Immunology and Microbiology
Skeletal Muscle
100%
Electroporation
100%
Action Potential Amplitude
75%
Muscle Action Potential
75%
Rat
75%
Cells
50%
Cell Survival
50%
Membrane
50%
Kinetics
50%
Limb
50%
Skeletal Muscle Cell
50%
Muscle Fiber Membrane
50%
Cell Membrane
50%
Magnetic Resonance Imaging
25%
Diffusion
25%
Muscle Function
25%
Animal
25%
Dose
25%
Circulation
25%
Drug Megadose
25%
Thermostability
25%
Pulse Rate
25%
Electric Current
25%
Macromolecule
25%
Time
25%
Water Content
25%
Nursing and Health Professions
Poloxamer
100%
Surfactant
100%
Injury
66%
Electric Injury
44%
Electroporation
44%
Muscle Action Potential
33%
Action Potential Amplitude
33%
Edema
33%
Survival
22%
Copolymer
22%
Adult
11%
Nuclear Magnetic Resonance Imaging
11%
Electric Current
11%
Clinical Management
11%
Analysis
11%
Depression
11%
Water
11%
Nervous System Injury
11%
Intravenous Drug Administration
11%
Muscle Injury
11%
Thermal Burn
11%
Drug Megadose
11%
Necrosis
11%
Pulse Rate
11%
Water Content
11%
Thermal Injury
11%
Membrane Rupture
11%
Bioelectromagnetics
11%
Muscle Necrosis
11%
Pathophysiology
11%
Pathogenesis
11%
Neuroprotection
11%
Thermostability
11%
Dextran
11%
Time
11%
Neuroscience
In Vivo
100%
Skeletal Muscle
100%
Surfactant
100%
Electroporation
80%
Action Potential
60%
Cell Survival
40%
Muscle Fiber Membrane
40%
Copolymer
40%
Cell Membrane
40%
Necrosis
40%
Neuroprotection
20%
Neurotrauma
20%
Magnetic Resonance Imaging
20%
Depression
20%
Dextran
20%