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Mechanobiology in cardiac mechanics
Michael Sheetz
Research output
:
Contribution to journal
›
Comment/debate
›
peer-review
7
Scopus citations
Overview
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Dive into the research topics of 'Mechanobiology in cardiac mechanics'. Together they form a unique fingerprint.
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Keyphrases
Titin
100%
Cardiac Mechanics
100%
Mechanobiology
100%
Mechanical Activity
71%
Cardiac System
57%
Exercise Benefits
42%
Mechanical Parameters
42%
Cancer Patients
28%
Aging
28%
Vasculature
28%
Biological Systems
28%
Cellular Level
28%
Protein Activity
28%
Cell State
28%
Adhesion Proteins
28%
Talin
28%
Sarcomere Length
28%
Mechanobiological
28%
Cell Function
14%
Adverse Effects
14%
Protein Modification
14%
Biochemical Changes
14%
Cardiovascular Function
14%
Cardiac Performance
14%
Cell Behavior
14%
Aging Effect
14%
Tissue Level
14%
Mechanosensory
14%
Contractility
14%
Activity Level
14%
Small Changes
14%
Light Microscopy
14%
Vinculin
14%
Physiological Condition
14%
Cambridge
14%
Physical Activity Benefits
14%
Signaling System
14%
Mechanosensitive Channel
14%
Ig Domains
14%
Cardiac Activity
14%
Regular Exercise
14%
Exercise Affect
14%
Omics Approaches
14%
Low Force
14%
Cellular Mechanotransduction
14%
Molecular Systems
14%
Mechanosensing
14%
One-part
14%
Kinase Domain
14%
Transduction Process
14%
Cell-matrix Adhesion
14%
Regulatory System
14%
System Level
14%
Relaxation Cycle
14%
Sarcomere
14%
Sensory Mechanisms
14%
Enzymatic Pathways
14%
Mechanical Systems
14%
Engineering Approach
14%
Ordered Arrays
14%
Piezo1
14%
Cell-cell Junctions
14%
Cryptic Binding Sites
14%
Mechanosensory System
14%
Local Parameters
14%
Strain Sensor
14%
Titin Kinase
14%
Beech
14%
Nanoengineering
14%
Strain Sensing
14%
Cellular Contractility
14%
Link Protein
14%
Complex Machines
14%
Small Strain
14%
Protein Sensor
14%
Passive System
14%
Cellular Scale
14%
Biochemistry, Genetics and Molecular Biology
Titin
100%
Phosphotransferase
25%
Kinase
25%
Cell Function
25%
Muscle Contractility
25%
Vascularization
25%
Adhesion Protein
25%
Immunoglobulin Domain
12%
Binding Site
12%
Tissue Level
12%
Physical Activity
12%
Cardiovascular Performance
12%
Vinculin
12%
Cell Level
12%
Heart Performance
12%
Cell Junction
12%
Beech
12%