New Software Improves Healthcare Delivery in Africa
Georgia Tech implements digital data tracking system in developing African countries
School of Computer Science Distinguished Professor Santosh Vempala (front, right) in Cameroon with a team that implemented the Basic Laboratory Information System (BLIS) software in one of the country's health clinics. Cameroon is one of three African nations, along with Uganda and Tanzania, participating in a pilot implementation of BLIS.
Researchers from the Georgia Tech College of Computing, working in partnership with the Centers for Disease Control and Prevention (CDC), have developed a digital data tracking system to assist low-resource clinical laboratories in developing countries.
Sub-Saharan Africa suffers from some of the greatest health challenges in the world, making the need for efficient healthcare delivery especially vital. However, most hospitals and labs in the region use paper logs and manual entries for tracking data, methods that take up valuable time and are prone to errors and loss of data. In an effort to increase efficiency and allow more patients to be tested accurately, a team led by Professor Santosh Vempala in the School of Computer Science developed the Basic Laboratory Information System (BLIS).
During a six-month pilot implementation in three hospital labs in Cameroon, BLIS accounted for a 66 percent decrease in errors and a 50 percent reduction in employee workload. This led to significantly reduced waiting times, allowing twice as many patients to get tested daily as compared to pre-BLIS operations.
“BLIS is easy to use and intuitive,” Sidney Atah, BLIS project coordinator in Cameroon, said. “When configuring the software, you control the behavior and appearance of the system without modifying the program.”
Built from freely available, open-source components, BLIS digitizes the traditional data tracking system, resulting in a sustainable program that tracks specimens, results and workflow. Unlike similar software from commercial providers, BLIS is extremely cost-effective, works on limited resources, and requires virtually no training. Additionally, the system is designed to work effectively in countries with very little IT infrastructure and limited connectivity.
“Integrating data tracking software in these labs has been difficult in the past, mainly due to high costs and the failure of other system providers to incorporate the varying needs of labs and hospitals from different countries and cultures,” said Vempala, a professor in Georgia Tech’s School of Computer Science. “We wanted to design an extremely configurable system that would adapt to fit the needs of its users in order to improve workflow and patient care.”
Instead of following a one-size-fits-all approach, BLIS was designed to enable each lab or country to customize and configure the system in a way that suits them best. The digital program seeks regular feedback from users and then incorporates this feedback through system updates, resulting in a program that evolves with the needs of the lab.
Over the past year, BLIS has been implemented in nine laboratories across three African countries: Cameroon, Tanzania and Uganda. Vempala and his team have worked with local lab technicians, representatives from each country’s ministry of health and local implementing partners to integrate BLIS into various labs across the three countries.
Dr. Maurice Mouladje, lab director for Buea Regional Hospital in Cameroon, says BLIS has had a positive impact on both patients and staff. Physicians are able to attend to patients promptly, and BLIS provides flexibility in lab technician workload. Similarly, Atah notes that BLIS’s reach goes beyond increased efficiency and accuracy.
“BLIS has added confidence and hope in the quality of results and the ability of our institutions to provide quality care to patients,” Atah says. “It makes me feel like nothing is impossible to achieve; it is our African dream.”
By early 2012, Vempala and his team of Georgia Tech graduate students, Amol Shintre, Akshay Phalnikar and Anu Nair, plan to expand BLIS to labs in Ghana, in addition to incorporating the software in more clinics in Cameroon, Tanzania and Uganda. In the next year, he hopes to make BLIS available to any lab in the developing world, which will also include access to local technical support for a minimal fee.
BLIS is a part of Georgia Tech’s Computing for Good (C4G) initiative, which applies computing to social causes to improve quality of life around the world. For more information about BLIS, including user feedback and access to the software, visit: http://blis.cc.gatech.edu.
About the Georgia Tech College of Computing
The Georgia Tech College of Computing is a national leader in the creation of real-world computing breakthroughs that drive social and scientific progress. With its graduate program ranked ninth nationally by U.S. News and World Report, the College’s unconventional approach to education is defining the new face of computing by expanding the horizons of traditional computer science students through interdisciplinary collaboration and a focus on human-centered solutions. For more information about the Georgia Tech College of Computing, its academic divisions and research centers, please visit http://www.cc.gatech.edu.