User-controllable polycube map for manifold spline construction

Novel classes of pain-relieving molecules are needed to fill the void between nonsteroidal anti-inflammatory agents and narcotics. Our studies have identified superoxide as a novel mediator of hyperalgesia (clinically defined as an augmented sensitivity to painful stimuli) and have exposed potential pathways through which this radical modulates the hyperalgesic response. The role of superoxide in pain was elucidated using a superoxide dismutase mimetic, M40403 [a manganese(II) complex with a bis(cyclo-hexylpyridine-substituted) macrocyclic ligand]. Intraplantar injection of carrageenan in rats led to timedependent development of peripheral inflammation [measured parameters of inflammation included paw edema, cytokine release in the paw exudates, nitrotyrosine formation (a marker of peroxynitrite formation and oxidative stress), and poly-ADPribose-polymerase activation (the nuclear enzyme activated by superoxide/peroxynitrite)] and hyperalgesia. M40403 blocked all measured parameters of inflammation and hyperalgesia. Furthermore, when given therapeutically (2 h after the induction of hyperalgesia) either by intravenous or intrathecal administration, M40403 but not its inactive congener M40404 inhibited hyperalgesia with a rapid onset of action. Our results also show that, at the level of the spinal cord and time of peak hyperalgesia, endogenous manganese superoxide dismutase was nitrated and subsequently deactivated, losing its capacity to remove superoxide. The antihyperalgesic effects of M40403 were not reversed by naloxone excluding the potential involvement of an opiate pathway. Collectively, these studies have unraveled a critical role for superoxide in the nociceptive signaling cascade both peripherally and centrally. The discovery of this pathway opens a new therapeutic strategy for the development of novel nonnarcotic antihyperalgesic agents.

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Detection of Individual Microbubbles of Ultrasound Contrast Agents

Klibanov

Rasche²,

Hughes³

et al. 2004

187

112

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Microbubbles induce renal hemorrhage when exposed to diagnostic ultrasound in anesthetized rats

Wible

Galen

Wojdyla

et al. 2002

Ultrasound in Medicine & Biology

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Distinct binding and signaling activity of Acthar Gel compared to other melanocortin receptor agonists

Huang

Galen

Zweifel

et al. 2020

Journal of Receptors and Signal Transduction

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Purpose: To compare the binding and agonistic activity of Acthar V R Gel and synthetic melanocortin receptor (MCR) agonists and examine how the activity of select agonists affects the in vivo production of corticosterone. Materials and Methods: In vitro binding was determined using concentration-dependent displacement of the ligand [ 125 I]Nle 4 , D-Phe 7-a-melanocyte-stimulating hormone (a-MSH) on cells expressing MC1R, MC3R, MC4R, or MC5R. Functional activity was determined using a time-resolved fluorescence cyclic adenosine monophosphate (cAMP) assay in cells expressing MC1R, MC2R, MC3R, MC4R, or MC5R. In vivo corticosterone analyses were performed by measuring plasma corticosterone levels in Sprague Dawley rats. Results: Acthar Gel and synthetic MCR agonists exhibited the highest binding at MC1R, lowest binding at MC5R, and moderate binding at MC3R and MC4R. Acthar Gel stimulated the production of cAMP in all 5 MCR-expressing cell lines, with MC2R displaying the lowest level of full agonist activity, 3-, 6.6-, and 10-fold lower than MC1R, MC3R, and MC4R, respectively. Acthar Gel was a partial agonist at MC5R. The synthetic MCR agonists induced full activity at all 5 MCRs, with the exception of a-MSH having no activity at MC2R. Acthar Gel treatment had less of an impact on in vivo production of corticosterone compared with synthetic ACTH 1-24 depot. Conclusions: Acthar Gel bound to and activated each MCR tested in this study, with partial agonist activity at MC5R and the lowest level of full agonist activity at MC2R, which distinguished it from synthetic MCR agonists. The minimal activity of Acthar Gel at MC2R corresponded to lower endogenous corticosteroid production.

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Albumin‐binding MR blood pool agents as MRI contrast agents in an intracranial mouse glioma model

Adzamli

Yablonskiy

Chicoine

et al. 2003

Magnetic Resonance in Med

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The utility of clinical magnetic resonance contrast media (MRCM) in the evaluation of pathologies within the central nervous system (CNS) is well established (1-9). Bloodbrain-barrier (BBB) disruption in tumors and other lesions of the CNS is attributable to abnormal endothelial junctions, and is a key feature of the aggressive neovascular formations within malignant tumors. This characteristic of BBB disruption accounts for the increased enhancement of intracranial tumors on MRI after administration of MRCM, which is helpful in delineating tumor anatomy. For gliomas, increased enhancement is suggestive, although not absolutely indicative, of an increased histological grade of malignancy. Degrees of tumor malignancy previously have been assessed in animal models using covalently Gd-conjugated macromolecule-based MRCM as MRI signal enhancers (3-6). However, these covalently-bound Gd-macromolecules have not been studied in clinical trials in humans. Hence, the available low-molecular-weight extracellular MRCM are now exploited under dynamic protocols for tumor assessment (7-9). These agents extravasate into extracellular space throughout non-CNS tissues, and thus present a limited time window at high concentration for the detection of CNS tumors. Despite successes achieved with the extracellular agents to date, the need for intravascular agents that would extravasate only in the face of BBB disruption continues to be advocated as a next step in improving the diagnostic utility of these and related techniques (10,11).Noncovalent albumin-binding Gd-chelates represent a new class of agents. These agents, unlike the covalently bound Gd-macromolecules, are small chelates with side chains that undergo reversible noncovalent interactions with circulating albumin (12,13). The bound form (the dominant species, with a Ͼ10-fold signal-enhancing potential) assumes the macromolecular attributes of albumin and remains intravascular, while the nonbound minor component (with the low relaxivity typical of small Gdchelates) is free and extravasates. MP-2269 (Mallinckrodt, Inc., St. Louis, MO) is an experimental monomeric Gd-DTPA-derived blood pool agent with a molecular weight of 1179 g/mol. It is the Gd complex of 4-pentylbicyclo-

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Hydrophilic Pyrazine Dyes as Exogenous Fluorescent Tracer Agents for Real-Time Point-of-Care Measurement of Glomerular Filtration Rate

et al. 2011

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Various hydrophilic pyrazine-bis(carboxamides) derived from 3,5-diamino-pyrazine-2,5-dicarboxylic acid bearing neutral and anionic groups were prepared and evaluated for use as fluorescent glomerular filtration rate (GFR) tracer agents. Among these, the dianionic d-serine pyrazine derivatives 2d and 2j, and the neutral dihydroxypropyl 2h, exhibited favorable physicochemical and clearance properties. In vitro studies show that 2d, 2h, and 2j have low plasma protein binding, a necessary condition for renal excretion. In vivo animal model results show that these three compounds exhibit a plasma clearance equivalent to iothalamate (a commonly considered gold standard GFR agent). In addition, these compounds have a higher urine recovery compared to iothalamate. Finally, the plasma clearance of 2d, 2h, and 2j remained unchanged upon blockage of the tubular secretion pathway with probenecid, a necessary condition for establishment of clearance via glomerular filtration only. Hence, 2d, 2h, and 2j are promising candidates for translation to the clinic as exogenous fluorescent tracer agents in real-time point-of-care monitoring of GFR.

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Synthesis and preliminary evaluation of MP‐2269: A novel, nonaromatic small‐molecule blood‐pool MR contrast agent

Wallace

Haar

Miller

et al. 1998

Magnetic Resonance in Med

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A nonaromatic, small-molecule, gadolinium(3+)-chelate code named MP-2269 was synthesized and evaluated in animals as a potential MR contrast agent for blood pool. The ligand of MP-2269 was prepared by conjugating a lipophilic, albumin-binding moiety, 4-pentylbicyclo[2.2.2]octane-1-carboxylic acid, to an amino-functionalized DTPA derivative by means of a diaspartic acid linker. Proton relaxometry studies in vitro yielded spin-lattice relaxivities (R1) for MP-2269 of 6.2, 20.0 and 26.1 mM(-1)sec(-1) in water, rabbit blood, and human blood, respectively. The enhanced relaxivities in blood indicate significant binding of the agent to blood proteins. At a dose of 45 micromol/kg, MP-2269 showed a biphasic rabbit blood clearance profile with half-lives of 4.7 and 142 minutes, respectively, for the fast and slow components. In rats, the agent is cleared predominantly through the hepatobiliary pathway (approximately 70% in 24 h by this mode). The LD50 value of MP-2269 is approximately 3.0 mmol/kg in mice. Preliminary MR angiograms obtained in the rabbit showed excellent enhancement of blood vessels. Hence, MP-2269 has potential for future exploitation as a contrast agent for MR angiography.

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Detection of Individual Microbubbles of an Ultrasound Contrast Agent

et al. 2002

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12 3 4

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A Newly Identified Role for Superoxide in Inflammatory Pain

Detection of Individual Microbubbles of Ultrasound Contrast Agents

Microbubbles induce renal hemorrhage when exposed to diagnostic ultrasound in anesthetized rats

Distinct binding and signaling activity of Acthar Gel compared to other melanocortin receptor agonists

Albumin‐binding MR blood pool agents as MRI contrast agents in an intracranial mouse glioma model

Hydrophilic Pyrazine Dyes as Exogenous Fluorescent Tracer Agents for Real-Time Point-of-Care Measurement of Glomerular Filtration Rate

Synthesis and preliminary evaluation of MP‐2269: A novel, nonaromatic small‐molecule blood‐pool MR contrast agent

Detection of Individual Microbubbles of an Ultrasound Contrast Agent

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