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Graduate School of Medicine Osaka University | 論文
- Responses of Adductor Longus Muscle Fibers to 9-wk Hindlimb Unloading in Rats
- Effects of 9-wk Hindlimb-Suspension on Fiber Types and Metabolic Characteristics in Rat Soleus Muscle
- Effectiveness of Polyamidoamine Dendrimers Modified with Tripeptide Growth Factor, Glycyl-L-Histidyl-L-Lysine, for Enhancement of Function of Hepatoma Cells
- Immobilization of Tripeptide Growth Factor Glycyl-L-histidyl-L-lysine on Poly(vinylalcohol)-quarternized Stilbazole (PVA-SbQ) and Its Use as a Ligand for Hepatocyte Attachment
- Cytostatic effect of phenobarbital on a human hepatoma cell line
- Hyperbaric exposure with high oxygen concentration enhances oxidative capacity of neuromuscular units
- Helical CT Imaging of Gastric Cancer:Normal Wall Appearance and the Potential for Staging
- Comparison of Oxidative Enzyme Activity in Motoneurons between the Cervical and Lumbar Segments in the Rat Spinal Cord after Spaceflight and Recovery
- Effects of running exercise during recovery from hindlimb unloading on soleus muscle fibers and their spinal motoneurons in rats
- The respiratory motion analysis of the rib using 3-D images
- Model-based Measurement of the Articular Cartilage Thickness in the Hip Joint
- Wavelet Encoded MR Imaging
- S3-2 Role of stress proteins in muscular hypertrophy(The Proceedings of the 12th Annual Meetings of Japan Society of Exercise and Sports Physiology)
- A Grid - aware Access Control Mechanism in a Clinical Database for Parkinson's Disease Research and Diagnosis
- Responses of Neuromuscular Systems under Gravity or Microgravity Environment
- 2P05 EFFECTS OF HINDLIMB UNLOADING ON MYONUCLEAR CHARACTERISTICS OF SOLEUS MUSCLE FIBERS IN RATS
- 2P04 EFFECTS OF CHRONIC UNLOADING AND RELOADING ON THE GROWTH OF SOLEUS MUSCLE FIBERS IN RATS
- 2P03 RESPONSES OF NEURO-MUSCULAR SYSTEM TO HINDLIMB UNLOADING AND TENOTOMY IN RATS
- 2P02 Responses of hindlimb unloading on cell body size and oxidative enzyme activity of soleus motoneurons in developing rats
- Changes of Bone Morphology in Response to Hindlimb Suspension of Rats