Use Of Near-infrared Dyes Research Articles

Facile Synthesis of Unimodal Polymethacrylates with Narrow Dispersity via NIR LED Light-Controlled Bromine-Iodine Transformation Reversible-Deactivation Radical Polymerization.

A facile and clean strategy for synthesizing unimodal polymethacrylates with narrow dispersity (Đ <1.10) is successfully developed by a near-infrared (NIR) light-emitting diode (LED) light (λmax = 740nm)-controlled in situ bromine-iodine transformation reversible-deactivation radical polymerization system without the use of NIR dyes and expensive catalysts. In this system, alkyl iodide ethyl α-iodophenylacetate (EIPA) initiator is generated in situ by the nucleophilic substitution reaction between an alkyl bromide compound ethyl α-bromophenylacetate and sodium iodide (NaI). At the same time, excessive NaI is also acted as a highly active catalyst by forming halogen bonds with terminal iodine of the polymer chains in this system to make it capable of precisely synthesizing polymethacrylates with narrow dispersities (Đ = 1.03-1.10). In addition, the strong penetration ability of NIR LED light is illustrated by the successful polymerization even through 11 pieces of A4 paper.

Near infrared fluorescence lymphatic laparoscopy of the colon and mesocolon

During surgery, a surgeon relies on the vision of his eyes and the touch of his hands. While laparoscopic surgery for colon cancer has proven to be safe and effective, it still remains a technically difficult procedure. Although it is associated with reduced haptic feedback, by enforcing the power of visual guidance, the loss of this feedback can be (partly) compensated for. Here we describe how the use of near-infrared dyes and fluorescence laparoscopy could help improve tumour staging and therefore lead to better selection of patients for postoperative adjuvant chemotherapy. More controversially, and analogous to melanoma and breast cancer surgery with sentinel node biopsy, we speculate that local resection with SLN harvesting in early colon cancer might change the therapeutic and surgical strategy in colon cancer.

DNA and protein applications of near-infrared dyes.

The near-infrared region of the spectrum (650-1100 nm) offers distinct advantages over the traditional UV/vis region for spectroscopic measurements. In the past, the lack of commercially available equipment capable of working in the near infrared limited the utility of near-infrared techniques. However, since the advent of photodiodes and semiconductor lasers, much progress has been made in the development of near-infrared techniques. This paper discusses the use of near-infrared dyes used in DNA and protein applications.

Evaluation of Near Infrared Dyes as Labels for Immunoassays Utilizing Laser Diode Detection: Development of Near Infrared Dye Immunoassay (NIRDIA)

Abstract Many recent studies of near infrared (NIR) dyes have shown their usefulness as probes for many analytical applications. Since these dyes have absorption maxima between 600 and 1000 nm, a region of low interference by most bioorganic molecules, their use as a label for biomolecules is practical. We report here the first study to evaluate the use of near infrared dyes as a quantitative label for immunoassays. A near infrared dye was derivatized with an isothiocyanate functional group and conjugated to goat anti-human immunoglobulins (GAHG). After purification by G-25 size exclusion chromatography, the conjugate was used in an immunoassay to detect and quantitate human immunoglobulins (Ig), the antigen for GAHG. Polystyrene microtiter plate wells were coated with varying amounts of human Ig. The Ig-coated wells were then exposed to an excess of NIRD-GAHG, and were subsequently read and quantitated by laser diode spectroscopy. An identical immunoassay was performed which utilized an enzyme(peroxidase...