Modulation of Genes Involved in Zinc Homeostasis in Old Low-Grade Atherosclerotic Patients Under Effects of HMG-CoA Reductase Inhibitors

Millions of patients worldwide have received drug-eluting stents to reduce their risk for in-stent restenosis. The efficacy and toxicity of these local therapeutics depend upon arterial drug deposition, distribution, and retention. To examine how administered dose and drug release kinetics control arterial drug uptake, a model was created using principles of computational fluid dynamics and transient drug diffusion-convection. The modeling predictions for drug elution were validated using empiric data from stented porcine coronary arteries. Inefficient, minimal arterial drug deposition was predicted when a bolus of drug was released and depleted within seconds. Month-long stent-based drug release efficiently delivered nearly continuous drug levels, but the slow rate of drug presentation limited arterial drug uptake. Uptake was only maximized when the rates of drug release and absorption matched, which occurred for hour-long drug release. Of the two possible means for increasing the amount of drug on the stent, modulation of drug concentration potently impacts the magnitude of arterial drug deposition, while changes in coating drug mass affect duration of release. We demonstrate the importance of drug release kinetics and administered drug dose in governing arterial drug uptake and suggest novel drug delivery strategies for controlling spatio-temporal arterial drug distribution.

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Thrombus causes fluctuations in arterial drug delivery from intravascular stents

Balakrishnan

Dooley²,

Kopia³

et al. 2008

Journal of Controlled Release

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Arterial drug concentrations determine local toxicity. As such the emergent safety concerns surrounding drug-eluting stents mandate an investigation of the factors contributing to fluctuations in arterial drug uptake. Drug-eluting stents were implanted into porcine coronary arteries, arterial drug uptake was followed and modeled using 2-dimensional computational drug transport. Arterial drug uptake in vivo occurred faster than predicted by free drug diffusion, thus an alternate, mechanism for rapid transport has been proposed involving carrier-mediated transport. Though there was minimal variation in vivo in release kinetics from stent to stent, arterial drug deposition varied by up to 114% two weeks after stent implantation. The extent of adherent mural thrombus also fluctuated by 113% within 3 days after implantation. The computational drug transport model predicted that focal and diffuse thrombi elevate arterial drug deposition in proportion to the thrombus size by reducing drug washout subsequently increasing local drug availability. Fluctuations in arterial drug uptake are commonly reported. We now explain that variable peristrut thrombus can explain such observations even in the face of a narrow range of drug release from the stent. The mural thrombus effects on arterial drug deposition may be circumvented by forcing slow, rate limiting arterial transport that cannot be further hindered by mural thrombus. Keywords stents; drug delivery; restenosis; thrombus II. IntroductionThere is increasing concern for the risk of thrombosis in drug-eluting stents late after implantation. It was reported that drug-eluting stents clot at 0.6% each year after implantation for up to 3 years 1 and remain an issue even years after implantation 2,3 . Documentation of delayed healing and re-endothelialization suggest that the unhealed tissue state might provide a nidus for thrombosis [4][5][6] . Drug-eluting stents may delay recovery of endothelial function *Corresponding author. Phone: 617 253 1569 Fax: 617 253 2514 innga@mit.edu. Publisher's Disclaimer: This is a PDF file of an unedited manuscript that has been accepted for publication. As a service to our customers we are providing this early version of the manuscript. The manuscript will undergo copyediting, typesetting, and review of the resulting proof before it is published in its final citable form. Please note that during the production process errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. NIH Public Access NIH-PA Author ManuscriptNIH-PA Author Manuscript NIH-PA Author Manuscript compared to their bare metal counterparts even 6 months after implantation 7,8 . Heightened local arterial drug levels may be responsible for these observations and may be an especially potent problem given the narrow therapeutic window for paclitaxel and sirolimus and their selective effects on smooth muscle and endothelial cells 9,10 . Complete appreciation of the role and limitations of drug eluting stents requ...

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Safety and Pharmacokinetics of Sirolimus-eluting Stents in the Canine Cerebral Vasculature: 180 Day Assessment

Levy

Hanel

Tio

et al. 2006

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SES in canine cerebral vessels were associated with good luminal patency to 180 days, with complete endothelialization and no evidence of acute thrombosis. This model has shown that SES deployed within the brain do not cause neurotoxicity during a 180-day time course, even when exaggerated doses are used. The findings support the contention that SES are safe to use and maintain patency in cerebral vessels.

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John Dooley

Long-term effects of polymer-based, slow-release, sirolimus-eluting stents in a porcine coronary model

Intravascular drug release kinetics dictate arterial drug deposition, retention, and distribution

Thrombus causes fluctuations in arterial drug delivery from intravascular stents

Safety and Pharmacokinetics of Sirolimus-eluting Stents in the Canine Cerebral Vasculature: 180 Day Assessment

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