posted on 2018-04-25, 19:34authored byZheng Li, Kenneth S. Suslick
Trimethylamine N-oxide (TMAO), the N-oxide metabolite
of trimethylamine (TMA), is a key index in the
determination of a wide variety of human cardiac or kidney diseases.
A colorimetric sensor array comprising ultrasonically prepared silica-dye
microspheres was developed for rapid, portable, and sensitive detection
of urinary TMAO. To prepare the sensor array, 13 different organically
modified silica (ormosil)-dye composites were synthesized from the
hydrolysis/pyrolysis of ultrasonically sprayed organosiloxane precursors
under optimized reaction conditions; the resulting products are uniformly
sized nanoporous microspheres that are effective colorimetric sensors
for various volatile analytes. The effective quantification of aqueous
TMAO (which is not volatile) was based on sensing the volatile TMA
produced from a simple catalytic reduction of TMAO in situ. RGB color-change
patterns from digital images of the sensor array permit precise discrimination
among a wide range of TMAO concentrations (10–750 μM)
in simulated urine samples; both hierarchical cluster analysis and
principal component analysis achieve >99% accuracy in data classification.
The calculated limit of detection of urinary TMAO is ∼4 μM,
which is substantially below the median level of healthy subjects
(∼380 μM). The array of sensors could be simplified to
only a couple of strongly responsive elements for the ease of field
use, and the process could be developed as a point-of-care tool in
combination with digital imaging for the early diagnosis of cardiovascular
or kidney diseases from the measurement of fasting urinary level of
TMAO.