Your search keyword '"Nath, Tanmay"' showing total 9 results

1. Early predictive values of clinical assessments for ARDS mortality: a machine-learning approach.

Author

Ding N, Nath T, Damarla M, Gao L, and Hassoun PM

Subjects

Humans, Male, Female, Retrospective Studies, Middle Aged, Prognosis, Aged, Algorithms, Adult, Predictive Value of Tests, ROC Curve, Respiratory Distress Syndrome mortality, Respiratory Distress Syndrome diagnosis, Machine Learning

Abstract

Acute respiratory distress syndrome (ARDS) is a devastating critical care syndrome with significant morbidity and mortality. The objective of this study was to evaluate the predictive values of dynamic clinical indices by developing machine-learning (ML) models for early and accurate clinical assessment of the disease prognosis of ARDS. We conducted a retrospective observational study by applying dynamic clinical data collected in the ARDSNet FACTT Trial (n = 1000) to ML-based algorithms for predicting mortality. In order to compare the significance of clinical features dynamically, we further applied the random forest (RF) model to nine selected clinical parameters acquired at baseline and day 3 independently. An RF model trained using clinical data collected at day 3 showed improved performance and prognostication efficacy (area under the curve [AUC]: 0.84, 95% CI: 0.78-0.89) compared to baseline with an AUC value of 0.72 (95% CI: 0.65-0.78). Mean airway pressure (MAP), bicarbonate, age, platelet count, albumin, heart rate, and glucose were the most significant clinical indicators associated with mortality at day 3. Thus, clinical features collected early (day 3) improved performance of integrative ML models with better prognostication for mortality. Among these, MAP represented the most important feature for ARDS patients' early risk stratification., (© 2024. The Author(s).)

Published

2024

2. DXA measured body composition predicts blood pressure using machine learning methods.

Author

Nath T, Ahima RS, and Santhanam P

Subjects

Absorptiometry, Photon, Adipose Tissue physiology, Humans, Reproducibility of Results, Blood Pressure physiology, Body Composition, Hypertension, Machine Learning

Published

2020

3. Resistin predicts disease severity and survival in patients with pulmonary arterial hypertension

Author

Gao, Li, Skinner, John, Nath, Tanmay, Lin, Qing, Griffiths, Megan, Damico, Rachel L., Pauciulo, Michael W., Nichols, William C., Hassoun, Paul M., Everett, Allen D., and Johns, Roger A.

Published

2024

4. Role of Artificial Intelligence in Radiogenomics for Cancers in the Era of Precision Medicine.

Author

Saxena, Sanjay, Jena, Biswajit, Gupta, Neha, Das, Suchismita, Sarmah, Deepaneeta, Bhattacharya, Pallab, Nath, Tanmay, Paul, Sudip, Fouda, Mostafa M., Kalra, Manudeep, Saba, Luca, Pareek, Gyan, and Suri, Jasjit S.

Subjects

TUMOR genetics, TUMOR treatment, THERAPEUTICS, COMPUTERS in medicine, DEEP learning, ARTIFICIAL intelligence, INDIVIDUALIZED medicine, CANCER relapse, MACHINE learning, DIAGNOSTIC imaging, GENOMICS, TUMORS, PREDICTION models, PROGRESSION-free survival, PHENOTYPES

Abstract

Simple Summary: Recently, radiogenomics has played a significant role and offered a new understanding of cancer's biology and behavior in response to standard therapy. It also provides a more precise prognosis, investigation, and analysis of the patient's cancer. Over the years, Artificial Intelligence (AI) has provided a significant strength in radiogenomics. In this paper, we offer computational and oncological prospects of the role of AI in radiogenomics, as well as its offers, achievements, opportunities, and limitations in the current clinical practices. Radiogenomics, a combination of "Radiomics" and "Genomics," using Artificial Intelligence (AI) has recently emerged as the state-of-the-art science in precision medicine, especially in oncology care. Radiogenomics syndicates large-scale quantifiable data extracted from radiological medical images enveloped with personalized genomic phenotypes. It fabricates a prediction model through various AI methods to stratify the risk of patients, monitor therapeutic approaches, and assess clinical outcomes. It has recently shown tremendous achievements in prognosis, treatment planning, survival prediction, heterogeneity analysis, reoccurrence, and progression-free survival for human cancer study. Although AI has shown immense performance in oncology care in various clinical aspects, it has several challenges and limitations. The proposed review provides an overview of radiogenomics with the viewpoints on the role of AI in terms of its promises for computational as well as oncological aspects and offers achievements and opportunities in the era of precision medicine. The review also presents various recommendations to diminish these obstacles. [ABSTRACT FROM AUTHOR]

Published

2022

5. Machine learning approach to predicting albuminuria in persons with type 2 diabetes: An analysis of the LOOK AHEAD Cohort.

Author

Khitan, Zeid, Nath, Tanmay, and Santhanam, Prasanna

Subjects

*HYPERTENSION, *GLOMERULAR filtration rate, *RESEARCH, *RESEARCH methodology, *EVALUATION research, *TYPE 2 diabetes, *COMPARATIVE studies, *ALBUMINURIA, *DISEASE complications

Abstract

Albuminuria and estimated glomerular filtration rate (e-GFR) are early markers of renal disease and cardiovascular outcomes in persons with diabetes. Although body composition has been shown to predict systolic blood pressure, its application in predicting albuminuria is unknown. In this study, we have used machine learning methods to assess the risk of albuminuria in persons with diabetes using body composition and other determinants of metabolic health. This study is a comparative analysis of the different methods to predict albuminuria in persons with diabetes mellitus who are older than 40 years of age, using the LOOK AHEAD study cohort-baseline characteristics. Age, different metrics of body composition, duration of diabetes, hemoglobin A1c, serum creatinine, serum triglycerides, serum cholesterol, serum HDL, serum LDL, maximum exercise capacity, systolic blood pressure, diastolic blood pressure, and the ankle-brachial index are used as predictors of albuminuria. We used Area under the curve (AUC) as a metric to compare the classification results of different algorithms, and we show that AUC for the different models are as follows: Random forest classifier-0.65, gradient boost classifier-0.61, logistic regression-0.66, support vector classifier -0.61, multilayer perceptron -0.67, and stacking classifier-0.62. We used the Random forest model to show that the duration of diabetes, A1C, serum triglycerides, SBP, Maximum exercise Capacity, serum creatinine, subtotal lean mass, DBP, and subtotal fat mass are important features for the classification of albuminuria. In summary, when applied to metabolic imaging (using DXA), machine learning techniques offer unique insights into the risk factors that determine the development of albuminuria in diabetes. [ABSTRACT FROM AUTHOR]

Published

2021

6. Body fat predicts exercise capacity in persons with Type 2 Diabetes Mellitus: A machine learning approach.

Author

Nath, Tanmay, Ahima, Rexford S., and Santhanam, Prasanna

Subjects

*TYPE 2 diabetes, *FAT, *MACHINE learning, *BODY composition, *DUAL-energy X-ray absorptiometry, *CARDIOVASCULAR diseases risk factors, *ACCOUNTING software

Abstract

Diabetes mellitus is associated with increased cardiovascular disease (CVD) related morbidity, mortality and death. Exercise capacity in persons with type 2 diabetes has been shown to be predictive of cardiovascular events. In this study, we used the data from the prospective randomized LOOK AHEAD study and used machine learning algorithms to help predict exercise capacity (measured in Mets) from the baseline data that included cardiovascular history, medications, blood pressure, demographic information, anthropometric and Dual-energy X-Ray Absorptiometry (DXA) measured body composition metrics. We excluded variables with high collinearity and included DXA obtained Subtotal (total minus head) fat percentage and Subtotal lean mass (gms). Thereafter, we used different machine learning methods to predict maximum exercise capacity. The different machine learning models showed a strong predictive performance for both females and males. Our study shows that using baseline data from a large prospective cohort, we can predict maximum exercise capacity in persons with diabetes mellitus. We show that subtotal fat percentage is the most important feature for predicting the exercise capacity for males and females after accounting for other important variables. Until now, BMI and waist circumference were commonly used surrogates for adiposity and there was a relative under-appreciation of body composition metrics for understanding the pathophysiology of CVD. The recognition of body fat percentage as an important marker in determining CVD risk has prognostic implications with respect to cardiovascular morbidity and mortality. [ABSTRACT FROM AUTHOR]

Published

2021

7. Artificial intelligence may offer insight into factors determining individual TSH level.

Author

Santhanam, Prasanna, Nath, Tanmay, Mohammad, Faiz Khan, and Ahima, Rexford S.

Subjects

*THYROTROPIN, *ARTIFICIAL intelligence, *MULTILAYER perceptrons, *MACHINE learning, *BODY mass index, *SUPPORT vector machines, *PERIODIC health examinations, *COMPARATIVE studies

Abstract

The factors that determine Serum Thyrotropin (TSH) levels have been examined through different methods, using different covariates. However, the use of machine learning methods has so far not been studied in population databases like NHANES (National Health and Nutritional Examination Survey) to predict TSH. In this study, we performed a comparative analysis of different machine learning methods like Linear regression, Random forest, Support vector machine, multilayer perceptron and stacking regression to predict TSH and classify individuals with normal, low and high TSH levels. We considered Free T4, Anti-TPO antibodies, T3, Body Mass Index (BMI), Age and Ethnicity as the predictor variables. A total of 9818 subjects were included in this comparative analysis. We used coefficient of determination (r2) value to compare the results for predicting the TSH and show that the Random Forest, Gradient Boosting and Stacking Regression perform equally well in predicting TSH and achieve the highest r2 value = 0.13, with mean absolute error of 0.78. Moreover, we found that Anti-TPO is the most important feature in predicting TSH followed by Age, BMI, T3 and Free-T4 for the regression analysis. While classifying TSH into normal, high or low levels, our comparative analysis also shows that Random forest performs the best in the classification study, performed with individuals with normal, high and low levels of TSH. We found the following Areas Under Curve (AUC); for low TSH, AUC = 0.61, normal TSH, AUC = 0.61 and elevated TSH AUC = 0.69. Additionally, we found that Anti-TPO was the most important feature in classifying TSH. In this study, we suggest that artificial intelligence and machine learning methods might offer an insight into the complex hypothalamic-pituitary -thyroid axis and may be an invaluable tool that guides us in making appropriate therapeutic decisions (thyroid hormone dosing) for the individual patient. [ABSTRACT FROM AUTHOR]

Published

2020

8. A simple computer vision pipeline reveals the effects of isolation on social interaction dynamics in Drosophila.

Author

Linneweber, Gerit A., Claeys, Annelies, Liu, Guangda, Hassan, Bassem A., Sneyders, Manu, Nicasy, Hans, Scheunders, Paul, Nath, Tanmay, De Backer, Steve, Weyn, Barbara, Guo, Zhengyu, Li, Jin, Yu, Peng, and Bengochea, Mercedes

Subjects

ISOLATION (Philosophy), DROSOPHILA, SOCIAL isolation, FRUIT flies, GENE expression, CHARTS, diagrams, etc., ANIMAL behavior

Abstract

Isolation profoundly influences social behavior in all animals. In humans, isolation has serious effects on health and disease. Drosophila melanogaster is a powerful model to study small-scale, temporally-transient social behavior. However, longer-term analysis of large groups of flies is hampered by the lack of effective and reliable tools. We built a new imaging arena and improved the existing tracking algorithm to reliably follow a large number of flies simultaneously. Next, based on the automatic classification of touch and graph-based social network analysis, we designed an algorithm to quantify changes in the social network in response to prior social isolation. We observed that isolation significantly and swiftly enhanced individual and local social network parameters depicting near-neighbor relationships. We explored the genome-wide molecular correlates of these behavioral changes and found that whereas behavior changed throughout the six days of isolation, gene expression alterations occurred largely on day one. These changes occurred mostly in metabolic genes, and we verified the metabolic changes by showing an increase of lipid content in isolated flies. In summary, we describe a highly reliable tracking and analysis pipeline for large groups of flies that we use to unravel the behavioral, molecular and physiological impact of isolation on social network dynamics in Drosophila. [ABSTRACT FROM AUTHOR]

Published

2018

9. A machine learning based approach towards high-dimensional mediation analysis.

Author

Nath, Tanmay, Caffo, Brian, Wager, Tor, and Lindquist, Martin A.

Subjects

*MACHINE learning, *FUNCTIONAL magnetic resonance imaging, *FLUID intelligence, *DEEP learning, *STIMULUS intensity

Abstract

• Current methods for assessing mediation do not easily extend to high dimensions. • We introduce a new approach for performing high-dimensional mediation analysis. • Links high-dimensional mediator to path analysis model via machine learning algorithm. • Method illustrated using data from two fMRI studies. Mediation analysis is used to investigate the role of intermediate variables (mediators) that lie in the path between an exposure and an outcome variable. While significant research has focused on developing methods for assessing the influence of mediators on the exposure-outcome relationship, current approaches do not easily extend to settings where the mediator is high-dimensional. These situations are becoming increasingly common with the rapid increase of new applications measuring massive numbers of variables, including brain imaging, genomics, and metabolomics. In this work, we introduce a novel machine learning based method for identifying high dimensional mediators. The proposed algorithm iterates between using a machine learning model to map the high-dimensional mediators onto a lower-dimensional space, and using the predicted values as input in a standard three-variable mediation model. Hence, the machine learning model is trained to maximize the likelihood of the mediation model. Importantly, the proposed algorithm is agnostic to the machine learning model that is used, providing significant flexibility in the types of situations where it can be used. We illustrate the proposed methodology using data from two functional Magnetic Resonance Imaging (fMRI) studies. First, using data from a task-based fMRI study of thermal pain, we combine the proposed algorithm with a deep learning model to detect distributed, network-level brain patterns mediating the relationship between stimulus intensity (temperature) and reported pain at the single trial level. Second, using resting-state fMRI data from the Human Connectome Project, we combine the proposed algorithm with a connectome-based predictive modeling approach to determine brain functional connectivity measures that mediate the relationship between fluid intelligence and working memory accuracy. In both cases, our multivariate mediation model links exposure variables (thermal pain or fluid intelligence), high dimensional brain measures (single-trial brain activation maps or resting-state brain connectivity) and behavioral outcomes (pain report or working memory accuracy) into a single unified model. Using the proposed approach, we are able to identify brain-based measures that simultaneously encode the exposure variable and correlate with the behavioral outcome. [ABSTRACT FROM AUTHOR]

Published

2023