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Neurosurgery for brain tumours

Posted Jan 30 2012 6:28am

This article provides an informative overview of the various types of tumours found in adults and children. It gives advice on the symptoms and treatments for various brain tumours and will be of help to anyone seeking the latest neurosurgical treatments.

Brain tumours can be divided into primary brain tumours (those that arise from the brain itself) and secondary (those that spread from a cancerAbnormal, uncontrolled cell division resulting in a malignant tumour that may invade surrounding tissues or spread to distant parts of the body. somewhere else in the body). The latter are more common. Primary brain tumours almost never spread out from the central nervous systemThe network of nerves, which are bundles of nerve fibres carrying information in the form of electrical impulses..

There are between 5–15 primary brain tumours per 100,000 population. This accounts for 5–10% of all cancers in all age groups, and probably 30–40% of tumours in children.

It is now well recognised that patients with brain tumours (and their family) do best if managed by a group of doctors, both medical and surgical, who have a particular interest in the management of brain tumours. This is known as a tumour Multidisciplinary Team (MDT). All patients with brain tumours should receive highly individualised care that delivers not only the best treatment possible for the patient but treatment that is appropriate to the patient’s and family’s psychological and emotional needs.

Tumours usually present in one of three ways: headaches (54%), progressiveContinuously increasing in extent or severity. neurological Associated with the nervous system and the brain. deficit (68%) or seizures (26%).

The headaches are related to raised pressure inside the brain. The classical description is of early morning headaches, often over the forehead, which is present when the person wakes up. The headache usually settles by the afternoon. Many patients also complain of nausea or vomitingExpusion of the contents of the stomach through the mouth..

Any neurological deficit will depend on the site of the tumour. The most common deficit seen is a weakness (frontal tumour). Some patients may have numbness (parietal tumours), problems with speech (dominant temporalA medical term meaning of or near the temples. tumours), visualRelating to the sense of sight (vision). problems (temporal, parietal or occipital tumours) or a change in personality (frontal tumours). Certain tumours present in a very specific fashion, i.e. endocrine problems with a pituitaryA gland deep in the brain that produces several hormones controlling the production of other hormones throughout the body tumour.

Seizures (epileptic fits) occurring for the first time in an adult must be investigated with an urgent scan. The types of fits seen in patients with tumours vary from classical grand mal seizures where the patient loses consciousness, shakes, may be incontinent and bite their tongue, to focal seizures which may cause a temporary loss of function. In patients with a tumour in the movement area they may lose movement in one arm for a short period of time which then spontaneously recovers.

This refers to tumours that have arisen from the brain itself rather than having spread from somewhere else in the body (metastatic tumours).

Primary brain tumours are divided into tumours that arise from within the brain itself, so called intra-axial tumours, and those that arise from the lining of the brain, usually meningiomas.

The astrocytomas are the most common primary brain tumours seen in adults. They arise from cells in the brain known as astrocytes, which function to nourish and support the brain cells. There are no known risk factors for these tumours, and although they occur across all age ranges, they are more likely to be highly malignantDescribes a tumour resulting from uncontrolled cell division that can invade other tissues and may spread to distant parts of the body. in the older population.

Grading of Astrocytomas

Both tumour type and grade have an important impact on survival. The type and grade of a tumour is confirmed by assessing biopsyThe removal of a small sample of cells or tissue so that it may be examined under a microscope. The term may also refer to the tissue sample itself. specimens under the microscope (histology). Astrocytomas are classified from World Health Organisation (WHO) Grade I to WHO Grade IV tumours. Whilst Grade I tumours require only surgical treatment, Grade IV tumours may require radiotherapy and chemotherapyThe use of chemical substances to treat disease, particularly cancer. in addition to surgery.

Treatment of Astrocytomas

The treatment of brain tumours depends on many variables. The location, size and extent of the tumour will often determine which treatment may be most beneficial. Younger patients and those who are generally well (self caring) have a better outcome than older patients or those who have neurological deficits.

There are no hard and fast rules for the treatment of these tumours and each patient's treatment is individually tailored to his or her needs. The rationale for surgery may vary from one patient to another, as may the use of radiotherapy or chemotherapy.

These are also classified as primary brain tumours though in fact they come from the lining of the brain. When small they can often just be monitored or treated with radiosurgery (see below) without the need for open surgery. Most medium-sized or larger meningiomas will require open surgery and this is best done by neurosurgeons who specialise in the treatment of brain tumours and who have access to the latest techniques including image guidance, a computerised navigation system which guides the surgeon precisely to the tumour.


The role of surgery may be diagnostic or therapeutic. Some patients may not be suitable for surgery.

The location and extent of a tumour may make it unsuitable for removal, in which case a biopsy may be performed to confirm the diagnosisThe process of determining which condition a patient may have.. A biopsy removes a small piece of the tumour so it may be examined under the microscope. When performing a biopsy it is vital to use image guidance or a stereotactic frame as it is undoubtedly the safest way to perform a brain biopsy.

If the tumour is in a relatively "silent" part of the brain or if it so large that it is causing symptoms or raised pressure in the brain, it may be debulked. The aim is to safely reduce the volume of the tumour. A craniotomySurgical removal of a part of the skull. is performed with image guidance or with the help of a stereotactic frame. For primary malignant tumours the aim should be to use the latest fluorescent tumour-labelling techniques (Gliolan©) to ensure the most effective tumour removal possible and instill intratumoral chemotherapy (Gliadel Wafers©) at the time of surgery if possible.

Image Guidance

In many ways this is like GPS in the operating theatre. A highly detailed scan is obtained just prior to surgery which is then processed to produce a 3D image of the patient’s brain and skull that the surgeon uses to guide them precisely to the tumour location. This helps to reduce the risk of brain injury and increases the possibility of complete tumour removal. The technique also allows for the incision on the scalp to be as small as possible. Like all such advanced techniques this is best done by someone with extensive and frequent experience.


Gliolan is a dye that is taken as a drink several hours prior to surgery and in specially selected cases allows the surgeon to see the tumour light up as bright red using a microscope fitted with a special filter. This technique significantly increases the chances of complete tumour removal which has a direct effect on survival. Only those surgeons who have been specifically trained to use this technique are allowed to perform such operations.


In those cases where a primary brain tumour has been successfully removed it may be desirable to perform chemotherapy at the time of surgery to ensure maximal survival benefit for the patient. This is done using biodegradable wafers impregnated with chemotherapy that slowly dissolve once inserted into the cavity left following tumour removal. The national guidelines are very clear in the UK that such an operation should only be performed by a neurosurgeon who spends 50% of his or her time treating patients with brain tumours.

Radiotherapy and Chemotherapy

When appropriate, patients are treated using the latest radiotherapy and chemotherapy techniques. All patients regardless of the treatment they receive have ongoing follow up under the auspices of the MDT to ensure the best possible outcome for both patient and family.


This is a technique that uses highly focused beams of radiationEnergy in the form of waves or particles, including radio waves, X-rays and gamma rays. to destroy a tumour or an abnormal knot of bloodA fluid that transports oxygen and other substances through the body, made up of blood cells suspended in a liquid. vessels. The treatment is thus performed without the need for open surgery and is usually given as a single outpatient treatment.

Only certain tumours are suitable for radiosurgery and any decisions concerning radiosurgery are best made by a group of surgeons and oncologists with considerable experience in the area.

Gamma Knife© or CyberKnife©

The Gamma Knife© has the advantage of being a well-established and studied technique but it requires that the patient’s head is fixed in a frame with pins to ensure accuracy. The need for a frame (which can be uncomfortable) and the fact that most of the spine cannot be treated using the Gamma Knife© are potential disadvantages of the technique.

The CyberKnife© has the disadvantage of being a less well-established and studied technique but does not require that the patient’s head is immobilised and is able to treat lesions in the rest of the body, outside of the head including the spine.

From a biological standpoint, both treatments have an identical impact on the tumour and appear to be equally effective. For this reason, in ideal circumstances a doctor offering such treatments should have access to both modalities of radiosurgery.

Thanks to the ever increasing survival seen in patients with cancer, effective treatment of tumours that have spread to the brain has now become vital and again it is well recognised that such tumours are best treated by neurosurgeons who specialise in the treatment of tumours. All modalities of treatment ranging from a biopsy, open surgery, to whole brain radiotherapy and radiosurgery are considered.

Although brain tumours are rare in childhood, they are now the commonest solid cancer seen in children in the UK. There are 300 new cases in the UK every year. To achieve the best outcome for both the patient and their family, care must be delivered by a team of dedicated paediatric neurosurgeons, oncologists and paediatricians. The London Neurosurgery Partnership has assembled such a team from across the leading centres of paediatric cancer care across London.

  • Medulloblastoma (PNET)
  • Ependymoma
  • Pilocytic astrocytomas
  • Other rare tumours (DNET, gangliogliomas)
  • Headaches, usually early morning settling by afternoon.
  • Nausea and vomiting.
  • Fits or seizures.
  • Focal neurological deficit (weakness of limb or numbness).
  • Balance problems (falling to one side or shaky hand).
  • Increasing head size (babies from 0–18 months).
  • Failure to put on weight.
  • Regression of milestones (such as a child losing the ability to walk or sit upright).

If there is any question of a neurological problem in a child then a CTThe abbreviation for computed tomography, a scan that generates a series of cross-sectional x-ray images and MRIAn abbreviation for magnetic resonance imaging, a technique for imaging the body that uses electromagnetic waves and a strong magnetic field. scan is mandatory. For babies under six months the scan can be done under oral sedation. Beyond six months children will need a general anaestheticAny agent that reduces or abolishes sensation, affecting the whole body. (GA) for a scan and from 6–12 years old one may be able to MRI the child without any sedation or GA.

The scan will reveal the tumour, its location, its size and any associated hydrocephalusExcess levels of fluid within the brain..

  • Admission to a neurosurgical unit.
  • All children must have a brain and spine MRI on diagnosis.
  • Blood should be sent for tumour markersSubstances released by various tumours that may be detected in the blood.
  • Commence treatment with dexamethasone (steroid to decrease swelling around brain).
  • Urgent treatment of hydrocephalus (shunt or ventriculostomy or removal of tumour).
  • The case should be discussed by the specialist team (see above).
  • A plan should be made for excisionThe removal of a piece of tissue or an organ from the body. or biopsy if appropriate.
  • Some tumours may be treated with chemotherapy or radiotherapy as a first line.

The brain and spine are hollow and contain fluid known as cerebro-spinal fluid (CSFcerebrospinal fluid). The cavities in the brain containing the fluid are known as ventricles.

This fluid also surrounds the brain and spine. The CSFCerebrospinal fluid. The fluid surrounding the brain and spinal cord. protects the brain from impact on the skull and also nourishes the brain. The adult brain produces around 500 ml of fluid per day, however the capacity for the fluid in the brain is only 125 ml. Thus the fluid is produced and circulates around the brain and then is reabsorbed into the blood. The brain keeps the situation of fluid production and re-absorption in balance so that there is a constant amount of fluid around the brain. Any mechanism which disrupts this balance can cause too much fluid within the brain. This is known as hydrocephalus. In general terms hydrocephalus can occur when too much fluid is produced, the circulation of fluid is blocked, or not enough fluid is reabsorbed into the bloodstream. This condition tends to be most common in children because the tumours that occur in children tend to grow next to critical parts of the fluid chambers.

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