Jeffrey K. Politis scite author profile

The synthesis, characterization, and biomedical application in preparing more thromboresistant polymeric coatings for a series of lipophilic dialkyldiamine-based diazeniumdiolatesare described. Dialkylhexamethylenediamine diazeniumdiolates of the form RN[N(O)NO](-)(CH(2))(6)NH(2)(+)R, where R = CH(3), CH(2)CH(3), (CH(2))(2)CH(3), (CH(2))(3)CH(3), (CH(2))(4)CH(3,) (CH(2))(5)CH(3), and (CH(2))(11)CH(3), are prepared via reaction of the corresponding diamine with NO. The more lipophilic diazeniumdiolates [e.g., R = (CH(2))(3)CH(3)] can be incorporated into hydrophobic polymeric films (e.g., plasticized PVC), and the resulting materials release NO for extended periods of time upon exposure to PBS buffer. The mechanism of NO release from these films is examined in detail. More stable initial NO release can be achieved by adding lipophilic anionic species (e.g., tetraphenylborate derivative) to the polymeric material to buffer the activity of protons within the organic phase. It is shown that the use of these new lipophilic NO-donors in polymers provides the ability to tailor NO release rates for a variety of medical applications. As an example, polymers doped with N,N'-dibutylhexamethylenediamine diazeniumdiolate and a tetraphenylborate derivative are employed as coatings for vascular grafts in sheep. The NO release grafts exhibited enhanced performance and had an average 95% thrombus-free surface area compared to 42% for the corresponding control grafts when examined after 21d of implantation.

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Nitric Oxide Releasing Polyurethanes with Covalently Linked Diazeniumdiolated Secondary Amines

Reynolds

Hrabie

et al. 2006

Biomacromolecules

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Two novel strategies for synthesizing stable polyurethanes (PUs) capable of generating bioactive nitric oxide (NO) are described. The methods rely on covalently attaching diazeniumdiolate (N(2)O(2)(-)) groups onto secondary amine nitrogens at various positions within the polymer chain such that, when in contact with water or physiological fluids, only the two molecules of NO available from each diazeniumdiolate moiety are released into the surrounding medium, with potential byproducts remaining covalently bound to the matrix. Extensive analysis of the NO(x)() products released from the polymers was employed to develop appropriate strategies to better stabilize the diazeniumdiolate-based polymer structures. In one approach, diazeniumdiolate groups are attached to secondary amino nitrogens of alkane diamines inserted within the diol chain extender of a PU material. Oxidative loss of NO was minimized by blending the polymer with a biocompatible, relatively nonnucleophilic salt before exposing solutions of the polymer to NO during the diazeniumdiolation step. Fluxes of molecular NO from such materials during immersion in physiological buffer reached levels as high as 19 pmol x cm(-2) x s(-1) with a total recovery of 21 nmol of NO/mg of PU. A second general synthetic strategy involved omega-haloalkylating the urethane nitrogens and then displacing the halide from the resulting polymer with a nucleophilic polyamine to form a PU with pendent amino groups suitable for diazeniumdiolation. Commercially available Pellethane 2363-80AE that was bromobutylated and then reacted with diethylenetriamine and further exposed to gaseous NO proved stable in solid form for several months, but released NO with a total recovery of 17 nmol/mg upon immersion in physiological buffer. This material showed an initial NO flux of 14 pmol x cm(-2) x s(-1) when immersed in pH 7.4 buffer at 37 degrees C, with gradually decreasing but still observable fluxes for up to 6 days.

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Jeffrey K. Politis

More Lipophilic Dialkyldiamine-Based Diazeniumdiolates: Synthesis, Characterization, and Application in Preparing Thromboresistant Nitric Oxide Release Polymeric Coatings

Nitric Oxide Releasing Polyurethanes with Covalently Linked Diazeniumdiolated Secondary Amines

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