Abstract
Anemia remains an important global health problem. Inexpensive, accurate, and noninvasive solutions are needed to monitor and evaluate anemia in resource-limited settings. We evaluated the performance of multiple point-of-care hemoglobin devices, including a novel noninvasive smartphone application tested on Apple® and Android® cell phones, Masimo Pronto®, and HemoCue® Hb-301 and Hb-801, against a gold-standard hematology analyzer (reference hemoglobin) using venous blood. We examined correlations between hemoglobin devices and reference hemoglobin, device accuracy (average bias, Bland-Altman plots, clinical performance) and classification bias (sensitivity, specificity) among 299 refugees (10mo-65y) in Atlanta, GA. Semi-structured interviews (n = 19) with participants and staff assessed usability and acceptability. Mean reference hemoglobin was 13.7 g/dL (SD:1.8) with 12.5% anemia. Noninvasive hemoglobin devices were not well correlated with reference hemoglobin (Apple® R2 = 0.08, Android® R2 = 0.11, Masimo Pronto® R2 = 0.29), but stronger correlations were reported with HemoCue® Hb-301 (R2 = 0.87) and Hb-801 (R2 = 0.88). Bias (SD) varied across each device: Apple®: -1.6 g/dL (2.0), Android®: -0.7 g/dL (2.0), Masimo Pronto®: -0.4 g/dL (1.6), HemoCue® Hb-301: +0.4 g/dL (0.7) and HemoCue® Hb-801: +0.2 g/dL (0.6). Clinically acceptable performance (within ± 1 g/dL of reference hemoglobin) was higher for the invasive devices (HemoCue® Hb-301: 90.3%; HemoCue® Hb-801: 93.4%) compared to noninvasive devices (Apple®: 31.5%; Android®: 34.6%; Masimo Pronto®: 49.5%). Sensitivity and specificity were 63.9% and 48.2% for Apple®, 36.1% and 67.6% for Android®, 45.7% and 85.3% for Masimo Pronto®, 54.3% and 97.6% for HemoCue® Hb-301, and 66.7% and 97.6% for HemoCue® Hb-801. Noninvasive devices were considered easy to use and were the preferred method by participants. Among the only studies to compare multiple point-of-care approaches to hemoglobin testing, the diagnostic ability of HemoCue® was comparable to reference hemoglobin, while noninvasive devices had high user acceptability but considerable biases. Improvements in noninvasive device performance and further testing in anemic populations are recommended before broader use.
Highlights
Anemia, characterized by low blood hemoglobin (Hgb) concentrations, is a global health problem that affects approximately 29% of non-pregnant women, 38% of pregnant women, and 43% of children [1, 2]
Refugees often suffer from food insecurity and nutrient deficiencies, and in some cases, moderate to severe anemia affects over 40% of refugee populations [3–5]
Stronger correlations were reported with invasive devices, HemoCue1 Hb-301 (R2 = 0.87) and HemoCue1 Hb-801 (R2 = 0.88)
Summary
Anemia, characterized by low blood hemoglobin (Hgb) concentrations, is a global health problem that affects approximately 29% of non-pregnant women, 38% of pregnant women, and 43% of children [1, 2]. Anemia disproportionately affects underserved populations, including refugee populations from low-resource settings. Refugees often suffer from food insecurity and nutrient deficiencies, and in some cases, moderate to severe anemia affects over 40% of refugee populations [3–5]. DeKalb County is one of the largest resettlement counties in the US where 1 in 5 children are anemic [6]. Anemia screening is recommended as part of the domestic medical screening exam for newly arriving refugees [7]. If not properly diagnosed and treated, anemia may impair cognitive, behavioral and psychomotor development in children; increase risk of preterm birth, low birth weight and neonatal/ maternal mortality in pregnant women; and decrease work capacity and earning potential in adults [8–13]
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