UMLS:C1275122 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C1275122 (TEM)
21,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study, we synthesized a biodegradable triblock copolymer poly(ethylene glycol)-poly(epsilon-caprolactone)-poly(ethylene glycol) (PEG-PCL-PEG, PECE) by ring-opening copolymerization, and nanohydroxyapatite (n-HA) powder was prepared by a hydrothermal precipitation method. The obtained n-HA was incorporated into the PECE matrix to prepare injectable thermosensitive hydrogel nanocomposites. (1)H NMR, FT-IR, XRD, DSC, and TEM were used to investigate the properties of PECE copolymer and n-HA/PECE nanocomposites. The rheological measurements for n-HA/PECE nanocomposites revealed that the gelation temperature was approximately 36 degrees C. The sol-gel-sol transition behavior and phase transition diagrams were recorded through a test tube inverting method. The results showed that n-HA/PECE nanocomposites still had thermoresponsivity like that of PECE thermosensitive hydrogel. The morphology of the nanocomposites was observed by SEM; the results showed that the nanocomposites had a 3D network structure. In addition, the effects of n-HA contents on the properties of n-HA/PECE nanocomposites are also discussed in the paper. From the results, n-HA/PECE hydrogel is believed to be promising for injectable orthopedic tissue engineering due to its good thermosensitivity and injectability.
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PMID:Injectable biodegradable thermosensitive hydrogel composite for orthopedic tissue engineering. 1. Preparation and characterization of nanohydroxyapatite/poly(ethylene glycol)-poly(epsilon-caprolactone)-poly(ethylene glycol) hydrogel nanocomposites. 1994 37

Multifunctional mixed micelles that constructed from poly(HEMA-co-histidine)-g-PLA and diblock copolymer PEG-PLA with functional moiety was developed in this study. The mixed micelles had well defined core shell structure which was evaluated by TEM. The functional inner core of poly(HEMA-co-histidine)-g-PLA exhibited pH stimulate to enable intracellular drug delivery and outer shell of PEG-b-PLA with functional moiety Cy5.5 for biodistribution diagnosis and folate for cancer specific targeting were synthesized at the end of the polymer chain. The graft and diblock copolymer self assembled to nanospheres against water with an average diameter below 120 nm without doxorubicin, and an average diameter of around 200 nm when loaded with drug. From drug released study, a change in pH destroy the inner core to lead a significant doxorubicin(Dox) release from mixed micelles. Cellular uptake of folate-micelles was found to be higher than that of non-folate-micelles due to the folate-binding effect on the cell membrane, thereby providing a similar cytotoxic effect to drug only against the HeLa cell line. In vivo study revealed that specific targeting of folate-micelles exhibited cancer targeting and efficiency expression on tumor growth, indicating that multifunctional micelles prepared from poly(HEA-co-histidine)-g-PLA and folate-PEG-PLA have great potential in cancer chemotherapy and diagnosis.
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PMID:Graft and diblock copolymer multifunctional micelles for cancer chemotherapy and imaging. 2004 34

(PEG)(3)-PLA copolymer has been explored for the formation of polymersomes. For this, three chains of methoxy-PEG(1100) were directly attached to citric acid by esterification. (Methoxy-PEG(1100))(3)-citrate was then reacted at its hydroxyl terminal with different moles of d,l-lactide by ring-opening polymerization to obtain polymers with five different PEG-to-PLA ratios ranging from 10:90 to 90:10. Polymers were characterized by GPC, FTIR, (1)H NMR, and DSC, films were characterized for hydrophilicity by contact angle, and surface topography was observed by SEM and AFM. All five polymers were evaluated for the formation of polymersomes. Among these, polymers with PEG content of 10-30% were able to self-assemble into polymersomes. To affirm their self-arrangement and drug carrier properties, hydrophilic and hydrophobic dyes were simultaneously encapsulated in these structures. SEM and TEM analysis of the blank polymersomes confirmed the vesicular nature of the polymersomes, whereas CLSM analysis of dye-loaded polymersomes demonstrated the presence of two separate regions viz. hydrophilic core and hydrophobic wall. Hydrophobic dye, fluorescein was released relatively faster from the wall of polymersomes, whereas hydrophilic dye, propidium iodide, was released in controlled fashion up to 18 days. It is expected that these systems may serve as a suitable carrier for simultaneous or separate delivery of drug molecules with varying physicochemical properties.
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PMID:Self assembly of amphiphilic (PEG)(3)-PLA copolymer as polymersomes: preparation, characterization, and their evaluation as drug carrier. 2017 78

Gold nanoparticles (AuNPs) can be used in various biomedical applications, however, very little is known about their size-dependent in vivo kinetics. Here, we performed a kinetic study in mice with different sizes of PEG-coated AuNPs. Small AuNPs (4 or 13nm) showed high levels in blood for 24h and were cleared by 7days, whereas large (100nm) AuNPs were completely cleared by 24h. All AuNPs in blood re-increased at 3months, which correlated with organ levels. Levels of small AuNPs were peaked at 7days in the liver and spleen and at 1month in the mesenteric lymph node, and remained high until 6months, with slow elimination. In contrast, large AuNPs were taken up rapidly ( approximately 30min) into the liver, spleen, and mesenteric lymph nodes with less elimination phase. TEM showed that AuNPs were entrapped in cytoplasmic vesicles and lysosomes of Kupffer cells and macrophages of spleen and mesenteric lymph node. Small AuNPs transiently activated CYP1A1 and 2B, phase I metabolic enzymes, in liver tissues from 24h to 7days, which mirrored with elevated gold levels in the liver. Large AuNPs did not affect the metabolic enzymes. Thus, propensity to accumulate in the reticuloendothelial organs and activation of phase I metabolic enzymes, suggest that extensive further studies are needed for practical in vivo applications.
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PMID:Size-dependent tissue kinetics of PEG-coated gold nanoparticles. 2019 2

This chapter describes the methodology by which mAb-F19-conjugated gold nanoparticles were prepared and used to label human pancreatic adenocarcinoma. Specifically, gold nanoparticles were coated with dithiol bearing hetero-bifunctional PEG (polyethylene glycol), and cancer-specific mAb F19 was attached by means of NHS-EDC coupling chemistry taking advantage of a carboxylic acid group on the heterobifunctional PEG. These conjugates were completely stable and were characterized by a variety of methods, including UV-Vis absorbance spectrometry, darkfield microscopy, DLS (dynamic light scattering), TEM (transmission electron microscopy), SEC (size-exclusion chromatography), and confocal microscopy. Nanoparticle bioconjugates were used to label sections of healthy and cancerous human pancreatic tissue. Labeled tissue sections were examined by darkfield microscopy and indicate that these nanoparticle bioconjugates may selectively bind to cancerous tissue and provide a means of optical contrast.
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PMID:Synthesis, characterization, and functionalization of gold nanoparticles for cancer imaging. 2021 96

In this paper, a new kind of polymeric nanocomposite materials based on nano-hydroxyapatite (n-HA) and PCL-Pluronic-PCL (PCFC) copolymer were prepared by in situ combination method. Firstly, the PCFC copolymer was synthesized by ring-opening polymerization of epsilon-caprolactone initiated by Pluronic (PEG-PPG-PEG); Secondly, n-HA powder were combined with PCFC to form polymeric composites in the presence of hexamethylene diisocyanate (HDI). The obtained composites were characterized by 1H-NMR, FTIR, XRD, TEM, SEM, DTA/TGA, and tensile testing. The results revealed that n-HA could be dispersed into polymer matrix uniformly, and the n-HA/PCFC composite showed great mechanical properties when the content of n-HA was 10 wt%. The microstructure and thermal properties of the composites were discussed in the paper too. The experimental results suggested that this polymeric nanocomposite might have great potential application in the field of tissue engineering.
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PMID:Preparation and characterization of n-hydroxyapatite/PCL-pluronic-PCL nanocomposites for tissue engineering. 2035 8

In this paper we report the surface modification and functional characterization of a gold nanoparticle-based drug delivery system for potential therapeutic application in ovarian cancer. It is currently recognized that nanotechnology may play a pivotal role in drug delivery by increasing efficacy and reducing toxicity of anti-cancer drugs. Here, we report the fabrication of a gold nanoparticles (AuNP) based drug delivery system consisting of folic acid (FA), mercapto-polyethylene glycol (PEG-SH) with a molecular weight of 2000 (designated as PSH2-2K or PSH) and cis-platin (CP) [Au-PSH-CP-FA] for potential therapeutic application in ovarian cancer. Fabrication is done in a three steps incubation process at room temperature (RT). The gold nanoconjugates are characterized with several physico-chemical techniques such as UV-Vis (UV-Visible spectroscopy), TEM (Transmission electron microscopy), ICP (Inductively coupled plasma) and radioactivity measurement with a scintillation counter. Attachment and release profiles of FA from the gold nanoconjugates are performed using (3)H-labelled FA ((3)H-FA). The expressions of folate receptor (FR) for ovarian cancer cell lines (OV-167, OVCAR-5), human umbilical vein endothelial cells (HUVEC) and ovarian surface epithelial (OSE) cells are determined by FACS analysis. Quantitation of platinum content in the nanoconjugates and its release profile is determined by platinum (Pt) analysis using ICP-MS. Biological functional characterization using in vitro proliferation assay demonstrates that Au-PSH-CP-FA not only retains the cytotoxic effect of CP, but it protects the normal cells from the cytotoxic insult, while enhancing the cytotoxic effect on the tumor cells. In future, this strategy may be utilized as a strategy for the treatment of ovarian cancers and may overcome the core side effect issues in anticancer therapy.
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PMID:Fabrication and functional characterization of goldnanoconjugates for potential application in ovarian cancer. 2043 42

Due to the existence of the blood-spinal cord barrier (BSCB), many therapeutic macromolecular agents, such as drugs, protein and gene, cannot pass through this barrier to reach the site of injury, all of which restricts the treatment of spinal cord injuries (SCI). In this study, TAT-conjugated PEGlated Magnetic polymeric liposomes (TAT-PEG-MPLs) formed from PEGlated amphiphilic octadecyl quaternized carboxymethyl chitosan (PEG-OQCMC), cholesterol (Chol), superparamagnetic nanoparticles, and transactivating-transduction protein (TAT), were prepared successfully and evaluated the properties in vitro and in vivo. The result indicated that TAT-PEG-MPLs were spherical in solution, with significantly small mean diameter (83.2 nm) and excellent magnetism (magnetization saturation values of 43.5 emu/g). In vitro experiment, the uptake of PEG-MPLs with TAT by MCF-7 cells was greater than that of the PEG-MPLs without TAT. Most importantly, in vivo experiment, a low MRI signal was observed in the T(2)-weighted images; Histological analysis, Cryo-TEM and flame atomic absorption spectrophotometry revealed that TAT-PEG-MPLs nanoparticles significantly accumulated around the site of the SCI even inside the nerve cells. These nanoparticles may provide a promising carrier to locate to the lesion site, deliver therapeutic macromolecular agents across the BSCB and penetrate into the nerve cells for the treatment of SCI.
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PMID:PEGlated magnetic polymeric liposome anchored with TAT for delivery of drugs across the blood-spinal cord barrier. 2055 83

In situ synthesis of poly(ethylene glycol) (PEG) hydrogels containing gold nanoparticles (AuNPs) and glucose oxidase (GOx) enzyme by photo-induced electron transfer process was reported here and applied in electrochemical glucose biosensing as the model system. Newly designed bionanocomposite matrix by simple one-step fabrication offered a good contact between the active site of the enzyme and AuNPs inside the network that caused the promotion in the electron transfer properties that was evidenced by cyclic voltammetry as well as higher amperometric biosensing responses in comparing with response signals obtained from the matrix without AuNPs. As well as some parameters important in the optimization studies such as optimum pH, enzyme loading and AuNP amount, the analytical characteristics of the biosensor (AuNP/GOx) were examined by the monitoring of chronoamperometric response due to the oxygen consumption through the enzymatic reaction at -0.7 V under optimized conditions at sodium acetate buffer (50 mM, pH 4.0) and the linear graph was obtained in the range of 0.1-1.0 mM glucose. The detection limit (LOD) of the biosensor was calculated as 0.06 mM by using the signal to noise ratio of 3. Moreover, the presence of AuNPs was visualized by TEM. Finally, the biosensor was applied for glucose analysis for some beverages and obtained data were compared with HPLC as the reference method to test the possible matrix effect due to the nature of the samples.
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PMID:In situ synthesis of biomolecule encapsulated gold-cross-linked poly(ethylene glycol) nanocomposite as biosensing platform: a model study. 2060 49

Research on curcumin (polyphenol derived from the rhizome of herb Curcuma longa) has occupied a unique niche owing to its distinctive properties, unique molecular architecture and multi-potent efficacies, particularly in the bio-medical domain with recent interest in material science. In the present study, conjugation of curcumin onto biocompatible poly(ethylene glycol)--templated magnetic iron oxide nanoparticles (MNP) (2-5 nm), prepared through a simple wet chemical route is reported along with modulation of the activity of the partners. Statistical optimization, using response surface methodology, of sonication parameters (8 min, 0.4 cycle and 60% amplitude) for maximal curcumin loading (86%), has shown major morphology directing effect generating triads, tetrads, amongst others and chain-like arrangement (TEM imaging) of the bio-conjugated nanoparticles (80-90 nm). Intonation of the magnetometric parameters of the PEG assisted MNPs on bioconjugation was also evident. The synergistic potency of the partners, the polymer templated iron oxide nanoparticles and curcumin, was unmasked during scavenging of diphenyl picryl hydrazyl (DPPH). The system represents an architecturally appealing, magnetically responsive bio-conjugated system possessing synergistic participation of the partners, with prospective applications in medical domain.
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PMID:'Poly(ethylene glycol)-magnetic nanoparticles-curcumin' trio: directed morphogenesis and synergistic free-radical scavenging. 2072 41

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