Keyphrases
Spinal Cord Injury
100%
Finite Element
100%
Tissue Stress
100%
Pressure Ulcer Prevention
100%
Subdermal
100%
Tissue Loading
100%
Internal Tissues
100%
Patients with Spinal Cord Injury
100%
Dermal Tissue
100%
Wheelchair
66%
Bony Prominence
66%
Buttocks
66%
Deep Tissue Injury
66%
Continuous Monitoring
33%
Finite Element Model
33%
Clinical Setting
33%
MRI Scan
33%
Human Studies
33%
Muscle Tissue
33%
Necrosis
33%
Subject-specific
33%
Substantial Contribution
33%
Highest Peak
33%
Wheelchair Users
33%
Mechanical Stress
33%
External Surface
33%
Deep Tissue
33%
Pressure Ulcer
33%
Individual Anatomy
33%
Compression Stress
33%
Shear-compression
33%
Load Data
33%
Finite Element Software
33%
Mechanical Condition
33%
Ischial Tuberosity
33%
Von Mises Stress
33%
Interface Pressure Mapping
33%
Subject-specific Finite Element Models
33%
Muscle Stress
33%
Gluteus
33%
Gluteal muscles
33%
Deep muscle
33%
Plantar Tissue
33%
Transfemoral Amputation
33%
Peak Compression
33%
Muscle Flap
33%
Stress Dose
33%
Physical Phantom
33%
Pressure Mat
33%
Subject-specific Finite Element Modeling
33%
Real-time Finite Element Analysis
33%
Finite Element Modeling Method
33%
Residual Limb
33%
Non-real-time
33%
Medicine and Dentistry
Finite Element Analysis
100%
Decubitus
100%
Spinal Cord Injury
100%
Sitting
33%
Tissue Injury
33%
Buttock
33%
Magnetic Resonance Imaging
16%
Human Study
16%
Necrosis
16%
Amputation
16%
Limb
16%
Ischial Tuberosity
16%
Gluteus Muscle
16%
Muscle Flap
16%
Muscle Stress
16%
Nursing and Health Professions
Spinal Cord Injury
100%
Pressure Ulcer
100%
Finite Element Analysis
100%
Tissue Injury
33%
Nuclear Magnetic Resonance Imaging
16%
Phantom
16%
Interface Pressure
16%
Amputation
16%
Muscle Flap
16%
Necrosis
16%
Engineering
Finite Element Analysis
100%
Finite Element Modeling
66%
Flaps
33%
Mechanical Stress
33%
External Surface
33%
Continuous Monitoring
33%
Interface Pressure
33%
Boundary Condition
33%
Fem Model
33%
Neuroscience
Spinal Cord Injury
100%
Magnetic Resonance Imaging
16%
Necrosis
16%