Obtaining patient phenotypes in SARS-CoV-2 pneumonia, and their association with clinical severity and mortality.
Pneumonia (Nathan)
; 16(1): 12, 2024 Jun 25.
Article
em En
| MEDLINE
| ID: mdl-38915125
ABSTRACT
BACKGROUND:
There exists consistent empirical evidence in the literature pointing out ample heterogeneity in terms of the clinical evolution of patients with COVID-19. The identification of specific phenotypes underlying in the population might contribute towards a better understanding and characterization of the different courses of the disease. The aim of this study was to identify distinct clinical phenotypes among hospitalized patients with SARS-CoV-2 pneumonia using machine learning clustering, and to study their association with subsequent clinical outcomes as severity and mortality.METHODS:
Multicentric observational, prospective, longitudinal, cohort study conducted in four hospitals in Spain. We included adult patients admitted for in-hospital stay due to SARS-CoV-2 pneumonia. We collected a broad spectrum of variables to describe exhaustively each case patient demographics, comorbidities, symptoms, physiological status, baseline examinations (blood analytics, arterial gas test), etc. For the development and internal validation of the clustering/phenotype models, the dataset was split into training and test sets (50% each). We proposed a sequence of machine learning stages feature scaling, missing data imputation, reduction of data dimensionality via Kernel Principal Component Analysis (KPCA), and clustering with the k-means algorithm. The optimal cluster model parameters -including k, the number of phenotypes- were chosen automatically, by maximizing the average Silhouette score across the training set.RESULTS:
We enrolled 1548 patients, each of them characterized by 92 clinical attributes (d=109 features after variable encoding). Our clustering algorithm identified k=3 distinct phenotypes and 18 strongly informative variables Phenotype A (788 cases [50.9% prevalence] - age â¼ 57, Charlson comorbidity â¼ 1, pneumonia CURB-65 score â¼ 0 to 1, respiratory rate at admission â¼ 18 min-1, FiO2 â¼ 21%, C-reactive protein CRP â¼ 49.5 mg/dL [median within cluster]); phenotype B (620 cases [40.0%] - age â¼ 75, Charlson â¼ 5, CURB-65 â¼ 1 to 2, respiration â¼ 20 min-1, FiO2 â¼ 21%, CRP â¼ 101.5 mg/dL); and phenotype C (140 cases [9.0%] - age â¼ 71, Charlson â¼ 4, CURB-65 â¼ 0 to 2, respiration â¼ 30 min-1, FiO2 â¼ 38%, CRP â¼ 152.3 mg/dL). Hypothesis testing provided solid statistical evidence supporting an interaction between phenotype and each clinicaloutcome:
severity and mortality. By computing their corresponding odds ratios, a clear trend was found for higher frequencies of unfavourable evolution in phenotype C with respect to B, as well as more unfavourable in phenotype B than in A.CONCLUSION:
A compound unsupervised clustering technique (including a fully-automated optimization of its internal parameters) revealed the existence of three distinct groups of patients - phenotypes. In turn, these showed strong associations with the clinical severity in the progression of pneumonia, and with mortality.
Texto completo:
1
Coleções:
01-internacional
Base de dados:
MEDLINE
Idioma:
En
Revista:
Pneumonia (Nathan)
Ano de publicação:
2024
Tipo de documento:
Article