Not exact matches
The
cells within their small intestine are «open» (they have spaces between them) which allows whole proteins and pathogens (amongst other macromolecules) to
get into their
bloodstream and basically create havoc within their little digestive systems!
Other studies hinted that stem
cells, when released
into the
bloodstream, could
get caught in narrowed vessels and clog them further.
Because previous work in rats and monkeys has found that proteins that block the costimulatory signal can hold T
cells at bay, Kim Olthoff, a transplant surgeon at the University of Pennsylvania Medical Center in Philadelphia, thought her team could achieve a targeted immune suppression by
getting the transplanted organ itself — rather than proteins injected
into the
bloodstream — to block the costimulatory signal.
Studies show that nanoparticles can work their way
into the
bloodstream, penetrate
cells, and
get past the blood - brain barrier.
Using this approach, immune
cells are taken from a patient's
bloodstream, reprogrammed to recognize and attack a specific protein found in cancer
cells, then reintroduced
into the patient's system, where they
get to work destroying targeted tumor
cells.
The glucose, like all of the nutrients, soon
gets absorbed
into the
bloodstream creating a peak in what we call «blood sugar levels», which results with the releasing of more insulin from the pancreas in order to push glucose to the
cells, basically «commanding» the
cells to open up and absorb it, where it
gets used as an energy source.
Your small intestine picks up glucose, pushing it out
into your
bloodstream where it
gets delivered to
cells throughout your body.
To
get the glucose
into your
cells, the sugar travels
into the
bloodstream and triggers your pancreas to produce insulin.
The problem is often that the metals
get lodged
into the
cell / soft tissues and don't
get fully released
into the
bloodstream.
Intravenous delivery allows you to bypass the digestive system and
get 100 % of the vitamins directly
into your
bloodstream and delivered to
cells!
Part of insulin's job is to
get sugar out of the
bloodstream and
into the
cells (read a more thorough explanation of this here).
Diabetics must inject insulin several times a day to ensure that glucose
gets into the
cells and stays at a healthy level in the
bloodstream (4).
Once these sugars enter the
bloodstream, insulin is released from the pancreas to
get the sugar
into the body's
cells for fuel.
After that, the virus
gets into the
bloodstream and thus attacks all nearby
cells, duplicating itself in geometric progression.