Each year, the number of new cases and deaths from cancer, heart disease, dementia, and other non-infectious diseases continues to rise in resource-constrained regions of the world. In the next two decades, three-quarters of all deaths from these conditions will be in the Global South.
The reason for this disparity is complex. For example, the lack of infrastructure, skilled personnel, and robust policy required to provide adequate care in Africa contributes to its outsized disease burden.
“In Canada, death rates for many of these conditions is decreasing thanks to better detection and disease management through diagnostic imaging,” saysUdunna Anazodo, PhD, and William Dawson Scholar and Assistant Professor of Neurology and Neurosurgery at The Neuro. “However, in many regions of the world, diagnostic imaging is simply not available. This lack of access means higher death rates.”
For example, says Anazodo, Quebec has some 102 magnetic resonance imaging (MRI) systems – routinely used in cancer care and in researching complex diseases – to serve a population of less than nine million people. In contrast, West Africa, has fewer than 90 scanners for 370 million people. Some countries, like Togo, have no MRI systems.
Improving access
In 2022, Anazodo led ain conjunction with thethat assessed the challenges of MRI capacity in Africa and introduced a framework to improve access.
A year later, a pilot capacity building program was setup to send graduate students from The Neuro to Africa to help increase imaging access. Between June and September 2023, Neuro students travelled to Nigeria, Rwanda, Kenya, Tanzania, and South Africa, supported by the 山ǿ Graduate and Postdoctoral StudiesDoctoral Internship Program (DIP)ԻGraduate Mobility Awards (GMA). The DIP and GMA funds students to embark on experiential learning activities across the world.
Working in partnership with CAMERA, the students provided hands-on skills training for two CAMERA projects launched in 2023; Sprint Artificial Intelligence Training for African Medical Imaging Knowledge Translation () and Scan With Me ().
Lighting the SPARK
The SPARK 2023 team in Rwanda during the one-week brain Hackathon in July 2023 with students from 山ǿ and The Neuro, Juan Duran and Yujing Zou
From April to August 2023, SPARK trained 70 African students and medical residents from 15 African countries on artificial intelligence (AI) skills for medical imaging. The pilot SPARK program led by theLab at Lagos, Nigeria taught African researchers how to develop AI tools for detecting brain lesions.
Six medical physics students fromand Prof.Shirin Abassi Nejad Enger’s laboratory at 山ǿ’s Gerald Bronfman Department of Oncology, along with other Canadian graduate, taught computer programming basics; ran the first; and supervised 10 teams in creating new AI solutions. The teams participated in an International Brain Tumor Segmentation Challenge, with teams from Africa participating for the first time.
The SPARK teams, supported byԻ, presented their work at the 26th International Conference onin Vancouver. One of the methods –– took the second-best AI model prize in a sub-challenge. Together, the SPARK program, created eight AI models and showcased this at international and regional conferences including at themeeting in Ghana. These models can be freely downloaded on the SPARKin keeping with 山ǿ’s Open Science best practices.
Unlocking the power of experience
In August 2023, Prof.Matthias Friedrich, Head of theat 山ǿ Health Centre, partnered with,, Crestview Radiology, Lagos, Nigeria, on two-month pilot SWiM program to improve scanning techniques and the image quality produced on the limited infrastructures in the region.
Katrina Eyre (PhD) at Crestview Radiology, in Lagos in September 2023
The program trained 43 imaging experts across 16 countries in Africa and the Global South. Katerina Eyre, an Experimental Medicine PhD student; Harrison Aduluwa, an MSc student in the Integrated Program in Neuroscience at The Neuro; and a team ofproviding hands-on training on acquisition best practices, focusing on cardiac MRI.
The DIP and GMA supported Eyre ‘s travel to Lagos to scan with imaging centers and from there train others. This included implementation of her advanced cardiac MRI techniques developed during her PhD.
At end of the training, the imaging specialists gained experience in producing diagnostic-quality images at significantly reduced scan time and acquired the skills to collaborate effectively with colleagues at 山ǿ and around the world in cardiac MRI research. The optimized cardiac MRI protocols created by SWiM participants are available on the program’sfor anyone in resource-constrained settings to use. This work was presented at recentGlobal Conference and theAccessibility Workshop.
What lies ahead
Together, SPARK and SWiM are steadily building a sustainable ecosystem for diagnostic imaging to thrive in Africa. The two programs will be scaled up inwith expansion to other regions of the world. These are excellent opportunities for 山ǿ labs and graduate students to lead innovations in global health.
“Any researcher, clinician, resident, student, or post-doctoral trainee working in any aspect of imaging from engineering of devices to data acquisition, analysis, and diagnostic applications across disciplines are invited to join in democratizing diagnostic imaging to expand diversity and close disparity gaps,” says Anazodo.
“Thanks to the DIP and GMA funding support, students will continue to benefit from knowledge sharing, form deep collaborations in Africa, and gain leadership skills that will prepare them to be world-class academics.”
DzԳٲUdunna Anazodo(The Neuro, 山ǿ),to learn how to participate.
Reposted with permission. This article was originally published byHarrison Aduluwa for