. The effects of inanition and malnutrition upon growth and structure . Fig. 62.—Nerve cells from the ventral horn of the spinal cord in the dog, showing the variable changes in the neurofibrillae by Donaggio's silver method after a loss of about 50 per cent in body weight from total inanition, a, a cell in which the neurofibrillae have retained nearly normal structure; b, cell showing some vacuolation in the perinuclear region; c, cell with disorganized neurofibrillae crowded into bundles between the numerous large cytoplasmic vacuoles. (Riva '06.) literature on these effects of inanition upo
GLIX-115-MA72AH
A képet csak az alábbi országokban használhatja fel:
Magyarország
Magyarország
Kollekció
GLIX Prime
Novel Use
Fotós / Szerző
The Bookworm Collection
Leírás
. The effects of inanition and malnutrition upon growth and structure . Fig. 62.—Nerve cells from the ventral horn of the spinal cord in the dog, showing the variable changes in the neurofibrillae by Donaggio's silver method after a loss of about 50 per cent in body weight from total inanition, a, a cell in which the neurofibrillae have retained nearly normal structure; b, cell showing some vacuolation in the perinuclear region; c, cell with disorganized neurofibrillae crowded into bundles between the numerous large cytoplasmic vacuoles. (Riva '06.) literature on these effects of inanition upo
Kulcsszavak
biologicalchanges,
bodyweightloss,
cellanalysis,
cellresearch,
cellstructure,
cellstructurechange,
cytoplasmicvacuoles,
dog,
healthstudy,
inanition,
malnutrition,
malnutritionstudy,
nervecells,
nervefunction,
nervehealth,
nervoussystem,
neurobiology,
neurodegeneration,
neurofibrils,
neurologicaleffects,
scientificstudy,
silverstaining,
spinalcord,
weightloss,