The team of researchers led by Prof. Dr. Ben Fabry, Dr. Navid Bonakdar and Richard Gerum was able to show that plastic cell deformation is caused
by microscopic damage to the cytoskeleton, a network of fibre - like structures inside the cell that give it mechanical stability.
Not exact matches
A few
microscopic techniques can focus light deep into the intact brains of dead animals to study its structure without
damaging the axons, but much of this light is scattered away
by the fatty lipid membranes that surround individual cells, making the technique less than perfect.
So, it is no surprise that we need these two amino acids to heal, not only gaping wounds, but also the
microscopic damage done to blood vessels and other tissues in our body caused
by inflammation and infection.
The
microscopic shell particles
damage the out body of parasites, and then absorb their moisture, basically killing them
by dehydration.
Put simply, it's an illness that occurs when your cat's red blood cells have been
damaged or destroyed
by «Heinz bodies», which are
microscopic clusters of
damaged hemoglobin that build up inside the red blood cells.