Health Technologies

Gene-editing therapy for sickle cell ‘offers hope of a cure’ for NHS patients

NHS patients with sickle cell disease will be able to benefit from a groundbreaking gene-editing treatment that offers the prospect of a cure for the condition.

The one-off gene therapy, known as exagamglogene autotemcel (or ‘exa-cel’), has been approved for use on the NHS in England by the National Institute for Health and Care Excellence for older children and adults with a severe form of sickle cell disease.

Clinical trials suggest exa-cel can stop painful and unpredictable sickle cell crises – the most common symptom of sickle cell disease – where blood vessels become blocked causing severe pain, with experts saying the therapy offers patients a chance of disease-free life.

Researchers concluded there was a ‘functional cure’ in 96.6 per cent of exa-cel trial participants that received it.

NHS chief executive, Amanda Pritchard, said: “More than a step, this is a leap in the right direction for people with sickle cell disease – which can be an extremely debilitating and painful condition.

“This innovative, gene-editing therapy offers hope of a cure for people facing a severe form of the disease and could be absolutely transformative – it could enable patients to live free from the fear of sickle cell crises hanging over them.

“It is just the latest in a series of revolutionary gene therapies NHS England has secured for patients, and we are funding this new treatment option straight away so patients can benefit from the enhanced quality of life it offers.”

Before the availability of this new one-time treatment, the disease had required lifelong treatment regimens, greatly impacting on quality of life, with people suffering from chronic pain, fear of sickle cell crises, hospitalisation, and shortened life expectancy, and many patients describe it as ‘looming over their daily lives’.

In clinical trials, all patients who received exa-cel also avoided a hospitalisation for a year following treatment – and almost 98 per cent had still avoided hospitalisation around 3.5 years later.

According to NHS data, there were just over 32,000 hospital admissions in England in 2023-24 for sickle cell disorders.

Almost 14,000 of these admissions were admissions for sickle cell anaemia crises.

A survey from the Sickle Cell Society found in the past 2 years, before the availability of exa-cel, a quarter (24 per cent) of people with sickle cell disease had spent 1-2 weeks in hospital.

The treatment will be offered at specialist NHS centres in London, Manchester and Birmingham, and follows a deal in August 2024 for the NHS to access exa-cel for eligible patients with transfusion dependent beta-thalassaemia.

It will be available for eligible patients who are 12 years and older who experience recurrent sickle cell crises and would be suitable for a stem cell transplant but where a donor is not available.

Minister for Public Health, Andrew Gwynne, said: “People living with rare conditions like sickle cell disease face immense challenges, not least accessing tailored therapies for their symptoms.

“This groundbreaking treatment is a fantastic example of how, by harnasing the power of technology, the UK is leading the world in offering patients the latest treatments for a wide range of conditions.

“By offering a treatment that could allow patients to live a life free of debilitating illness, we will give people with conditions like sickle cell disease more freedom and independence, all whilst protecting vital NHS emergency services.”

In England, there are around 15,000 people living with sickle cell disease – an inherited blood disorder, with 250 new cases a year.

It mainly affects people from Black African and Black Caribbean backgrounds.

In sickle cell disease, a gene mutation causes red blood cells to become irreversibly sickle shaped, which can lead to haemolytic anaemia – a blood condition that occurs when your red blood cells are destroyed faster than they are replaced.

Over a long period, the disorder can cause severe organ damage and intense pain if damaged red blood cells block vessels and restrict oxygen supply, which can also lead to strokes and heart failure.

Exa-cel uses Nobel Prize-winning CRISPR technology to enable the editing a gene in a patient’s bone marrow stem cells so that the body produces functioning haemoglobin.

Blood stem cells are removed from a patient’s body and edited in a laboratory using CRISPR technology. The treated cells are then returned to the patient via an infusion.

It is estimated that around 50 patients, suitable for a stem cell transplant but without a matched donor, will receive the cutting-edge treatment each year.

Around half the number of children and adults with sickle cell disease receive a stem cell transplant on the NHS each year.

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