Your search keyword '"Gold Nanorods"' showing total 67 results

1. Near-infrared light-responsive hydrogels for on-demand dual delivery of proangiogenic growth factors.

Author

Nazemidashtarjandi, Saeed, Larsen, Bryce, Cheng, Kristie, Faulkner, Sara, Peppas, Nicholas A., Parekh, Sapun H., and Zoldan, Janet

Subjects

PHOTOTHERMAL effect, GROWTH factors, VASCULAR endothelial growth factors, PLATELET-derived growth factor, SURFACE plasmon resonance, HYDROGELS

Abstract

Achieving precise spatiotemporal control over the release of proangiogenic factors is crucial for vasculogenesis, the process of de novo blood vessel formation. Although various strategies have been explored, there is still a need to develop cell-laden biomaterials with finely controlled release of proangiogenic factors at specific locations and time points. We report on the developed of a near-infrared (NIR) light-responsive collagen hydrogel comprised of gold nanorods (GNRs)-conjugated liposomes containing proangiogenic growth factors (GFs). We demonstrated that this system enables on-demand dual delivery of GFs at specific sites and over selected time intervals. Liposomes were strategically formulated to encapsulate either platelet-derived growth factor (PDGF) or vascular endothelial growth factor (VEGF), each conjugated to gold nanorods (GNRs) with distinct geometries and surface plasmon resonances at 710 nm (GNR710) and 1064 nm (GNR1064), respectively. Using near infrared (NIR) irradiation and two-photon (2P) luminescence imaging, we successfully demonstrated the independent release of PDGF from GNR710 conjugated liposomes and VEGF from GNR1064-conjugated liposomes. Our imaging data revealed rapid release kinetics, with localized PDGF released in approximately 4 min and VEGF in just 1 and a half minutes following NIR laser irradiation. Importantly, we demonstrated that the release of each GF could be independently triggered using NIR irradiation with the other GF formulation remaining retained within the liposomes. This light-responsive collagen hydrogels holds promise for various applications in regenerative medicine where the establishment of a guided vascular network is essential for the survival and integration of engineered tissues. In this study, we have developed a light-responsive system with gold nanorods (GNRs)-conjugated liposomes in a collagen hydrogel, enabling precise dual delivery of proangiogenic growth factors (GFs) at specific locations and timepoints. Liposomes, containing platelet-derived growth factor (PDGF) or vascular endothelial growth factor (VEGF), release independently under near- infrared irradiation. This approach allows external activation of desired GF release, ensuring high cell viability. Each GF can be triggered independently, retaining the other within the liposomes. Beyond its application in establishing functional vascular networks, this dual delivery system holds promise as a universal platform for delivering various combinations of two or more GFs. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

2. Tumor microenvironment–mediated NIR-I-to-NIR-II transformation of Au self-assembly for theranostics.

Author

Wang, Mengxin, Zhang, Xue, Chang, Qian, Zhang, Haifeng, Zhang, Zhenbo, Li, Kailin, Liu, Hui, Liu, Donglin, An, Lu, and Tian, Qiwei

Subjects

ACOUSTIC imaging, COMPANION diagnostics, TUMOR growth, INFRARED radiometry, TUMOR microenvironment, TUMORS, PHOTOACOUSTIC spectroscopy

Abstract

The misdiagnosis of tumors due to insufficient penetration depth or signal interference and damage to normal tissues due to indiscriminate treatment are the biggest challenges in using photothermal agents for clinical translation. To overcome these limitations, a strategy of switching from the near-infrared (NIR)-I region to the NIR-II region was developed based on tumor microenvironment (TME)-mediated gold (Au) self-assembly. Using zeolitic imidazolate framework-8 (ZIF-8) metal–organic framework-coated gold nanorods (AuNRs@ZIF-8) as a model photothermal agent, we demonstrated that only a NIR-I photoacoustic imaging signal was observed in normal tissue because ZIF-8 could prevent the aggregation of AuNRs. However, when ZIF-8 dissociated in the TME, the AuNRs aggregated to activate NIR-II photoacoustic imaging and attenuate the NIR-I signal, thereby allowing an accurate diagnosis of tumors based on signal transformation. Notably, TME-activated NIR-II photothermal therapy could also inhibit tumor growth. Therefore, this TME-activated NIR-I-to-NIR-II switching strategy could improve the accuracy of deep-tumor diagnoses and avoid the injury caused by undifferentiated treatment. Photothermal agents used for photoacoustic imaging and photothermal therapy have garnered great attention for tumor theranostics. However, always "turned on" near-infrared (NIR)-I laser (700–1000 nm)-responsive photothermal agents face issues of penetration depth and damage to normal tissues. In contrast, tumor microenvironment-activated NIR-II "smart" photothermal agents exhibit deeper penetration depth and tumor selectivity. Therefore, a NIR-I-to-NIR-II switching strategy was developed based on tumor microenvironment-mediated Au self-assembly. This work provides a new strategy for developing tumor microenvironment-activated NIR-II smart photothermal agents. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

3. A micropatterned thermoplasmonic substrate for neuromodulation of in vitro neuronal networks.

Author

Andolfi, Andrea, Arnaldi, Pietro, Lisa, Donatella Di, Pepe, Sara, Frega, Monica, Fassio, Anna, Lagazzo, Alberto, Martinoia, Sergio, and Pastorino, Laura

Subjects

NEURAL circuitry, PHOTOTHERMAL effect, INK-jet printing, NEUROMODULATION, PRINTMAKING, RHEOLOGY, RHEOLOGY (Biology)

Abstract

Understanding how the spatial organization of a neural network affects its activity represents a leading issue in neuroscience. Thanks to their accessibility and easy handling, in vitro studies remain an essential tool to investigate the relationship between the structure and function of a neuronal network. Among all the patterning techniques, ink-jet printing acquired great interest thanks to its direct-write approach, which allows the patterned substrate realization without mold, leading to a considerable saving of both cost and time. However, the inks commonly used give the possibility to control only the structure of a neuronal network, leaving aside the functional aspect. In this work, we synthesize a photosensitive ink combining the rheological and bioadhesive properties of chitosan with the plasmonic properties of gold nanorods, obtaining an ink able to control both the spatial organization of a two-dimensional neuronal network and its activity through photothermal effect. After the ink characterization, we demonstrate that it is possible to print, with high precision, different geometries on a microelectrode array. In this way, it is possible obtaining a patterned device to control the structure of a neuronal network, to record its activity and to modulate it via photothermal effect. Finally, to our knowledge, we report the first evidence of photothermal inhibition of human neurons activity. Patterned cell cultures remain the most efficient and simple tool for linking structural and functional studies, especially in the neuronal field. Ink-jet printing is the technique with which it is possible to realize patterned structures in the fastest, simple, versatile and low-cost way. However, the inks currently used permit the control only of the neuronal network structure but do not allow the control-modulation of the network activity. In this study, we realize and characterize a photosensitive bioink with which it is possible to drive both the structure and the activity of a neuronal network. Moreover, we report the first evidence of activity inhibition by the photothermal effect on human neurons as far as we know. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

4. Near infrared photothermal inactivation of Candida albicans assisted by plasmonic nanorods.

Author

Ferreira de Oliveira, Gabrielli Maria, Lima Pedrosa, Túlio de, and de Araujo, Renato Evangelista

Abstract

• A size-dependent optimization approach is explored to identify gold nanorods as high performance nanoheaters. • The collective optical heating mediated by gold nanorods for hyperthermia is discussed. • Cytotoxicity of different concentrations of gold nanorods is evaluated. • Optimized size of gold nanorod for yeast near-infrared photothermal inactivation is identified. [Display omitted] The use of photothermal processes has been proven effective in the control of microbial infections. Simultaneously, the localized surface plasmon resonance phenomena in metallic nanoparticles have been explored as an alternative strategy to achieve highly efficient localized heating. In this work, we propose the use of selected nanoheaters to improve the efficiency of fungal photothermal inactivation of Candida albicans through size optimization of plasmonic gold nanorods. Here, the optical heating of polyethylene glycol coated gold nanorods of varying sizes is evaluated, both theoretically and experimentally. A size-dependent computational approach was applied to identify metallic nanorods with maximized thermal performance at 800 nm, followed by the experimental comparison of optimal and suboptimal nanoheaters. Comparison among samples show temperatures of up to 53. 0 °C for 41 × 10 nm gold nanorods against 32. 3 °C for 90 × 25 nm, a percentage increase of ∼ 63% in photothermal inactivation assessments. Our findings reveal that gold nanorods of 41 × 10 nm exhibit superior efficiency in near-infrared (800 nm) photothermal inactivation of fungi, owing to their higher light-thermal conversion efficiency. The identification of high performance metallic nanoheaters may lead to the reduction of the nanoparticle dose used in plasmonic-based procedures and decrease the laser exposure time needed to induce cell death. Moreover, our results provide insights to better exploit plasmonic nanoparticles on photothermal inactivation protocols. [ABSTRACT FROM AUTHOR]

Published

2024

5. CATALYTIC DEGRADATION OF 4-NITROPHENOL IN WASTEWATER BY FLEXIBLE TWO-DIMENSIONAL GOLD NANORODS/GRAPHENE OXIDE FIBERS.

Author

Chen Chen, Zhang Qiuli, Liu Xin, Dang Alei, Li Tiehu, and Zhao Tingkai

Abstract

Nitroarene is a kind of environmental xenobiotics that is extremely difficult to degrade, and its selective catalytic hydrogenation is also extremely important for industries such as dyes and pharmaceuticals. The most widely used method for catalytic degradation of nitrophenol is the catalytic hydrogenation of p-nitrophenol, which has simple process flow, high quality, low pollution and good development prospects. Traditional nitrophenol catalysts produce many harmful substances and environmental pollution during the preparation process, and require a lot of production costs. Therefore, there is an urgent need to develop a new type of catalyst that is environmentally friendly, recyclable, and has high-efficiency catalytic performance. In this article, we took the catalytic pnitrophenol as an example to synthesize a new type of green, recyclable, highly efficient catalytic and stable flexible gold nanorod/graphene oxide fiber. It is used as a catalyst to reduce 4-nitrophenol with NaBH4 as a reducing agent to produce 4-aminophenol. The catalyst uses gold nanorods as the active center and graphene oxide as the carrier. Various analysis techniques were used to characterize all materials, and it was found that the inner/outer surfaces of graphene oxide fibers were homogeneously loaded with gold nanorods. The catalytic system has high activity and selectivity in reducing 4-nitrophenol. Due to the sealing effect of the graphene carrier and the flexibility of the catalytic material fiber, the supporting surface of the catalytic material is safer, with strong flexibility and stability. In addition, the flexible fiber also showed high operational stability during the catalytic cycle when 4-nitrophenol was reduced, and the conversion rate was only slightly decreased in the ten-cycle test, highlighting the application potential of the flexible fiber catalyst. [ABSTRACT FROM AUTHOR]

Published

2022

6. New Findings from Max-Planck Institute for Medical Research Describe Advances in Gold Nanorods (Modular Porous Polymer-based Microcapsules for Trapping and Near-infrared Light-triggered Killing of Bacteria Via Gold Nanorods).

Published

2024

7. New Findings from Sahmyook University in Gold Nanorods Provides New Insights (Gold Nanorod-based Smart Platform for Efficient Cellular Uptake and Combination Therapy).

Abstract

Researchers from Sahmyook University in Seoul, South Korea have developed a new platform for combination therapy using gold nanorods (GNRs). GNRs have shown potential as drug-delivery vehicles due to their biocompatibility and responsiveness to stimuli. However, loading various drugs into GNRs can be challenging, and the space for drug containment is limited. The researchers coated GNRs with an amphiphilic polymer to enable chemo- and photothermal combination therapy. The platform demonstrated controlled drug release and enhanced cellular uptake, making it a promising approach for cancer treatment. [Extracted from the article]

Published

2024

8. Findings in Gold Nanorods Reported from Bar Ilan University (High Yield Seedless Synthesis of Mini Gold Nanorods: Partial Silver Decoupling Allows Effective Nanorod Elongation With Tunable Surface Plasmon Resonance Beyond 1000 Nm and Ctab-free...).

Abstract

A recent study conducted at Bar Ilan University in Ramat-Gan, Israel, has reported findings on the synthesis of gold nanorods. The researchers developed a seedless approach to synthesize mini gold nanorods with tunable surface plasmon resonance and high aspect ratios without the use of polymeric additives or pH modification. The study also explored the functional coating of the nanorods for drug conjugation. The research has implications for emerging technologies in nanotechnology and offers insights into improving cellular uptake and absorption efficiency. [Extracted from the article]

Published

2024

9. New Gold Nanorods Data Have Been Reported by Investigators at Lomonosov Moscow State University (A Sorption-spectrometric Method for Quantitation of Catecholamines In Urine and Plasma Using Hypercrosslinked Polystyrene and Gold Nanorods or...).

Abstract

A recent report from Lomonosov Moscow State University in Russia discusses research on the use of gold nanorods in the quantitation of catecholamines in urine and plasma. The researchers investigated the combination of solid-phase extraction of catecholamines with their subsequent determination using gold nanorods or nanocomposites. They found that elution with 6 M acetic acid achieved quantitative elution of all three catecholamines and described the features of dynamic sorption extraction. The developed methods allow for the determination of catecholamines in urine at normal levels. This research has been peer-reviewed and provides valuable insights into the use of gold nanorods in biomedical applications. [Extracted from the article]

Published

2024

10. Investigators at University of Minho Describe Findings in Gold Nanorods (Sequential Release of Drugs From Dual-delivery Plasmonic Nanogels Containing Lipid-gated Mesoporous Silica-coated Gold Nanorods).

Abstract

Researchers at the University of Minho in Braga, Portugal have developed a nanosystem design strategy for sequential drug delivery in cancer therapy. The system utilizes lipid-gated mesoporous silica-coated gold nanorods and chitosan/alginate nanogels. The nanogels exhibited high loading efficiencies for methotrexate and doxorubicin, and displayed sustained release of both drugs under different conditions. The researchers concluded that this design strategy holds promise for multimodal cancer therapy targeting multiple tumor microenvironments. [Extracted from the article]

Published

2024

11. Investigators at Anhui Polytechnic University Detail Findings in Gold Nanorods (Combined Photothermal/combination Chemotherapeutic Approach Using Zif-8-supported Artesunate and Gold Nanorods).

Abstract

Researchers at Anhui Polytechnic University in China have conducted a study on the use of gold nanorods in cancer treatment. The study found that combining chemotherapy and photothermal therapy using gold nanorods showed promising results in reducing tumors and increasing the effectiveness of chemotherapy. The researchers used a tumor-specific material to encapsulate the drug, allowing for controlled release within the tumor microenvironment. The treatment was tested on mouse models and demonstrated high effectiveness and biological safety. This research provides a basis for further exploration of nanomaterials in tumor inhibition. [Extracted from the article]

Published

2024

12. New Gold Nanorods Findings Has Been Reported by Investigators at Nankai University (Construction of Natural Polysaccharide-based Ph-responsive Gold Nanorods for Combined Photothermal Therapy and Immunotherapy).

Abstract

Researchers at Nankai University in Tianjin, China have developed a new method for treating tumors using a combination of photothermal therapy and immunotherapy. They coated gold nanorods with a natural polysaccharide derived from the Rosa roxburghii fruit, creating a system called RRP-MPBA-GNRs. In vivo experiments showed that RRP-MPBA-GNRs reduced the number of cancer cells and inhibited metastasis. The researchers concluded that RRP-MPBA-GNRs effectively integrate photothermal therapy and immunotherapy for tumor treatment. [Extracted from the article]

Published

2024

13. Dual-functional bacterial cellulose modified with phase-transitioned proteins and gold nanorods combining antifouling and photothermal bactericidal properties.

Author

Li, Luohuizi, Li, Guize, Wu, Yong, Lin, Yuancheng, Qu, Yangcui, Wu, Yan, Lu, Kunyan, Zou, Yi, Chen, Hong, Yu, Qian, and Zhang, Yanxia

Subjects

CELLULOSE, NANORODS, BACTERIAL adhesion, PROTEINS, GOLD nanoparticles

Abstract

• A facile method is developed for endowing bacterial cellulose (BC) with antifouling and photothermal antibacterial properties. • The modified BC is fabricated by physical incorporation of gold nanorods followed by deposition of a phase-transitioned protein film. • The modified BC can suppress bacterial adhesion and kill the bacteria that broke through the antifouling layer under NIR irradiation. • The modified BC exhibits negligible cytotoxicity in vitro and good histocompatibility in vivo. Bacterial cellulose (BC) is one of the most versatile natural biopolymers with unique physical, chemical, and biological features. However, the lack of intrinsic antibacterial property of native BC limits its broad biomedical applications where such property is highly required to prevent contamination or infection caused by attached bacteria. In this work, we developed a simple and facile method to fabricate a dual-functional BC membrane by physical incorporation of gold nanorods (GNRs) followed by deposition of a phase-transitioned bovine serum albumin (PTB) film. Due to the broad-spectrum antifouling property of the PTB film, the resulting membrane could prevent the adhesion and accumulation of bacteria. A few bacteria that broke through the protection of the PTB film could be eradicated under short-term irradiation of a near-infrared laser due to the excellent photothermal property of incorporated GNRs. The whole fabrication was conducted in a simple and environmentally friendly manner, avoiding complicated processes and toxic organic solvents. Moreover, because all the components were biocompatible, the resulting membrane showed negligible cytotoxicity in vitro and good histocompatibility in vivo. This work thus provided a reliable way to endow BC with antibacterial property, being beneficial for diverse biomedical applications. [ABSTRACT FROM AUTHOR]

Published

2022

14. Photothermal release and recovery of mesenchymal stem cells from substrates functionalized with gold nanorods.

Author

Vegi, Yashaswini, Charnley, Mirren, Earl, Stuart K, Onofrillo, Carmine, del Rosal, Blanca, Chong, Christopher J.H., Stoddart, Paul R., Cole, Nerida, Choong, Peter F., Moulton, Simon E, and Reynolds, Nicholas P.

Subjects

SURFACE plasmon resonance, NEAR infrared radiation, MESENCHYMAL stem cells, NANORODS, REGENERATIVE medicine, STEM cells, CELL culture, FAT cells

Abstract

Mesenchymal stem cell therapies show great promise in regenerative medicine. However, to generate clinically relevant numbers of these stem cells, significant in vitro expansion of the cells is required before transplantation into the affected wound or defect. The current gold standard protocol for recovering in vitro cultured cells involves treatment with enzymes such as trypsin which can affect the cell phenotype and ability to interact with the environment. Alternative enzyme free methods of adherent cell recovery have been investigated, but none match the convenience and performance of enzymatic detachment. In this work we have developed a synthetically simple, low cost cell culture substrate functionalized with gold nanorods that can support cell proliferation and detachment. When these nanorods are irradiated with biocompatible low intensity near infrared radiation (785 nm, 560 mWcm−2) they generate localized surface plasmon resonance induced nanoscale heating effects which trigger detachment of adherent mesenchymal stem cells. Through simulations and thermometry experiments we show that this localized heating is concentrated at the cell-nanorod interface, and that the stem cells detached using this technique show either similar or improved multipotency, viability and ability to differentiate into clinically desirable osteo and adipocytes, compared to enzymatically harvested cells. This proof-of-principle work shows that photothermally mediated cell detachment is a promising method for recovering mesenchymal stem cells from in vitro culture substrates, and paves the way for further studies to scale up this process and facilitate its clinical translation. New non-enzymatic methods of harvesting adherent cells without damaging or killing them are highly desirable in fields such as regenerative medicine. Here, we present a synthetically simple, non-toxic, infra-red induced method of harvesting mesenchymal stem cells from gold nanorod functionalized substrates. The detached cells retain their ability to differentiate into therapeutically valuable osteo and adipocytes. This work represents a significant improvement on similar cell harvesting studies due to: its simplicity; the use of clinically valuable stem cells as oppose to immortalized cell lines; and the extensive cellular characterization performed. Understanding, not just if cells live or die but how they proliferate and differentiate after photothermal detachment will be essential for the translation of this and similar techniques into commercial devices. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

15. Gold nanorods-mediated efficient synergistic immunotherapy for detection and inhibition of postoperative tumor recurrence.

Author

Zhang, Yingying, Wang, Tiange, Tian, Yu, Zhang, Chaonan, Ge, Kun, Zhang, Jinchao, Chang, Jin, and Wang, Hanjie

Subjects

DISEASE relapse, IMMUNOTHERAPY, FLUORESCENCE resonance energy transfer, MEDICAL research, CARCINOEMBRYONIC antigen, TREATMENT failure

Abstract

Tumor recurrence after surgery is the main cause of treatment failure. However, the initial stage of recurrence is not easy to detect, and it is difficult to cure in the late stage. In order to improve the life quality of postoperative patients, an efficient synergistic immunotherapy was developed to achieve early diagnosis and treatment of post-surgical tumor recurrence, simultaneously. In this paper, two kinds of theranostic agents based on gold nanorods (AuNRs) platform were prepared. AuNRs and quantum dots (QDs) in one agent was used for the detection of carcinoembryonic antigen (CEA), using fluorescence resonance energy transfer (FRET) technology to indicate the occurrence of in situ recurrence, while AuNRs in the other agent was used for photothermal therapy (PTT), together with anti-PDL1 mediated immunotherapy to alleviate the process of tumor metastasis. A series of assays indicated that this synergistic immunotherapy could induce tumor cell death and the increased generation of CD3+/CD4+ T-lymphocytes and CD3+/CD8+ T-lymphocytes. Besides, more immune factors (IL-2, IL-6, and IFN- γ) produced by synergistic immunotherapy were secreted than mono-immunotherapy. This cooperative immunotherapy strategy could be utilized for diagnosis and treatment of postoperative tumor recurrence at the same time, providing a new perspective for basic and clinical research. This efficient synergistic immunotherapy was developed to achieve early diagnosis and treatment of post-surgical tumor recurrence, simultaneously. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

16. Dual gate-keeping and reversible on-off switching drug release for anti-cancer therapy with pH- and NIR light-responsive mesoporous silica-coated gold nanorods.

Author

Park, Ju Hyang, Sung, Kyung Eun, Kim, Ki Hak, Kim, Jong Ryeol, Kim, Jongbok, Moon, Geon Dae, and Hyun, Dong Choon

Subjects

MESOPOROUS silica, ANTINEOPLASTIC agents, NANORODS, TANNINS, LAURIC acid, GOLD nanoparticles

Abstract

This work reports the fabrication of AuNR@MSNs [i.e., gold nanorods (AuNRs) coated with mesoporous silica nanoshells (MSNs)] with independent sensitivities to pH and near-infrared (NIR) light for reversible on–off switching of drug release without premature drug leakage. The fabrication involves the incorporation of lauric acid (LA) as a thermosensitive gatekeeper, followed by the coating of tannic acid (TA) layers as a pH-sensitive gatekeeper. The protonation–deprotonation of the TA layers according to change in pH can result in their swelling–deswelling to induce pH-sensitive drug release, while the solid–liquid phase transition of LA by NIR light-induced heat generation in AuNRs enables the NIR light-controlled release of preloaded drug molecules. The interplay between these dual gatekeepers allows the release of pre-loaded drug from the AuNR@MSN-LA@TAs (i.e., AuNR@MSNs incorporating LA and TA) only at acidic conditions under NIR light irradiation, without premature drug leakage under inactive conditions (neutral pH or no NIR light). Moreover, the reversibility of the gatekeepers can make an on–off mannered drug release. Benefiting from the capability of the gatekeepers to induce pH-/temperature-sensitive release, along with the photothermal ability of AuNRs, the AuNR@MSN-LA@TAs can exhibit a satisfactory anticancer performance without undesired drug leakage. [ABSTRACT FROM AUTHOR]

Published

2022

17. Recent Findings from National Center for Nanoscience and Technology Has Provided New Information about Gold Nanorods (Cysteine-mediated Etching of Gold Nanorods By Ferric Ions: Probing Cys Spatial Distribution Features On a Rod Surface).

Abstract

A recent study conducted by the National Center for Nanoscience and Technology in Beijing, China, has provided new information about gold nanorods. The researchers found that modifying the nanorods with the amino acid cysteine had a significant impact on their etching by ferric ions, resulting in unique etching patterns that encoded information about the cysteine adsorption characteristics. This discovery deepens our understanding of chirality transfer mechanisms and provides design rules for enhancing plasmonic chirality. The study was supported by various organizations, including the National Natural Science Foundation of China and the Chinese Academy of Sciences. [Extracted from the article]

Published

2024

18. Researchers from Lanzhou University Report Recent Findings in Gold Nanorods (Chiral Gold Nanorod Vertical Arrays for Enantioselective Chemiluminescence Recognition of Naproxen and Mechanism Revealing).

Abstract

Researchers from Lanzhou University in Gansu, China have made recent findings in the field of nanotechnology, specifically in the area of gold nanorods. They have developed a method for enantioselective chemiluminescence recognition of the drug naproxen using chiral gold nanorod vertical arrays. The researchers were able to improve the sensitivity of chiral recognition and accurately elucidate its mechanism. This study provides a novel strategy for detecting enantiomers and reveals the mechanism of enantioselective recognition. The research has been peer-reviewed and published in the Chemical Engineering Journal. [Extracted from the article]

Published

2024

19. Salt-triggered Active Plasmonic Systems Based on the Assembly/Disassembly of Gold Nanorods in a DNA Brush Layer on a Solid Substrate.

Author

Satoshi Nakamura, Hideyuki Mitomo, Yusuke Yonamine, and Kuniharu Ijiro

Abstract

In this study, we demonstrate that the plasmonic properties of gold nanorods (GNRs) electrostatically adsorbed on a DNA brush substrate are reversibly controlled by changes in NaCl concentration. This plasmonic change results from GNR assembly/disassembly in a DNA brush layer. In addition, we show that this active plasmonic system exhibits intense and switchable chiroptical properties. [ABSTRACT FROM AUTHOR]

Published

2020

20. An ultrafast and portable nucleic acid detection system based on photothermal PCR and real-time fluorescence detection.

Author

Zhu, Liangxi, Zhao, Jingzhou, Fang, Yile, Guo, Zhukang, Wang, Maonan, and He, Nongyue

Subjects

NUCLEIC acids, HEPATITIS B virus, FLUORESCENCE, POLYMERASE chain reaction

Abstract

The nucleic acid detection technology based on polymerase chain reaction (PCR) is widely used in infectious disease detection due to its excellent sensitivity and specificity. However, the drawbacks of this method include bulky instrumentation in centralized laboratories and an assay time of 1–2 h. Here, we show a portable nucleic acid detection system, successfully performing ultrafast thermocycling and real-time fluorescence detection in a glass microtubule. By using plasmonic nanoparticles, the system can achieve 30 thermocycles in ∼ 2.5 min. The nucleic acid detection efficiency of the system is comparable to that of the conventional thermocycler. The system correctly distinguished the positive and negative samples of the clinical hepatitis B virus (HBV). Overall, this study extends PCR technology to point-of-care use and provides ideas for developing new virus detection systems. [Display omitted] • Gelatin-AuNRs used for the photothermal PCR system have excellent thermal stability and biocompatibility. • The maximum heating rate and cooling rate of the photothermal PCR system are respectively 30.5 ℃/s and 9.8 ℃/s. • The templates even with an initial concentration as low as 200 copies/mL can be detected in the photothermal PCR system. • The photothermal PCR system can successfully distinguish the positive and negative samples of clinical HBV. [ABSTRACT FROM AUTHOR]

Published

2023

21. A multifunctional theranostic contrast agent for ultrasound/near infrared fluorescence imaging-based tumor diagnosis and ultrasound-triggered combined photothermal and gene therapy.

Author

Wang, Ling, Lu, Hangqing, Gao, Qi, Yuan, Chenyan, Ding, Fengan, Li, Jia, Zhang, Dongsheng, and Ou, Xilong

Subjects

CONTRAST-enhanced ultrasound, GENE therapy, MICROBUBBLE diagnosis, TUMOR diagnosis, EXPOSURE therapy, FLUORESCENCE

Abstract

Encapsulated microbubbles (MBs) have been reported as new theranostic carriers for simultaneous imaging and ultrasound (US)-triggered therapy. Here, we designed a dual-modality US/NIRF contrast agent and extended its applications from image contrast enhancement to combined diagnosis and therapy with US-directed and site-specific targeting. Gold nanorods (AuNRs) resonant at 880 nm together with the NIR797 dye were first encapsulated in lipid-shelled MBs to construct fluorescent gold microbubbles (NIR797/AuMBs) via thin film hydration and mechanical shaking in the presence of sulfur hexafluoride (SF 6) gas. Then, polyethylenimine (PEI)-DNA complexes were electrostatically conjugated onto the surface of the NIR797/AuMBs, forming theranostic encapsulated MBs (PEI-DNA/NIR797/AuMBs). The potential of the PEI-DNA/NIR797/AuMBs for use as a dual-modality contrast enhancement agent was evaluated in vitro and in vivo. The antitumor effect of US/NIR laser irradiation mediating double-fusion suicide gene and photothermal therapy was also investigated using Bel-7402 cells and xenografts. The developed theranostic AuMB complexes could not only provide excellent US and NIRF imaging to detect tumors but also serve as an efficient US-triggered carrier for gene delivery and photothermal ablation of tumors in xenografted nude mice. And US + laser exposure group showed a much higher rate of cell inhibition, apoptosis and necrosis as well as a higher Bel-7402 xenograft inhibition rate than the single gene therapy or single exposure (US or laser) group. PEI-DNA/NIR797/AuMBs would be of great value for providing more comprehensive diagnostic information and to guide more accurate and effective synergistic cancer therapy. This is an original paper focusing on developing a dual-modality US/NIRF contrast agent and extended its applications from image contrast enhancement to combined diagnosis and therapy with US-directed and site-specific targeting. The developed theranostic AuMB complexes could not only provide excellent US and NIRF imaging to detect tumors but also serve as an efficient US-triggered carrier for gene delivery and photothermal ablation of tumors in xenografted nude mice. PEI-DNA/NIR797/AuMBs would be of great value for providing more comprehensive diagnostic information and to guide more accurate and effective synergistic cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2019

22. Gold nanorods-based hybrids with tailored structures for photoredox catalysis: fundamental science, materials design and applications.

Author

Han, Chuang, Qi, Ming-Yu, Tang, Zi-Rong, Gong, Jinlong, and Xu, Yi-Jun

Subjects

CATALYSIS, SOLAR energy conversion, SURFACE plasmon resonance, SOLAR spectra, HOT carriers, PHOTOELECTROCHEMISTRY

Abstract

• An overview on the structural diversity, tunable properties, synthetic chemistry and applications of Au NRs-based hybrids. • The electron transfer processes and corresponding roles of Au NRs played in photoredox catalysis are fully demonstrated. • The process-intensified engineering strategies to optimize the performance of Au NRs-based hybrids are highlighted. • The perspectives on future research direction in Au NRs-mediated photoredox catalysis are proposed. Gold nanorods (Au NRs) have received extensive attention owing to their extremely attractive applications in photoredox catalysis, plasmon-enhanced spectroscopy, biomedical technologies and optoelectronic devices. Enabled by the unique and tunable surface plasmon resonance (SPR), anisotropic Au NRs can interact with and harvest incident light covering the much of the solar spectrum. As such, they may serve as unusual media to supply energetic hot charge carriers, generate heat, and provide strong local electric field and reactive site for redox reactions through different mechanisms. In this review, we present a comprehensive overview on the burgeoning field of Au NRs-based materials for solar energy conversion. We firstly provide a detailed elucidation of the key underpinning science for plasmonic Au NRs and Au NRs-mediated catalysis. The possible charge transfer processes and corresponding roles of Au NRs played in different photoredox catalysis systems are demonstrated, followed by introducing the latest advances in constructing Au NRs-based hybrids with tailored structure. The applications of the hybrids in photoinduced catalysis, photothermal catalysis and photoelectrochemical catalysis are then discussed. Particularly, the process-intensified engineering strategies to maximize solar energy conversion efficiency are further highlighted based on some typical examples. Finally, the perspectives on future research trends and challenges in rational design and deliberate construction of Au NRs-mediated photoredox catalysis systems in a smart configuration are proposed. [ABSTRACT FROM AUTHOR]

Published

2019

23. Enzyme-responsive multifunctional peptide coating of gold nanorods improves tumor targeting and photothermal therapy efficacy.

Author

Wu, Liming, Lin, Bingyi, Yang, Huang, Chen, Jing, Mao, Zhengwei, Wang, Weilin, and Gao, Changyou

Subjects

GOLD coatings, NANORODS, TUMOR microenvironment, TUMORS, NANOSTRUCTURED materials

Abstract

Graphical abstract Abstract It is well known that stealth coating effectively extends the circulation lifetime of nanomaterials in blood, which favors systemic delivery but also limits their cellular internalization and in turn prevents efficient tumor-targeting and accumulation. In this study, we address this dilemma by developing an enzyme-responsive zwitterionic stealth peptide coating capable of responding to matrix metalloproteinase-9 (MMP-9) which is overexpressed in tumor microenvironment. The peptide consists of a cell-penetrating Tat sequence, an MMP-9 cleavable sequence, and a zwitterionic antifouling sequence. Using this coating to protect photothermal gold nanorods (AuNRs), we found that responsive AuNRs showed both satisfactory systemic circulation lifetime and significantly enhanced cellular uptake in tumors, resulting in clearly improved photothermal therapeutic efficacy in mouse models. These results suggest that multifunctional peptide coated AuNRs sensitive to MMP-9 are promising nanomaterials, conferring both extended systemic circulation and enhanced tumor tissue accumulation, for more specific and efficient tumor therapy. Statement of significance It is well known that stealth coating effectively extends the circulation lifetime of nanomaterials in blood, which favors systemic delivery but also limits their cellular internalization and in turn prevents efficient tumor-targeting and accumulation. In this study, we address this dilemma by developing an enzyme-responsive zwitterionic stealth peptide coating capable of responding to matrix metalloproteinase-9 (MMP-9) which is overexpressed in tumor microenvironment. The peptide consists of a cell-penetrating Tat sequence, an MMP-9 cleavable sequence, and a zwitterionic antifouling sequence. Using this coating to protect photothermal gold nanorods (AuNRs), we found that responsive AuNRs showed both satisfactory systemic circulation lifetime and significantly enhanced cellular uptake in tumors, resulting in clearly improved photothermal therapeutic efficacy in mouse models. [ABSTRACT FROM AUTHOR]

Published

2019

24. Investigating the photo-thermo-radiosensitization effects of folate-conjugated gold nanorods on KB nasopharyngeal carcinoma cells.

Author

Movahedi, Mohammad Mehdi, Mehdizadeh, Alireza, Koosha, Fereshteh, Eslahi, Neda, Mahabadi, Vahid Pirhajati, Ghaznavi, Habib, and Shakeri-Zadeh, Ali

Abstract

Highlights • A protocol is suggested for multimodal cancer therapy. • Gold nanorods conjugated with folic acid (AuNR-FA) were synthesized and characterized. • Photothermal effects of the nanoconjugates were investigated in vitro. • Photosensitizing and radiosensitizing effects of AuNR with and without FA were compared. Abstract In this article, we report a targeted cancer treatment strategy using nano-photo-thermal therapy (NPTT) and radiotherapy (RT) methods. Gold nanorods (AuNRs) without and with folic acid (FA) conjugation were firstly synthesized and then characterized. Cytotoxicity of various methods; NPTT (nanoparticles; 808 nm laser; 2 W/cm 2) or RT (6 MV X-ray; 2 Gy) or combination of NPTT and RT; was separately investigated on KB nasopharyngeal carcinoma cells. The effects of different treatments were studies using MTT assay, inductively coupled plasma-mass spectrometry (ICP-MS) and transmission electron microscopy (TEM). Both TEM and ICP-MS confirmed the internalization of nanoparticles into the KB cells. ICP-MS analysis revealed that AuNR-FA cell uptake was higher than AuNRs. Viability of the cells received NPTT was lower than those cells received laser or nanoparticles alone. Furthermore, it was found that combination of NPTT and RT notably decreased the viability of KB cells. Following such a combinatorial treatment (NPTT + RT), intensive damages were identified in TEM images obtained from treated cells. It may be concluded that AuNR-FA nanoconjugate is a good candidate to be used as a targeted sensitizer agent for nano-photo-thermo-radiotherapy of head and neck cancer cells. [ABSTRACT FROM AUTHOR]

Published

2018

25. PEGylated hydrazided gold nanorods for pH-triggered chemo/photodynamic/photothermal triple therapy of breast cancer.

Author

Xu, Weijun, Qian, Junmin, Hou, Guanghui, Wang, Yaping, Wang, Jinlei, Sun, Tiantian, Ji, Lijie, Suo, Aili, and Yao, Yu

Subjects

GOLD, NANORODS, PHOTOTHERMAL effect, PHOTODYNAMIC therapy, BREAST cancer

Abstract

Graphical abstract Abstract Integration of multimodal therapies into one nanoplatform holds great promise to overcome the drawbacks of conventional single-modal therapy and pursues enhanced anticancer efficacy. Herein, we developed a PEGylated gold nanorods (GNRs)-based nanoplatform (GNRs-MPH-ALA/DOX-PEG) with pH-responsive drug release property for triple-combined chemotherapy (CT), photodynamic therapy (PDT) and photothermal therapy (PTT) of breast cancer. GNRs were first decorated with mercaptopropionylhydrazide (MPH) and thiol-terminated monomethoxyl poly(ethylene glycol) (mPEG-SH) via Au-thiol linkage, and subsequently conjugated with chemotherapeutant doxorubicin (DOX) and pro-photosensitizer 5-aminolevulinic acid (ALA) through acid-liable hydrazone bonds between drugs and MPH molecules. The resulting nanoplatform GNRs-MPH-ALA/DOX-PEG exhibited excellent stability in physiological solutions and pH-responsive DOX and ALA release behaviors. In vitro studies showed that GNRs-MPH-ALA/DOX-PEG could efficiently enter human breast cancer MCF-7 cells and release DOX and ALA into cytoplasm. Furthermore, DOX could locate in the cell nucleus and ALA was productively metabolized into protoporphyrin IX (PpIX). Upon near-infrared (NIR) irradiation, PpIX produced enough reactive oxygen species for PDT and meanwhile GNRs could efficiently induce hyperthermia for PTT. Compared with single CT and dual-modal CT/PDT or CT/PTT treatment, the triple-combined CT/PDT/PTT treatment could more efficiently kill MCF-7 cells via a superadditive antitumor effect. Furthermore, the circulation half-life of GNRs-MPH-ALA/DOX-PEG in the blood was as long as approximately 52 min and it exhibited a tumor accumulation of 3.3%. The triple-combined CT/PDT/PTT treatment could completely suppress tumor growth without obvious systemic toxicity. Our study paves a new avenue for multimodal therapy of breast cancer. Statement of significance The development of a simple but effective strategy to construct a versatile nanoplatform for multi-combined therapy still remains an enormous challenge. In this work, we developed a novel and simple nanoplatform GNRs-MPH-ALA/DOX-PEG with pH-responsive drug release for triple-combined chemotherapy (CT), photodynamic therapy (PDT) and photothermal therapy (PTT) of breast cancer. The nanoplatform could be efficiently internalized by MCF-7 cells. The intracellular GNRs-MPH-ALA/DOX-PEG could release DOX for CT, induce hyperthermia for PTT and generate high levels of ROS for PTT. Compared with single CT and dual-modal CT/PDT or CT/PTT treatments, the triple-combined CT/PDT/PTT treatment could more efficiently kill MCF-7 cells via a superadditive antitumor effect. Furthermore, upon triple-combined CT/PDT/PTT treatment, the tumor growth was completely suppressed without obvious systemic toxicity. [ABSTRACT FROM AUTHOR]

Published

2018

26. Rational design of multimodal therapeutic nanosystems for effective inhibition of tumor growth and metastasis.

Author

Wang, Feihu, Huang, Qian, Wang, Yun, Zhang, Wenjun, Lin, Ran, Yu, Yanna, Shen, Yuanyuan, Cui, Honggang, and Guo, Shengrong

Subjects

DOXORUBICIN, TUMOR growth, METASTASIS, CELL proliferation, CELL cycle

Abstract

Simultaneous inhibition of both tumor growth and metastasis is the key to treating metastatic cancer, yet the development of effective drug delivery systems represents a great challenge since multimodal therapeutic agents must be rationally combined to overcome the biological mechanisms underpinning tumor cell proliferation and invasion. In this context, we report a hybrid therapeutic nanoscale platform that incorporates an anti-proliferative drug, doxorubicin (DOX), and an anti-NF-κB agent, p65-shRNA, for effective treatment of metastatic breast cancer. In our design, we first conjugated DOX via an acid-labile linker onto gold nanorods that were pre-modified with the tumor targeting peptide RGD and a positively charged, disulfide cross-linked short polyethylenimines (DSPEI), and then incorporated shRNA through electrostatic complexation with DSPEI. We show that this “all in one” nanotherapeutic system (RDG/shRNA@DOX) can be effectively internalized through RGD-mediated endocytosis, followed by stimuli-responsive intracellular co-release of DOX and shRNA. Our in vitro experiments suggest that this multimodal system can significantly inhibit cell proliferation, angiogenesis, and invasion of metastatic MDA-MB-435 cancer cells. Systemic administration of RDG/shRNA@DOX into a metastatic mouse model led to enhanced tumor accumulation, and, most importantly, significant inhibition of in situ tumor growth and almost complete suppression of tumor metastasis. We believe this hybrid multimodal nanotherapeutic system provides important insight into the rational design of therapeutic systems for the effective treatment of metastatic carcinoma. Statement of Significance The key to successfully treat metastatic cancer is the simultaneous inhibition of both tumor growth and metastasis. This represents a great challenge for the design of drug delivery systems since multimodal therapeutic agents must be rationally combined to overcome the respective biological mechanisms underpinning tumor cell proliferation and invasion. Toward this end, we developed a hybrid nanomedicine platform that incorporates an anti-proliferative drug, doxorubicin (DOX), and an anti-NF-κB agent, p65-shRNA, for effective treatment of metastatic breast cancer. We showed that this multimodal system (RDG/shRNA@DOX) enhanced tumor accumulation, led to prolonged circulation, and most importantly, significant inhibition of in situ tumor growth and almost complete suppression of tumor metastasis. We believe this hybrid multimodal nanotherapeutic system provides significant insight into the rational design of therapeutic systems for the effective treatment of metastatic cancer. [ABSTRACT FROM AUTHOR]

Published

2018

27. Targeted-gene silencing of BRAF to interrupt BRAF/MEK/ERK pathway synergized photothermal therapeutics for melanoma using a novel FA-GNR-siBRAF nanosystem.

Author

Zhang, Yujuan, Zhan, Xuelin, Peng, Shanshan, Cai, Ying, Zhang, Yu Shrike, Liu, Yanling, Wang, Zhigang, Yu, Yanrong, Wang, Yifan, Shi, Qiaofa, Zeng, Xiaoping, Yuan, Keng, Zhou, Nanjin, Joshi, Rakesh, Zhang, Meng, Zhang, Zhuxu, and Min, Weiping

Subjects

FOLIC acid, GENE silencing, PHOTOTHERMAL effect, MELANOMA treatment, SMALL interfering RNA

Abstract

Melanoma is significantly associated with mutant BRAF gene, a suitable target for siRNA-based anti-melanoma therapy. However, a tumor-specific delivery system is a major hurdle for clinical applications. Here, we developed a novel nano-carrier, FA-GNR-siBRAF for safe topical application, which consists of folic acid (FA) as the tumor-targeting moiety, golden nanorods (GNR) providing photothermal capability to kill tumor cells under laser irradiation, and siRNA specifically silencing BRAF (siBRAF). The in vitro and in vivo results revealed that FA-GNR-siBRAF displayed high transfection rates, and subsequently induced remarkable gene knockdown of BRAF, resulting in suppression of melanoma growth due to the interruption of the MEK/ERK pathway. Combinatorial photothermal effects and BRAF knockdown by FA-GNR-siBRAF effectively killed tumor cells through apoptosis, with enhanced efficiency than individual treatments. Therefore, the FA-GNR-siBRAF simultaneously induced BRAF gene silencing and photothermal effects which achieved synergistic efficacy in the treatment of melanoma, paving a new path for developing clinical treatment methods for melanoma. [ABSTRACT FROM AUTHOR]

Published

2018

28. Gold nanorods together with HSP inhibitor-VER-155008 micelles for colon cancer mild-temperature photothermal therapy.

Author

Tang, Xichuan, Tan, Liwei, Shi, Kun, Peng, Jinrong, Xiao, Yao, Li, Wenting, Chen, Lijuan, Yang, Qian, and Qian, Zhiyong

Subjects

GOLD nanoparticles, HEAT shock proteins regulation, MICELLES, COLON cancer treatment, PHOTOTHERMAL radiometry

Abstract

Enhancing the heat-sensitivity of tumor cells provides an alternative solution to maintaining the therapeutic outcome of photothermal therapy (PTT). In this study, we constructed a therapeutic system, which was composed of methoxy-polyethylene-glycol-coated-gold-nanorods (MPEG-AuNR) and VER-155008-micelles, to evaluate the effect of VER-155008 on the sensitivity of tumor cells to heat, and further investigate the therapeutic outcome of MPEG-AuNR mediated PTT combined with VER-155008- micelles. VER-155008- micelles down-regulate the expression of heat shock proteins and attenuate the heat-resistance of tumor cell. The survival of HCT116 cells treated with VER-155008- micelles under 45 °C is equal to that treated with high temperature hyperthermia (55 °C) in vitro . Furthermore, we proved either the MPEG-AuNR or VER-155008- micelles can be accumulate in the tumor site by photoacoustic imaging and fluorescent imaging. In vivo anti-cancer evaluation showed that tumor size remarkably decreased (smaller than 100 mm 3 or vanished) when treated with combing 45 °C mild PTT system, which contrasted to the tumor size when treated with individual 45 °C mild PTT (around 500 nm 3 ) or normal saline as control (larger than 2000 nm 3 ). These results proved that the VER-155008- micelles can attenuate the heat-resistance of tumor cells and enhance the therapeutic outcome of mild-temperature photothermal therapy. [ABSTRACT FROM AUTHOR]

Published

2018

29. Biomimetic albumin-modified gold nanorods for photothermo-chemotherapy and macrophage polarization modulation.

Author

Li, Dongdong, Zhang, Meng, Xu, Fan, Chen, Yingzhi, Chen, Binfan, Chang, Ya, Zhong, Huihai, Jin, Hongyue, and Huang, Yongzhuo

Subjects

NANOTECHNOLOGY, PHOTOTHERAPY, PHOTOTHERMAL effect, ALBUMINS, CANCER treatment

Abstract

Nanotechnology-based photothermal therapy has attracted great attention in the past decade. Nevertheless, photothermal therapy has some inherent drawbacks, such as the uneven heat production and limited laser penetration, often leading to insufficient treatment outcomes. Here, we developed a combination strategy to improve cancer therapy. The biomimetic albumin-modified gold nanorods (AuNRs) were prepared with incorporation of paclitaxel (PTX). This therapeutic system was characterized by several features. First, the albumin modification enhanced the biocompatibility and colloidal stability. Second, the surface-coated albumin promoted cellular uptake via the albumin-binding protein pathway. Third, PTX was incorporated via hydrophobic interaction between PTX and the albumin lipophilic domain. Fourth, the system can be used for combined photothermo-chemotherapy for yielding synergistic effects. The antitumor activity of the system was evaluated both in vitro and in vivo using the HCT116 colon cancer cell and tumor model. The combination therapy was found with an enhanced treatment efficiency and no obvious side effect. Most importantly, the thermal effect was also discovered with the ability to modulate the tumor microenvironments and suppress the macrophages polarization towards the M2 pro-tumor phenotype. It could be a mechanism for photothermal immunotherapy. The combination strategy and the system provide a potential method for cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2018

30. Investigators from King's College London Target Gold Nanorods (Combined Facile Synthesis, Purification, and Surface Functionalization Approach Yields Monodispersed Gold Nanorods for Drug Delivery Applications).

Abstract

Keywords for this news article include: London, United Kingdom, Europe, Gold Nanorods, Drug Delivery, Drug Delivery Systems, Drugs and Therapies, Emerging Technologies, Nanorods, Nanotechnology, King's College London. Keywords: London; United Kingdom; Europe; Gold Nanorods; Drug Delivery; Drug Delivery Systems; Drugs and Therapies; Emerging Technologies; Nanorods; Nanotechnology EN London United Kingdom Europe Gold Nanorods Drug Delivery Drug Delivery Systems Drugs and Therapies Emerging Technologies Nanorods Nanotechnology 966 966 1 10/16/23 20231020 NES 231020 2023 OCT 20 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- A new study on Nanotechnology - Gold Nanorods is now available. [Extracted from the article]

Published

2023

31. Study Results from Department of Chemistry Materials and Chemical Engineering Update Understanding of Gold Nanorods (On the Role of Polymeric Hydrogels In the Thermal Response of Gold Nanorods Under Nir Laser Irradiation).

Abstract

Keywords: Milan; Italy; Europe; Gold Nanorods; Biotechnology; Emerging Technologies; Nanorods; Nanotechnology EN Milan Italy Europe Gold Nanorods Biotechnology Emerging Technologies Nanorods Nanotechnology 132 132 1 10/03/23 20231006 NES 231006 2023 OCT 5 (NewsRx) -- By a News Reporter-Staff News Editor at Gene Therapy Weekly -- Investigators publish new report on Nanotechnology - Gold Nanorods. Milan, Italy, Europe, Gold Nanorods, Biotechnology, Emerging Technologies, Nanorods, Nanotechnology. [Extracted from the article]

Published

2023

32. Enhanced targeting of invasive glioblastoma cells by peptide-functionalized gold nanorods in hydrogel-based 3D cultures.

Author

Gonçalves, Diana P.n., Rodriguez, Raul D., Kurth, Thomas, Bray, Laura J., Binner, Marcus, Jungnickel, Christiane, Gür, Fatih N., Poser, Steve W., Schmidt, Thorsten L., Zahn, Dietrich R.t., Androutsellis-Theotokis, Andreas, Schlierf, Michael, and Werner, Carsten

Subjects

GLIOBLASTOMA multiforme, CANCER stem cells, GOLD nanoparticles, HYDROGELS in medicine, EXTRACELLULAR matrix, PHYSIOLOGY, THERAPEUTICS

Abstract

Cancer stem cells (CSCs) are responsible for drug resistance, tumor recurrence, and metastasis in several cancer types, making their eradication a primary objective in cancer therapy. Glioblastoma Multiforme (GBM) tumors are usually composed of a highly infiltrating CSC subpopulation, which has Nestin as a putative marker. Since the majority of these infiltrating cells are able to elude conventional therapies, we have developed gold nanorods (AuNRs) functionalized with an engineered peptide capable of specific recognition and selective eradication of Nestin positive infiltrating GBM-CSCs. These AuNRs generate heat when irradiated by a near-infrared laser, and cause localized cell damage. Nanoparticle internalization assays performed with GBM-CSCs or Nestin negative cells cultured as two-dimensional (2D) monolayers or embedded in three-dimensional (3D) biodegradable-hydrogels of tunable mechanical properties, revealed that the AuNRs were mainly internalized by GBM-CSCs, and not by Nestin negative cells. The AuNRs were taken up via energy-dependent and caveolae-mediated endocytic mechanisms, and were localized inside endosomes. Photothermal treatments resulted in the selective elimination of GBM-CSCs through cell apoptosis, while Nestin negative cells remained viable. Results also indicated that GBM-CSCs embedded in hydrogels were more resistant to AuNR photothermal treatments than when cultured as 2D monolayers. In summary, the combination of our engineered AuNRs with our tunable hydrogel system has shown the potential to provide an in vitro platform for the evaluation and screening of AuNR-based cancer therapeutics, leading to a substantial advancement in the application of AuNRs for targeted GBM-CSC therapy. Statement of Significance There is an urgent need for reliable and efficient therapies for the treatment of Glioblastoma Multiforme (GBM), which is currently an untreatable brain tumor form with a very poor patient survival rate. GBM tumors are mostly comprised of cancer stem cells (CSCs), which are responsible for tumor reoccurrence and therapy resistance. We have developed gold nanorods functionalized with an engineered peptide capable of selective recognition and eradication of GBM-CSCs via heat generation by nanorods upon NIR irradiation. An in vitro evaluation of nanorod therapeutic activities was performed in 3D synthetic-biodegradable hydrogel models with distinct biomechanical cues, and compared to 2D cultures. Results indicated that cells cultured in 3D were more resistant to photothermolysis than in 2D systems. [ABSTRACT FROM AUTHOR]

Published

2017

33. pH, redox and photothermal tri-responsive DNA/polyethylenimine conjugated gold nanorods as nanocarriers for specific intracellular co-release of doxorubicin and chemosensitizer pyronaridine to combat multidrug resistant cancer.

Author

Wang, Yun, Zhang, Zhipeng, Xu, Shaohui, Wang, Feihu, Shen, Yuanyuan, Huang, Shengtang, and Guo, Shengrong

Subjects

OXIDATION-reduction reaction, NANORODS, DOXORUBICIN, NEAR infrared radiation, CANCER cells

Abstract

Pharmacotherapy of multidrug resistant (MDR) cancer remains a challenging task in clinic. Herein, a pH -responsive DNA and disulfide-linked polyethylenimine functionalized gold nanorod was developed for specific co-delivery of chemotherapeutic agent doxorubicin (DOX) and chemosensitizer pyronaridine (PND) to effectively overcome MDR cancer cells. DOX and PND were firstly carried by a multifunctional nanocomplex for reversing MDR cancer. The nanocomplex can responsively and rapidly release its drugs payload under acidic pH environment (pH, ~5), intracellular GSH concentration content (5 mM) and/or 808 nm NIR laser irradiation. Compared to free DOX, the nanocomplex displayed greatly increased cytotoxicity to MDR MCF-7/ADR cancer cells (IC 50 , 70.68:6.21 μg/mL). The application of NIR radiation further improved the DOX release and enhanced the antitumor effects of the namomedicine (IC 50 , drops to 2.88 μg/mL). Consequently, this new nanocomplex exerted greatly increased potency against the MDR cancer cells over free DOX (~20 fold). [ABSTRACT FROM AUTHOR]

Published

2017

34. The effects of gold nanoparticles functionalized with ß-amyloid specific peptides on an in vitro model of blood–brain barrier.

Author

Ruff, J., Hüwel, S., Kogan, Marcelo J., Simon, Ulrich, and Galla, Hans-Joachim

Subjects

GOLD nanoparticles, AMYLOID, PEPTIDES, BLOOD-brain barrier, POLYETHYLENE glycol

Abstract

We studied the effect of gold nanoparticle (AuNP) size, surface charge, concentration and morphology on the integrity of the blood–brain barrier (BBB) in a well-established in vitro model set-up. We focused on the effect of peptide functionalized hollow gold nanospheres and gold nanorods, which selectively bind to amyloidogenic β -amyloid structures. These AuNP conjugates have already been successfully tested as photothermal absorbers for potential application in Alzheimer's disease (AD) therapy in an in vitro set-up, but may exhibit a low passage through the BBB due to their overall negative charge. Our results show that: (i) small (1.4 nm) AuNPs strongly affects the BBB integrity, (ii) negative surface charge impedes BBB passage, and (iii) this charge effect caused by the peptide is compensated by covalent coupling to a polyethylene glycol ligand stabilizing the particles in diluted manner. [ABSTRACT FROM AUTHOR]

Published

2017

35. Gold nanorods reflectance discriminate benign from malignant oral lesions.

Author

Hirshberg, Abraham, Allon, Irit, Novikov, Ilya, Ankri, Rinat, Ashkenazy, Ariel, and Fixler, Dror

Subjects

CANCER diagnosis, CONTRAST media, NANORODS, GOLD nanoparticles, EPIDERMAL growth factor receptors, NANOPARTICLES, NANOMEDICINE

Abstract

Nanoparticle-based contrast agents have been used as an imaging tool for selectively detecting cancerous processes. We aimed to evaluate the detection sensitivity of reflection measurements of gold nanorods (GNRs) bio-conjugated to anti-epidermal growth factor receptor (GNRs-EGFR) monoclonal antibodies in discriminating benign from premalignant and malignant human oral lesions. Tissue sections incubated with GNRs-EGFR and the reflectance spectrum was measured using hyperspectral microscopy. Reflectance intensity increased with the progression of the disease, lowest in the control group and increasing as the dysplastic changes increase ( P < 0.001 for linear trend of grade). Intensity was significantly higher in the moderate and severe dysplasias and cancer patients than in the controls and mild dysplasia ( t test P = 0.0003, Mann–Whitney P < 0.0001). The GNRs reflection measurements can discriminate benign and mild dysplastic lesions from the more severe dysplasia and invasive cancer, suggesting an objective, not dependent on the qualification of a technician and with less interpretation errors. [ABSTRACT FROM AUTHOR]

Published

2017

36. Polysarcosine brush stabilized gold nanorods for in vivo near-infrared photothermal tumor therapy.

Author

Zhu, Hong, Chen, Ying, Yan, Fang-Jie, Chen, Jin, Tao, Xin-Feng, Ling, Jun, Yang, Bo, He, Qiao-Jun, and Mao, Zheng-Wei

Subjects

CANCER thermotherapy, NEAR infrared radiation, GOLD nanoparticles, PHOTOTHERMAL effect, CETYLTRIMETHYLAMMONIUM bromide, THERAPEUTICS

Abstract

Gold nanorods (AuNRs) are suitable candidates for photothermal therapy in vivo , because of their excellent ability to transfer near-infrared (NIR) light into heat. However, appropriate surface should be generated on AuNRs before their in vivo application because of the low colloidal stability in complicate biological environment and relatively strong toxicity compared to their pristine stabilizer cetyltrimethylammonium bromide. In the current study, polysarcosine (PS), a non-ionic hydrophilic polypeptoid whose structure is similar to polypeptides, bearing repeating units of natural α-amino acid, was used to stabilize AuNRs due to its excellent hydrophilicity and biocompatibility. Polysarcosine with optimized molecular weight was synthesized and used to modify AuNRs by traditional ligand exchange. The grafting of PS on AuNRs was evidenced by fourier transform infrared (FTIR) spectroscopy and the alternation of surface zeta potential. The polysarcosine coated AuNRs (Au@PS) showed good stabilities in wide pH range and simulated physiological buffer with the ligand competition of dithiothreitol (DTT). The Au@PS NRs had neglectable cytotoxicity and showed efficient ablation of tumor cells in vitro . Moreover, Au@PS NRs had a longer circulation time in body that resulted in a higher accumulation in solid tumors after intravenous injection, compared to AuNRs capped with polyethylene glycol (PEG). Photothermal therapy in vivo demonstrated that the tumors were completely destroyed by single-time irradiation of NIR laser after one-time injection of the polysarcosine capped AuNRs. The Au@PS NRs did not cause obvious toxicity in vivo , suggesting promising potential in cancer therapy. Statement of Significance In current study, polysarcosine (PS), a non-ionic hydrophilic polypeptoid whose structure is similar to polypeptides, bearing repeating units of natural α-amino acid, was used to stabilize AuNRs due to its excellent hydrophilicity and biocompatibility. The polysarcosine coated AuNRs (Au@PS) showed good stabilities in wide pH range and simulated physiological buffer. The Au@PS NRs had very low cytotoxicity and showed high efficacy for the ablation of cancer cells in vitro . Moreover, Au@PS NRs had a longer circulation time in blood that led to a higher accumulation in tumors after intravenous injection, compared to AuNRs capped with polyethylene glycol (PEG). In vivo photothermal therapy showed that tumors were completely cured without reoccurrence by one-time irradiation of NIR laser after a single injection of the polysarcosine modified AuNRs. [ABSTRACT FROM AUTHOR]

Published

2017

37. Immobilization of Penaeus merguiensis alkaline phosphatase on gold nanorods for heavy metal detection.

Author

Homaei, Ahmad

Subjects

PENAEUS merguiensis, ALKALINE phosphatase, GOLD nanoparticles, HEAVY metals & the environment, GREEN technology, ENZYME biotechnology

Abstract

Biotechnology of enzyme has gained popularity due to the growing need for novel environmental technologies and the development of innovative mass-production. The work describes the original application of biosensors based on Penaeus merguiensis alkaline phosphatase (PM ALP) immobilized on gold nanorods (GNRs) to heavy metal determination. Penaeus merguiensis alkaline phosphatase (PM ALP) was immobilized on gold nanorods (GNRs) by ionic exchange and hydrophobic interactions. The optimum pH and temperature for maximum enzyme activity for the immobilized PM ALP are identified to be 11.0 and 60 °C, respectively, for the hydrolysis of para-Nitrophenylphosphate ( p- NPP). The kinetic studies confirm the Michaelis–Menten behavior and suggests overall slightly decrease in the performance of the immobilized enzyme with reference to the free enzyme. K m and V max values were 0.32 µm and 54 µm. min −1 for free and 0.39 µm and 48 µm min −1 for immobilized enzymes, respectively. Similarly, the thermal stability, storage stability and stability at extreme pH of the enzyme is found to increase after the immobilization. The inhibitory effect heavy metal ions was studied on free and immobilized PM ALP. The bi-enzymatic biosensor were tested to study the influence of heavy metal ions and pesticides on the corresponding enzyme. The obtained high stability and lower decrease in catalytic efficiency suggested the great potential and feasibility of immobilized PM ALP nanobiocatalyst in efficient and apply the biosensor in total toxic metal content determination. [ABSTRACT FROM AUTHOR]

Published

2017

38. Preparation and Biosensing Performance of Porous-alumina-Assisted Gold Nanostructures on Substrates.

Author

Mozalev, A., Baccar, H., and Abdelghani, A.

Subjects

BIOSENSORS, POROUS materials, NANOSTRUCTURED materials, SUBSTRATES (Materials science), ELECTROOPTICS

Abstract

Gold based nanosize structures such as nanoparticles and nanowires are considered as important building blocks for nanotechnology to be used for construction of sensing micro- and nanodevices because of their excellent optical, electrical and mechanical properties. Here we synthesize via porous-alumina-assisted anodizing and electrodeposition perfect arrays of gold nanodots and nanorods, upright standing, spatially separated and highly aligned on a conductive substrate, which are expected to have exceptional performance in nanoscale electronic, optoelectronics and sensing applications. Biosensing potential of the nanostructured electrodes was assessed by examining electrochemical properties of a protein layer grafted on the electrode for C-reactive protein (CRP) detection using CRP-antibody immobilization method with protein G intermediate layer. The laboratory prototype of immunosensor revealed reproducible, rapid and stable response with a low limit for CRP-antigen detection of 100 fg·ml -1 [ABSTRACT FROM AUTHOR]

Published

2016

39. Study Data from Karolinska Institute Update Understanding of Gold Nanorods (High-dimensional Single-cell Cartography Tracking of Immune Cells Subpopulation of Mice Peripheral Blood Treated With Gold Nanorods and Black Phosphorus Nanosheets).

Abstract

Keywords: Stockholm; Sweden; Europe; Gold Nanorods; Emerging Technologies; Nanorods; Nanosheets; Nanotechnology; Phosphorus EN Stockholm Sweden Europe Gold Nanorods Emerging Technologies Nanorods Nanosheets Nanotechnology Phosphorus 2211 2211 1 07/10/23 20230711 NES 230711 2023 JUL 14 (NewsRx) -- By a News Reporter-Staff News Editor at Immunotherapy Weekly -- Fresh data on Nanotechnology - Gold Nanorods are presented in a new report. Stockholm, Sweden, Europe, Gold Nanorods, Emerging Technologies, Nanorods, Nanotechnology, Phosphorus, Nanosheets. [Extracted from the article]

Published

2023

40. Findings from University of Santiago de Compostela Provides New Data about Gold Nanorods (Light Excitation of Gold Nanorod-based Hybrid Nanoplatforms for Simultaneous Bimodal Phototherapy).

Abstract

Keywords: Santiago de Compostela; Spain; Europe; Gold Nanorods; Drugs and Therapies; Emerging Technologies; Health and Medicine; Nanoplatforms; Nanorods; Nanotechnology; Photomedicine; Phototherapy EN Santiago de Compostela Spain Europe Gold Nanorods Drugs and Therapies Emerging Technologies Health and Medicine Nanoplatforms Nanorods Nanotechnology Photomedicine Phototherapy 690 690 1 06/19/23 20230623 NES 230623 2023 JUN 23 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Researchers detail new data in Nanotechnology - Gold Nanorods. Keywords for this news article include: Santiago de Compostela, Spain, Europe, Gold Nanorods, Drugs and Therapies, Emerging Technologies, Health and Medicine, Nanoplatforms, Nanorods, Nanotechnology, Photomedicine, Phototherapy, University of Santiago de Compostela. [Extracted from the article]

Published

2023

41. Research Conducted at Shandong University Has Provided New Information about Gold Nanorods (Stable Hybrid Nanocapsules With Gold Nanorods and Cyanine Dyes for Near-infrared Photothermal Ablation of Subcutaneous Tumor).

Abstract

Shandong, People's Republic of China, Asia, Drug Delivery Systems, Drugs and Therapies, Emerging Technologies, Health and Medicine, Nanocapsules, Nanorods, Nanotechnology, Gold Nanorods Keywords: Shandong; People's Republic of China; Asia; Gold Nanorods; Drug Delivery Systems; Drugs and Therapies; Emerging Technologies; Health and Medicine; Nanocapsules; Nanorods; Nanotechnology EN Shandong People's Republic of China Asia Gold Nanorods Drug Delivery Systems Drugs and Therapies Emerging Technologies Health and Medicine Nanocapsules Nanorods Nanotechnology 1854 1854 1 06/12/23 20230616 NES 230616 2023 JUN 16 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Research findings on Nanotechnology - Gold Nanorods are discussed in a new report. [Extracted from the article]

Published

2023

42. High-dimensional single-cell cartography tracking of immune cells subpopulation of mice peripheral blood treated with gold nanorods and black phosphorus nanosheets.

Author

Cheng, Mo, Shi, Hongtao, Xu, Tianzhao, Jiang, Wei, Tang, Ben Zhong, and Duo, Yanhong

Subjects

NANORODS, NANOSTRUCTURED materials, CARTOGRAPHY, GOLD, PHOSPHORUS, ARTIFICIAL satellite tracking

Abstract

The gold nanorods (Au NRs) and black phosphorus nanosheets (BP NSs) are one of the commonly investigated nanomaterials (NMs) that substantially promoted biomedical nanotechnology. Recently, NMs-based immunotherapies have been a hot research focus in various fields, and some studies have revealed their immunotoxicity. However, their effects on the immune system are still overlooked, making it necessary to assess their impact on immune cells entirely. A challenge in evaluating the immunotoxicity of NMs is tracking the subpopulation of immune cells at single-cell level. Therefore, we applied the cytometry by time-of-flight (CyTOF) that exhibied an unparalleled ability to phenotypically and functionally profile complex cellular subpopulations using multiple panels (42 immune markers) to analyze the change of immune cells subpopulation in peripheral blood after treated with Au NRs and BP NSs. As a proof of concept, the analysis showed that both NMs induced significant changes of almost immune cell subpopulation in peripheral blood, which perturbates the innate and adaptive immune responses significantly. The work revealed not only the immunotoxicity of NMs but also guided the application of NM-based strategies and might facilitate further understanding of their toxicology. [Display omitted] • Au NRs induces significant alteration of immune cells in peripheral blood. • BP NSs induces significant alteration of immune cells in peripheral blood. • The Au NRs and BP NSs exhibit obvious long term immunological effects. [ABSTRACT FROM AUTHOR]

Published

2022

43. Efficacy and toxicity of plasmonic photothermal therapy (PPTT) using gold nanorods (GNRs) against mammary tumors in dogs and cats.

Author

Abdoon, Ahmed S., Al-Ashkar, Emad A., Kandil, Omaima M., Shaban, Ahmed M., Khaled, Hussein M., El Sayed, Mostafa A., El Shaer, Marwa M., Shaalan, Asharaf H., Eisa, Wael H., Eldin, Amina A. Gamal, Hussein, Hany A., El Ashkar, Mohammad R., Ali, Moustafa R., and Shabaka, Ali A.

Subjects

MAMMARY gland cancer, PHOTOTHERMAL effect, GOLD nanoparticles, TREATMENT effectiveness, PATIENT safety, LABORATORY dogs, CANCER treatment, THERAPEUTICS

Abstract

Plasmonic photothermal therapy (PPTT) was introduced as a promising treatment of cancer. This work was conducted to evaluate the cytotoxic effect of intratumoral (IT) injection of 75 μg gold nanorods (GNRs)/kg of body weight followed by direct exposure to 2 w/cm 2 near infra-red laser light for 10 min on ablation of mammary tumor in 10 dogs and 6 cats. Complete blood count (CBC), liver and kidney function were checked before the start of treatment and one month after injection of GNRs. Results showed that 62.5% (10/16), 25% (4/16) and 12.5% (2/16) of treated animals showed complete remission, partial remission and no response, respectively. Tumor was relapsed in 4 cases of initially responding animals (25%). Overall survival rate was extended to 315.5 ± 20.5 days. GNRs have no toxic effect on blood profile, liver or kidney functions. In conclusion, GNRs can be safely used for treatment of mammary tumors in dogs and cats. [ABSTRACT FROM AUTHOR]

Published

2016

44. Gold nanorods inhibit respiratory syncytial virus by stimulating the innate immune response.

Author

Bawage, Swapnil S., Tiwari, Pooja M., Singh, Ankur, Dixit, Saurabh, Pillai, Shreekumar R., Dennis, Vida A., and Singh, Shree R.

Subjects

RESPIRATORY syncytial virus infections, GOLD nanoparticles, BRONCHIOLITIS, IMMUNE response, CELL communication, NATURAL immunity, THERAPEUTICS

Abstract

Respiratory syncytial virus (RSV) causes severe pneumonia and bronchiolitis in infants, children and older adults. The use of metallic nanoparticles as potential therapeutics is being explored against respiratory viruses like Influenza, Parainfluenza and Adenovirus. In this study, we showed that gold nanorods (GNRs) inhibit RSV in HEp-2 cells and BALB/c mice by 82% and 56%, respectively. The RSV inhibition correlated with marked upregulated antiviral genes due to GNR mediated TLR, NOD-like receptor and RIG-I-like receptor signaling pathways. Transmission electron microscopy of lungs showed GNRs in the endocytotic vesicles and histological analyses indicated infiltration by neutrophils, eosinophils and monocytes correlating with clearance of RSV. In addition, production of cytokines and chemokines in the lungs indicates recruitment of immune cells to counter RSV replication. To our knowledge, this is the first in vitro and in vivo report that provides possible antiviral mechanisms of GNRs against RSV. [ABSTRACT FROM AUTHOR]

Published

2016

45. Synthesis and characterization of an HSP27-targeted nanoprobe for in vivo photoacoustic imaging of early nerve injury.

Author

Chen, Hongjiang, Yang, Sihua, Zhou, Ting, Xu, Jiankun, Hu, Jun, and Xing, Da

Subjects

NERVOUS system injuries, HEAT shock proteins, GOLD nanoparticles, ACOUSTIC imaging, LABORATORY rats

Abstract

Imaging is routinely used for clinical and diagnostic purposes, but techniques capable of high specificity and resolution for the early detection of nerve injury are still limited. In this study, we found that heat shock protein 27 (HSP27) becomes highly upregulated within 3 to 7 days of nerve injury. Taking advantage of this expression pattern, we conjugated gold nanorods (GNRs) to HSP27-specific antibodies to generate a nanoprobe (GNR-HSP27Abs) that could be targeted to the site of nerve injury and detected by near-infrared photoacoustic imaging. Notably, photoacoustic images acquired 12 hours after local administration of GNR-HSP27Abs demonstrated that the nanoprobe can distinguish between injured and uninjured nerves in rats. Taken together, these findings expand the application of nanoprobe-targeted photoacoustic imaging to the detection of injured nerves, and prompt further development of this novel imaging platform for clinical application. [ABSTRACT FROM AUTHOR]

Published

2016

46. Inhibitory effect of gold nanoparticles conjugated with interferon gamma and methionine on breast cancer cell line.

Author

Mohseni, Nastaran, Sarvestani, Fatemeh Salehi, Ardestani, Mehdi Shafiee, Kazemi-Lomedasht, Fatemeh, and Ghorbani, Masoud

Subjects

BREAST cancer treatment, CANCER cells, GOLD nanoparticles, BIOCONJUGATES, INTERFERON gamma, METHIONINE, CELL lines

Abstract

Objective To develop a gold nanoparticles complex conjugated with interferon-gamma (IFN-γ) and methionine along with application of hyperthermia using near-infrared laser beams for the treatment of cancer cells. Methods Gold nanorods (10 nm) were conjugated with IFN-γ and methionine using carbodiimide family and characterized after purification by dialysis bags. Breast cancer cells were cultured and incubated with gold nanorods at different concentrations followed by irradiation with near-infrared laser beam. Samples were then evaluated for their viability in order to determine the effect of treatment and variables by MTT assy. Results Zetasizer results confirmed the conjugation of gold nanorods with methionine and IFN-γ. The median percentage of cell viability in 0.30 μg/mL concentration of gold nanorods was 82%. The cell viability reached to 85% at the same concentration of gold nanorods, which existed in the assayed complex. The results of MTT assay showed that the 0.60 μg/mL concentration of gold nanoparticles complex was toxic on tumor cells ( P < 0.05). After exposure to hyperthermia, the viability of cells at 6 min decreased to 77% in 0.30 μg/mL concentration of gold nanorods complex. Conclusions The size and concentration of gold nanorods was not cytotoxic. However, their presence during irradiation near-infrared laser increased the number of dead cells during the treatment of cells. [ABSTRACT FROM AUTHOR]

Published

2016

47. Researchers at Bharathiar University Report New Data on Gold Nanorods (Investigating the Biophysical Interaction of Serum Albumins-gold Nanorods Using Hybrid Spectroscopic and Computational Approaches With the Intent of Enhancing Cytotoxicity...).

Abstract

Keywords for this news article include: Tamil Nadu, India, Asia, Gold Nanorods, Acute-Phase Proteins, Albumins, Biophysics, Blood Proteins, Bovine Serum Albumin, Drug Delivery, Drug Delivery Systems, Drugs and Therapies, Emerging Technologies, Nanoconjugates, Nanorods, Nanotechnology, Peptides and Proteins, Proteins, Serum Albumin, Bharathiar University. Keywords: Tamil Nadu; India; Asia; Gold Nanorods; Acute-Phase Proteins; Albumins; Biophysics; Blood Proteins; Bovine Serum Albumin; Drug Delivery; Drug Delivery Systems; Drugs and Therapies; Emerging Technologies; Nanoconjugates; Nanorods; Nanotechnology; Peptides and Proteins; Proteins; Serum Albumin EN Tamil Nadu India Asia Gold Nanorods Acute-Phase Proteins Albumins Biophysics Blood Proteins Bovine Serum Albumin Drug Delivery Drug Delivery Systems Drugs and Therapies Emerging Technologies Nanoconjugates Nanorods Nanotechnology Peptides and Proteins Proteins Serum Albumin 1518 1518 1 05/02/23 20230505 NES 230505 2023 MAY 5 (NewsRx) -- By a News Reporter-Staff News Editor at Drug Week -- Research findings on Nanotechnology - Gold Nanorods are discussed in a new report. [Extracted from the article]

Published

2023

48. Recent Findings in Gold Nanorods Described by Researchers from National Center for Nanoscience and Technology (Enhanced Chiroptic Properties of Nanocomposites of Achiral Plasmonic Nanoparticles Decorated With Chiral Dye-loaded Micelles).

Abstract

Keywords: Beijing; People's Republic of China; Asia; Gold Nanorods; Emerging Technologies; Nanocomposites; Nanomaterials; Nanoparticles; Nanorods; Nanotechnology EN Beijing People's Republic of China Asia Gold Nanorods Emerging Technologies Nanocomposites Nanomaterials Nanoparticles Nanorods Nanotechnology 591 591 1 04/10/23 20230410 NES 230410 2023 APR 16 (NewsRx) -- By a News Reporter-Staff News Editor at Medical Devices & Surgical Technology Week -- Investigators publish new report on Nanotechnology - Gold Nanorods. Beijing, People's Republic of China, Asia, Gold Nanorods, Emerging Technologies, Nanocomposites, Nanomaterials, Nanoparticles, Nanorods, Nanotechnology. [Extracted from the article]

Published

2023

49. Reports Outline Gold Nanorods Findings from National Center for Nanoscience and Technology (Regulation of Chirality Transfer and Amplification From Chiral Cysteine To Gold Nanorod Assemblies Using Nonchiral Surface Ligands).

Abstract

Keywords: Beijing; People's Republic of China; Asia; Gold Nanorods; Amino Acids; Chirality; Cysteine; Emerging Technologies; Health and Medicine; Nanorods; Nanotechnology; Neutral Amino Acids; Sulfur Amino Acids EN Beijing People's Republic of China Asia Gold Nanorods Amino Acids Chirality Cysteine Emerging Technologies Health and Medicine Nanorods Nanotechnology Neutral Amino Acids Sulfur Amino Acids 686 686 1 03/27/23 20230402 NES 230402 2023 APR 2 (NewsRx) -- By a News Reporter-Staff News Editor at Medical Devices & Surgical Technology Week -- New research on Nanotechnology - Gold Nanorods is the subject of a report. Beijing, People's Republic of China, Asia, Gold Nanorods, Amino Acids, Chirality, Cysteine, Emerging Technologies, Health and Medicine, Nanorods, Nanotechnology, Neutral Amino Acids, Sulfur Amino Acids. [Extracted from the article]

Published

2023

50. Chitosan layered gold nanorods as synergistic therapeutics for photothermal ablation and gene silencing in triple-negative breast cancer.

Author

Yang, Zhizhou, Liu, Tengfei, Xie, Yan, Sun, Zhaorui, Liu, Hongmei, Lin, Jinfeng, Liu, Changjing, Mao, Zong-Wan, and Nie, Shinan

Subjects

TRIPLE-negative breast cancer, CHITOSAN, NANORODS, ABLATION techniques, GENE silencing, SMALL interfering RNA, GOLD nanoparticles

Abstract

Small interfering RNAs (siRNAs) are extensively studied due to their promising potential as therapeutic agents for a wide variety of diseases, including cancer. However, efficient delivery of siRNAs to target cells and tissues is problematic due to a lack of suitable delivery vehicles. In this work, we developed a layer-by-layer assembled chitosan-gold nanorods (Chit-Au NRs) siRNA delivery system to overcome biological barriers upon systemic injection. This platform was able to protect siRNAs form degradation upon exposure to ribonuclease (RNase) or serum. Confocal and intravital microscopy reveals that Chit-Au NRs/siRNAs are successfully delivered into target cells and tissue, and can efficiently escape from endosomal/lysosomal structures. Furthermore, Chit-Au NRs/siRNA were found to accumulate in high levels in tumor tissue. The delivery system was able to inhibit the oncogene expression (pyruvate kinase isozymeM2, PKM2) in MDA-MB-231 triple negative breast cancer cells, resulting in suppression of cell proliferation and migration. Moreover, the anticancer efficacy was further enhanced through NR-mediated photothermal ablation. In conclusion, the synergistic therapeutic properties of Chit-Au NRs/siRNA enable effective suppression of cancer growth. Statement of Significance Small interfering RNA (siRNA) therapy has promising therapeutic applications, since the expression of any protein can be suppressed. However the successful implementation of siRNA has been challenging, due to rapid degradation, poor intracellular uptake and insufficient endosomal escape. Here, we have developed a gold nanorod/chitosan-based delivery vehicle for siRNA therapy. This platform successfully overcomes the afore-mentioned challenges and can simultaneously be used for photothermal therapy, due to the optical properties of gold nanorods. We show that the anticancer activity is dramatically improved by combining thermal therapy with gene silencing. Furthermore, the Au NRs carrier shows high accumulation in tumor tissue and high transfection efficiency. This manuscript has been reviewed and approved by all co-authors. The research has not been disclosed or published and is not under consideration for publication elsewhere. We would appreciate if the manuscript could be reviewed and considered for publication in Acta BIOMATERIALIA . [ABSTRACT FROM AUTHOR]

Published

2015