Troubling the “WE” in art education: Slam poetry as subversive duoethnography

Scholarly dialogues are filled with discussions of teacher’s personal perspectives, experiences, and challenges - but rarely do these dialogues include the narratives that lie beneath the surface. The subversive tales confronting stories of microagressions, alternate histories, and institutionalized norms that shape the educational landscape we navigate daily. This paper is focused on bringing to the surface a call and response lament of two social justice-oriented art educators--one Black, the other White. Using the dialogic methodology of duoethnography and the performative aspects of slam poetry, we share our racialized-teaching accounts as a multisensory experience, where text and performative orality share a chimeric relationship. The slam poem format, along with a critical arts-based perspective, allows us to speak/perform with urgency alongside one another to share tales of an educational landscape rife with racialized inequities. Using the metaphor of eyesight, and its subsequent limitations, our poem references the challenges of human interaction within the rubric of racial categorization. We see slam poetry as a democratic means of performing identity and as a way to subvert the limitations of traditional hegemonic forms and norms and frame our poetic call and response as verses from below. This form of poetic lament frames our socio-political interaction around the concepts of Whiteness and Blackness in and through teaching and learning in art education. We close with brief considerations for how this approach might be generative in critically framing personal and educational interactions between/among/across difference

Liberation Kitchen: Annotating Intergenerational Conversations Among Black Women in Art and Education

In this essay, we, four Black women art educators, draw from Black feminisms and Afrofemcentrism. Our practice considers nuanced ways that Black women curate spaces of communal care, which position forms of dialogic encounters with one another. We put forward aspects of Black life, as lived in and through sharing intimacies of the geospatial and as continuation of Black radical traditions. We argue that a kitchenspace indexes a Black praxis, centering intergenerational knowledge-sharing and methodology toward liberation. We think with Black feminist scholar/artists and insist a method of self-annotating, indexing our lives into the otherwise absences of Black women’s narratives in the field of art education. We practice the theorization and method of using images of personal artwork and our dialogues. These annotations realign new centers of knowledge and refuse cannibalization by Euro-dominant narratives

Desirable Difficulties: Toward a Critical Postmodern Arts-Based Practice

Prior scholarship on collaborative writing projects by women in the academy acknowledges sustained attempts of intraracial and interracial collaboration/divides. Interracial collaborative scholarship, while noble in effort, may result in unacknowledged tensions surrounding racial identity politics. In these collaborative environments the problematics of race cannot be denied, with Black women often drawing upon their racialized identities, while White women emphasize their gendered identities. An unawareness and/or invisibility of Whiteness as a racial construct of privilege further problematizes feminist postmodern discourse. This polyvocal text focuses on responding to and working within the tensions of identity politics encountered in interracial scholarship among four women academics. What follows is an attempt at describing an arts-based project, emerging from concentrated efforts to develop an approach to collaborative scholarship aimed at identifying and inhabiting the divides rather than only navigating around, over or under them

Exome-wide association study of pancreatic cancer risk

We conducted a case-control exome-wide association study to discover germline variants in coding regions that affect risk for pancreatic cancer, combining data from 5 studies. We analyzed exome and genome sequencing data from 437 patients with pancreatic cancer (cases) and 1922 individuals not known to have cancer (controls). In the primary analysis, BRCA2 had the strongest enrichment for rare inactivating variants (17/437 cases vs 3/1922 controls) (P=3.27x10(-6); exome-wide statistical significance threshold P<2.5x10(-6)). Cases had more rare inactivating variants in DNA repair genes than controls, even after excluding 13 genes known to predispose to pancreatic cancer (adjusted odds ratio, 1.35, P=.045). At the suggestive threshold (P<.001), 6 genes were enriched for rare damaging variants (UHMK1, AP1G2, DNTA, CHST6, FGFR3, and EPHA1) and 7 genes had associations with pancreatic cancer risk, based on the sequence-kernel association test. We confirmed variants in BRCA2 as the most common high-penetrant genetic factor associated with pancreatic cancer and we also identified candidate pancreatic cancer genes. Large collaborations and novel approaches are needed to overcome the genetic heterogeneity of pancreatic cancer predisposition

Tunable Heparan Sulfate Mimetics for Modulating Chemokine Activity

Heparan sulfate (HS) glycosaminoglycans participate in critical biological processes by modulating the activity of a diverse set of protein binding partners. Such proteins include all known members of the chemokine superfamily, which are thought to guide the migration of immune cells through their interactions with HS. Here, we describe an expedient, divergent synthesis to prepare defined HS glycomimetics that recapitulate the overall structure and activity of HS glycosaminoglycans. Our approach uses a core disaccharide precursor to produce a variety of differentially sulfated glycopolymers. We demonstrate that a specific trisulfated mimetic antagonizes the chemotactic activity of the proinflammatory chemokine RANTES with potency similar to that of heparin, without inhibiting serine proteases in the blood coagulation cascade. Our work provides a general strategy for modulating chemokine activity and dissecting the pleiotropic functions of HS/heparin through the presentation of defined sulfation motifs within polymeric scaffolds

Tailored Glycopolymers as Anticoagulant Heparin Mimetics

Not to clot: Heparin and its low-molecular-weight derivatives are clinical therapeutics used to treat and prevent blood clots. The synthesis of heparin-based glycopolymers that are potent and potentially safer mimetics of heparin is described. The mimetics exhibited activity against proteases (FXa and FIIa) in the coagulation cascade and prolonged blood clot times in human plasma with efficacies similar to those of clinical anticoagulants. ATIII=antithrombin III

The genomic architecture of novel Simulium damnosum Wolbachia prophage sequence elements and implications for onchocerciasis epidemiology

Research interest in Wolbachia is growing as new discoveries and technical advancements reveal the public health importance of both naturally occurring and artificial infections. Improved understanding of the Wolbachia bacteriophages (WOs) WOcauB2 and WOcauB3 [belonging to a sub-group of four WOs encoding serine recombinases group 1 (sr1WOs)], has enhanced the prospect of novel tools for the genetic manipulation of Wolbachia. The basic biology of sr1WOs, including host range and mode of genomic integration is, however, still poorly understood. Very few sr1WOs have been described, with two such elements putatively resulting from integrations at the same Wolbachia genome loci, about 2 kb downstream from the FtsZ cell-division gene. Here, we characterize the DNA sequence flanking the FtsZ gene of wDam, a genetically distinct line of Wolbachia isolated from the West African onchocerciasis vector Simulium squamosum E. Using Roche 454 shot-gun and Sanger sequencing, we have resolved >32 kb of WO prophage sequence into three contigs representing three distinct prophage elements. Spanning ≥36 distinct WO open reading frame gene sequences, these prophage elements correspond roughly to three different WO modules: a serine recombinase and replication module (sr1RRM), a head and base-plate module and a tail module. The sr1RRM module contains replication genes and a Holliday junction recombinase and is unique to the sr1 group WOs. In the extreme terminal of the tail module there is a SpvB protein homolog—believed to have insecticidal properties and proposed to have a role in how Wolbachia parasitize their insect hosts. We propose that these wDam prophage modules all derive from a single WO genome, which we have named here sr1WOdamA1. The best-match database sequence for all of our sr1WOdamA1-predicted gene sequences was annotated as of Wolbachia or Wolbachia phage sourced from an arthropod. Clear evidence of exchange between sr1WOdamA1 and other Wolbachia WO phage sequences was also detected. These findings provide insights into how Wolbachia could affect a medically important vector of onchocerciasis, with potential implications for future control methods, as well as supporting the hypothesis that Wolbachia phages do not follow the standard model of phage evolution

Does increasing treatment frequency address sub-optimal responses to ivermectin for the control and elimination of river blindness?

Background Several African countries have adopted a biannual ivermectin distribution strategy in some foci to control and eliminate onchocerciasis. In 2010, the Ghana Health Service started biannual distribution to combat transmission hotspots and sub-optimal responses to treatment. We assessed the epidemiological impact of the first 3 years of this strategy and quantified responses to ivermectin over two consecutive rounds of treatment in 10 sentinel communities. Methods We evaluated Onchocerca volvulus microfilarial intensity and prevalence in those aged +/-20 years before the first, second and fifth (or sixth) biannual treatment rounds using skin snip data from 956 participants. We used longitudinal regression modelling to estimate rates of microfilarial repopulation of the skin in a cohort of 217 participants who were followed-up over the first two rounds of biannual treatment. Results Biannual treatment has had a positive impact, with substantial reductions in infection intensity after 4 or 5 rounds in most communities. We identified three communities—all having been previously recognised as responding sub-optimally to ivermectin—with statistically significantly high microfilarial repopulation rates. We did not find any clear association between microfilarial repopulation rate and the number of years of prior intervention, coverage, or the community level of infection. Conclusions The strategy of biannual ivermectin treatment in Ghana has reduced O. volvulus microfilarial intensity and prevalence, but sub-optimal responses to treatment remain evident in a number of previously and consistently implicated communities. Whether increasing the frequency of treatment will be sufficient to meet the World Health Organization’s 2020 elimination goals remains uncertain

Modelling the elimination of river blindness using long-term epidemiological and programmatic data from Mali and Senegal

The onchocerciasis transmission models EPIONCHO and ONCHOSIM have been independently developed and used to explore the feasibility of eliminating onchocerciasis from Africa with mass (annual or biannual) distribution of ivermectin within the timeframes proposed by the World Health Organization (WHO) and endorsed by the 2012 London Declaration on Neglected Tropical Diseases (i.e. by 2020/2025). Based on the findings of our previous model comparison, we implemented technical refinements and tested the projections of EPIONCHO and ONCHOSIM against long-term epidemiological data from two West African transmission foci in Mali and Senegal where the observed prevalence of infection was brought to zero circa 2007–2009 after 15–17 years of mass ivermectin treatment. We simulated these interventions using programmatic information on the frequency and coverage of mass treatments and trained the model projections using longitudinal parasitological data from 27 communities, evaluating the projected outcome of elimination (local parasite extinction) or resurgence. We found that EPIONCHO and ONCHOSIM captured adequately the epidemiological trends during mass treatment but that resurgence, while never predicted by ONCHOSIM, was predicted by EPIONCHO in some communities with the highest (inferred) vector biting rates and associated pre-intervention endemicities. Resurgence can be extremely protracted such that low (microfilarial) prevalence between 1% and 5% can be maintained for 3–5 years before manifesting more prominently. We highlight that post-treatment and post-elimination surveillance protocols must be implemented for long enough and with high enough sensitivity to detect possible residual latent infections potentially indicative of resurgence. We also discuss uncertainty and differences between EPIONCHO and ONCHOSIM projections, the potential importance of vector control in high-transmission settings as a complementary intervention strategy, and the short remaining timeline for African countries to be ready to stop treatment safely and begin surveillance in order to meet the impending 2020/2025 elimination targets

Radio emission from Supernova Remnants

The explosion of a supernova releases almost instantaneously about 10^51 ergs of mechanic energy, changing irreversibly the physical and chemical properties of large regions in the galaxies. The stellar ejecta, the nebula resulting from the powerful shock waves, and sometimes a compact stellar remnant, constitute a supernova remnant (SNR). They can radiate their energy across the whole electromagnetic spectrum, but the great majority are radio sources. Almost 70 years after the first detection of radio emission coming from a SNR, great progress has been achieved in the comprehension of their physical characteristics and evolution. We review the present knowledge of different aspects of radio remnants, focusing on sources of the Milky Way and the Magellanic Clouds, where the SNRs can be spatially resolved. We present a brief overview of theoretical background, analyze morphology and polarization properties, and review and critical discuss different methods applied to determine the radio spectrum and distances. The consequences of the interaction between the SNR shocks and the surrounding medium are examined, including the question of whether SNRs can trigger the formation of new stars. Cases of multispectral comparison are presented. A section is devoted to reviewing recent results of radio SNRs in the Magellanic Clouds, with particular emphasis on the radio properties of SN 1987A, an ideal laboratory to investigate dynamical evolution of an SNR in near real time. The review concludes with a summary of issues on radio SNRs that deserve further study, and analyzing the prospects for future research with the latest generation radio telescopes.Comment: Revised version. 48 pages, 15 figure