Profiling of the anti-malarial drug candidate SC83288 against artemisinins in Plasmodium falciparum

Background: The increased resistance of the human malaria parasite Plasmodium falciparum to currently employed drugs creates an urgent call for novel anti-malarial drugs. Particularly, efforts should be devoted to developing fast-acting anti-malarial compounds in case clinical resistance increases to the first-line artemisinin-based combination therapy. SC83288, an amicarbalide derivative, is a clinical development candidate for the treatment of severe malaria. SC83288 is fast-acting and able to clear P. falciparum parasites at low nanomolar concentrations in vitro, as well as in a humanized SCID mouse model system in vivo. In this study, the antiplasmodial activity of SC83288 against artemisinins was profiled in order to assess its potential to replace, or be combined with, artemisinin derivatives. Results: Based on growth inhibition and ring survival assays, no cross-resistance was observed between artemisinins and SC83288, using parasite lines that were resistant to either one of these drugs. In addition, no synergistic or antagonistic interaction was observed between the two drugs. This study further confirmed that SC83288 is a fast acting drug in several independent assays. Combinations of SC83288 and artesunate maintained the rapid parasite killing activities of both components. Conclusion: The results obtained in this study are consistent with artemisinins and SC83288 having distinct modes of action and different mechanisms of resistance. This study further supports efforts to continue the clinical development of SC83288 against severe malaria as an alternative to artemisinins in areas critically affected by artemisinin-resistance. Considering its fast antiplasmodial activity, SC83288 could be combined with a slow-acting anti-malarial drug

Visuo-motor transformations in the intraparietal sulcus mediate the acquisition of endovascular medical skill

Performing endovascular medical interventions safely and efficiently requires a diverse set of skills that need to be practised in dedicated training sessions. Here, we used multimodal magnetic resonance (MR) imaging to determine the structural and functional plasticity and core skills associated with skill acquisition. A training group learned to perform a simulator-based endovascular procedure, while a control group performed a simplified version of the task; multimodal MR images were acquired before and after training. Using a well-controlled interaction design, we found strong, multimodal evidence for the role of the intraparietal sulcus (IPS) in endovascular skill acquisition that is in line with previous work implicating the structure in simple visuo-motor and mental rotation tasks. Our results provide a unique window into the multimodal nature of rapid structural and functional plasticity of the human brain while learning a multifaceted and complex clinical skill. Further, our results provide a detailed description of the plasticity process associated with endovascular skill acquisition and highlight specific facets of skills that could enhance current medical pedagogy and be useful to explicitly target during clinical resident training

Avaliação econômica de sistemas conservacionistas no uso dos solos agrícolas: o caso do binômio trigo-soja no Rio Grande do Sul.

O uso intensivo de equipamento mecanizado nas atividades de lavoura determina um aumento no grau de compactação do solo na base da camada arável que, por sua vez, determina um aumento nas perdas de terra por erosão acompanhada de queda do potencial produtivo. Para contornar este problema - crescente na área devotada ao binómio trigo-soja no Rio Grande do Sul - recomendações têm sido elaboradas no sentido de adoção de sistemas de manejo do solo com mecanização reduzida e uso de subsolagem seguida de adubação verde. Para analisar a viabilidade econômica destas práticas conservacionistas desenvolveu-se um modelo dinâmico incorporando as variáveis relevantes do problema, procedendo-se à avaliação do efeito de decisões alternativas através de simulação em computador. Os resultados indicaram que os métodos mais conservacionistas no uso do solo no binômio trigo-soja apresentam considerável superioridade econômica sobre outras alternativas. Sugere-se, conseqüentemente, ação governamental capaz de acelerar a taxa de adoção dos sistemas de manejo mais ecológicos uma vez que estes carregam significativos benefícios privados e sociais

Multiple drugs compete for transport via the Plasmodium falciparum chloroquine resistance transporter at distinct but interdependent sites

Mutations in the "chloroquine resistance transporter" (PfCRT) are a major determinant of drug resistance in the malaria parasite Plasmodium falciparum. We have previously shown that mutant PfCRT transports the antimalarial drug chloroquine away from its target, whereas the wild-type form of PfCRT does not. However, little is understood about the transport of other drugs via PfCRT or the mechanism by which PfCRT recognizes different substrates. Here we show that mutant PfCRT also transports quinine, quinidine, and verapamil, indicating that the protein behaves as a multidrug resistance carrier. Detailed kinetic analyses revealed that chloroquine and quinine compete for transport via PfCRT in a manner that is consistent with mixed-type inhibition. Moreover, our analyses suggest that PfCRT accepts chloroquine and quinine at distinct but antagonistically interacting sites. We also found verapamil to be a partial mixed-type inhibitor of chloroquine transport via PfCRT, further supporting the idea that PfCRT possesses multiple substratebinding sites. Our findings provide new mechanistic insights into the workings of PfCRT, which could be exploited to design potent inhibitors of this key mediator of drug resistance

Packing of elastic wires in spherical cavities

We investigate the morphologies and maximum packing density of thin wires packed into spherical cavities. Using simulations and experiments, we find that ordered as well as disordered structures emerge, depending on the amount of internal torsion. We find that the highest packing densities are achieved in low torsion packings for large systems, but in high torsion packings for small systems. An analysis of both situations is given in terms of energetics and comparison is made to analytical models of DNA packing in viral capsids.Comment: 4 page

Title: Ex vivo coronary stent implantation evaluated with digital image correlation

Abstract: Intracoronary stenting (PCI) has become standard revascularization technique to reopen blocked arteries. Although significant progress in stenting technology and implantation techniques has been made a number of problems remain. Specifically, stent sizing and inflation pressures are still a matter of scientific debates. Despite a large number of biomechanical computational simulations experimental data are rare, likely due to technical difficulties to measure dilatation pressures and coronary dimensions in the same settings. Our study shows that valuable data can be obtained by employing digital image correlation for 3D strain measurement during stent inflation ex-vivo that can provide further insight into the stent-artery wall interactions. Keywords: Artery wall-stent interaction; coronary stent; digital image correlation; experimental implantation; strain. 3 Abstract/Introduction Intracoronary stenting (PCI) has become standard revascularization technique to reopen blocked arteries. Although significant progress in stenting technology and implantation techniques has been made a number of problems remain Despite a large number of biomechanical computational simulations [3, Methods Stent and PCI equipment The balloon-expandable CoCr coronary stent Kaname TM (Terumo Corporation, Tokyo, Japan) with nominal diameter 3.5 mm, and length 15 mm (at pressure 0.9 MPa; and diameter 3.73 mm at 1.6 MPa) was used in this study. The stent was premounted on PCI dilatation catheter RX-2 (Terumo Corporation). Sample The sample of the main branch of the left coronary artery was obtained from autopsy. The male donor was 40 years old and atherosclerotic lesions were presented inside the sample. The experiment was performed 70 hours post mortem. Experiment The sample was mounted into the experimental setup ( Displacement measurement was based on 3D digital image correlation (DIC) conducted with commercial system Dantec Q-450 (Dantec Dynamics, Ulm, Germany). 4 DIC is non-contact optical method based on the stereoscopic principle which is becoming more popular especially within the strain measurement of geometrically nonuniform objects. The algorithm identifies material points on the object surface and the correlation between consecutive images allows material point tracking. Detailed description can be found in the literature The artery was recorded with two digital cameras (NanoSens Mk III, Dantec Dynamics; 1MPx CCD chip; lens Sigma EX, 105 mm, 1:2.8 D Macro) during the balloon expansion (sampling rate 25 Hz). In fully expanded state, the object ROI approx. 18*3 mm*mm was projected onto 600*300 px*px (in each camera). RX2 manometer was recorded with another camera to obtain time course of change of the balloon distending pressure (pressure transducer connected with PC was not available at the time of experiment). The stent was deployed within manual pressurization up to 1.6 MPa which spanned approximately 42 seconds. Results DIC revealed significant overloading of the artery by the expanded stent. The results are depicted in Principal strains' distribution (Green-Lagrange strain is considered within this study) shows artery response within maximally expanded stent. Principal vectors are predominantly aligned with the circumferential and longitudinal direction which is supposed to be the consequence of the cylindrical stent expansion. Circumferential deformation attains 0.5 mm/mm at the peak value which is far beyond physiological situation. The circumferential strain concentration appears non-symmetrically with respect to the length of the sample which is supposed to be the result of irregular reference geometry (an asymmetrical partially occluded lumen of the artery). Six points (P1-6) were chosen to illustrate specific strain values resulting from different loading conditions and atherosclerotic specimen in our experiment. Discussion This is a preliminary report concerning a stent implantation in ex-vivo settings employing a human coronary artery harvested from autopsy. The results suggest that 3D DIC is promising tool suitable for the evaluation of ex-vivo stent implantation potentially useful for validation of computational models and clinical considerations. Presented results suggest that overexpansion of a stent during deployment may overstretch the target site potentially resulting in implantation injury associated with restenosis and/or intimal tears associated with dissections. To obtain exact intraluminal dimensions during stent deployment optical coherence tomography or intravascular ultrasound (IVUS) would be required, currently not available in our laboratory. Nevertheless we plan to combine IVUS with 3D DIC in future experiments

Diverse mutational pathways converge on saturable chloroquine transport via the malaria parasite's chloroquine resistance transporter

Mutations in the chloroquine resistance transporter (PfCRT) are the primary determinant of chloroquine (CQ) resistance in the malaria parasite Plasmodium falciparum. A number of distinct PfCRT haplotypes, containing between 4 and 10 mutations, have give

Erratum: SC83288 is a clinical development candidate for the treatment of severe malaria

No abstract available