Latest Articles for Medicine

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.

Scientists enhance imaging methods for better resolution of tiny objects.

New methods enhance atomic magnetometry for accurate magnetic field measurements.

Exploring new methods for modeling and understanding viscous fluid behavior near boundaries.

A new model, MolCRAFT, improves drug design by generating realistic molecular structures.

New insights into recessive genetic contributions to common diseases are revealed through extensive research.

Research focuses on stopping harmful wave patterns in biological systems.

This study connects genetics to how people respond to medications.

New quantum algorithms enhance molecular response calculations in spectroscopy.

Examining AI's role in improving surgical navigation and patient safety.

Study uncovers genetic changes and immune responses in lung cancer subtypes.

Research highlights seasonal patterns in appendicitis cases and treatment approaches.

This research uses TDA to study soft gel structures and their responses to stress.

Study links lung bacteria and antibiotic resistance to higher mortality in sepsis patients.

PINDER provides vital data for studying protein interactions and improving therapeutic methods.

New methods like GIFT improve genetic data analysis for better health insights.

A look into the behaviors and applications of self-similar shock waves.

CACTUS combines LLMs and cheminformatics to aid drug discovery and molecular analysis.

Study finds tongue features may indicate COVID-19 severity.

New methods improve understanding and prediction of protein interactions.

Discover how DNA is shaping new technological applications across various fields.

Research examines the potential of retinal images to predict cardiovascular health risks.

Exploring how organisms move towards or away from chemical signals.

Exploring dementia risks, including obesity and diabetes, and the potential of metformin.

New methods enhance predictions and parameter estimation in physical simulations.

Exploring how mathematical models help understand biofilm behavior.

Exploring how degrade-and-fire oscillators synchronize in biological systems.

This article examines how quantum computing can enhance clinical trial design and outcomes.

This study reveals how hydrogels fail and their unique deformation properties.

Researchers improve resonator efficiency with single-crystal silicon carbide, reducing energy loss.

Innovative methods could reshape how we analyze and apply biological data.