Partitioning of model toxins to hydrophobically terminated DAB dendrimers

King, Mary C.; Duan, Xuening; Sheardown, Heather

doi:10.1002/bit.20000

Cited by 8 publications

(6 citation statements)

References 43 publications

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“…Aromatic acids (salicylic, acetylsalicylic, benzoic, phenylacetic) and amines (pyridine, benzidine, aniline) were as well injected on this column and eluted with ACN-water (10 : 90), 1 mL min À1 , at two different pHs, 2.3 and 7, based on the chemicals' dissociation constants of the analytes. 23,24 As expected, elution was signicantly affected by pH. Organic acids were more retained and better separated at acidic pH, most likely due to the highest interaction with MWCNTs and lower hydrophilicity of the undissociated species.…”

Section: Application Of Mwcnt-pb-silica As a Hplc Stationary Phasesupporting

confidence: 54%

Radiation-induced grafting of carbon nanotubes on HPLC silica microspheres: theoretical and practical aspects

Speltini

Merli

Dondi

et al. 2013

Analyst

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Multi-walled carbon nanotubes (MWCNTs) were grafted for the first time by γ-radiation onto silica microspheres in the presence of polybutadiene (PB) as the linking agent, obtaining a novel hybrid material with chromatographic properties, with an alternative approach to the existing procedures. The synthesis involves the one-pot γ-radiation-induced grafting of MWCNTs onto silica microspheres in the presence of PB as a linking agent. PB also serves as a coating layer of the silica particles, to which MWCNTs are anchored through stable chemical bonds formed via radical chain reaction with the polymer. The product (MWCNT-PB-modified silica) resulted in MWCNT bundles interlaying the silica particles which acted as a support and as a spacer. This new material highlights the unquestionable properties of CNTs also when grafted in a composite, thus allowing the disposition of a more robust material whose properties are still related to the nanotube structure. The grafting was confirmed by Raman spectroscopy. The surface area, determined by BET isotherms, resulted in 132 m(2) g(-1), about 34% lower than that of pure silica, pointing to the cross-linking effect of PB in the silica matrix. The evaluation of MWCNT-PB-modified silica as a LC stationary phase was performed by separation of aromatics, with satisfactory resolution and reproducibility, while structural selectivity was proved by isomer separation. A good resolution was obtained also for acid/basic compounds as barbiturates. A comparison with a commercial C18 sorbent highlighted the advantage in using the CNT column for separating aromatic hydrocarbons. Control experiments on the PB-coated silica column proved the key role of MWCNTs in the chromatographic performance.

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Section: Application Of Mwcnt-pb-silica As a Hplc Stationary Phasesupporting

confidence: 54%

Radiation-induced grafting of carbon nanotubes on HPLC silica microspheres: theoretical and practical aspects

Speltini

Merli

Dondi

et al. 2013

Analyst

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“…the availability of internal cavities, make dendrimers unique in many applications such as drug delivery, solar cells, catalysis, and electrochemical sensors. [4][5][6][7][8][9] Over the past decade, significant applications of dendrimers for biological and drug-delivery purposes have been demonstrated. [10][11][12][13][14][15][16][17] There is a direct correlation between dendrimer generation and the functional groups in their periphery, which improves the presentation of concentrated drugs or designated molecules for therapeutic applications.…”

Section: Doi: 101002/mabi202000242mentioning

confidence: 99%

Pharmacological Evaluation of Novel Organoiron Dendrimers as Antimicrobial and Anti‐Inflammatory Agents

Abd‐El‐Aziz

Abdelghani

El-Ghezlani

et al. 2020

Macromolecular Bioscience

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The synthesis of a novel and attractive class of nonsteroidal anti‐inflammatory and antimicrobial organoiron dendrimers attached to the well‐known drug ibuprofen is achieved. The structures of these dendrimers are established by spectroscopic and analytical techniques. The antimicrobial activity of these dendrimers is investigated and tested against five human pathogenic Gram‐positive and Gram‐negative bacteria, and minimum inhibitory concentrations are reported. Some of these synthesized dendrimers exhibit higher inhibitory activity against methicillin‐resistant Staphylococcus aureus, vancomycin‐resistant Enterococcus faecium, and Staphylococcus warneri compare to the reference drugs. As well, the in vitro and in vivo anti‐inflammatory activities of these dendrimers are evaluated. The results of in vivo anti‐inflammatory activity and histopathology of inflamed paws show that all dendrimers display considerable anti‐inflammatory activity; however, second‐generation dendrimer (G2‐D6) shows the best anti‐inflammatory activity, which is more potent than the commercial drug ibuprofen at the same tested dose. Results of the toxicity study reveal that G2‐D6 is the safest drug on biological tissues.

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“…The highly structured characteristics make dendrimers very suitable molecules for a wide range of biomedical applications, ,,,,, including in in vitro diagnostics, in drug delivery, ,,,,− as unimolecular micelles, , and as the mimics of proteins. , However, the biological properties of dendrimers need to be more deeply investigated to enable further therapeutic applications . Dendrimers are also used as catalysts, ,,,− combining the advantages of homogeneous and heterogeneous catalysts. , Metallodendrimers with interesting electronic, magnetic, and catalytic properties have been reported. , The structure, size, shape, and solubility of dendrimers and metallodendrimers can be tuned, and the catalytic sites of a metallodendrimer can be located either at the periphery of the dendrimer or at the core. ,, Other applications of dendrimers are their use as encapsulating agents for insoluble materials (e.g., metals), , self-assembled monolayers (self-assembling dendrimers are considered as models for biological systems such as vesicles or micelles), cast films, colloids and nanoclusters, liquid crystals, biochemicals and pharmachemicals 20 and as chemiresistors .…”

Section: Introductionmentioning

confidence: 99%

Electrochemistry of Non-Redox-Active Poly(propylenimine) and Poly(amidoamine) Dendrimers at Liquid−Liquid Interfaces

et al. 2007

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The electrochemistry of a series of dendrimers was examined at the interface between two immiscible electrolyte solutions (ITIES), enabling study of non-redox-active dendrimers. Different generations of poly(propylenimine) (DAB-AM-n) and poly(amidoamine) (PAMAM) dendrimers were studied. In their protonated states, the dendrimers were transferred across the ITIES, with the electrochemical behavior observed depending on the dendrimer family, the generation number, and the experimental pH. The electrochemistry of the lower generations studied was characterized by well-defined peaks for both dendrimer families and with small peak-peak separations in the case of the PAMAM family. The voltammetry of the higher generations was more complex, showing distorted voltammograms and instability of the interface. The charges of the transferring dendrimers were calculated by convolution of the voltammetric data and were similar to the theoretical charges for DAB-AM-n. For PAMAM, only the lowest generation exhibited reversible behavior, with higher generations having irreversible behavior. Using cyclic voltammetry, low micromolar concentrations of the dendrimers were detected. The results show that electrochemistry at the ITIES can be a useful method for characterization of ionizable dendrimers and that voltammetry can be a simple method for detection of low concentrations of these multicharged species.

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Partitioning of model toxins to hydrophobically terminated DAB dendrimers

Cited by 8 publications

References 43 publications

Radiation-induced grafting of carbon nanotubes on HPLC silica microspheres: theoretical and practical aspects

Radiation-induced grafting of carbon nanotubes on HPLC silica microspheres: theoretical and practical aspects

Pharmacological Evaluation of Novel Organoiron Dendrimers as Antimicrobial and Anti‐Inflammatory Agents

Electrochemistry of Non-Redox-Active Poly(propylenimine) and Poly(amidoamine) Dendrimers at Liquid−Liquid Interfaces

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