@article{MRA, author = {Manjit Dosanjh and Taofeeq Ige and Joseph Bateman and Alexander Jenkins and Deepa Kalinin and Peter McIntosh and C. Coleman and Donna O’Brien and David Pistenmaa and Eugenia Wendling and Saad Khoudri and Higidio Eduardo and Surbhi Grover and Remigio Makufa and Anne Marthe Mayeh and Samba Ndi and Tofangui Ouattara and Ehab Attalla and Khaled El-Shahat and Eskadmas Belay and Rolland Kayende and George Acquah and Hubert Foy and Francis Hasford and Eric Addison and Ejidio Ngigi and Fadwa Badi and Fairoze El Tashani and Tovo Harivony and Aphousalle Kone and Moussa Cheibetta and Seeven Mootoosamy and Salwa Boutayeb and Ainadine Momade and Melanie Grobler and Wilfred Midzi and Simeon Aruah and Hassan Ibrahim and Kenneth Nwankwo and Joel Kra and Magatte Diagne and Graeme Lazarus and Ayron Rule and Chris Trauernicht and Fawzia Elbashir and Wad Madani and Hellen Makwani and Leila Farhat and Mounir Besbes and Kavuma Awusi and Mutule Kanduza and Godfrey Azangwe and Lawrence Mhatiwa and Edwin Mhukayesango and Jamal Khader and Santo Filice and Gordon Chan and Stephen Breen and Rebecca Wong and Ivan Yeung and Jacques Bernier and Ajay Aggarwal and Ajay Aggarwal and Robert Apsimon and Frank van den Heuvel and Jose Villareal-Barajas and Natalie Thorp and Richard Hugtenburg and Boris Militsyn and Eric Klein and Scot Remick and Daniel Petereit and Harmar Brereton}, title = { Tackling the radiotherapy shortage in Sub-Saharan Africa by gathering and using data from Lower-Middle-Income and High-Income Countries’ facilities for designing a future robust radiotherapy facility}, journal = {Medical Research Archives}, volume = {12}, number = {8}, year = {2024}, keywords = {}, abstract = {Purpose: Historically, highly sophisticated medical linear accelerators (linacs) frequently experience significant additional operational failures in low- and lower-middle-income countries (LMICs) than in high-income countries (HICs). This study focuses on LMICs in Africa where there is a substantial equipment shortfall, projected to be a gap by 2040 of about 5000 linacs. The purpose of this study was to gain an insight into the poor performance of linac components, the unreliable infrastructure often encountered in LMICs and the consequent linac-related treatment downtime. Methods and Materials: A questionnaire to obtain information on linac performance and repair experiences was sent to at least one cancer center in each of the 28 African countries that had experience treating cancer patients with linacs at the time of the survey (4 more countries have acquired linacs since we completed this survey). For comparison, questionnaires were also sent to selected facilities in four high-income countries (Canada, Switzerland, UK, US) and to Jordan, a middle-income country. To investigate factors influencing linac downtime, we first utilised flow diagrams to illustrate the dependence of linac subsystem performance on infrastructural/environmental factors, the availability of spare parts and local repair capability. Secondly, a univariate analysis correlated linac downtime with factors such as method of linac fault diagnosis and staffing. Finally, a multivariate analysis investigated the relationship between Gross Domestic Product (GDP) per capita and cancer mortality to incidence ratio statistics and compared these with the surveyed linac downtime across low-, middle- and high-income countries. Results: Responses to the survey confirmed significant multi-factorial issues that influence the extent of linac downtime especially the performance of multi-leaf collimators, electron guns, vacuum systems, RF power and software. Other challenges include electrical power instability, inadequate national funding (GDP/capita), and workforce capability as well as a significant shortfall in formal education and training programmes for the radiation therapy (RT) workforce. Conclusion: This survey identified numerous modes of RT equipment failure causing treatment downtime in LMICs that can be overcome by improvements in the design of RT technology but they need to be accompanied by increased RT staff training, improved broadband access and increased annual national funding for RT. The collaborative network of linac-based RT facilities in 28*African countries that was developed to conduct this study is available for further investigations as RT capacity and capability improve in Africa.    }, issn = {2375-1924}, doi = {10.18103/mra.v12i8.5530}, url = {https://esmed.org/MRA/mra/article/view/5530} }