Alkaptonuria (AKU) is an ultra-rare autosomal recessive disease caused by a mutation in the homogentisate 1,2-dioxygenase gene. One of the main obstacles in studying AKU and other ultra-rare diseases, is the lack of a standardized methodology to assess disease severity or response to treatment. Based on that, a multi-purpose digital platform, called ApreciseKUre, was implemented to facilitate data collection, integration and analysis for patients affected by AKU. It includes genetic, biochemical, histopathological, clinical, therapeutic resources and Quality of Life (QoL) scores that can be shared among registered researchers and clinicians to create a Precision Medicine Ecosystem. The combination of machine learning applications to analyse and re-interpret data available in the ApreciseKUre clearly indicated the potential direct benefits to achieve patients’ stratification and the consequent tailoring of care and treatments to a specific subgroup of patients. In order to generate a comprehensive patient profile, computational modeling and database construction support the identification of potential new biomarkers, paving the way for more personalized therapy to maximize the benefit-risk ratio. In this work, different Machine Learning implemented approaches were described:

Visibelli, A., Cicaloni, V., Spiga, O., Santucci, A. (2022). Computational Approaches Integrated in a Digital Ecosystem Platform for a Rare Disease. FRONTIERS IN MOLECULAR MEDICINE, 2 [10.3389/fmmed.2022.827340].

Computational Approaches Integrated in a Digital Ecosystem Platform for a Rare Disease

Anna Visibelli;Vittoria Cicaloni;Ottavia Spiga;Annalisa Santucci
2022-01-01

Abstract

Alkaptonuria (AKU) is an ultra-rare autosomal recessive disease caused by a mutation in the homogentisate 1,2-dioxygenase gene. One of the main obstacles in studying AKU and other ultra-rare diseases, is the lack of a standardized methodology to assess disease severity or response to treatment. Based on that, a multi-purpose digital platform, called ApreciseKUre, was implemented to facilitate data collection, integration and analysis for patients affected by AKU. It includes genetic, biochemical, histopathological, clinical, therapeutic resources and Quality of Life (QoL) scores that can be shared among registered researchers and clinicians to create a Precision Medicine Ecosystem. The combination of machine learning applications to analyse and re-interpret data available in the ApreciseKUre clearly indicated the potential direct benefits to achieve patients’ stratification and the consequent tailoring of care and treatments to a specific subgroup of patients. In order to generate a comprehensive patient profile, computational modeling and database construction support the identification of potential new biomarkers, paving the way for more personalized therapy to maximize the benefit-risk ratio. In this work, different Machine Learning implemented approaches were described:
2022
Visibelli, A., Cicaloni, V., Spiga, O., Santucci, A. (2022). Computational Approaches Integrated in a Digital Ecosystem Platform for a Rare Disease. FRONTIERS IN MOLECULAR MEDICINE, 2 [10.3389/fmmed.2022.827340].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11365/1220782
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