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Mitochondrial respiratory chain disease discrimination by retrospective cohort analysis of blood metabolites.
[pyruvate dehydrogenase deficiency]
Diagnosing
primary
mitochondrial
respiratory
chain
(
RC
)
dysfunction
has
long
relied
on
invasive
tissue
biopsies
,
since
no
blood
-based
biomarker
has
been
shown
to
have
sufficiently
high
sensitivity
and
specificity
across
the
myriad
of
individual
clinical
presentations
.
We
sought
to
determine
whether
cohort-level
evaluation
of
commonly
obtained
blood
analytes
might
reveal
consistent
patterns
to
discriminate
a
heterogenous
group
of
primary
mitochondrial
RC
disease
subjects
both
from
control
individuals
and
from
subjects
with
pyruvate
dehydrogenase
deficiency
.
F
ollowing
IRB
approval
,
62
biochemical
analyte
concentrations
or
ratios
were
retrospectively
analyzed
in
three
well-defined
and
intentionally
heterogeneous
subject
cohorts
reflective
of
clinical
practice
:
[
1
]
Primary
mitochondrial
disease
(
n
=
19
)
;
[
2
]
pyruvate
dehydrogenase
deficiency
(
n
=
4
)
;
and
[
3
]
controls
(
n
=
27
)
.
Blood
analyte
categories
included
comprehensive
chemistry
profile
,
creatine
kinase
,
lipoprotein
profile
,
lactate
,
pyruvate
,
and
plasma
amino
acid
profile
.
Non-parametric
analyses
were
used
to
compare
the
median
of
each
analyte
level
between
cohorts
.
Disease
cohorts
differed
significantly
in
their
median
levels
of
triglycerides
,
lactate
,
pyruvate
,
and
multiple
individual
plasma
amino
acids
.
Primary
mitochondrial
disease
was
significantly
discriminated
at
the
cohort
level
from
pyruvate
dehydrogenase
deficiency
by
greater
pyruvate
and
alanine
elevation
in
pyruvate
dehydrogenase
deficiency
,
as
well
as
significantly
increased
branched
chain
amino
acid
(
BCAA
)
levels
and
increased
ratios
of
individual
BCAAs
to
glutamate
in
mitochondrial
disease
.
In
addition
,
significant
elevation
of
median
blood
triglyceride
level
was
seen
in
the
primary
mitochondrial
disease
cohort
.
Blood
metabolite
profile
analysis
can
discriminate
a
heterogeneous
cohort
of
primary
mitochondrial
disease
both
from
controls
and
from
pyruvate
dehydrogenase
deficiency
.
Elevated
BCAA
levels
,
either
absolutely
or
when
considered
relative
to
the
level
of
glutamate
,
are
common
metabolic
sequelae
of
primary
mitochondrial
RC
disease
.
Prospective
study
is
needed
to
validate
observed
plasma
metabolite
alterations
as
a
potential
biomarker
of
disease
both
in
larger
cohorts
and
at
the
individual
subject
level
.
Diseases
Validation
Diseases presenting
"primary mitochondrial respiratory chain"
symptom
pyruvate dehydrogenase deficiency
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