Evaluation of IMPALA 2.0: Addressing Patient Monitoring in Low-Resource Hospitals in Malawi

BACKGROUND Patient monitoring systems (PMSs) are essential for monitoring and managing the condition of critically ill patients. In low-resource settings, limited access to technology, low-level digital literacy, and power outage challenges are usability concerns. The main aim of this study was to e...

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Bibliographic Details
Published in:Medical science monitor 2024-12, Vol.30, p.e945856
Main Authors: Chirambo, Lezzie Douglas, Mulaga, Atupele Ngina, Thengolose, Adamson, Vweza, Alick Onesimus, Bierling, Bart Laurens, Study Team, Impala, Calis, Job
Format: Article
Language:English
Subjects:
Adult
Critical Illness
Female
Health Personnel
Health Resources
Hospitals
Humans
Malawi
Male
Monitoring, Physiologic - methods
Surveys and Questionnaires
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Summary:BACKGROUND Patient monitoring systems (PMSs) are essential for monitoring and managing the condition of critically ill patients. In low-resource settings, limited access to technology, low-level digital literacy, and power outage challenges are usability concerns. The main aim of this study was to evaluate the usability of the IMPALA (Innovative Monitoring in Paediatrics in Low-resource settings: an Aid to save lives) PMS optimized for use in low-resource settings by assessing the opinions and experiences of 24 healthcare professionals. MATERIAL AND METHODS The study used a mixed-method design, combining quantitative and qualitative approaches. Quantitatively, 24 participants (nurses and clinicians) completed the Usefulness, Satisfaction, and Ease of Use questionnaire to assess the PMS usability. Qualitatively, contextual inquiry and co-design sessions provided insights into users' experiences and identified usability issues. Data were analyzed using descriptive statistics and thematic analysis. RESULTS The PMS was rated 9.13 for usefulness, 8.49 for user satisfaction, 7.83 for ease of use, and 7.60 for ease of learning. Reported challenges included lack of knowledge/skills due to limited previous exposure (70.8%), frequent sensor detachment (58.3%), inaccurate SpO₂ readings (37.5%), and frequent/false alarms (33.3%). Contextual inquiry revealed that patient movement and poorly fitting sensors often caused inaccurate readings, leading to false alarms and potential patient safety risks. CONCLUSIONS Successful implementation of PMSs in a low-resource setting requires specific contextual user-centered design and training. Applying this, the IMPALA system yielded high usability scores. Further improvement should focus on expanded battery life, robust and durable SpO₂ sensors, and tailored training methods.
ISSN:1643-3750
1643-3750
DOI:10.12659/MSM.945856