Latest Articles for Medicine

GATA6 is crucial for proper heart cell formation and understanding its function can improve CHD treatments.

Hyaluronic acid is key for tissue support and hydration.

RiNALMo is an advanced RNA language model for predicting RNA structures and functions.

A new approach improves peptide drug design using AI and a comprehensive dataset.

Understanding how neutral functional differential equations aid in studying material flow.

scGFT offers a solution for creating synthetic single-cell RNA data efficiently.

Research introduces new models for measuring elastic properties of biological tissues.

Learn how cells control gene activity for proper functioning and development.

Examining how external forces affect solute movement in various materials.

tangleGen offers a fresh approach to studying population structures in genetics.

Examining methods used to simulate how solids move through fluids across various fields.

NYCTALE improves lung nodule assessment through advanced analysis of CT scans.

A new method streamlines protein design and optimization using AI.

New methods improve understanding of cannabinoid receptors for drug development.

A new method for estimating indirect relationships in complex data.

This study examines methods to identify heat sources from limited measurements.

A study on how polymers move through tiny openings in crowded settings.

New methods enhance accuracy in assessing spinal cord compression in patients.

A model enhances the understanding of electrolyte movement in porous materials.

This article explores how forces affect particle movement and its applications.

Study explores protein markers to better predict heart issues in at-risk individuals.

Research shows how environmental shape influences blood vessel formation in embryos.

Study reveals how reaction networks influence cellular behavior and stability.

New techniques improve heart disease predictions and personalized treatment options.

Massively parallelized DCS opens new paths in blood flow research, especially in the brain.

Understanding source locations through wave measurements revolutionizes various scientific fields.

Examining effects of extreme treatments on various outcomes across multiple fields.

Scientists combine traditional and deep learning methods for better protein design.

A study on optimizing osmotherapy for better patient outcomes.

Examining the role of DNA changes in aging and disease.

Learn how diffusion works and what affects its process.

A study reveals how genetic factors contribute to congenital heart disease development.

New algorithms improve efficiency and accuracy in sparse signal recovery across various fields.

New genetic research offers hope for heart failure therapies.

Learn essential concepts for controlling and stabilizing waves in various fields.

Study reveals how tiny particles move in mixtures with active agents.

A novel method improves clarity and reduces noise in hyperspectral images.

Exploring phage therapy's role in combating antibiotic-resistant bacteria.

Recent study shows promise in treating cold symptoms with a new throat spray.

A study reveals long-term survival factors in heart failure patients.