Alexander J. Chen scite author profile

Simvastatin was previously converted to a polymeric prodrug with higher drug loading, but the hydrophobic nature of the poly(simvastatin) component of the block copolymer led to slow release of the drug in vitro. In this study, we hypothesized that degradation could be accelerated by chemically modifying the polymer backbone by introducing glycolide and lactide comonomers. Copolymers were formed by ring-opening polymerization using 5 kDa monomethyl ether poly(ethylene glycol) as the microinitiator in presence of triazabicyclodecene catalyst. In addition to simvastatin, modified reaction mixtures contained lactide or glycolide. Incorporation of the less hydrophobic glycolide comonomer led to in vitro degradation of up to two times greater mass loss, release of up to ~7 times more simvastatin, and a 2–3 times increase in compressive modulus compared to the lactide-containing and parent polymers.

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Chronic Pain Following Abdominal Free Flap Breast Reconstruction

Nelson

Fischer

Pasick

et al. 2013

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Factors contributing to chronic pain continue to be elusive and understudied. Our data demonstrate the importance of screening for chronic pain, as we determined that preoperative pain is linked to increased, moderately debilitating postoperative chronic pain. Persistent chronic pain, in turn, is associated with significant morbidity, disability, and dissatisfaction. Such patients with pain issues may benefit from additional preoperative counseling and early involvement of the pain service.

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The soil microbiome reduces Striga infection of sorghum by modulation of host-derived signaling molecules and root development

Kawa

Thiombiano

Shimels

et al. 2022

Preprint

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Sorghum bicoloris one of the most important cereals in the world and a staple crop for smallholder famers in sub Saharan Africa. However approximately 20% of sorghum yield is annually lost on the African continent due to infestation with the root parasitic weedStriga hermonthica. Existing Striga management strategies often show an inconsistent to low efficacy. Hence, novel and integrated approaches are needed as an alternative strategy. Here, we demonstrate that the soil microbiome suppresses Striga infection in sorghum. We associate this suppression with microbiome-mediated induction of root endodermal suberization and aerenchyma formation, and depletion of haustorium inducing factors (HIFs), root exudate compounds that are critical for the initial stages of Striga infection. We further identify microbial taxa associated with reduced Striga infection with concomitant changes in root cellular anatomy and differentiation as well as HIF degradation. Our study describes novel microbiome-mediated mechanisms of Striga suppression, encompassing repression of haustorium formation and induction of physical barriers in the host root tissue. These findings open new avenues to broaden the effectiveness of Striga management practices.

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The Soil Microbiome Reduces Striga Infection of Sorghum by Modulation of Host-Derived Signaling Molecules and Root Development

Kawa

Thiombiano

Shimels

et al. 2023

Preprint

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Alexander J. Chen

An Alternative Position for the BIS-Vista Montage in Frontal Approach Neurosurgical Cases

Biodegradable Simvastatin-Containing Polymeric Prodrugs with Improved Drug Release

Chronic Pain Following Abdominal Free Flap Breast Reconstruction

The soil microbiome reduces Striga infection of sorghum by modulation of host-derived signaling molecules and root development

The Soil Microbiome Reduces Striga Infection of Sorghum by Modulation of Host-Derived Signaling Molecules and Root Development

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