Cipla recently brought together doctors and blood cancer experts for an academic summit to talk about an advanced cancer treatment called CAR‑T cell therapy, and what it could mean for people in Africa in the future.
CAR‑T cell therapy is a form of personalised medicine in which a person’s own immune cells are collected and modified in a specialised laboratory so they can better recognise and attack certain blood cancers. It is used in some countries for patients with specific types of lymphoma and leukaemia when other treatments have not worked. It is only available in a few highly specialised hospitals around the world.
The cost challenge
In the same way that quality, affordable antiretrovirals changed HIV from a fatal disease to a chronic condition in the early 2000s, one of the biggest challenges now is to make CAR-T cell therapy more widely accessible as costs are prohibitively expensive.
CAR‑T cell therapy remains complex and expensive to deliver, and the cost of treatment is a major barrier to access worldwide. In many high‑income countries, the cost of a single CAR‑T treatment can reach the equivalent of hundreds of thousands of US dollars per patient. In South Africa, high‑complexity cellular and stem cell procedures can cost in the order of millions of rand per patient, which means such therapies are beyond the reach of most people in both public and private sectors.
Paul Miller, CEO of Cipla Africa, said: “Treatment costs are a major hurdle for patients. Efforts to develop scientifically rigorous, clinically validated CAR‑T therapies at more sustainable costs could, in future, be very important for patients across Africa.”
Miller added: “Globally, there is increasing focus on making cutting‑edge therapies more accessible. By developing local expertise and manufacturing capabilities, countries can reduce reliance on expensive imports and work toward lowering costs over time.”
How CAR-T cell therapy works
If a patient is eligible, CAR‑T treatment usually starts with collecting some of their white blood cells through a process similar to donating blood. In a special laboratory, these cells are genetically modified so that they can better recognise and target cancer cells. The cells are then multiplied and later given back to the patient in a single infusion.
Studies in other countries have shown that CAR‑T therapy can help some patients with difficult‑to‑treat blood cancers achieve long‑lasting remissions. However, it does not work for everyone and can cause serious side effects, so patients must be treated and monitored in experienced centres.
CAR‑T cell therapy has evolved over several decades, and current research focuses on improving precision, safety, scalability and global accessibility, with the aim of making these treatments available to more patients across more cancer types in future.
Equitable access
Africa carries a heavy burden of both infections and cancer. South Africa, for example, has one of the largest populations of people living with HIV in the world, and these patients have a higher risk of certain blood cancers. This makes access to good‑quality, proven cancer care especially important.
People living with HIV face an increased risk of B‑cell malignancies, including aggressive lymphomas, making the need for effective and equitable cancer care all the more pressing.
Even though cancer treatment has improved a lot in Europe, North America and Asia, most patients in low‑ and middle‑income countries still do not have access to the newest therapies. The main barriers are high cost, the need for advanced laboratories and equipment.
Medical experts with deep clinical experience in environments from South Africa, Morocco and India contributed to the academic programme, bringing a global perspective to an African challenge and sharing important lessons learned.
The promise of CAR-T cell therapy
CAR‑T cell therapy has shown encouraging results in certain relapsed or refractory blood cancers, with some patients achieving deep and durable responses. Internationally, thousands of patients have now received CAR‑T treatment in approved centres.
Gene and cell therapies are subject to strict regulations and rigorous quality standards in many countries. In addition to cost, logistics and the “vein‑to‑vein” traceability chain are important factors that health systems must be equipped to manage.
“Cipla is committed to partnering with healthcare professionals, policymakers and institutions to chart a clear and equitable path for CAR-T therapy access across Africa, ensuring that the most vulnerable patients are not left behind in the next chapter of cancer care,” said Miller.
