Huilin Wei scite author profile

| Point-of-care (POC) diagnostics is playing an increasingly important role in public health, environmental monitoring, and food safety analysis. Smartphones, alone or in conjunction with add-on devices, have shown great capability of data collection, analysis, display, and transmission, making them popular in POC diagnostics. In this article, the state-ofthe-art advances in smartphone-based POC diagnostic technologies and their applications in the past few years are outlined, ranging from in vivo tests that use smartphone's built-in/external sensors to detect biological signals to in vitro tests that involves complicated biochemical reactions. Novel techniques are illustrated by a number of attractive examples, followed by a brief discussion of the smartphone's role in telemedicine. The challenges and perspectives of smartphonebased POC diagnostics are also provided.

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Crude caffeine reduces memory impairment and amyloid β1–42 levels in an Alzheimer’s mouse model

Chu

Chang²,

Black

et al. 2012

Food Chemistry

102

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Development of a 90-Minute Integrated Noninvasive Urinary Assay for Bladder Cancer Detection

Wallace¹,

Higuchi²,

Satya³

et al. 2018

Journal of Urology

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Rapid gene splicing and multi-sited mutagenesis by one-step overlap extension polymerase chain reaction

Wei

Wang

et al. 2012

Analytical Biochemistry

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Patch oligodeoxynucleotide synthesis (POS): a novel method for synthesis of long DNA sequences and full-length genes

et al. 2011

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Synthesis of long DNA fragments is often associated with mutations and requires multiple DNA manipulation steps. A novel DNA synthesis method, referred to as patch oligodeoxynucleotide synthesis (POS) to assembly long DNA fragments is presented here. This method involves connection of two types of oligodeoxynucleotides: long constructional oligonucleotides (COs) and short patch oligonucleotides (POs). Long COs were connected by a ligase with the aid of POs, which were complementary to both adjacent COs to help remove secondary structures during assembly. The partial double-stranded DNA template that was formed was then amplified by PCR. Accordingly, we synthesized SV40 polyadenylation signal sequences (187 bp), a codon-optimized yellow fluorescent protein gene (678 bp), and Rattus norvegicus catenin β1 (2,352 bp). This presented method can be broadly applied to synthesize DNA fragments of varying lengths with great convenience.

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Huilin Wei

Advances in Smartphone-Based Point-of-Care Diagnostics

Crude caffeine reduces memory impairment and amyloid β1–42 levels in an Alzheimer’s mouse model

Development of a 90-Minute Integrated Noninvasive Urinary Assay for Bladder Cancer Detection

Rapid gene splicing and multi-sited mutagenesis by one-step overlap extension polymerase chain reaction

Patch oligodeoxynucleotide synthesis (POS): a novel method for synthesis of long DNA sequences and full-length genes

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