Juge Technology has been engaged in the research and development of precise temperature measurement thermal imager for more than ten years, helping scientific researchers in various fields to engage in cutting-edge scientific research. The following lists some papers in the fields of chemistry and life sciences.
1. A Facile Strategy to Prepare Dendrimer-stabilized Gold Nanorods with Sub-10-nm Size for Efficient Photothermal Cancer Therapy, published in Nature
html in March 2016. This study successfully synthesized pure gold sub-10nm-sized dendrimer-stabilized gold nanorods (DSAuNRs) with high photothermal effects. Glycidil modified DSAuNR exhibits excellent biocompatibility and further demonstrates high photothermal efficiency in killing cancer cells in vitro and delaying tumor growth in vivo. This study used Juge Technology Thermal Imager to investigate the photothermal effect and animal experiments of gold nanoparticles: An infrared thermal camera (Magnity Electronics, China) was employed to record the temperature and thermographs of the reaction solution.
2.Osteotropic peptide-mediated bone targeting for photothermal treatment of bone Tumors, published in Biomaterials
in January 2017, this paper developed a bone-targeted nanoparticle, aspartate octapeptide-modified dendritic platinum-copper alloy nanoparticles (Asp-DPCN), used for photothermal therapy (PTT) of bone tumors, and used the Juge Technology Thermal Imager to study its photothermal effect: The temperatures were recorded by an infrared thermal camera (Magnity Electronics, China).
3.Synergetic use of thermal and visible imaging techniques for contactless and unobtrusive breathing Measurement, published in J. of Biomedical Optics
in March 2017 This study proposes a visible and infrared dual-mode imaging system to achieve measurement of respiratory frequency and mode. In terms of respiration rate estimation, the results obtained by the system are verified by the Brand-Altman diagram that are consistent with those measured by the reference method. In addition, the respiratory waveform extracted by the dual-mode imaging system is basically the same as the corresponding standard respiratory sequence. This study used the MAG series thermal imager: A thermal imager (MAG62, Magnity Electronics Co. Ltd., Shanghai, China) with the resolution of 640 × 480 is stabilized on a tripod.
4. Autophagy inhibition enabled efficient photothermal therapy at a mild temperature. Heterogeneous distribution of thermal therapy in Biomaterials
nanomaterial-mediated photothermal therapy usually leads to incomplete tumor eradication and severe damage to healthy tissues. This study developed a chloroquine-loaded polydopamine nanoparticle preparation for sensitizing photothermal cancer treatment. In vitro and in vivo studies have shown that inhibiting autophagy significantly enhances the efficacy of photothermal therapy, thereby effectively inhibiting tumors at mild temperatures. The regulation of autophagy provides new ways to improve the efficacy of photothermal cancer treatment. This study used Juge Technology Thermal Imager to observe temperature changes: An infrared thermal imaging camera (Magnity Electronics, China) was used to record the temperature changes.
5. Photosensitizer-loaded biomimetic platform for multimodal imaging-guided synergistic phototherapy, published in RSC Advances
. This study designed the delivery platform for polydopamine melanin nanoparticles (PDMNs) as the delivery platform for photosensitizer Chlorin e6 (PDMN-Ce6), and realized its application as a therapeutic diagnostic agent for tumor treatment. PDMN–Ce6 exhibits excellent biocompatibility, good water solubility and high loading capacity for Ce6. In vivo studies showed that 24 h after injection, the accumulation of PDMN-Ce6 in the tumor site was 2.8 times higher than that of free Ce6, which was conducive to MR/PA imaging. Moreover, synergistic therapy significantly inhibits tumor growth, causing tumor necrosis and tumor angiogenesis inhibition. These results suggest that the bionic and biocompatibility platform of this study can improve Ce6 delivery to tumors and achieve multimodal imaging-guided synergistic phototherapy.In this study, the temperature changes in the tumors were monitored using a MAGNITY f15F1 infrared camera.
6.Zwitterionic PolymerGated Au@TiO2 Core-Shell Nanoparticles for Imaging-Guided Combined Cancer Therapy, published in Theranostics
in July 2019, this study synthesized a novel zwitterionic polymer-gated Au@TiO2 core-shell nanoparticles, indicating that they can selectively target and effectively eliminate cancer cells through photothermal therapy (PTT), photodynamic therapy (PDT), pH/NIR-induced drug release and cation therapy. In this study, the photothermal effects of nanoparticles in mice were observed using Juge Technology MAG series thermal imager: The infrared thermal images were recorded with a PTT monitoring system MAG33 (Shanghai Magnity Electronics Co. Ltd.)
7.S,S-Tetrazine-Based Hydrogels with Visible Light Cleavable Properties for On-Demand Anticancer Drug Delivery, published in AAAS in September 2020 Research
photodegradable hydrogel is of great significance in the fields of controlled drug delivery, stem cell fate regulation, surface patterning and smart devices. The hydrogel prepared in this study effectively degrades under ultraviolet or green light irradiation, and hydrogen peroxide can significantly promote the degradation kinetics. Accordingly, hydrogels loaded with calcium peroxide microparticles or glucose oxidase/ catalase can accurately and effectively control the gel degradation and drug release of cancer treatment in vivo light. In this study, the thermographs and temperatures were recorded using an infrared camera (Magnity Electronics, China)
8.Facile High Throughput Wet-Chemical Synthesis Approach Using a Microfluidic-Based Composition and Temperature Controlling Platform, published in Front in November 2020. Chem.
This study prepared a cost-effective and time-saving microfluidic-based composition and temperature control platform for HT wet chemical synthesis in a simple and automated workflow. Microfluid-based composition and temperature control platform show good prospects in simple, efficient, and low-cost HT wet chemical material synthesis. The temperature distribution of the temperature control platform in this study was obtained by Juge Technology MAG series thermal image: The infrared thermal image was captured by a Magnity MAG30 on-line thermal imaging system.
above are part of the research work carried out using Juge Technology thermal imager in the fields of chemistry and life sciences. Juge Technology is committed to providing scientifically-level accurate thermometers for cutting-edge scientific research fields, helping scientific researchers achieve first-class scientific research results. Welcome to contact us for consultation.
