Not With the Fist: A Study of the Assimilation and Acculturation of the Mexican-American Population of San Bernardino, California

The body of this paper is intended to be a book manuscript. It is hoped that its readers will be those who work directly with Mexican-Americans--employers, school-teachers, law-enforcement officers, social-workers, church leaders, parent-teacher groups, union officials, public agency employees, and many others in communities in our Southwest. It is also hoped that the book will reach and interest a general reading public in the United States. It has become almost axiomatic to say that no minority problem is, to-day, merely regional or even national in scope. The currency of the axiom by no means alters its essential truth. Our continued friendship with Latin America, a mutual necessity, depends, to a greater degree than most persons in the United States realize, upon our treatment of Latin-American minorities within the United States. Our sins of omission and commission toward these minorities make headlines in Latin-American capitals, where there is a realistic tendency to judge the validity of our international intentions by what we do in our own backyard

Processing of the ultra-light syntactic foam material Eccostock® FFP using selective laser sintering

Production of custom shaped, low density parts and components has a wide number of industrial applications, but also due to the nature of the material can be challenging [1]. Additive manufacturing forms final parts in a layer by layer process from a stack of 2D sections or slices and allows fabrication of almost any arbitrary 3D shape. Depending on the material and desired pore size, this technique can be used to prepare syntactic foams from open cellular structures as well as from composite materials with a high content of glass microspheres. Eccostock FFP is an off the shelf, epoxy-based composite free-flowing powder. Exposed to the temperatures about 100- 150 °C it cures into the rigid and ultra-light three phase syntactic foam (~ 0.1 g/cc). Material is standardly used for physical support and to provide thermal insulation for delicate electrical components in high vibration environments. In its powder form, it allows material to reach inside densely populated electronic packages and its low shrinkage means that electronic components will not be damaged during the curing procedure. The same characteristics also open the possibility to process this powder using the SLS system and benefit from the design freedom of the additive manufacturing technologies. Selective laser sintering (SLS) is one of the powder bed fusion processes, where parts are built using a laser beam as a heat source inducing fusion between powder particles. Powder is uniformly spread across the building platform and kept heated at a temperature just below the melting and curing point. Interaction with the laser selectively cures the polymer matrix entrapping glass microspheres, while the rest of the powder is unaffected and serves as a support. After each slice, the building platform lowers down a certain distance and a new powder layer is recoated on the surface [2]. In this work we optimised parameters for the processing of the Eccostock FFP powder in the standard SLS machine (EOS Formiga P100). Optimal process temperature and laser energy were defined. Using different sets of parameters we produced compression samples to evaluate mechanical properties of the final parts as well as the influence of the different printing parameters on the part density. We showed that syntactic foams parts can be produced using a relatively low processing temperature (below 70 °C) with short heating and cooling periods and exhibited good dimensional accuracy and shape freedom, making SLS an interesting technology to produce ultra-low density, custom shaped structures for industrial applications. Please click Additional Files below to see the full abstract

Evaluation and application of microsatellite and major histocompatability complex variation for stock identification of coho salmon

Abstract.-Variation at eight microsatellite loci and two linked exons of a major histocompatibility complex (MHC) locus was surveyed in approximately 21,000 coho salmon Oncorhynchus kisutch sampled from 138 localities ranging from southeast Alaska to the Columbia River, the majority of the sites being in British Columbia. The observed regional population structure enabled evaluation of the utility of using microsatellite and MHC variation for estimating the stock composition of coho salmon in mixed-stock fisheries. Both MHC exons were more effective for stock identification than any of the eight microsatellite loci examined. The two MHC exons combined were nearly as effective, on average, as the eight microsatellite loci combined. Some loci were particularly effective at discriminating stocks from specific regions. Mixed-stock analysis provided accurate estimates of contributions from the threatened Thompson River and upper Skeena River stocks, even when they composed less than 5% of the sampled fish. From about 17,000 coho salmon sampled from mixed-stock fisheries in British Columbia and Washington during 1997-1999, we found that the highest estimated proportions of coho salmon originating in southeast Alaska were in Canadian fishing areas adjacent to the international border in northern British Columbia; the highest proportions of Washington-origin coho salmon were observed closest to the international border in southern British Columbia. Within major river drainages, MHC variation within appropriately sampled fisheries can be used to determine the timing of spawning returns of specific stocks and the relative or absolute stock escapements. The application of molecular genetic markers to stock structure analysis and mixed-stock analysis of anadromous salmonids has been extensive because of the economic importance of these fish and the relative ease of sampling temporally or spatially segregated spawning aggregations In 1995, we began to develop a comprehensive genetic database for coho salmon in British Columbia that would assist in identifying and selecting conservation and management units of British Columbia coho salmon. We believed the database would also provide sufficiently accurate and precise estimates of stock composition in mixed-stock samples and thereby enhance conservation-based fisheries management. We chose to survey variation at eight microsatellite loci and 1117 STOCK IDENTIFICATION OF COHO SALMON two exons (coding portion of a gene) of a major histocompatibilty complex (MHC) locus. We used a PCR-based (polymerase chain reaction) approach to ensure cost effectiveness and speed in establishing the database and to enable nonlethal sampling for mixed-stock analysis. Microsatellite loci are abundant, highly polymorphic, and noncoding (considered selectively neutral), and provide genetic information on nonselective forces, including mutation and drift. As such, they can be used to generate estimates of gene flow, effective population size, and phylogenetic relationships. Vertebrate MHC genes encode cell-surface glycoproteins that are functional in the adaptive immune system. They evolve rapidly, are highly polymorphic, and because they encode adaptive variation, are subject to natural selection. The adaptive nature of MHC genes compromises use of MHC allele frequencies to estimate parameters for which an assumption of selective neutrality is required. However, MHC allele frequencies have the potential to enhance stock specificity and thus their utility in mixed-stock analyses. Moreover, variation in MHC allele and genotype frequencies attributable to selective forces provides quantitative information on the adaptive variation among salmonid stocks that conservation efforts are directed at preserving (Miller et al. in press). The two linked class-I MHC exons surveyed in this study exhibit high levels of polymorphism, heterozygosity, and temporally stable differentiation among coho salmon populations After having received scientific advice in 1998 that the abundance of Thompson River and upper Skeena River coho salmon was at critically low levels (Stocker and Peacock 1998), the Minister of the Department of Fisheries and Oceans directed that the management of Canadian fisheries in 1998 was to be conducted with the objective of achieving a zero mortality of those salmon. Fisheries were curtailed in areas where Thompson River and upper Skeena River coho salmon were believed to be prevalent. Salmon fisheries in other areas could proceed if they were unlikely to intercept significant numbers of coho salmon, and generally, all coho salmon caught in any British Columbia fishery were to be released. Coded wire tag (CWT) analysis depends upon recovery of CWTs from dead fish, so under the 1998 management objectives, the traditional stock identification information from CWTs would not be available. However, by 1998, extensive surveys of microsatellite and MHC variation had been conducted, the general units of population structure of coho salmon had been defined, and the feasibility of DNA-based MSA had been assessed In this study, we evaluate the utility of using microsatellite and MHC data for coho salmon stock identification through simulation analyses, apply the technologies to estimate stock composition of known-origin samples of coded-wiretagged coho salmon, and outline the applications to estimating stock composition for coho salmon fisheries sampled in British Columbia and Washington during 1997-1999. Methods Collection of DNA samples and laboratory analysis.-Genomic DNA was extracted from either liver, scales, operculum punches, or fin clips from coho salmon sampled between 1987 and 1999 using the phenol-chloroform protocol of class-I MHC exons was surveyed by denaturing gradient gel electrophoresis (DGGE) Collection of the CWT sample.-In 1997, coho salmon could still be landed and retained in British Columbia fisheries. The program to recover codedwire-tagged fish was in operation, and we were able to obtain operculum punches from coho salmon that had previously been marked with CWTs and for which the CWT had been recovered and decoded for marking location (source population). We subsequently used this sample of 264 fish to evaluate the accuracy of estimated stock compositions using a sample of known origin. Collection of fishery samples.-In 1997, samples were collected from the recreational fishery off southwestern Vancouver Island and in test fisheries in the lower Fraser River in southern British Columbia. In 1998, when coho salmon were not to be retained in most fisheries in the province, sampling coho salmon from the fisheries was challenging. Sampling effort was expanded considerably; observers aboard troll, purse seine, and gillnet vessels sampled the bycatch of coho salmon before their release. Obtaining samples from the recreational fishery was difficult; there were no landings to sample, and it was not practical to place observers aboard individual vessels. Samples from these fisheries were generally obtained either from individual guides or charter boat operators, or from members of the British Columbia Wildlife Federation. The DNA samples from the 1998 and 1999 fisheries were obtained from either operculum punches or fin clips preserved in 70% ethanol. To facilitate rapid analysis of fishery samples, we generally screened them for variability at both MHC exons and at four microsatellite loci. The microsatellite loci screened for the 1997-1998 samples were Ots2, Ots3, Ots101, and Ots103, whereas the loci screened for the 1999 samples were Oki1, Oki10, Oki100, Oki101. Baseline populations.-Applying DNA variation to estimates of stock composition in mixedstock fisheries requires surveying variation in contributing populations at a sufficient number of genetic markers to provide reliable determination of population structure and, thus, estimates of stock composition. The baseline survey consisted of analysis of approximately 21,000 coho salmon in 138 populations from geographic areas where coho salmon are likely to occur in British Columbia fisheries. These populations included 1 from Oregon, 17 from Washington, 111 from British Columbia, and 9 from southeast Alaska ( Conversion of allele sizes between manual and automated sizing systems.-The ABI 377 automated sequencer was obtained in our laboratory during the 1998 fishery to shorten the processing time for the approximately 9,000 samples collected from fisheries throughout British Columbia. At that time the baseline microsatellite data consisted of manual gel data for only four (Ots2, Ots3, Ots101, and Ots103) of the eight microsatellite loci used in this analysis. For the 1998 fishery samples, we surveyed variation at Ots3, Ots101, and Ots103 on the automated sequencer and retained Ots2 on manual gels. Given the wide distribution of allele sizes of Ots101 and Ots103 and the limitation of three fluorescent dyes for microsatellites on the sequencer, we were not able at that time to analyze Ots2 on the sequencer. Estimated allele sizes at Ots3, Ots101, and Ots103 differed between the manual nondenaturing gels stained with ethidium bromide and the automated sequencer denaturing gels with fluorescently labeled alleles. To convert allele sizes between the two systems, we analyzed approximately 600 fish on both systems and determined the distributions of allele frequencies. By inspection of the allele frequencies, we were able to match specific allele sizes obtained from the sequencer to specific allele sizes from the manual gels and then convert the sizing in the automated sequencer data set to match that obtained from the manual gels. Estimated allele sizes from both systems were very highly correlated (r 2 ϭ 0.987 for Ots3, 0.998 for Ots101, and 0.999 for Ots103). In general, sizes for the same allele from the sequencer were larger than those estimated from manual gels, and the differential increased directly with allele size. Estimating stock composition.-Genotypic frequencies were determined at each locus in each population. The statistical package for the analysis of mixtures software program (SPAM; Reported stock compositions for the CWT and actual fishery samples are the point estimates of each mixture analyzed; variance estimates were derived from 100 bootstrap simulations. Each baseline population and fishery sample was sampled with replacement in order to simulate random variation involved in the collection of the baseline and fishery samples. Reported stock composition for simulated mixtures was the bootstrap mean and standard deviation. Coastal British Columbia is divided into statistical areas for salmon catch reporting and management ( Results Population Structure If a regional genetic structure among populations contributing to a fishery exists, then it is unnecessary to survey all individual populations that contribute to the fishery. The portion of the mixed-stock sample derived from unsampled populations is allocated to sampled populations from the same region, reducing the cost and complexity of establishing a baseline sufficient for mixture analysis. The sampled populations constitute the baseline used to estimate stock compositions in mixed-fishery samples. Regional structure was observed in the baseline populations, the Thompson River populations being the most distinct of 15 geographically based groups or stocks (Table 2; Comparison of Individual Loci Determining the relative power of individual loci for regional discrimination is of prime importance for practical stock identification applications. Of the 10 markers surveyed in our study, the MHC exons were individually more effective for stock identification than any of the eight microsatellite loci Coho salmon from some regions were more easily differentiated than those from other regions. The distinctive Thompson River coho were clearly well differentiated from coho salmon in other regions, regardless of the loci examined. When all 10 loci surveyed were used, coho salmon from the west coast of Vancouver Island (WCVI) were the most difficult to discriminate when mixed with populations from other regions, whereas those from the east coast of Vancouver Island (ECVI) populations were accurately discriminated Some loci were particularly effective at discriminating populations from specific regions. For example, the two MHC exons were more powerful for identifying coastal Washington and Columbia River populations than were microsatellite loci. However, the combined microsatellite loci were more effective at identifying Vancouver Island coho salmon than were the MHC exons. Although the overall discriminatory ability of Ots101 was only moderate, it was particularly effective for discriminating Thompson River coho salmon (e.g., the average estimated composition of pure samples of Thompson River coho salmon was 98% using only this single locus in the 138-population baseline; Thompson and Upper Skeena River Identifications Since 1998, Canadian salmon fisheries have been conducted to minimize mortality of Thompson River and upper Skeena River coho salmon. Accurate estimates of these two stock components in mixed-fishery samples were thus essential for proper management. We were also interested in separating Thompson River from upper Fraser River populations, a stock of uncertain status that has genetic characteristics most similar to Thompson River populations Estimates of Regional Stock Composition We evaluated whether the genetic differentiation observed among the 138 coho salmon populations included in the baseline was sufficient for mixedstock analysis aimed at estimating regional contributions to fishery samples. Three fishery-mixture samples were simulated, and stock compositions were estimated for 16 regions. For stock contributions ranging from 0% to 20% of the mixture, the estimated bootstrap mean of a region was usually within 0.0-1.5% of the actual composition in the mixture For eight regional groups of coho salmon we evaluated the accuracy of estimated stock compositions in simulated mixtures, based on compositions of the target region ranging from 0-100% and only 6 of the 10 loci surveyed being used. Very little bias was observed when the region composed less than 40% of the mixture ( Identification of Specific Populations Accurate differentiation of mixture samples to specific populations was generally not possible because not all populations contributing to a fishery sample were included in the baseline. However, situations could occur in which all populations contributing to a fishery sample could be sampled. Such a case arose for the proposed ''mark-only'' fishery for coho salmon in southern British Columbia and Washington State in which hatchery fish, marked by a clipped adipose fin, may be retained but naturally spawned fish, identified by the presence of an adipose fin, must be released. We evaluated the accuracy of the estimated stock composition for each Canadian population by simulating mixtures for six southern British Columbia hatcheries for which population-specific estimates of stock composition are required. The baseline was substantially reduced to include only the six Canadian populations, but all populations from Washington were retained. Analysis of three simulated mixtures indicated that accurate hatcheryspecific estimates of stock composition could be obtained if applied to samples from mark-only fisheries Analysis of a Sample of Known Origin The superiority of using expected over observed genotypic frequencies for baseline samples was confirmed for the mixture sample containing fish identified by their CWTs. The sum of errors in estimated stock composition was always less when expected genotypic frequencies for all loci were used than when observed genotypic frequencies for some loci were used Analysis of Fishery Samples: Southern Baseline The estimated proportion of Thompson River coho salmon in mixed-stock samples was of key importance to Canadian fishery managers in 1998 and 1999. In 1998, we were unable to distinguish reliably between Thompson River and upper Fraser River using the loci surveyed in the mixedstock sample. Indeed, it was only after the introduction of DNA analysis to the mixed-stock samples that separation of the two closely related stock groups was considered of management importance. Therefore, upper Fraser and Thompson stock estimates were combined in the 1998 mixedfishery samples, but reported separately for the 1999 samples because of the change in the loci surveyed. Estimated stock compositions of Thompson River coho salmon were never above 2% in the Pacific Salmon Commission (PSC) seine test fishery conducted from late July to late August in Area 20 (Strait of Juan de Fuca) and rarely above 2% for the PSC gill-net test fishery conducted from early July through mid-August in a similar area Recreational fishery sampling in the Strait of Georgia (Areas 14-19) indicated that coho from Vancouver Island, the lower British Columbia mainland, the lower Fraser River, and Puget Sound predominated the catch in the summer, but October samples in Area 14 indicated that ECVI stock was predominant, composing 85% of the sample (Appendix 1). By October, coho salmon from other areas have probably moved from the Strait of Georgia and closer to their respective spawning grounds. The major contributor to fisheries in Canada's Area 20 in the Strait of Juan de Fuca was the Puget Sound stock, composing nearly 40% of the coho sampled in the seine and gill-net test fisheries (Appendix 1). However, the relative proportion of the Puget Sound stock in Canadian recreational fish-1130 BEACHAM ET AL. TABLE 7.-Percentage composition (SD) of a sample of coded-wire-tagged coho salmon obtained from fisheries in British Columbia in 1997 and estimated with three sets of loci for three groups of baseline populations. Because all fish in the sample were marked with coded wire tags, the actual composition of the sample is known. Set-1 loci include ␣1, ␣2, Ots2, Ots3, Ots101, and Ots103; set-2 loci include ␣1, ␣2, Oki1, Oki10, Oki100, and Oki101; set-3 loci include ␣1, ␣2, and all eight microsatellite loci. In state 1, the expected Hardy-Weinberg genotypic frequencies were used for all loci for the appropriate baseline populations. In state 2, observed genotypic frequencies for Oki100 and Ots103 were used. Analysis of Fishery Samples: Central Baseline A major interception fishery occurs in the Queen Charlotte Strait and Johnstone Strait (Areas 11-13; The troll fishery is the predominant fishery occurring off the west coast of Vancouver Island (Areas 124-127). The area and time of highest Thompson River proportion in the fishery samples was the first two weeks in August in the northern (Area 125-127) troll fishery, the Thompson stock estimated at 3% in the samples. Generally, the upper Skeena stock was estimated at negligible levels in the samples. Most of the fish sampled originated from Vancouver Island, the southern mainland, the lower Fraser River, and Puget Sound. Higher proportions of Canadian-origin coho salmon were sampled in this fishery compared with the more southerly fishery in the Strait of Juan de Fuca (Area 20) (Appendix 2). Off the west coast of Vancouver Island, about 70-80% of the sample was estimated to be of Canadian origin, compared with about 40-50% for samples from the Strait of Juan de Fuca. Analysis of Fishery Samples: Northern Baseline In northern fisheries, the upper Skeena stock was of greatest management concern. For fisheries adjacent to the Queen Charlotte Islands (Areas 1, 2W, and 2E), this stock was only detected in a late July troll fishery on the west coast of the Queen Charlottes (2W), and then was estimated to have composed 3% of the 99-fish sample (Appendix 3). However, in Area 3, this stock composed 15% of a 153-fish sample from a seine fishery in the last half of July 1998 and 8-25% of much smaller samples from gill-net fisheries in Areas 3 and 4 taken at the same time. The Thompson River stock was estimated to have contributed only negligible amounts to these fishery samples. There were clear differences in stock composition between fisheries on the east coast and west coast of the Queen Charlotte Islands. On the east coast (2E), samples from both the seine and gillnet fisheries from mid-September to mid-October 1998 indicated that coho salmon from the Queen Charlotte Islands predominated the fishery, composing about 70% of the samples from both fisheries (Appendix 3). However, on the west coast (2W), the Queen Charlotte Islands stock composed less than 20% of the fishery samples from late July and August 1998. The estimated contributions of Alaskan-origin coho salmon were highest in Canadian fishing areas closest to the northern border. Alaskan-origin coho salmon composed up to 20% of the sample from Area 3, and although only 21 fish were sampled in Area 1, nearly 20% of that sample was estimated to have been derived from Alaskan populations. In northern British Columbia, the northcentral coast stock was the predominant contributor to fisheries; coho salmon from Alaska, the lower Skeena River, WCVI, and NVI composed, at times, significant proportions of samples. Central coast fishery samples (Areas 6 and 7) were predominated by the northcentral coast stock, with Vancouver Island and southern mainland populations at times making significant contributions (Appendix 3). Analysis within Major Watersheds: Fraser River Baseline The key question in sampling fisheries within the Fraser River drainage related to the relative abundance of Thompson River coho salmon, particularly the migration timing of the stock through the lower Fraser River. Three years of sampling by a test fishery in the lower

“A General Separation of Colored and White”: the WWII riots, military segregation, and racism(s) beyond the White/Nonwhite binary

This article uses archival research to explore important differences in the discursive and institutional positioning of Mexican American and African American men during World War II. Through the focal point of the riots which erupted in Los Angeles and other major cities in the summer of 1943, I examine the ways in which black and Mexican ‘rioters’ were imagined in official and popular discourses. Though both groups of youth were often constructed as deviant and subversive, there were also divergences in the ways in which their supposed racial difference was discursively configured. I also consider the experiences of each group in the WWII military, a subject that has received little attention in previous work on the riots. Though both groups were subject to discrimination and brutality on the home front, only African Americans were segregated in the military - a fact that profoundly influenced the 1943 riots. Examining the very different conditions under which these men served, as well as the distinct ways in which their presence within the military and on the home front was interpreted and given meaning by press, law enforcement and military officials helps to illuminate the uneven and complex workings of racism in America, disrupting the common conceptualization of a definitive white/nonwhite color line

Genome-wide structural variant analysis identifies risk loci for non-Alzheimer’s dementias

We characterized the role of structural variants, a largely unexplored type of genetic variation, in two non-Alzheimer’s dementias, namely Lewy body dementia (LBD) and frontotemporal dementia (FTD)/amyotrophic lateral sclerosis (ALS). To do this, we applied an advanced structural variant calling pipeline (GATK-SV) to short-read whole-genome sequence data from 5,213 European-ancestry cases and 4,132 controls. We discovered, replicated, and validated a deletion in TPCN1 as a novel risk locus for LBD and detected the known structural variants at the C9orf72 and MAPT loci as associated with FTD/ALS. We also identified rare pathogenic structural variants in both LBD and FTD/ALS. Finally, we assembled a catalog of structural variants that can be mined for new insights into the pathogenesis of these understudied forms of dementia

Proceedings of the 13th annual conference of INEBRIA

CITATION: Watson, R., et al. 2016. Proceedings of the 13th annual conference of INEBRIA. Addiction Science & Clinical Practice, 11:13, doi:10.1186/s13722-016-0062-9.The original publication is available at https://ascpjournal.biomedcentral.comENGLISH SUMMARY : Meeting abstracts.https://ascpjournal.biomedcentral.com/articles/10.1186/s13722-016-0062-9Publisher's versio

31st Annual Meeting and Associated Programs of the Society for Immunotherapy of Cancer (SITC 2016) : part two

Background The immunological escape of tumors represents one of the main ob- stacles to the treatment of malignancies. The blockade of PD-1 or CTLA-4 receptors represented a milestone in the history of immunotherapy. However, immune checkpoint inhibitors seem to be effective in specific cohorts of patients. It has been proposed that their efficacy relies on the presence of an immunological response. Thus, we hypothesized that disruption of the PD-L1/PD-1 axis would synergize with our oncolytic vaccine platform PeptiCRAd. Methods We used murine B16OVA in vivo tumor models and flow cytometry analysis to investigate the immunological background. Results First, we found that high-burden B16OVA tumors were refractory to combination immunotherapy. However, with a more aggressive schedule, tumors with a lower burden were more susceptible to the combination of PeptiCRAd and PD-L1 blockade. The therapy signifi- cantly increased the median survival of mice (Fig. 7). Interestingly, the reduced growth of contralaterally injected B16F10 cells sug- gested the presence of a long lasting immunological memory also against non-targeted antigens. Concerning the functional state of tumor infiltrating lymphocytes (TILs), we found that all the immune therapies would enhance the percentage of activated (PD-1pos TIM- 3neg) T lymphocytes and reduce the amount of exhausted (PD-1pos TIM-3pos) cells compared to placebo. As expected, we found that PeptiCRAd monotherapy could increase the number of antigen spe- cific CD8+ T cells compared to other treatments. However, only the combination with PD-L1 blockade could significantly increase the ra- tio between activated and exhausted pentamer positive cells (p= 0.0058), suggesting that by disrupting the PD-1/PD-L1 axis we could decrease the amount of dysfunctional antigen specific T cells. We ob- served that the anatomical location deeply influenced the state of CD4+ and CD8+ T lymphocytes. In fact, TIM-3 expression was in- creased by 2 fold on TILs compared to splenic and lymphoid T cells. In the CD8+ compartment, the expression of PD-1 on the surface seemed to be restricted to the tumor micro-environment, while CD4 + T cells had a high expression of PD-1 also in lymphoid organs. Interestingly, we found that the levels of PD-1 were significantly higher on CD8+ T cells than on CD4+ T cells into the tumor micro- environment (p < 0.0001). Conclusions In conclusion, we demonstrated that the efficacy of immune check- point inhibitors might be strongly enhanced by their combination with cancer vaccines. PeptiCRAd was able to increase the number of antigen-specific T cells and PD-L1 blockade prevented their exhaus- tion, resulting in long-lasting immunological memory and increased median survival

Aging behavior of thermoplastic elastomers in the laser sintering process

It is known that polymers used in laser sintering (LS) change their intrinsic properties due to processing conditions that are close to the crystalline melting temperature. This paper evaluates the aging behavior of a thermoplastic polyurethane powder, comparing with to a commercially available LS elastomeric material (Duraform®Flex, 3D Systems). To represent a realistic production environment, the materials were aged during 14 processing cycles in the LS process without refreshing with virgin material. Following each aging cycle, both the powder and the sintered parts were examined for chemical and physical aging effects. The results showed that the materials observed could be used without refreshing throughout the 14 aging stages, however, changes in the processing behavior as well as in the parts' mechanical properties were evident. These changes were due to the differing aging states of the LS-powder showing an increase in the particle size affecting the bulk materials packing density. Modifications in the rheological properties can be seen in a decrease of molecular weight likely to reduce the mechanical strength of tensile specimens

An experimental study into the effects of bulk and flow behaviour of laser sintering polymer powders on resulting part properties

The properties of parts manufactured by laser sintering (LS) are, amongst others, influenced by the packing and flow efficiencies of the powders being processed. In particular, this study investigated the influence of the bulk and flow characteristics of two thermoplastic elastomers, present in three different particle size distributions (PSD), on the resulting part properties. The powder characteristics examined, were the packing and bulk density as well as the flow efficiency of the powder samples. The resulting part properties were evaluated in terms of their mechanical properties (tensile), surface quality and density. The results helped to validate the basic input from previous studies interconnecting the powder behaviour with the properties of sintered part's. The majority of the components with increased tensile properties were manufactured with powder fractions that showed enhanced bulk density and enriched flowability. The part's surface quality demonstrated a high dependence on the packing and the surface roughness of the raw powder bulk. A strong connection between the packing density of the powder bulk and the porosity of the sintered parts has been revealed for the observed polymers. In contrast to previous studies which have rarely taken into account the characteristics of the un-sintered powder and correlated them to the properties of components fabricated by LS, this work provided a novel approach describing the interconnection between the powder behaviour and the part properties