In the process of intense exercise the body
needs a lot of energy. Then the body tissue
removal of lactic acid buffered lactic acid lactic acid
than high speed, increased lactate concentration
within the organization. The significance of
this process is needed reconstruction glycolysis
nicotinamide adenine dinucleotide (NAD) to
maintain ATP production, and improve a steady
stream of energy for the movement, the process
can be described as [5]:
Pyruvate + NADH + H → lactate + NAD
Unlike the general description of the error
increase in lactate concentration in itself does
not cause acidosis, nor is it cause muscle
soreness. Lactic acid in the human body can not
release a proton, so there is no acidity. The
human body glycolytic pathway analysis show that
this process does not lead to zinc lactate.
Strenuous exercise acidosis caused when there is
another reason.
Adenosine triphosphate is split in the release
of energy is that it releases a proton. These
protons are leading causes of acidosis. In the
intense aerobic metabolism during exercise can
not guarantee the production of adenosine
triphosphate, so anaerobic metabolism begins.
Ethyl lactate can produce a large number of
adenosine triphosphate, adenosine triphosphate
which the release of a large number of protons
in the decomposition, reducing the pH of the
tissue, causing acidosis. This is a strong
muscle soreness during exercise one of many
reasons. It was considered by the strong ion
concentration gradient can cause lactic
acidosis, but the study of this process is
imperfect, it is unclear whether there.
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