Machine Learning Clinical Trial
Official title:
A Social Media-based Machine Learning Study to Monitor Vaccine Confidence and Hesitancy and Early Warn Emerging Vaccine-related Risks in Real Time
History and scientific evidence show that it is critical to maintain public trust and confidence in vaccination. Any crisis in confidence has the potential to cause significant disruption and a detrimental impact on vaccination. Vaccine hesitancy is a complex and context-specific issue that varies across time, place, and vaccines. It has been cited by World Health Organization(WHO) as one of the top ten threats to global health in 2019. Coronavirus disease(COVID-19) pandemic may change public confidence in vaccines. Therefore, it is necessary to establish a surveillance system to monitor vaccine confidence and hesitancy in real time. To date, a growing body of literature has used social media platforms such as Twitter and weico for public health research. Large amounts of real time data posted on social media platforms can be used to quickly identify the public's attitudes on vaccines, as a way to support health communication and health promotion, messaging. However, textual data on social media is difficult to be analyzed. Recent progress in machine learning makes it possible to automatically analyze textual data on social media in real time. In this study, the investigators will establish a social media surveillance and analysis platform on vaccines, develop a series of machine learning models to monitor vaccine confidence and early detect emerging vaccine-related risks, and assess public communication around vaccines. The investigators will assess the temporal and spatial distribution of vaccine confidence and hesitancy globally using Twitter data and in China using weico data, for all vaccines and Human Papilloma Virus(HPV) vaccine, respectively. Our study will guide the design of effective health communication strategies to improve vaccine confidence.
1. Collect and update social media data regarding vaccines The investigators will automatically collect all social media posts regarding vaccines in real time. Social media cohort database will be established and updated for all vaccines and Human Papilloma Virus(HPV) vaccine, respectively. 2. Monitor vaccine confidence and hesitancy in real time: deep (supervised) machine learning models Deep learning model, a supervised machine learning technique, will be used to analyze text data on social media in real time according to the predefined vaccine confidence and hesitancy framework. The investigators will first manually annotate a subset of social media posts (20,000 posts) regarding vaccines. The initial manually-annotated posts are then used to train and evaluate deep learning models. Deep learning models with the best performance are selected and applied to classify all vaccine-related posts according to the vaccine confidence and hesitancy framework. 3. Monitor emerging concerns and sentiment swings in real time to early warn vaccine-related risks or crises: topic (unsupervised) machine learning models and linguistic analysis There are some topics outside of the predefined vaccine confidence and hesitancy framework used in deep learning models, and new topics emerge in any time. Vaccine crisis would influence public sentiments. Monitoring emerging topics and sentiment swings will provide early warning of vaccine-related risks or crises. Use Topic Modeling, an unsupervised machine learning technique that can automatically classify text to representative topics in social media, to monitor emerging topics and concerns regarding vaccines. 4. Assess public engagement on social media to inform effective health communication strategies: social media engagement analysis Besides posts data on social media, engagement data of posts are also available to be analyzed, including likes, comments, and shares of posts. The investigators will conduct social media engagement analysis to investigate public communication around vaccines online. This will guide the design of effective health communication strategies. 5. Establish social media surveillance and analysis platform for vaccine confidence and crisis Through the steps above, the investigators will establish a social media surveillance and analysis platform for vaccine confidence and crisis. Time-series trends, geographic variation, and associated factors of the indicators produced above will be presented to monitor vaccine confidence in real time, early warn emerging risks or crises, and inform effective health communication strategies. 6. Past research experience The investigators have conducted a series of relevant studies to analyze social media data using machine learning techniques during the COVID-19 epidemic, covering COVID-19 vaccine confidence and public response to COVID-19. These experiences make the current study feasible. ;
Status | Clinical Trial | Phase | |
---|---|---|---|
Recruiting |
NCT05040958 -
Carotid Atherosclerotic Plaque Load and Neck Circumference
|
||
Completed |
NCT04440553 -
A Mobile App to Increase Physical Activity in Students
|
N/A | |
Completed |
NCT04828655 -
Analysis of Bioparametric Measures for Correlating Daily Habits and Reducing Blood Pressure
|
N/A | |
Completed |
NCT04977687 -
Machine Learning Predict Renal Replacement Therapy After Cardiac Surgery
|
||
Completed |
NCT04966598 -
Machine Learning Predict Acute Kidney Injury in Patients Following Cardiac Surgery
|
||
Recruiting |
NCT06277297 -
Prognotic Role of CMR in Takotsubo Syndrome
|
||
Recruiting |
NCT06204133 -
Model Study on Cervical Cancer Screening Strategies and Risk Prediction
|
||
Completed |
NCT05085743 -
Prediction of Endotracheal Tube Depth by Using Deep Convolutional Neural Networks
|
||
Not yet recruiting |
NCT05809232 -
Impact of Machine Learning-based Clinician Decision Support Algorithms in Perioperative Care
|
N/A | |
Not yet recruiting |
NCT04399811 -
Near-infrared Vision for Microcirculatory Status
|
||
Recruiting |
NCT05906719 -
Machine Vision Based MDS-UPDRS III Machine Rating
|
||
Completed |
NCT06278272 -
AI Evaluation of Pancreatic Exocrine Insufficiency in CP Patients
|
||
Not yet recruiting |
NCT06421480 -
Using Machine Learning to Detect Risky Behavior in Psychiatric Clinics
|
||
Not yet recruiting |
NCT06423066 -
Developing a Machine Learning Model to Predict Pleural Adhesion Preoperatively Using Pleural Ultrasound
|
||
Not yet recruiting |
NCT06428344 -
Accuracy of an Artificial Intelligence-assisted Diagnostic System for Caries Diagnosis: a Prospective Multicenter Clinical Study
|
||
Not yet recruiting |
NCT05797064 -
Establishment of a Feasibility Model for NOSE Surgery Based on Machine Learning
|
||
Recruiting |
NCT05410171 -
Machine Learning-based Early Clinical Warning of High-risk Patients
|
N/A | |
Active, not recruiting |
NCT04192175 -
Identification of Patients Admitted With COPD Exacerbations and Predicting Readmission Risk Using Machine Learning
|
||
Completed |
NCT05433519 -
Diagnostic Accuracy of a Novel Machine Learning Algorithm to Estimate Gestational Age
|
||
Recruiting |
NCT05858892 -
Comparison of an Artificial Intelligence-Assisted Rehabilitation Program for Shoulder Musculoskeletal Disorders and the Clinical Decision Making of Therapists
|