دراسة: اكتشاف سرطان الدم عن طريق التنفس

Results from a new study conducted by researchers from Queen Mary University in England revealed that the particles exhaled may help in detecting blood cancer, providing a quick and low-cost method for disease detection.

The researchers of the study published in the journal Hemasphere stated: "The new testing options that are faster, less expensive, and non-invasive may help in the early diagnosis of blood cancers when the chances of treatment success are greater, and they can also assist in monitoring the disease and tracking the effectiveness of treatments."

Dr. John Riches, a clinical researcher at the Barts Cancer Institute at Queen Mary University in London, said in a statement today: "Previous studies have shown the importance of using breath tests to detect lung cancer, but no one has previously investigated whether blood cancer cells release particles that can be detected through breathing, even though the purpose of breathing is to exchange materials with the blood."

Diagnosing blood cancers can be challenging because early symptoms are often nonspecific, such as fatigue and weight loss, and diagnosis typically relies on specialized tests such as medical imaging or biopsies (samples of body tissues), which can be expensive or difficult to obtain in some areas.

The researchers noted that the new tool could be particularly useful in areas where access to specialized equipment or expertise is limited.

Dr. Riches and his team have demonstrated for the first time that breath testing can help us detect blood cancers, using breath biopsy, a technique for analyzing chemicals in the breath.

The team collected breath samples from 46 individuals with blood cancer and 28 healthy individuals, then analyzed the chemical fingerprint of the breath, searching for tens of thousands of particles using a technique called mass spectrometry.

The researchers showed that individuals with high-grade lymphoma, an aggressive type of blood cancer affecting the lymphatic system, had significantly elevated levels of certain particles in their breath compared to healthy individuals.

The researchers emphasized that further research is now needed to enable the development of an effective breath test for blood cancer, noting that the team will work on gaining a better understanding of the biology that regulates the production of airborne particles detected in patients' breath, and identifying the types of lymphoma that can be more reliably detected using this method. This would help in developing more specific and sensitive tests, and the researchers hope to shorten the current time required to collect a breath sample from 10 minutes to just a few seconds.

Dr. Riches commented on this, saying: "In the future, instead of sending patients for expensive tests and waiting for results, doctors may be able to conduct a quick breath test in their clinics and possibly get results within a few seconds."