[HTML][HTML] Artificial intelligence for clinical trial design
Clinical trials consume the latter half of the 10 to 15 year, 1.5–2.0 billion USD, development
cycle for bringing a single new drug to market. Hence, a failed trial sinks not only the …
cycle for bringing a single new drug to market. Hence, a failed trial sinks not only the …
Microfluidic and nanofluidic resistive pulse sensing: a review
The resistive pulse sensing (RPS) method based on the Coulter principle is a powerful
method for particle counting and sizing in electrolyte solutions. With the advancement of …
method for particle counting and sizing in electrolyte solutions. With the advancement of …
Towards Pharma 4.0 in clinical trials: A future-orientated perspective
Abstract Pharma 4.0, a technology ecosystem in drug development analogous to Industry
4.0 in healthcare, is transforming the traditional approach to drug discovery and …
4.0 in healthcare, is transforming the traditional approach to drug discovery and …
Identification of individual bacterial cells through the intermolecular interactions with peptide-functionalized solid-state pores
Bioinspired pore sensing for selective detection of flagellated bacteria was investigated. The
Au micropore wall surface was modified with a synthetic peptide designed from toll-like …
Au micropore wall surface was modified with a synthetic peptide designed from toll-like …
Manipulation of protein translocation through nanopores by flow field control and application to nanopore sensors
WL Hsu, H Daiguji - Analytical chemistry, 2016 - ACS Publications
The control of biomolecule translocation through nanopores is important in nanopore protein
detection. Improvement in current nanopore molecule control is desired to enhance capture …
detection. Improvement in current nanopore molecule control is desired to enhance capture …
Diamondoid-functionalized gold nanogaps as sensors for natural, mutated, and epigenetically modified DNA nucleotides
Modified tiny hydrogen-terminated diamond structures, known as diamondoids, show a high
efficiency in sensing DNA molecules. These diamond cages, as recently proposed, could …
efficiency in sensing DNA molecules. These diamond cages, as recently proposed, could …
Nanoparticle and microorganism detection with a side-micron-orifice-based resistive pulse sensor
This paper presents the detection of nanoparticles and microorganisms using a recently
developed side-orifice-based resistive pulse sensor (SO-RPS). By decreasing the channel …
developed side-orifice-based resistive pulse sensor (SO-RPS). By decreasing the channel …
Multivariate analysis of nanoparticle translocation through a nanopore to improve the accuracy of resistive pulse sensing
Z Jodeyri, M Taghipoor - Physical Chemistry Chemical Physics, 2024 - pubs.rsc.org
The advent of nanopore-based sensors based on resistive pulse sensing gave rise to a
remarkable breakthrough in the detection and characterization of nanoscale species. Some …
remarkable breakthrough in the detection and characterization of nanoscale species. Some …
[HTML][HTML] Recent Advance in Single-Molecule Fluorescent Biosensors for Tumor Biomarker Detection
J Zhang, J Liu, L Qiao, Q Zhang, J Hu, C Zhang - Biosensors, 2024 - mdpi.com
The construction of biosensors for specific, sensitive, and rapid detection of tumor
biomarkers significantly contributes to biomedical research and early cancer diagnosis …
biomarkers significantly contributes to biomedical research and early cancer diagnosis …
Tailoring particle translocation via dielectrophoresis in pore channels
S Tanaka, M Tsutsui, H Theodore, H Yuhui, A Arima… - Scientific Reports, 2016 - nature.com
Understanding and controlling electrophoretic motions of nanoscopic objects in fluidic
channels are a central challenge in developing nanopore technology for molecular …
channels are a central challenge in developing nanopore technology for molecular …