An Adaptive Computational Intelligence Approach to Personalised Health and Immune Age Characterisation from Common Haematological Markers
We introduce a simulated digital model that learns a person's optimal blood health over time. Using a learning adaptive algorithm, our model provides a risk assessment score that compares an individual's chronological age from birth to an estimation of a biological immune age derived from...
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| Format | Journal Article |
| Language | English |
| Published |
02.03.2023
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| Online Access | Get full text |
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| Abstract | We introduce a simulated digital model that learns a person's optimal blood
health over time. Using a learning adaptive algorithm, our model provides a
risk assessment score that compares an individual's chronological age from
birth to an estimation of a biological immune age derived from the score. We
demonstrate its efficacy against real and synthetic data from medically
relevant cases, extreme cases, and empirical blood cell count data from 100K
data records in the Centers for Disease Control and Prevention's National
Health and Nutrition Examination Survey (CDC NHANES) that spans 13 years. We
find that the score is informative when distinguishing healthy individuals from
those with diseases, both self-reported and abnormal blood tests manifested,
providing an entry-level score for patient triaging. We show that, by analyzing
an individual's Full Blood Count (FBC) or Complete Blood Count (CBC), test
results over time allows us to calculate an immune age score that correlates
with chronological age. The immune age score, derived solely from popular
hematological markers, can be widely used to serve purposes of precise
healthcare, and predictive medicine. |
|---|---|
| AbstractList | We introduce a simulated digital model that learns a person's optimal blood
health over time. Using a learning adaptive algorithm, our model provides a
risk assessment score that compares an individual's chronological age from
birth to an estimation of a biological immune age derived from the score. We
demonstrate its efficacy against real and synthetic data from medically
relevant cases, extreme cases, and empirical blood cell count data from 100K
data records in the Centers for Disease Control and Prevention's National
Health and Nutrition Examination Survey (CDC NHANES) that spans 13 years. We
find that the score is informative when distinguishing healthy individuals from
those with diseases, both self-reported and abnormal blood tests manifested,
providing an entry-level score for patient triaging. We show that, by analyzing
an individual's Full Blood Count (FBC) or Complete Blood Count (CBC), test
results over time allows us to calculate an immune age score that correlates
with chronological age. The immune age score, derived solely from popular
hematological markers, can be widely used to serve purposes of precise
healthcare, and predictive medicine. |
| Author | Hernández-Quiroz, Francisco Zenil, Hector Hernández-Orozco, Santiago Uthamacumaran, Abicumaran Saeb-Parsy, Kourosh |
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| BackLink | https://doi.org/10.48550/arXiv.2303.01444$$DView paper in arXiv |
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| Snippet | We introduce a simulated digital model that learns a person's optimal blood
health over time. Using a learning adaptive algorithm, our model provides a
risk... |
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| SubjectTerms | Quantitative Biology - Quantitative Methods |
| Title | An Adaptive Computational Intelligence Approach to Personalised Health and Immune Age Characterisation from Common Haematological Markers |
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