Home

logHCO3003pCO2

LogHCO3003pCO2 refers to the base-10 logarithm of the ratio between bicarbonate concentration and dissolved carbon dioxide in blood, represented by the expression [HCO3-] / (0.03 × pCO2). This form appears in the Henderson-Hasselbalch equation used in physiology to relate bicarbonate and carbon dioxide to blood pH: pH = pKa + log10([HCO3-] / (0.03 × pCO2)). Here pKa for carbonic acid at body temperature is about 6.1, and 0.03 is the CO2 solubility coefficient in plasma (mmol/L per mmHg). The ratio is dimensionless because [HCO3-] is in mmol/L and pCO2 is in mmHg, with the 0.03 factor converting the dissolved CO2 to the same units.

Interpretation and use: The log ratio increases as bicarbonate rises relative to dissolved CO2. Clinically, the

Example: If [HCO3-] = 24 mmol/L and pCO2 = 40 mmHg, 0.03 × pCO2 = 1.2; the ratio is

value
helps
distinguish
metabolic
from
respiratory
contributions
to
acid-base
status.
An
elevated
bicarbonate
or
a
reduction
in
pCO2
(hyperventilation)
can
raise
the
ratio,
while
metabolic
acidosis
lowers
it.
The
ratio
is
not
the
pH
itself,
but
a
derived
quantity
that
summarizes
the
balance
of
metabolic
and
respiratory
components.
24
/
1.2
=
20,
and
log10(20)
≈
1.30.
Limitations
include
temperature
sensitivity
(pKa
varies
with
temperature),
measurement
variability,
and
the
fact
that
it
is
a
simplified
representation
of
complex
acid-base
dynamics.