Point-of-care (POC) implementation of early detection and screening
methodologies for ovarian cancer may enable improved survival
rates through early intervention.
Current
laboratory-confined immunoanalyzers have long turnaround times and are
often incompatible
with multiplexing and POC implementation. Rapid,
sensitive, and multiplexable POC diagnostic platforms compatible with
promising
early detection approaches for ovarian cancer are
needed. To this end, we report the adaptation of the programmable
bio-nano-chip
(p-BNC), an integrated, microfluidic, and modular
(programmable) platform for CA125 serum quantitation, a biomarker
prominently
implicated in multimodal and multimarker screening
approaches.
In the p-BNCs, CA125 from diseased sera (Bio) is sequestered
and assessed with a fluorescence-based sandwich
immunoassay, completed in the nano-nets (Nano) of sensitized agarose
microbeads
localized in individually addressable wells (Chip),
housed in a microfluidic module, capable of integrating multiple
sample,
reagent and biowaste processing, and handling
steps. Antibody pairs that bind to distinct epitopes on CA125 were
screened.
To permit efficient biomarker sequestration in a
three-dimensional microfluidic environment, the p-BNC operating
variables
(incubation times, flow rates, and reagent
concentrations) were tuned to deliver optimal analytical performance
under 45 minutes.
With short analysis times, competitive analytical
performance (inter- and intra-assay precision of 1.2% and 1.9% and limit
of detection of 1.0 U/mL) was achieved on this
minisensor ensemble.
Furthermore, validation with sera of patients with
ovarian
cancer (n = 20) showed excellent correlation (R2
= 0.97) with gold-standard ELISA. Building on the integration
capabilities of novel microfluidic systems programmed for ovarian
cancer, the rapid, precise, and sensitive
miniaturized p-BNC system shows strong promise for ovarian cancer
diagnostics. Cancer Prev Res; 5(5); 706–16. ©2012 AACR.
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