Your search keyword '"Benzyl Alcohols radiation effects"' showing total 6 results

1. Tissue-Adhesive Paint of Silk Microparticles for Articular Surface Cartilage Regeneration.

Author

Zhang J, Zhang X, Hong Y, Fu Q, He Q, Mechakra A, Zhu Q, Zhou F, Liang R, Li C, Hu Y, Zou Y, Zhang S, and Ouyang H

Subjects

Animals, Benzyl Alcohols chemistry, Benzyl Alcohols radiation effects, Benzyl Alcohols toxicity, Cartilage, Articular drug effects, Cell Adhesion drug effects, Cell Movement drug effects, Cell Proliferation drug effects, Fibroins toxicity, Joints pathology, Joints surgery, Rabbits, Tissue Adhesives radiation effects, Tissue Adhesives toxicity, Ultraviolet Rays, Cartilage, Articular physiology, Fibroins chemistry, Regeneration drug effects, Tissue Adhesives chemistry

Abstract

Current biomaterials and tissue engineering techniques have shown a promising efficacy on full-thickness articular cartilage defect repair in clinical practice. However, due to the difficulty of implanting biomaterials or tissue engineering constructs into a partial-thickness cartilage defect, it remains a challenge to provide a satisfactory cure in joint surface regeneration in the early and middle stages of osteoarthritis. In this study, we focused on a ready-to-use tissue-adhesive joint surface paint (JS-Paint) capable of promoting and enhancing articular surface cartilage regeneration. The JS-Paint is mainly composed of N -(2-aminoethyl)-4-(4-(hydroxymethyl)-2-methoxy-5-nitrosophenoxy) butanamide (NB)-coated silk fibroin microparticles and possess optimal cell adhesion, migration, and proliferation properties. NB-modified silk fibroin microparticles can directly adhere to the cartilage and form a smooth layer on the surface via the photogenerated aldehyde group of NB reacting with the -NH 2 groups of the cartilage tissue. JS-Paint treatment showed a significant promotion of cartilage regeneration and restored the smooth joint surface at 6 weeks postsurgery in a rabbit model of a partial-thickness cartilage defect. These findings revealed that silk fibroin can be utilized to bring about a tissue-adhesive paint. Thus, the JS-Paint strategy has some great potential to enhance joint surface regeneration and revolutionize future therapeutics of early and middle stages of osteoarthritis joint ailments.

Published

2020

2. Wavelength-selective cleavage of photoprotecting groups: strategies and applications in dynamic systems.

Author

Hansen MJ, Velema WA, Lerch MM, Szymanski W, and Feringa BL

Subjects

Benzyl Alcohols chemistry, Benzyl Alcohols radiation effects, Isomerism, Light, Models, Chemical, Models, Molecular, Photochemistry, Photolysis

Abstract

Photocleavable protecting groups (PPGs) are extensively used in chemical and biological sciences. In their application, advantage is taken of using light as an external, non-invasive stimulus, which can be delivered with very high spatiotemporal precision. More recently, orthogonally addressing multiple PPGs, in a single system and with different wavelengths of light, has been explored. This approach allows one to independently control multiple functionalities in an external, non-invasive fashion. In this tutorial review, we discuss the design principles for dynamic systems involving wavelength-selective deprotection, focusing on the choice and optimization of PPGs, synthetic methods for their introduction and strategies for combining multiple PPGs into one system. Finally, we illustrate the design principles with representative examples, aiming at providing the reader with an instructive overview on how the wavelength-selective cleavage of photoprotecting groups can be applied in materials science, organic synthesis and biological systems.

Published

2015

3. An efficient sonochemical oxidation of benzyl alcohols into benzaldehydes by FeCl3/HNO3 in acetone.

Author

Naik R, Nizam A, Siddekha A, and Pasha MA

Subjects

Chlorides radiation effects, Ferric Compounds radiation effects, Nitric Acid radiation effects, Oxidation-Reduction radiation effects, Radiation Dosage, Acetone chemistry, Acetone radiation effects, Benzyl Alcohols chemistry, Benzyl Alcohols radiation effects, Chlorides chemistry, Ferric Compounds chemistry, Nitric Acid chemistry, Sonication methods

Abstract

Sonochemical oxidation of benzyl alcohols into corresponding aldehydes by FeCl(3)/HNO(3) in acetone at room temperature has been reported. All substrates give good yield of the products within 10-25 min. The reaction of selected substrates were also studied under reflux and at the room temperature. Further, various Lewis acids were used to evaluate their catalytic efficacy., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

4. Photopolymerization of N,N-dimethylaminobenzyl alcohol as amine co-initiator for light-cured dental resins.

Author

Schroeder WF, Cook WD, and Vallo CI

Subjects

Aniline Compounds radiation effects, Benzyl Alcohol radiation effects, Benzyl Alcohols radiation effects, Bisphenol A-Glycidyl Methacrylate chemistry, Bisphenol A-Glycidyl Methacrylate radiation effects, Calorimetry, Differential Scanning, Chalcones chemistry, Chalcones radiation effects, Composite Resins radiation effects, Dimethylamines radiation effects, Humans, Light, Materials Testing, Methacrylates chemistry, Methacrylates radiation effects, Polyethylene Glycols chemistry, Polyethylene Glycols radiation effects, Polymers chemistry, Polymers radiation effects, Polymethacrylic Acids chemistry, Polymethacrylic Acids radiation effects, Reducing Agents radiation effects, Spectrophotometry, Ultraviolet, Spectroscopy, Fourier Transform Infrared, Spectroscopy, Near-Infrared, Terpenes chemistry, Terpenes radiation effects, Aniline Compounds chemistry, Benzyl Alcohol chemistry, Benzyl Alcohols chemistry, Composite Resins chemistry, Dimethylamines chemistry, Reducing Agents chemistry

Abstract

Objective: The present study was carried out in order to assess the suitability of N,N-dimethylaminobenzyl alcohol (DMOH) as co-initiator of camphorquinone (CQ) and 1-phenyl-1,2-propanedione (PPD) in light-cured dental resins., Methods: DMOH was synthesized and used as co-initiator for the photopolymerization of a model resin based on {2,2-bis[4-(2-hydroxy-3-methacryloxyprop-1-oxy)phenyl]propane} (Bis-GMA)/triethylene glycol dimethacrylate (TEGDMA). Experimental formulations containing CQ or PPD in combination with DMOH at different concentrations were studied. The photopolymerization was carried out by means of a commercial light-emitting diode (LED) curing unit. The evolution of double bonds consumption versus irradiation time was followed by near-infrared spectroscopy (NIR). The photon absorption efficiency (PAE) of the photopolymerization process was calculated from the spectral distribution of the LED unit and the molar absorption coefficient distributions of PPD and CQ., Results: DMOH is an efficient photoreducer of CQ and PPD resulting in higher polymerization rate and higher double bond conversion compared with dimethylaminoethylmethacrylate. The PAE for PPD was higher than that for CQ. However, the polymerization initiated by PPD progressed at a lower rate and exhibited lower values of final conversion compared with the resins containing CQ. This observation indicates that the lower polymerization rate of the PPD/amine system should be explained in terms of the mechanism of generating primary radicals by PPD, which is less efficient compared with CQ., Significance: The DMOH/benzoyl peroxide redox system, has recently been proposed as a more biocompatible accelerator for the polymerization of bone cements based on poly(methyl methacrylate), because cytotoxity tests have demonstrated that DMOH possesses better biocompatibility properties compared with traditional tertiary amines. The results obtained in the present study reveal the suitability of the CQ/DMOH initiator system for the polymerization of light-cured dental composites.

Published

2008

5. De novo design and utilization of photolabile caged substrates as probes of hydrogen tunneling with horse liver alcohol dehydrogenase at sub-zero temperatures: a cautionary note.

Author

Tsai SC and Klinman JP

Subjects

Alcohol Dehydrogenase genetics, Alcohol Dehydrogenase metabolism, Alcohol Dehydrogenase radiation effects, Animals, Benzyl Alcohols chemistry, Benzyl Alcohols radiation effects, Catalysis, Freezing, Horses, Kinetics, Liver enzymology, Photolysis, Substrate Specificity, Alcohol Dehydrogenase chemistry, Benzyl Alcohols chemical synthesis, Hydrogen chemistry, Light

Abstract

In order to understand the influence of protein dynamics on enzyme catalysis and hydrogen tunneling, the horse liver alcohol dehydrogenase (HLADH) catalyzed oxidation of benzyl alcohol was studied at sub-zero temperatures. Previous work showed that wild type HLADH has significant kinetic complexity down to -50 degrees C due to slow binding and loss of substrate [S.-C. Tsai, J.P. Klinman, Biochemistry, 40 (2001) 2303]. A strategy was therefore undertaken to reduce kinetic complexity at sub-zero temperatures, using a photolabile (caged) benzyl alcohol that prebinds to the enzyme and yields the active substrate upon photolysis. By computer modeling, a series of caged alcohols were designed de novo, synthesized, and characterized with regard to photolysis and binding properties. The o-nitrobenzyl ether 15, with a unique long tail, was found to be most ideal. At sub-zero temperatures in 50% MeOH, a two-phase kinetic trace and a rate enhancement by the use of 15 were observed. Despite the elimination of substrate binding as a rate-limiting step, the use of caged benzyl alcohol does not produce a measurable H/D kinetic isotope effect. Unexpectedly, the observed fast phase corresponds to multiple enzyme turnovers, based on the stoichiometry of the substrate to enzyme. Possible side reactions and their effects, such as the re-oxidation of bound NADH and the dissipation of photo-excitation energy, may offer an explanation for the observed multiple-turnovers. The lack of observable deuterium isotope effects offers a cautionary note for the application of caged substrates to isolate and study chemical steps of enzyme reactions, particularly when NADH is involved in the reaction pathway.

Published

2003

6. [Radiolysis of benzyl alcohol in aqueous solution].

Author

Ikebuchi H, Kido Y, and Urakubo G

Subjects

Benzaldehydes, Cobalt Radioisotopes, Dose-Response Relationship, Radiation, Gamma Rays, Oxygen, Benzyl Alcohols radiation effects, Benzyl Compounds radiation effects

Abstract

Radiolysis of 0.05% aqueous solution of benzyl alcohol with 50Co gamma-rays ranging from 1 X 10(4) to 7 X 10(5) rad was investigated, in order to presume the change of it contained in radiopharmaceuticals. For both O2 free and oxygenated solutions, an approximately linear relationship holds between the retaining benzyl alcohol and dose in the range from 1 X 10(5) to 7 X 10(5) rads. The G(-M) values of benzyl alcohol calculated from the relation were 2.34 in the absence and 1.92 in presence of oxygen. In the presence of oxygen, a main product was benzaldehyde and its G value was 0.87. In the absence of oxygen, the main products of the radiolysis were dibenzyl, benzyl phenylcalbinol and hydrobenzoin, which were regarded as the radicao-reaction products of PhCH2 and PhCHOH, and the yield of benzaldehyde was negligible. Irrespective of the presence of oxygen, o- and p-hhdroxylated products of benzyl alcohol were found only in small quantity.

Published

1977