Supraspinal locomotor centers do/do not contribute significantly to the hyperpnea of dynamic exercise in humans.
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Overview
status
publication date
- May 2006
has subject area
- 06 Biological Sciences (FoR)
- 11 Medical and Health Sciences (FoR)
- Afferent Pathways (MeSH)
- Animals (MeSH)
- Autonomic Nervous System (MeSH)
- Behavior (MeSH)
- Behavior, Animal (MeSH)
- Bicuculline (MeSH)
- Carbon Dioxide (MeSH)
- Cardiovascular System (MeSH)
- Cats (MeSH)
- Central Nervous System (MeSH)
- Central Nervous System Stimulants (MeSH)
- Electric Stimulation (MeSH)
- Exercise (MeSH)
- Feedback, Physiological (MeSH)
- Homeostasis (MeSH)
- Humans (MeSH)
- Hypercapnia (MeSH)
- Hypocapnia (MeSH)
- Hypothalamus (MeSH)
- Hypoxia (MeSH)
- Locomotion (MeSH)
- Mathematics (MeSH)
- Mechanoreceptors (MeSH)
- Mesencephalon (MeSH)
- Motor Activity (MeSH)
- Muscle, Skeletal (MeSH)
- Physical Conditioning, Animal (MeSH)
- Physical Exertion (MeSH)
- Physiology (Science Metrix)
- Picrotoxin (MeSH)
- Potassium (MeSH)
- Pulmonary Gas Exchange (MeSH)
- Pulmonary Ventilation (MeSH)
- Rabbits (MeSH)
- Rats (MeSH)
- Respiration (MeSH)
- Respiratory Mechanics (MeSH)
- Respiratory Muscles (MeSH)
- Respiratory System (MeSH)
- Sheep (MeSH)
- Signal Transduction (MeSH)
- Spinal Cord (MeSH)
- Spinal Cord Injuries (MeSH)
- Subthalamus (MeSH)
- Time Factors (MeSH)
published in
- Journal of applied physiology Journal