Local Response Research Articles

Multifunctional carboxymethyl chitosan/oxidized carboxymethyl cellulose hydrogel loaded with ginsenoside Rg1 and polydopamine nanoparticles for infected diabetic wound healing

Besides bacterial infection, diabetic wounds are often accompanied by local inflammatory response, oxidative stress imbalances, and vascular formation disorders, which are the main reasons for long-term non-healing of diabetic wounds. In order to solve this problem, Ch-OCMC-PDA NPs-Rg1 self-healing hydrogel was constructed by Schiff base reaction. With the addition of PDA NPs and Rg1, Ch-OCMC-PDA NPs-Rg1 hydrogel showed excellent physical properties, like compressive strength of 142 kPa, swelling ratio of 148.91 %, and Rg1 carried in the hydrogel could achieve a slow release of 90.59 % within 48 h. What's more, PDA NPs endowed it with highly efficient photothermal antibacterial properties. In addition to excellent biocompatibility, Ch-OCMC-PDA NPs-Rg1 hydrogel could effectively clear intracellular reactive oxygen species, promote macrophages M2 transformation, and facilitate human umbilical vein endothelial cells migration and tube formation. In vivo experiments exhibited that Ch-OCMC-PDA NPs-Rg1 hydrogel could reduce wound inflammation, stimulate early angiogenesis, promote collagen deposition, and shorten the healing process of diabetic infected wounds, and the wound healing rate was significantly increased compared with other groups, reaching 98.41 ± 0.31 %. In summary, the multi-functional dynamic Ch-OCMC-PDA NPs-Rg1 hydrogel provides a new possibility for the treatment of diabetic infection wounds.

The influence of professional oral hygiene on the indicators of local immunity

Professional oral hygiene is an important part of measures aimed at preventing and maintaining the patient’s health. Local immune response is the first barrier of immune protection capable of preventing infection diseases. The aim of the study - the influence of professional hygiene on the indicators of local immunity has been studied. The study involved two groups of patients: the first group included 19 individuals with chronic caries of varying depths (class I), and the second group comprised 15 individuals with moderate periodontal disease. To evaluate nonspecific oral protection, the index of natural colonization of the buccal epithelium and the activity of microbial adsorption by oral mucosal cells were assessed. Specific immunity was evaluated by measuring the concentration of immunoglobulins in unstimulated saliva. All indicators were recorded both before and after professional oral hygiene procedures. When studying the index of natural colonization of the buccal epithelium, it was found that professional cleaning in both groups led to normalization of the spectrum of bacteria adhered to the epithelium: there was a decrease in the amount of gram-negative microflora, atypical for this biotope, while maintaining a high adhesion index of gram-positive cocci. In persons with caries, before sanation, “unsatisfactory” resistance of oral mucosa was revealed in a third of the examined, after sanation, the number of such patients decreased by 3 times, with “satisfactory” resistance increased by 2 times. In the group with periodontal disease, all patients exhibited “unsatisfactory” mucosal resistance before the hygiene procedures. After sanitation, 20 % “unsatisfactory” resistance persisted. In the majority of patients (80 %), the resistance of the oral mucosa improved to “satisfactory”. The concentration of all classes of immunoglobulins in both groups before sanitation was significantly below the norm, after the measures taken, the indicators increased significantly and reached the level typical for healthy individuals. Carrying out professional cleaning of the teeth leads to the normalization of local immune status even without additional medical immunocorrection.

Selling Spectacular Spaces: Hybridized Sport and Space in the Imagination of Enclaved Residential Living in India

This article explores the (dis)connections between urban housing development, (post)colonial legacies and expressions of space, and how ideas of sport and leisure are mobilized in the imagination of gated residential living in Gurgaon, India. Focused on the building of large-scale enclaved development built around golf and polo brands and identities, I challenge common analyses of gated residential complexes as examples of the imposition of neoliberal urban development agendas, or as a manifestation of new forms of architectural colonialism. Utilizing Homi Bhabha’s theorization of hybridity, I show how constructing a hierarchical, sport-based, all-encompassing mini-city is reflective of a localized response to middle-class perceptions of the failure of the state to control and develop the city, that also architecturally references urban mega projects unfolding across Asia. In addition, reflecting on the selective referencing of polo and golf brands/identities in both their past (colonial) and contemporary expressions, I argue sport is mobilized to create new forms of urban living attached with new meanings for consumers. Considered together, I assert the lens of hybridity destabilizes understandings of both sport and gated communities as (neo)colonial and neoliberal by-products by illustrating how these institutions are taken up and remade through colonial and postcolonial transmissions.

In situ assessment of neuroinflammatory cytokines in different stages of ovine natural prion disease.

According to the neuroinflammatory hypothesis, a cytokine-mediated host innate immune response may be involved in the mechanisms that contribute to the process of neurodegeneration. Specifically, regarding prion diseases, some experimental murine models have evidenced an altered profile of inflammatory intermediaries. However, the local inflammatory response has rarely been assessed, and never in tissues from different natural models throughout the progression of neurodegeneration. The aim of this study was to use immunohistochemistry (IHC) to in situ assess the temporal protein expression of several cytokines in the cerebellum of sheep suffering from various clinical stages of scrapie. Clear changes in the expression of most of the assessed markers were observed in the affected sheep compared to the healthy control sheep, and from different stages. In summary, this preliminary IHC study focusing in the Purkinje cell layer changes demonstrate that all cytokines or respective receptors studied (IL-1, IL-1R, IL-2R, IL-6, IL-10R, and TNFαR) except for IFNγR are disease-associated signaling proteins showing an increase or decrease in relation to the progression of clinical disease. In the future, this study will be extended to other inflammatory mediators and brain regions, focusing in particular on the release of these inflammatory mediators by astroglial and microglial populations.

In Situ Expression of TNF-α and IL-10 in Human Dermatophytosis Lesions due to Trichophyton rubrum.

Dermatophytosis is a very common superficial mycosis, but there are few studies about the human immune response to dermatophytes. We aim to analyze the in situ expression of TNF-α and IL-10 in human dermatophytosis. Expression of TNF-α and IL-10 were evaluated in skin samples from 10 patients with dermatophytosis and 12 healthy subjects using an immunohistochemistry assay. TNF-α and IL-10 were significantly elevated in lesions from patients with dermatophytosis compared to healthy controls. These data illustrate the balance of pro- and anti-inflammatory cytokines suggesting Trichophyton rubrum infection could control the local immune response.

Peculiarities of the regional hemodynamics in patients with mono- and bilateral herpes simplex virus stromal keratitis

Background. Herpes simplex virus keratitis (HSVK) is the main cause of blindness in the world resulted from corneal pathology. The blood circulation system of the eye plays an important role in the effective implementation of the immune response. The purpose of the study: to determine the influence of the factor of laterality of the stromal HSVK on the ocular hemodynamics and the frequency of complications. Material and methods. Primary stromal HSVK (was registered for the first time and lasted no more than 3 months) was diagnosed in 32 people (35 eyes), 205 patients (226 eyes) had recurrent stromal HSVK. Among these patients, stromal HSVK was detected both in one eye — unilateral, and in two eyes — bilateral. Complications of stromal HSVK includes: the presence of a transparent graft — in 23 eyes and its opacity — in 10 eyes, secondary glaucoma — in 6 eyes, condition after corneal ulcer — in 16 eyes. The average age of the patients (M ± SD) is 42.2 ± 15.0 years. The control group consisted of 16 healthy volunteers (32 eyes) of similar age. The standard technique of rheoophthalmogram on the ReoCom computer rheograph (Kharkiv, Ukraine) was used. The following indicators were analyzed: rheographic quotient (RQ, ‰) (pulse volumetric blood filling); α1/T (%) — the tone of the large vessels of the eye; velocity of blood filling V (Ohm/s). Results. Patients with stromal HSVK had mainly monolateral eye lesion — 89.8 %, and bilateral lesion was present in 10.2 % of cases. There were no significant differences in the frequency of laterality between primary and recurrent stromal HSVK. In case of recurrence of complicated unilateral and bilateral stromal HSVK, the volumetric pulse blood filling was 17.6 and 30.3 % lower, respectively, than in uncomplicated course, which determines the insufficiency of blood supply to the eye. The rate of blood filling in complicated stromal HSVK was lower than in uncomplicated one by 23 %. At the recurrence of bilateral stromal HSVK, the RQ was higher by 26.4 %, and the rate of blood filling was higher by 36.3 % compared to unilateral one. There were no differences in remission. The tone of the large vessels of the eye with bilateral stromal HSVK is 14 % lower than with unilateral course. Conclusions. In case of recurrent stromal HSVK, the volume pulse blood filling of the eye and its velocity are higher, and the vascular tone is lower than in case of unilateral one, both uncomplicated and complicated. It is assumed that such a significant activation of the ocular hemodynamics is compensatory and contributes to a greater local immune response and improvement of trophism.

Dynamics of RNA localization to nuclear speckles are connected to splicing efficiency.

Nuclear speckles are nuclear membraneless organelles in higher eukaryotic cells playing a vital role in gene expression. Using an in situ reverse transcription-based sequencing method, we study nuclear speckle-associated human transcripts. Our data indicate the existence of three gene groups whose transcripts demonstrate different speckle localization properties: stably enriched in nuclear speckles, transiently enriched in speckles at the pre-messenger RNA stage, and not enriched. We find that stably enriched transcripts contain inefficiently excised introns and that disruption of nuclear speckles specifically affects splicing of speckle-enriched transcripts. We further reveal RNA sequence features contributing to transcript speckle localization, indicating a tight interplay between transcript speckle enrichment, genome organization, and splicing efficiency. Collectively, our data highlight a role of nuclear speckles in both co- and posttranscriptional splicing regulation. Last, we show that genes with stably enriched transcripts are over-represented among genes with heat shock-up-regulated intron retention, hinting at a connection between speckle localization and cellular stress response.

Cardiac Surgery-Associated Acute Kidney Injury in Cardiopulmonary Bypass: A Focus on Sex Differences and Preventive Strategies.

Cardiac surgery-associated acute kidney injury (CSA-AKI) is a high-risk complication with well-recognized increased morbidity and mortality after cardiac surgery attributable in large part to cardiopulmonary bypass (CPB) associated factors contributing to AKI including hemodilution, hypothermia, hypotension and exposure to artificial surfaces. These conditions disrupt the renal microcirculation and activate local and systemic inflammatory responses to non-pulsatile flow, and low perfusion pressure. The underlying mechanisms of CSA-AKI in CPB are not fully understood, and the incidence of CSA-AKI remains high at around 30%. Furthermore, women appear to be more vulnerable than men to the renal injury associated with CPB even though the overall incidence of cardiovascular and kidney diseases is lower in premenopausal women. Nevertheless, estrogen elicits renoprotective effects in several ways including mitigating inflammation, promoting natriuresis and endothelial protection as shown in preclinical studies. However, women have higher rates of CSA-AKI and these are exacerbated in postmenopausal women. This leads to the conundrum of whether sex, age, and hormonal status differences influence CSA-AKI. In this review, we briefly discuss the pathophysiology of CSA-AKI in CPB, and sex differences in kidney functions with a focus on the possible role of estrogen-specific effects in CPB and also possible differences in CPB in women including greater hemodilution. Further, we review strategies to prevent CSA-AKI in CPB with a highlight for potential sex-specific strategies. Improving our understanding of the impact of sex and sex hormones on CSA-AKI initiation and development will allow us to better manage the CPB strategies delivered to all patients.

“Tweet of the town”: Synthesizing Local and Social Media Discourse on Book Bans

This project explores the intersection of local and online discourse around book bannings. I use the McMinn County School Board’s decision in 2022 to remove Art Spiegelman’s graphic memoir, Maus, as a case study for this discourse. Through a combination of interviews with McMinn County residents and data collected from Twitter, I argue that social media has altered local community discourse and responses to book bannings. Interviews with local residents asked them to discuss their experiences when Maus was removed by the school board and to reflect on how the local community responded amidst worldwide scrutiny once the event reached digital spaces via social media. Online discourse on Twitter involved collecting tweets mentioning the McMinn County Schools Twitter account along with tweets discussing Maus to understand the broader online response to the board’s decision. I use Danielle Allen’s discourse flow model as the theoretical framework for this project and in my initial findings, discourse around the Maus ban has traveled as described by Allen. In the age of social media, discourse frequently begins at the local level before traveling online and then back into local spaces. Ongoing data analysis has shown that locally, residents were concerned with not only the board’s decision, but also the perception of their community once news of the banning spread. This is supported by online discourse on Twitter, where initial analysis shows frequent characterization of the McMinn County community in a negative light based on the school board’s actions.

Combination treatment with telitacicept, mycophenolate mofetil and glucocorticoids for immunoglobulin A nephropathy: A case report

BACKGROUND Telitacicept reduces B cell activation and abnormal immunoglobulin A (IgA) antibody production by inhibiting the activity of B lymphocyte stimulator (BLyS) and a proliferation-inducing ligand (APRIL), thereby decreasing IgA deposition in the glomeruli and local inflammatory response. This ultimately protects the kidneys from damage. This mechanism suggests that Telitacicept has potential efficacy in the treatment of IgA nephropathy. CASE SUMMARY We present the case of a 24-year-old female who was diagnosed with IgA nephropathy due to significant proteinuria and mild renal impairment. Pathologically, she exhibited focal proliferative glomerulonephritis. Treatment with angiotensin II receptor blocker, hormones, and mycophenolate mofetil did not lead to a significant improvement in her condition. However, upon the addition of telitacicept, the patient’s renal function recovered and her proteinuria rapidly reduced. Hormones were swiftly tapered and discontinued, with no occurrence of severe infections or related complications. CONCLUSION Telitacicept combined with hormones and mycophenolate mofetil may be a safe and effective induction therapy for IgA nephropathy.

MicroRNA Expression in Chronic Venous Leg Ulcers and Implications for Wound Healing: A Scoping Review.

Purpose: Chronic venous leg ulcers (CVLUs) comprise the majority of lower-extremity wounds, yet their pathophysiology is not fully understood. While research has shown that microRNAs are an important component of wound inflammation, few have explored the role of microRNAs (miRNAs) in the healing of CVLUs. This scoping review examines miRNAs in CVLUs and the association with wound healing. Methods: In December 2023, we searched MEDLINE/PubMed, Embase, Scopus, and CINAHL for studies published in 2013-2023 examining miRNAs in CVLU healing. Results: Six studies met inclusion criteria. MicroRNAs were extracted from various specimens including serum, skin biopsy samples, and adipose tissue-derived mesenchymal cells from individuals with CVLUs. Overexpression of miR-221, miR-222, miR-92a, and miR-301a-3p hindered angiogenesis, while overexpression of miR-296, miR-126, miR-378, and miR-210 facilitated angiogenesis. Overexpression of miR-34a/c, miR-301a-3p, miR-450-5p, miR-424-5p, miR-516-5p, and miR-7704 increased local inflammatory responses and inhibited keratinocytes proliferation, impairing healing, while overexpression of miR-19a/b and miR-20 downregulated keratinocytes' inflammatory response, promoting healing. Downregulation of miR-205, miR-96-5p, and miR-218-5p enhanced cellular proliferation and promoted wound healing. Downregulation of miR-17-92 was linked with impaired healing. Discussion: MicroRNAs play a role in regulating angiogenesis, inflammatory responses, and cell migration in chronic-wound healing. However, studies of miRNAs in CVLUs are limited and lack a standardized approach to measurement and quantification. Further research is warranted to elucidate the mechanisms underlying microRNA involvement in CVLU healing to better understand the pathophysiology and for the future development of targeted therapies.

Experimental and Numerical Integrated Strategy for the Optimization of Microfluidic Parameters for Eudragit L100 Nanoparticles and Microparticles.

Oral immunization offers a minimally invasive administration, inducing local and systemic immune responses and facilitating mass immunization without needle-related risks. However, the gastrointestinal environment poses challenges, compromising vaccine effectiveness through enzymatic degradation and poor absorption by Peyer's patches. Advances in nanoparticle and microparticle (NP/MP) technology protect vaccines from degradation and enhance targeted release. The aim of this study was to develop pH-controlled polymeric carriers for the oral delivery of protein vaccines in order to target the antigen-presenting cells and M cells in the region of Peyer's patches. Here, myoglobin was chosen as a model protein vaccine. This study focuses on Eudragit L100, a pH-responsive polymer stable in acidic conditions and dissolving at higher pH, to develop carriers for controlled myoglobin release in the intestinal tract. A microfluidic-based manufacturing process for Eudragit L100 NPs and MPs is optimized using a comprehensive experimental and computational approach to obtain NPs and MPs through the same setup. Integrating in silico and experimental methods highlights the potential of numerical simulations to streamline final product development. This approach improves the efficiency and cost-effectiveness of NP/MP production, demonstrating how the combination of design of experiment and numerical simulations can optimize production parameters and refine manufacturing processes for advanced drug delivery systems.

Association of PD-L1 immunoexpression with tumor grade in colorectal adenocarcinoma

Globally, colorectal cancer (CRC) is the primary cause of cancer-related deaths, and in emerging countries, its prevalence is continuously increasing. With all the advancements in surgery and treatment, the outlook for CRC patients is still not good. Even with the use of standard prognostic markers, there are presently no effective prognostic techniques for colorectal cancer. The long-term survival of many malignancies has been significantly enhanced by immune checkpoint blockades (ICB), suggesting that the immune checkpoint mechanism is crucial in inhibiting tumor-specific immune responses in the tumor microenvironment. By inhibiting T effector cell activity, the "PD-1 (programmed cell death-1)"/PD-L1 (programmed cell death-ligand 1) axis contributes significantly to immune suppression control and allows tumor cells to evade the host's anti-tumor immune surveillance. While early study suggested that immunotherapy was not relevant for patients with colorectal cancer, more recent studies have demonstrated that immunotherapy was beneficial for a certain subset of patients. This suggests that the prognosis prediction of colorectal cancer may benefit from a thorough evaluation of the local immune response. This study set out to assess the association between PD-L1 immunoexpression and tumor grade in CRC. : This was a cross-sectional observational study. Paraffin blocks of total 64 cases were selected from the patients who were diagnosed as adenocarcinoma from resected samples received in the department of pathology at BSMMU from July 2021 to June 2023. Immuno-histochemical staining for PD-L1 was performed using 28-8 clone along with appropriate positive control. In this study, PD-L1 immuno-expression was found in 14(21.9%) out of 64 cases. However, no expression was found in rest of the 50 (78.1%) cases. This study showed association of PD-L1 expression with high grade (Grade-3) tumors. : Evaluation of expression of PD-L1 may emerge as a new marker and target for the immunotherapy of colorectal cancer.

Hyperspectral Analysis of Silicon Nanowires Manufactured Through Metal-Assisted Chemical Etching

Abstract This study used hyperspectral imaging to analyze localized near-field interactions between incident electromagnetic waves and silicon nanowire (SiNW) arrays manufactured through catalytic etching of Si wafers for different durations. The results revealed that the unetched upper surface area on Si wafers and reflection of incident light decreased with increasing etching time. A light reflection band peaking at approximately 880 nm was generated from arrays etched for more than 1 h. We used six separate hyperspectral images to analyze the wavelength-dependent spatial optical responses of the fabricated SiNW arrays. The images revealed hot spots of light reflection from unetched Si surfaces in the wavelength range of 470–750 nm and a resonant peak at 880 nm for a photonic crystal derived from a random SiNW array. Accordingly, hyperspectral imaging enables the assessment of localized optical responses of SiNW arrays, which can then be optimized to cater to various applications.

Programmable heterogeneous lamellar lattice architecture for dual mechanical protection

Shear bands frequently appear in lattice architectures subjected to compression, leading to an unstable stress-strain curve and global deformation. This deformation mechanism reduces their energy absorption and loading-bearing capacity and causes the architectures to prioritize mechanical protection of external components at the expense of the entire structure. Here, we leverage the design freedom offered by additive manufacturing and the geometrical relation of dual-phase nanolamellar crystals to fabricate heterogeneous lamellar lattice architectures consisting of body-centered cubic (BCC) and face-centered cubic (FCC) unit cells in alternating lamella. The lamellar lattice demonstrates more than 10 and 9 times higher specific energy absorption and energy absorption efficiency, respectively, compared to the BCC lattice. The drastic improvement arises as the nucleation of shear bands is inhibited by the discrete energy threshold for plastic buckling of adjacent heterogeneous lattice lamella during loading. Despite its lower density than the FCC lattice, the lamellar lattice exhibits significant enhancement in plateau stress and crushing force efficiency, attributed to the strengthening effect induced by simultaneous deformation of unit cells in the BCC lattice lamella and the resulting cushion shielding effect. The design improves the global mechanical properties, making lamellar lattices compare favorably against numerous materials proposed for mechanical protection. Additionally, it provides opportunities to program the local mechanical response, achieving programmable internal protection alongside overall external protection. This work provides a different route to design lattice architecture by combining internal and external dual mechanical protection, enabling a generation of multiple mechanical protectors in aerospace, automotive, and transportation fields.

A geometry projection method for designing and optimizing additively manufactured variable-stiffness composite laminates

A method for designing laminates is presented using geometry projection to optimize the layout of additively manufactured variable-stiffness composite laminates. By considering fiberreinforced bars as geometric primitives, the geometry projection methodology is extended to include optimizing regions with intersecting load paths. This is achieved by utilizing a dual representation of bars, which considers the geometric parameters and the element-wise density field representation. The dual representation enables the combining and overlapping of bars, resulting in a localized orthotropic material response at overlapping regions that mitigates the transverse compliant response of fiberreinforced components. The proposed method’s effectiveness is demonstrated through minimizing the compliance of the Messerschmitt-Bölkow-Blohm beam problem, a well-known benchmark problem in topology optimization.

Estimating ground motion intensities using simulation-based estimates of local crustal seismic response

Abstract. It is estimated that 2 billion people will move to cities in the next 30 years, many of which possess high seismic risk, underscoring the importance of reliable hazard assessments. Current ground motion models for these assessments typically rely on an extensive catalogue of events to derive empirical ground motion prediction equations (GMPEs), which are often unavailable in developing countries. Considering the challenge, we choose an alternative method utilizing physics-based (PB) ground motion simulations and develop a simplified decomposition of ground motion estimation by considering regional attenuation (Δ) and local site amplification (A), thereby exploring how much of the observed variability can be explained solely by wave propagation effects. We deterministically evaluate these parameters in a virtual city named Tomorrowville, located in a 3D-layered crustal velocity model containing sedimentary basins, using randomly oriented extended sources. Using these physics-based empirical parameters (Δ and A), we evaluate the intensities, particularly peak ground acceleration (PGA), of hypothetical future earthquakes. The results suggest that the estimation of PGA using the deterministic Δ−A decomposition exhibits a robust spatial correlation with the PGA obtained from simulations within Tomorrowville. This method exposes an order-of-magnitude spatial variability in PGA within Tomorrowville, primarily associated with the near-surface geology and largely independent of the seismic source. In conclusion, advances in PB simulations and improved crustal structure determination offer the potential to overcome the limitations of earthquake data availability to some extent, enabling prompt evaluation of ground motion intensities.

Local Inflammatory and Systemic Antibody Responses Initiated by a First Intradermal Administration of Autogenous Salmonella-Killed Vaccines and Their Components in Pullets

Vaccination strategies are used to manage Salmonella in chickens. Salmonella-killed vaccines are considered safer since they are inactivated. However, little is known regarding the cellular immune activities at the site of vaccine administration of Salmonella-killed vaccines. The growing feather (GF) cutaneous test has been shown to be an effective bioassay to monitor local tissue/cellular responses. We assessed local and systemic antibody responses initiated by intradermal injection of Salmonella-killed vaccines into GF-pulps of 14–15-week-old pullets. Treatments consisted of two autogenous Salmonella-killed vaccines (SV1 and SV2), S. Enteritidis (SE) lipopolysaccharide (SE-LPS), and the water-oil-water (WOW) emulsion vehicle. GF-pulps were collected before (0 h) and at 6, 24, 48, and 72 h post-GF-pulp injection for leukocyte population analysis, while heparinized blood samples were collected before (0 d) and at 3, 5, 7, 10, 14, 21, and 28 d after GF-pulp injections to assess plasma levels (a.u.) of SE-specific IgM, avian IgY (IgG), and IgA antibodies using an ELISA. Injection of GF-pulps with SV1, SV2, or SE-LPS, all in a WOW vehicle, initiated inflammatory responses characterized by the recruitment of heterophils, monocytes/macrophages, and a few lymphocytes. The WOW vehicle emulsion alone recruited more lymphocytes than vaccines or SE-LPS. The SV1 and SV2 vaccines stimulated Salmonella-specific IgM and IgA early, while IgG levels were greatly elevated later during the primary response. Overall, SV1 and SV2 stimulated a heterophil and macrophage-dominated local inflammatory- and SE-specific humoral response with an isotype switch from IgM to IgG, characteristic of a T-dependent primary antibody response. This study provides comprehensive information on innate and adaptive immune responses to autogenous Salmonella-killed vaccines and their components that will find application in the management of Salmonella in poultry.

Imaging the translocator protein 18 kDa within cognitive control and declarative memory circuits in virally-suppressed people with HIV.

Virally-suppressed people with HIV (VS-PWH) show heterogeneity in patterns of cognitive dysfunction. To better understand the relationship between the neuroimmune response and cognition, we used positron emission tomography (PET) to image the translocator protein 18 kDa (TSPO). The study examined HIV-serostatus differences in TSPO as well as associations between regional TSPO and select cognitive processes defined using the Research Domain Criteria (RDoC) framework. Cross-sectional investigation in VS-PWH (n = 25) versus HIV-uninfected individuals (n = 18) of cognitive control and declarative memory, as well as [11C]DPA-713 PET measures of TSPO within cognitive control and declarative memory regions of interest. Group differences in [11C]DPA-713 binding (VT) in cognitive control or declarative memory regions were examined using linear mixed models. Tests of associations between factor-derived cognitive system measures and PET measures were performed, controlling for TSPO genotype. There were no group differences in any of the four factor-derived cognitive system measures. VS-PWH had higher log [11C]DPA-713 VT across cognitive control regions(unstandardized beta coefficient reflecting mean difference [B] = 0.23, SE = 0.11, 95% confidence interval [CI] 0.01, 0.45, P = 0.04) and declarative memory regions (B = 0.24, SE = 0.11, 95%CI 0.02, 0.45, P = 0.03). Higher log [11C]DPA-713 VT in cognitive control regions related to poorer cognitive control in each group, and to worse self-reported cognitive performance in VS-PWH. Log [11C]DPA-713 VT in each declarative memory region did not associate with measured declarative memory. A localized neuroimmune response marked by high TSPO in brain regions that subserve cognitive control may contribute to poorer cognitive control in VS-PWH.

Experimental and Theoretical Study on Local Damage of Reinforced Concrete Column under Rectangular Charge

During an explosion, a building’s stability is directly impacted by reinforced concrete (RC) columns. However, there is currently no theoretical analysis model that can precisely predict damage to RC columns after close-in/contact explosions. In the present study, the local damage response of RC columns under a rectangular charge was experimentally and numerically investigated, and a theoretical analysis model for predicting local damage after a contact explosion was developed. The experimental results verify the effects of concrete strength, standoff distance, transverse reinforcement spacing, and axial load on damage to RC columns. When the standoff is 100 mm, increasing the axial load can effectively reduce the damage to the center of the column surface. Numerical simulations were carried out to study the effect of different parameters on concrete damage, showing that the damage span of reinforced concrete increases with increased stirrup distance; however, when the stirrup distance decreases to 70 mm, the distance between the stirrups and the explosives is too close to limit the damage. The prediction model innovatively considers the attenuation of steel cross-section transmission and the characteristics of rectangular charges. Compared with traditional semi-empirical calculation models, it can accurately calculate local damage caused by contact explosions on reinforced concrete columns.