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bioanalysis

Bioanalysis is the quantitative measurement of xenobiotics, metabolites, or endogenous biomolecules in biological systems, typically to assess exposure, effect, or disease state. It underpins drug development and clinical pharmacology, toxicology, biomarker validation, environmental monitoring, food safety, and forensic investigations.

Common biological matrices include blood, plasma, serum, urine, tissue, cerebrospinal fluid, saliva, and other body fluids

Analytical methods used in bioanalysis include mass spectrometry–based techniques (notably LC-MS/MS and GC-MS), immunoassays (such as

The typical workflow comprises sample preparation (protein precipitation, liquid-liquid extraction, or solid-phase extraction), separation, detection, calibration

Applications span pharmacokinetic studies and therapeutic drug monitoring; clinical toxicology; biomarker discovery and validation; environmental, occupational,

Challenges include complex and variable matrices, low-abundance analytes, stability concerns, and cross-lab reproducibility. Emerging trends emphasize

This field integrates chemistry, biology, and informatics to provide decisions in medicine, safety, and research.

or
solids.
Proper
collection,
stabilization,
and
storage
are
essential
to
preserve
analyte
integrity.
ELISA),
nuclear
magnetic
resonance,
and
chromatographic
separations
such
as
HPLC.
LC-MS/MS
is
widely
favored
for
its
sensitivity
and
specificity,
while
immunoassays
offer
rapid
screening.
and
quantification,
and
data
analysis
with
reporting.
Methods
are
validated
to
regulatory
standards,
with
performance
characteristics
including
accuracy,
precision,
linearity,
limits
of
detection
and
quantification,
recovery,
and
assessment
of
matrix
effects.
and
food-safety
analyses;
and
forensic
toxicology.
high-resolution
and
quantitative
MS,
targeted
and
untargeted
metabolomics,
new
sample-preparation
approaches,
and
automation
and
data-processing
advances.