The charity has revealed that, in Warley, there are now more than 589 selfless people willing to donate their stem cells, or bone marrow, to save the life of a stranger. In total, more than half a million people are currently on the Anthony Nolan register and the average per constituency is 905.
Now, John Spellar MP is encouraging more 16 to 30-year-olds to sign up. Hesays it is particularly important that young men and people from ethnic minorities join the register as they are currently under-represented.
The blood cancer charity Anthony Nolan created the world’s first stem cell donor register, and has been saving lives for over four decades by matching remarkable people willing to donate their bone marrow or stem cells to patients in desperate need of a transplant. It also carries out pioneering research to increase stem cell transplant success, and supports patients through their transplant journeys.
Anthony Nolan wants to give people the very best chance of life by finding the best possible match for them. But the charity can currently only find a perfect match for 60 per cent of transplant recipients, so they still urgently need more people to come forward.
John Spellar MP said:
“I am delighted that 589 people in Warley are registered on the Anthony Nolan stem cell register. It is fantastic to see that there are so many heroic and selfless people in the constituency.
I hope that more local people will also now be inspired to sign up and to become potential lifesavers for people in desperate need.”
Ann O’Leary, Head of Register Development at Anthony Nolan, said:
“We are delighted that John Spellar MP has been inspired to encourage others to sign up as donors. Donating is an incredibly selfless thing to do and will give someone with blood cancer the best possible chance of survival. What many people don’t realise is that it is also surprisingly simple.”
To join the Anthony Nolan register you must be 16-30 and in good health. It involves filling out a simple online form and spitting into a tube. About 90% of people who are asked to donate will do so through a process similar to giving blood.
The charity needs supporters of all ages to champion the register at a local level and help us spread the word – from schools, communities and workplaces to your own friends and family. To find out how you can help, go to www.anthonynolan.org/communitiesvscancer
About Anthony Nolan
Anthony Nolan saves the lives of people with blood cancer. The charity uses its register to match potential stem cell donors to blood cancer and blood disorder patients in need of stem cell transplants. It also carries out pioneering research to increase stem cell transplant success, and supports patients through their transplant journeys. Every day Anthony Nolan gives three people a second chance at life. Find out more at www.anthonynolan.org
What is a stem cell transplant?
If a patient has a condition that affects their bone marrow or blood, then a stem cell transplant may be their best chance of survival. Doctors will give new, healthy stem cells to the patient via their bloodstream, where they begin to grow and create healthy red blood cells, white blood cells and platelets.
- About 2,000 people in the UK need a stem cell transplant from a stranger every year
- 90% of donors donate through PBSC (peripheral blood stem cell collection). This is a simple, outpatient procedure similar to giving blood
- We need more young men to sign up, as they are most likely to be chosen to donate but make up just 15% of the register
- We need more people from Black, Asian and minority ethnic (BAME) backgrounds to sign up. Only 60% of transplant recipients receive the best match. This drops dramatically to around 20% (one in five of transplant recipients) if you're from a Black, Asian or ethnic minority background.
- It costs £60 to add each new donor to the register so we always need financial support
- To join the Anthony Nolan register, you must be 16-30 and healthy. Anthony Nolan’s world-leading Research Institute has shown younger donors offer better outcomes for patients.