STROKE

What is stroke?

A stroke is sudden damage to blood vessels in the brain that causes symptoms lasting for more than 24 hours (most usually paralysis affecting one side of the body and/or speech difficulties). If such an event clears up spontaneously within less than 24 hours, it is termed a transient ischaemic attack (TIA). The majority of strokes in Western countries (about 85 per cent) are ischaemic strokes, which result from arterial blockage by a blood clot (Figure 1) or detached plaque from elsewhere in the circulation (see Atherosclerosis). Most of the rest are a result of brain haemorrhage (bleeding from a ruptured blood vessel into the brain), and in this type of stroke there may be severe headache and vomiting, as well as paralysis and speech difficulties.

Brain damage in stroke is caused by a reduction in the oxygen supply to the brain and chemical changes resulting from it. The brain consumes oxygen at a high rate, but has no oxygen reserve. Hence, it is entirely dependent on a continuous blood supply through the carotid and vertebral arteries.

There is a more insidious side to strokes. Many people experience a series of mild ischaemic strokes over a period of years. These may be unnoticed - silent ischaemia - or cause transient symptoms, but over time the accumulated damage is responsible for about 25 per cent of cases of senile dementia.

Who does stroke affect and what does it cost?

More than 130,000 people a year suffer a stroke in England and Wales and 60,000 die of cerebrovascular disease, making stroke the third most common cause of death, after heart disease and cancer. Between 15-20 per cent of people experiencing a stroke die within a month. Of those that survive, some do not regain the full use of their faculties. More than 300,000 people in the UK are believed to live with moderate to severe disability as a result of a stroke.

Although stroke can affect younger people, it is largely a disease of older age (Figure 2) and 85 per cent of strokes are in the over-65s. It is well recognised that there are risk factors for stroke apart from age. The clearest is high blood pressure (see Hypertension), while smoking, heavy drinking and diabetes also play a part.

Strokes are estimated to have cost the NHS over £2.8 billion in direct costs in 2004, being responsible for over 2.6 million beddays of hospital care in 2003/04. In addition, informal care costs have been estimated at £2.4 billion and indirect costs due to loss of income and disability benefit payments at £1.8 billion, giving a total cost to society of £7 billion year due to strokes.

Present treatments and shortcomings

Medical treatment for stroke has two different objectives:

• emergency treatment to limit damage in the hours and days following an acute stroke
• prevention of a first or subsequent stroke (over a long period).

Emergency treatment is complicated by the fact that there are two different causes of stroke (clots and haemorrhage), which may be difficult to distinguish in the initial clinical examination. Brain scanning by computed tomography or magnetic resonance imaging is needed to distinguish between these, but is not always available. A therapy suitable for a clot-induced stroke (for example, clot-busting and 'blood thinning' medicines) would be potentially harmful in a haemorrhagic stroke, as it might make the bleeding worse and cause even greater brain damage. For this reason, medicines (heparins and fibrinolytics such as streptokinase and urokinase) that are available for use in heart attack, deep vein thrombosis and post-operative prevention (see Ischaemic Heart Disease and Thrombosis) are generally not indicated for use in stroke in the UK. Only one, the 'clot-buster' enzyme alteplase (Actilyse, Boehringer Ingelheim), is currently available for acute management of stroke, and this may only be used where haemorrhagic stroke has been ruled out by brain imaging.

Prevention of stroke includes both minimising risk factors, for example by treating high blood pressure, and the long-term use of medication that can prevent the development of ischaemic stroke. Daily low-dose aspirin reduces platelet stickiness and decreases the risk of recurrent stroke by about 15 per cent. Clopidogrel (Plavix, sanofi-aventis and BMS) and dipyridamole (Persantin Retard, Boehringer Ingelheim) are other anti-platelet agents also available for this purpose. Anti-platelet medicines are not used in those who have had a haemorrhagic stroke.

Some antihypertensives, such as ACE-inhibitors and angiotensin receptor blockers, have been shown to prevent heart attacks and stroke in those with established cardiovascular disease. Statins have also been shown to reduce the risk of stroke, but have not been explicitly indicated for this purpose. Atrial fibrillation (see Cardiac Arrhythmia) carries a high risk of stroke, and many people with this condition will be given anticoagulation treatment with warfarin to minimise this risk.

What's in the development pipeline?

Emergency treatment of ischaemic stroke seeks to restore circulation to affected brain areas as far as possible, to limit the extent of nerve cell death, and thus preserve brain function. Several companies have projects to develop alternative clot-digesting agents. At Phase 3, these include ImaRx Therapeutics's PROLYSE, ancrod (Viprinex, Neurobiological Technologies), which is derived from Malaysian viper venom, and desmoteplase (Paion/Lundbeck/Forest Labs), based on a protein originally isolated from the saliva of vampire bats. At the Phase 2 stage is V10153 (Vernalis), which is expected to both dissolve an existing clot and prevent new clots from forming.

Brain cell stress in acute stroke results from oxygen and energy deprivation. It is thought to lead to accumulation of the neurotransmitter glutamate and a massive influx of sodium and calcium ions into neuronal cells. This leads to activation of calcium-dependent enzymes, the generation of damaging reactive molecules such as free radicals, and the initiation of programmed cell death (apoptosis). Many attempts have been made to stop this toxic 'glutamate cascade' by treatment with neuroprotectants that act on one or other step in the process. However, although this has been achieved in animal models, human trials have so far largely failed to show clinical benefit, perhaps partly because of inevitable delays in starting treatment (more than three hours after the event), by which time damage may be irreversible.

Despite earlier disappointments, several companies have potential medicines to protect nerve cells in development. At Phase 2, D Pharm has the calcium-binding compound DP-b99 and Paion is working on enecadin, a blocker of sodium and calcium channels. Taking a different approach are Daiichi-Sankyo, which has piclozotan in Phase 2 trial, and Ono and Merck Sharp & Dohme, who are investigating a compound (ONO-2506) that modulates the activity of astrocytes - cells which surround and support nerve cells in the brain. Ono is also conducting a Phase 1 study of ONO-2231 for this indication.

Stroke prevention is also still a focus of development, particularly in the context of atrial fibrillation. The most advanced projects here are dabigatran etexilate (RENDIX, Boehringer Ingelheim), idraparinux (sanofi-aventis) and a modified form of idraparinux (SSR 126517, sanofi-aventis), which are all in Phase 3 trial. Bayer has BAY 59-7939 (rivaroxaban) in Phase 2 trial and Solvay is studying SB 424323 (odiparcil) at the same stage. GSK also has GSK 813893 in a Phase 1 study and Trigen has TGN 167 at this stage.

Further trials of anti-platelet medicines for stroke prevention are also continuing. Boehringer Ingelheim is comparing the combination of extended-release dipyramidole plus aspirin (Asasantin Retard) with clopidogrel (Plavix, sanofi-aventis). The study will also test whether addition of the angiotensin receptor blocker telmisartan (Micardis) can further reduce stroke risk in patients who have already had one stroke. In a different setting, Eli Lilly is testing the ability of the anti-platelet agent prasugrel to prevent strokes in people with acute coronary syndrome (heart attack or unstable angina) undergoing angioplasty.

Lastly, there are new developments too in treating haemorrhagic stroke. Novo Nordisk is running a Phase 3 trial of its NovoSeven, which has shown evidence in earlier Phase 2 trials of an ability to limit the extent of bleeding into the brain if administered within three hours of stroke onset. Evidence of a reduction in post-stroke disability in this setting would be a very welcome step forward.

FOR FURTHER INFORMATION CONTACT:

THE STROKE ASSOCIATION
Stroke House, 240 City Road
London, EC1V 2PR
Phone: 0845 303 3100 (Helpline)
Website: www.stroke.org.uk