Muscle metabolic energy costs while modifying propulsive force generation during walking

Autor: Noah L. Pieper, Richard E. Pimentel, Jason R. Franz, William H. Clark
Rok vydání: 2021
Předmět:
musculoskeletal diseases
Force generation
medicine.medical_specialty
Computer science
medicine.medical_treatment
0206 medical engineering
Biomedical Engineering
Bioengineering
Walking
02 engineering and technology
Biofeedback
Article
Young Adult
03 medical and health sciences
0302 clinical medicine
Physical medicine and rehabilitation
Dry weight
Weight loss
Internal medicine
medicine
Humans
Treadmill
Gait
Aged
Peristalsis
Metabolic energy
Chemistry
Muscles
Midgut
030229 sport sciences
General Medicine
Redistribution (cultural anthropology)
Fluid transport
020601 biomedical engineering
Metabolic cost
Biomechanical Phenomena
Computer Science Applications
Human-Computer Interaction
Endocrinology
medicine.anatomical_structure
Branchial heart
Urine osmolality
Ankle
medicine.symptom
Digestion
Ankle Joint
Zdroj: Comput Methods Biomech Biomed Engin
ISSN: 1476-8259
1025-5842
DOI: 10.1080/10255842.2021.1900134
Popis: If the gut of Octopus vulgaris is ligated at both ends, the animal loses weight at about 10% per day at 21°C, dying after about 48 h. Ligation of the ducts to the midgut gland has the same effect. If one or both ducts are cannulated and led to the exterior with a sufficient length of duct remaining, sea water is taken up by peristalsis and there is little or no weight loss. As body weight falls, blood and urine osmolality remain unchanged, but blood conductivity falls and blood copper concentration rises, indicating a loss of salts as well as water. Muscle dry weight, as a percentage of muscle wet weight, increases as body weight falls. Octopus is hyperosmotic compared with sea water and the rate of ultrafiltration through the branchial heart appendages into the kidney sacs is estimated to be sufficient to account for the observed body weight losses. Each side of the midgut gland, connected to the gut by a digestive duct, includes two distinct structures. One, the digestive gland, produces enzymes and is also concerned with absorption of the fluid and paniculate products of digestion. The other, the digestive gland appendage (the so-called ‘pancreas9), is composed of cells with characteristics that strongly indicate bulk fluid transport; it seems likely that this is the principal site of the fluid uptake. This evidently includes salts as well as water, since sea water taken into the gut (notably by rectal pumping) is not concentrated as fluid is withdrawn.
Databáze: OpenAIRE
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