A new system announced in JAMA Network Open employs AI to automatically provide guidance to nonmedical professionals for performing lung ultrasound examinations alongside real-time assessment of ...

AN AI-powered lung ultrasound tool has outperformed human experts in diagnosing pulmonary tuberculosis (TB), offering a fast, accessible, and sputum-free solution that could transform TB triage in ...

computer-generated animation or high-definition ultrasound of at least three minutes in duration that shows the development of the brain, heart and other vital organs in early human fetal ...

An AI-powered lung ultrasound tool has outperformed human experts in diagnosing pulmonary tuberculosis (TB), offering a faster, non-invasive alternative that exceeds WHO benchmarks Researchers from ...

“The ULTR-AI suite leverages deep learning algorithms to interpret lung ultrasound in real time, making the tool more accessible for TB triage, especially for minimally trained healthcare workers in ...

Ultrasound exams. Johns Hopkins Medicine. Pregnancy complications. Johns Hopkins Medicine. First trimester screening, nuchal translucency and NIPT. MedlinePlus. Fetal echocardiography. Johns Hopkins ...

A study presented at ESCMID Global 2025 has demonstrated that an AI-powered lung ultrasound outperforms human experts by 9% in diagnosing pulmonary tuberculosis (TB). The ULTR-AI suite analyzes ...

A pioneering study presented today at ESCMID Global 2025 has demonstrated that an AI-powered lung ultrasound outperforms human experts by 9% in diagnosing pulmonary tuberculosis (TB) (Monday ...

A NEW study has found that AI can enhance the efficiency and accuracy of fetal anomaly ultrasound scans, reducing the workload on sonographers while maintaining high diagnostic performance. The ...

Diagnosis of prenatal-onset skeletal dysplasias can be accomplished by ultrasound evaluation and ... regarding optimal patient management (both fetal and maternal) and calculation of recurrence ...

Background Effective lung protective ventilation requires reliable, real-time estimation of lung volume at the bedside. Neonatal clinicians lack a readily available imaging tool for this purpose.

We aimed to compare lung volume changes during apnoeas in preterm infants on nHFOV and nasal continuous positive airway pressure (nCPAP). Contributors VDG and CMR conceptualised and designed this post ...