight to resection
If the disease is non-resectable → consider biopsy for histological and molecular diagnosis
If imaging shows a very low-grade tumour → consider active monitoring without a histological diagnosis

Specialist testing (simplified):

Brain tumour classification is now increasingly based on molecular testing as well as histology. Molecular markers allow classification of gliomas, prognosis prediction and guide treatment.

Some examples of recommended molecular testing for gliomas:

IDH mutation – presence is associated with a better prognosis
1p/19q codeletion – supports diagnosis of oligodendroglioma
MGMT promoter methylation – informs prognosis and guides treatment decisions

Management

Management is individualised and planned by a specialist neuro-oncology MDT. The exact approach depends on tumour type, grade, location, resectability, symptoms, patient fitness and patient preference.

Primary brain tumour	Key management approach
Meningioma	Initial approach: ^[Ref] Asymptomatic tumour / incidental finding → active monitoring Symptomatic / rapidly growing tumour → surgery for both diagnostic and therapeutic purposes If surgery is performed, post-resection management depends on the grade and extent of surgical excision: High-grade = always offer radiotherapy +/- further surgery if incompletely excised Low-grade Completely resected = active monitoring +/- radiotherapy Incompletely resected = radiotherapy or further surgery or active monitoring If surgery was not possible or declined, consider either active monitoring or radiotherapy across all grades Chemotherapy plays very little role in the management of meningiomas.
Low-grade gliomas	Initial approach: Surgical resection is the preferred initial management Exception: a very low-grade tumour (e.g. optic pathway gliomas) on MRI can be managed with active monitoring without a tissue diagnosis If surgery is performed, post-resection management depends on a risk assessment: Low risk (<40 y/o + no residual tumour + IDH-mutated) = active monitoring High-risk (>40 y/o OR residual tumour on MRI) = radiotherapy followed by chemotherapy
Glioblastoma	Initial approach: Surgical resection is the preferred initial management If a resection is not safely possible → perform a biopsy If surgery is performed, post-resection management depends mainly on the patient’s age and the patient’s performance status / overall health (measured using the Karnofsky performance status): Good performance status = radiotherapy + chemotherapy (temozolomide) >70 y/o + poor performance status = supportive care alone (palliative)

Primary brain tumour

Key management approach

Meningioma

Initial approach: ^[Ref]

Asymptomatic tumour / incidental finding → active monitoring
Symptomatic / rapidly growing tumour → surgery for both diagnostic and therapeutic purposes

If surgery is performed, post-resection management depends on the grade and extent of surgical excision:

High-grade = always offer radiotherapy +/- further surgery if incompletely excised
Low-grade
- Completely resected = active monitoring +/- radiotherapy
- Incompletely resected = radiotherapy or further surgery or active monitoring

If surgery was not possible or declined, consider either active monitoring or radiotherapy across all grades

Chemotherapy plays very little role in the management of meningiomas.

Low-grade gliomas

Initial approach:

Surgical resection is the preferred initial management
Exception: a very low-grade tumour (e.g. optic pathway gliomas) on MRI can be managed with active monitoring without a tissue diagnosis

If surgery is performed, post-resection management depends on a risk assessment:

Low risk (<40 y/o + no residual tumour + IDH-mutated) = active monitoring
High-risk (>40 y/o OR residual tumour on MRI) = radiotherapy followed by chemotherapy

Glioblastoma

Initial approach:

Surgical resection is the preferred initial management
If a resection is not safely possible → perform a biopsy

If surgery is performed, post-resection management depends mainly on the patient’s age and the patient’s performance status / overall health (measured using the Karnofsky performance status):

Good performance status = radiotherapy + chemotherapy (temozolomide)
>70 y/o + poor performance status = supportive care alone (palliative)

Key management principles for acute complications: ^[Ref1]^[Ref2]

↑ ICP → dexamethasone
Acute seizure → manage as Status Epilepticus if necessary
- Common practice: non-liver enzyme-inducing antiepileptic drug (avoid phenytoin, carbamazepine) due to risk of interacting with necessary medications like chemotherapy
- Primary seizure prophylaxis is NOT recommended
Hydrocephalus → VP shunt

Patients with brain tumours (esp. gliomas) have a very high risk of developing VTE ^[Ref]

Routine long-term prophylaxis is NOT recommended
VTE prophylaxis (e.g. LMWH with mechanical methods) should be started peri-operatively
If VTE do develop → treat with LMWH

Secondary Brain Tumours (Brain Metastases)

Secondary brain tumours occur from systemic cancer spreading to the brain parenchyma.

Causes

Common primary cancers that metastasise to the brain: ^[Ref]

Lung cancer and breast cancer – most common
Melanoma (most likely malignant to present with synchronous brain metastases)
Kidney cancer

Clinical Features

Clinical presentation is basically the same as primary brain tumours. The classic triad of:

Headache
- Classic ‘brain tumour headache’: mild at onset, starts upon waking, disappears shortly after arising (but only present in 25-33% of patients)
New-onset unprovoked seizures
Focal neurological symptoms

Also, cognitive or behavioural impairment depending on the location of the tumour (see the primary tumour clinical features section above for more details)

If the cancer has spread to the cerebrospinal fluid and the inner membranes of the brain and spinal cord (Leptomeningeal metastases), it typically presents with obstructive hydrocephalus and ↑ ICP.

Investigation and Diagnosis

Initial test: MRI brain

Brain metastases classically appear as multiple, well-circumscribed contrast-enhancing lesions, often at the grey-white matter junction
A solitary brain metastasis can occur, so a single lesion does not exclude metastatic disease
They may show ring enhancement, especially if there is central necrosis

Staging is necessary with extra-cranial imaging to assess for the primary cancer (including whether it’s controlled or progressing)

Management

Treatment decisions are highly personalised and take into account the primary tumour site and molecular profile, whether the extracranial disease is controlled, the number and volume of the brain metastases, and the patient’s performance status.

Single brain metastasis

Consider maximal local therapy:

Surgery, or
Stereotactic radiosurgery, or
Stereotactic radiotherapy

If treated with ANY of the above, do NOT offer adjuvant whole-brain radiotherapy.

Multiple brain metastases

For those with good performance status and extracranial disease is controlled:

Stereotactic radiosurgery, or
Stereotactic radiotherapy

Whole-brain radiotherapy can be considered, but requires a careful discussion with the patient regarding potential benefits (tumour stabilisation) versus harms (short-term quality of life deterioration, temporary hair loss, and the potential for accelerated cognitive loss)

Key management principles for acute complications: ^[Ref1]^[Ref2]

↑ ICP → dexamethasone
Acute seizure → manage as Status Epilepticus if necessary
- Common practice: non-liver enzyme-inducing antiepileptic drug (avoid phenytoin, carbamazepine) due to risk of interacting with necessary medications like chemotherapy
- Primary seizure prophylaxis is NOT recommended
Hydrocephalus → VP shunt