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Search Results (287)

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Keywords = disrupted attachment

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10 pages, 4393 KB  
Brief Report
Host–Parasite Interaction: A Rostral Spike-like Structure in the Infective Stage of Salmon Lice (Lepeophtheirus salmonis) and Its Putative Role in Sensing and Initial Attachment to the Host
by Amritha Johny
Parasitologia 2026, 6(4), 38; https://doi.org/10.3390/parasitologia6040038 - 8 Jul 2026
Viewed by 75
Abstract
Lepeophtheirus salmonis (Krøyer, 1837) represents a major biological challenge in Atlantic salmon aquaculture. Despite extensive research on salmon lice biology, host interaction, and immunomodulation, the mechanisms underlying early host recognition and attachment remain poorly understood. Microscopic examination of the infective stage revealed a [...] Read more.
Lepeophtheirus salmonis (Krøyer, 1837) represents a major biological challenge in Atlantic salmon aquaculture. Despite extensive research on salmon lice biology, host interaction, and immunomodulation, the mechanisms underlying early host recognition and attachment remain poorly understood. Microscopic examination of the infective stage revealed a previously undescribed spike-like structure in the anterior rostral region of the copepodids. The structure appeared flexible, moved synchronously with body movements, and was present prior to exposure to host tissues or detectable host contact. Behavioral observations further revealed that copepodids actively probe salmon skin explants and fins with their anterior appendages before initial attachment, often followed by prolonged immobility. Scanning electron microscopy suggested that the structure may exist in both protruded and retracted forms and revealed a crevice- or pore-like feature at its proximal end. It is hypothesized that this structure may contribute to early host interrogation through localized sensing and the initial attachment process. These findings highlight a component of early host–parasite interactions and may contribute to future strategies to disrupt host recognition mechanisms in salmon lice. Full article
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13 pages, 242 KB  
Article
Bordered Imaginations: The Politics of Crafting and Reading Southern African Writers’ Literary Texts in Transnational Spaces
by Muchativugwa Liberty Hove
Genealogy 2026, 10(3), 74; https://doi.org/10.3390/genealogy10030074 - 25 Jun 2026
Viewed by 246
Abstract
Neither women’s studies nor lesbian and gay studies offers an adequate theoretical or political base for disruptive scholarship. Reading and interpreting Southern African writers, especially Sindiwe Magona and Ngugi wa Thiong’o, promotes women’s studies as an academic and political approach to both gender [...] Read more.
Neither women’s studies nor lesbian and gay studies offers an adequate theoretical or political base for disruptive scholarship. Reading and interpreting Southern African writers, especially Sindiwe Magona and Ngugi wa Thiong’o, promotes women’s studies as an academic and political approach to both gender and the erotic. Drawing on genealogies of rupture and intergenerational studies, we argue that the feminist is a positionality that must be widely available to challenge heterosexual perspectives and become a catalyst for audiences to engage in nuanced analyses of discourses on places and genres—narrative in particular—where memories are rearticulated and elaborated. This article explores how the narratives of Magona, Ngugi, and Soyinka inform and complicate the erasure, erosion, and amnesia that accompany contemporary imaginaries of what is re/membered. We challenge the tendency to evaluate African feminisms as only either oppressive or empowering and read the selected texts and their prototypical characters as dynamic embodiments that inform gendered spaces across both the attachments that people hold to particular gender identities and styles and recognising the punitive realities of dominant gender expectations. The article takes a positionality on the often troubled relationship between feminism and femininity, a critical but generous reading that highlights the potential for an affirmative orientation towards identity politics. This study utilises the theoretical lenses of border thinking and decolonial and African feminisms to interrogate matrifocal borderlands and the sociohistorical and cultural dis/continuities of being and becoming. We explore notions of the entanglement of motherhood, daughterhood, wifehood, and sisterhood as morphing identities. These are identities at the margins of political, sociocultural, and gender normativities in African literature. Magona’s “threshold people”, like Ngugi’s perfect nine, destabilise, disrupt, and refuse to be subordinated as they codify living differently in the in-between worlds. Magona, for instance, laminates the challenging discourse of contestation to map difficult, dangerous, and marginal spaces where women live at the borders of sociocultural, religious, ethnic, and gendered norms. These are spaces suffused with affective possibilities—defensiveness, shame, anxiety, anger, curiosity—and the women have to develop relational solidarities in negotiating hyper-visibilities or (in)visibilities within the 21st-century global south. Full article
36 pages, 7887 KB  
Review
Microplastics in Agroecosystems: Pathways, Plant Uptake Mechanisms, and Advanced Scanning Techniques for Detection in Plant Tissues
by Umair Sarfraz, Shazia Alam, Yinsen Qian, Quan Ma, Min Zhu, Jinfeng Ding, Chunyan Li, Wenshan Guo and Xinkai Zhu
Microplastics 2026, 5(2), 120; https://doi.org/10.3390/microplastics5020120 - 11 Jun 2026
Viewed by 283
Abstract
The sustainability, crop production, and food safety of agriculture are increasingly challenged by microplastic pollution, as agricultural soils are the largest reservoirs and may serve as points of contact for plastic particles in the food chain. This review provides a comprehensive overview of [...] Read more.
The sustainability, crop production, and food safety of agriculture are increasingly challenged by microplastic pollution, as agricultural soils are the largest reservoirs and may serve as points of contact for plastic particles in the food chain. This review provides a comprehensive overview of plant materials, fate and uptake pathways, detection techniques, and the possible risks of microplastics in agriculture. Agroecosystems are also a source of microplastics, such as plastic mulch films, sewage sludge, compost and manure additives, wastewater irrigation, polymer-coated fertilizers, greenhouse materials, atmospheric deposition, and decomposition of discarded agricultural plastics. Their distribution and mobility in soil are controlled by polymer composition, particle size, morphology, density, surface ageing, soil texture, organic matter content, tillage practices, runoff, leaching, and soil biota. Recent data show that microplastics, especially smaller microplastics and nanoplastics, can attach to root surfaces, penetrate plants via cracks in roots, areas of lateral root development, and apoplastic pathways, and eventually move to tissues aboveground. Plant tissue detection is often accomplished by digestion of the sample, density separation, visual and fluorescence microscopy, Fourier-transform infrared spectroscopy, Raman spectroscopy, pyrolysis–gas chromatography mass spectrometry, and electron microscopy, but standardization of these methods remains a significant challenge. Microplastics can disrupt seed germination, root structure, nutrient absorption, photosynthesis, oxidative homeostasis, biomass buildup, yield development, and quality. Further, their capacity to transport additives, plasticizers, heavy metals, and persistent organic pollutants raises concerns about the transfer of contaminants to edible plant parts and their potential transfer to human diets. Further studies are needed focusing on field-realistic exposure conditions, long-term crop–soil interactions, nanoplastics behaviour, standardised analysis procedures, uptake and translocation pathways, edible crop risk assessments, and sustainable mitigation approaches to reduce microplastics in agroecosystems. Full article
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32 pages, 1965 KB  
Review
Venous Nanoflap Oscillations: Biomechanical Determinants and Hydrodynamic Consequences in the Deep Cerebral Venous System
by Raluca Florentina Tulin, Stefan Oprea, Mihaly Enyedi, Adrian Vasile Dumitru and Dan Dumitrescu
Int. J. Mol. Sci. 2026, 27(12), 5202; https://doi.org/10.3390/ijms27125202 - 9 Jun 2026
Viewed by 255
Abstract
The most recent research has demonstrated that oscillatory nano-structures found on the lumenal walls of deep cerebral veins likely contribute significantly to the regulation of the function of deep cerebral veins. The oscillatory nano-structures consist of very small, intricately organized “nanoflaps,” each consisting [...] Read more.
The most recent research has demonstrated that oscillatory nano-structures found on the lumenal walls of deep cerebral veins likely contribute significantly to the regulation of the function of deep cerebral veins. The oscillatory nano-structures consist of very small, intricately organized “nanoflaps,” each consisting of a hinge element with an attached lipid bilayer architecture. These nanoflaps have distinct mechanical properties, are in close proximity to mechanically sensitive protein assemblies, and therefore it is hypothesized that the nanoflaps generate rhythmic oscillations that control the distribution of both pressure and fluid flow through the veins and also regulate the metabolic condition of the surrounding tissue. In addition, the behavior of the nanoflaps indicate that there exists a hitherto unappreciated level of venous biomechanics at the nanometer scale that regulates the hydraulic stability of the veins and may also contribute to the structural integrity of the surrounding tissues. The purpose of this review is to provide a theoretical framework for understanding the recent discoveries of the structure, oscillation and hydrodynamic effects of nanoflaps, including resonance drift, waveform irregularity, and multi-scale biomechanical interactions. Additionally, this review will present the idea that disruption of the normal oscillatory processes that occur in the nanoflaps may lead to the development of abnormal micro-environments in the early stages of neurodegenerative diseases, abnormalities of compliance, dysautonomic states, traumatic injury and micro-circulatory stress. Finally, this review will describe several pharmacological strategies that may be used to stabilize the oscillations generated by the nanometer-scale oscillatory nano-structure by modifying the torque applied to the hinge, the viscoelasticity of the membrane and the feedback pathways for mechanotransduction. Full article
(This article belongs to the Special Issue Mechanobiology of the Cell)
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28 pages, 1044 KB  
Review
Environmental Biofilms in Livestock Production Systems: Reservoirs of Pathogens and Antimicrobial Resistance
by Alexandra Ban-Cucerzan, Adriana Morar and Kálmán Imre
Life 2026, 16(6), 888; https://doi.org/10.3390/life16060888 - 25 May 2026
Viewed by 828
Abstract
Environmental biofilms are persistent structural components of livestock production systems and represent under-recognized drivers of pathogen persistence and antimicrobial resistance (AMR). This review examines the engineering, ecological, and operational factors that promote biofilm formation in dairy, poultry, and swine environments, with emphasis on [...] Read more.
Environmental biofilms are persistent structural components of livestock production systems and represent under-recognized drivers of pathogen persistence and antimicrobial resistance (AMR). This review examines the engineering, ecological, and operational factors that promote biofilm formation in dairy, poultry, and swine environments, with emphasis on drinking water distribution systems, feeding infrastructure, housing surfaces, and waste channels. Biofilms develop preferentially in low-shear zones, dead ends, and aging materials, where they enhance microbial tolerance to sanitation and facilitate horizontal gene transfer. Conventional monitoring approaches, largely based on planktonic sampling and single-time-point testing, underestimate attached biomass and fail to capture spatial heterogeneity. Although molecular and sensor-based technologies provide improved resolution, their farm-level implementation remains limited by cost, standardization challenges, and the absence of validated operational thresholds. Current EU surveillance frameworks focus primarily on antimicrobial use and resistance prevalence in animal isolates, while environmental compartments are rarely incorporated as monitored system elements. This review proposes a proportionate, risk-based approach that integrates existing farm data streams such as antimicrobial use metrics and biosecurity scoring systems with targeted environmental assessment of high-risk infrastructure. Mitigation strategies emphasize mechanical disruption, combined chemical sanitation, hydraulic optimization, material selection, and infrastructure lifecycle management. Embedding environmental biofilm control within existing engineering and stewardship frameworks supports more resilient, systems-based management of infectious and AMR risks in livestock production. Full article
(This article belongs to the Special Issue Antibiotic Resistance in Biofilm: Mechanisms and Novel Interventions)
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23 pages, 847 KB  
Article
A Hash-Based Lightweight Integrity Protocol Against Overshadowing Attack in Mobile Radio Networks
by Seongmin Park, Dowon Kim, Seungbin Lee, Haeryong Park, Ilsun You and Jiyoon Kim
Appl. Sci. 2026, 16(10), 5067; https://doi.org/10.3390/app16105067 - 19 May 2026
Viewed by 324
Abstract
In current 5G systems, broadcast messages such as System Information (SI) and Public Warning System (PWS) notifications are processed outside the established UE-network security context before initial access, leaving their integrity structurally unprotected. This vulnerability enables overshadowing attacks where adversaries inject manipulated SI/PWS [...] Read more.
In current 5G systems, broadcast messages such as System Information (SI) and Public Warning System (PWS) notifications are processed outside the established UE-network security context before initial access, leaving their integrity structurally unprotected. This vulnerability enables overshadowing attacks where adversaries inject manipulated SI/PWS messages, potentially causing large-scale service disruption and false public alerts. To attend to this gap, we propose a SHA-256-based lightweight integrity protocol that operates consistently across Radio Resource Control (RRC) Connected, Inactive, and Idle states without relying on Public Key Infrastructure (PKI). The User Equipment (UE) computes a hash of received PWS-related SIB content and attaches it to existing RRC/Non-Access Stratum (NAS) state-transition control signaling, enabling the Next Generation NodeB (gNB) to validate broadcast content integrity and feedback verification results to the UE. Security protocols often harbor non-intuitive vulnerabilities that deviate from designer intent, even in standardized protocols where authentication, integrity, and freshness assumptions are repeatedly challenged. Thus, we formally verify our proposed protocol using SVO-Logic and Scyther to establish trustworthiness results, confirming that it satisfies integrity, mutual authentication, freshness, and replay resistance under an active attacker model. Performance evaluation against public-key- and Message Authentication Code (MAC)-based alternatives demonstrates that our hash-based approach achieves significantly lower computational load on gNB while maintaining moderate signaling overhead, making it suitable for large-scale 5G/6G PWS deployments. These results position the protocol as a promising candidate for future 3rd Generation Partnership Project (3GPP) broadcast integrity enhancements. Full article
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13 pages, 252 KB  
Article
Upstream Legal Advocacy During Pregnancy to Prevent Traumatic Child Welfare Separations: Evidence from the FIRST Legal Clinic
by Adam Ballout and Marian S. Harris
Soc. Sci. 2026, 15(5), 318; https://doi.org/10.3390/socsci15050318 - 14 May 2026
Viewed by 363
Abstract
Legal advocacy for parents involved in the public child welfare system in the United States is typically initiated only after a child has been removed and a dependency petition has been filed. For infants, removal at or shortly after birth constitutes a profound [...] Read more.
Legal advocacy for parents involved in the public child welfare system in the United States is typically initiated only after a child has been removed and a dependency petition has been filed. For infants, removal at or shortly after birth constitutes a profound disruption of the parent–child attachment relationship and is increasingly recognized as an adverse childhood experience. This paper focuses on a summative program evaluation of the Family Intervention Response to Stop Trauma (FIRST) Legal Clinic in Washington State, a prevention-oriented model providing free, confidential legal advocacy and peer support to pregnant and postpartum parents prior to Child Protective Services (CPS) investigation or court involvement. Administrative data from 2019 to 2025 for 1232 eligible families were utilized to examine eligibility and referral patterns, reasons for ineligibility, and case outcomes. Findings demonstrated that eligible families with known outcomes avoided dependency court involvement entirely or experienced case closure without child removal, while a smaller proportion proceeded to dependency court filings. These findings highlight the need to reduce unnecessary child welfare system entry and mitigate traumatic disruption of the parent–child attachment relationship at birth by providing legal advocacy before investigation and court involvement. Full article
28 pages, 7472 KB  
Article
The (Un)Disrupted Place: Investigating Urban Coastal Transformation Through a Place-Attachment Lens for Resilience
by Rizkiana Sidqiyatul Hamdani, Sudharto Prawata Hadi, Iwan Rudiarto, Alfrida Ista Anindya and Afrizal Maarif
Climate 2026, 14(5), 103; https://doi.org/10.3390/cli14050103 - 13 May 2026
Viewed by 855
Abstract
Slow-onset hazards are intensifying coastal land transformation, yet their socio-environmental implications remain insufficiently understood. The coastal area of Semarang-Demak, Indonesia, represents a critical case due to long-term land subsidence, recurrent tidal flooding, and extensive coastal development interventions. In response to this gap, this [...] Read more.
Slow-onset hazards are intensifying coastal land transformation, yet their socio-environmental implications remain insufficiently understood. The coastal area of Semarang-Demak, Indonesia, represents a critical case due to long-term land subsidence, recurrent tidal flooding, and extensive coastal development interventions. In response to this gap, this study integrates open-access Earth observation with place-attachment perspectives to investigate how urban coastal transformation is materially produced and socially experienced. Multi-temporal Landsat imagery from 1994 to 2024 was processed in Google Earth Engine using the Modified Normalized Difference Water Index (MNDWI), complemented by the Normalized Difference Vegetation Index (NDVI) and the Normalized Difference Built-up Index (NDBI). The results show spatially uneven coastal land transformation, with 13.02 km2 of the study area indicating increased MNDWI values (to-water transformation), while 11.75 km2 experienced to-land transformation associated with declining MNDWI values. Further analysis using NDVI and NDBI suggests that part of the to-land transformation reflects anthropogenic built-area expansion, as indicated by areas where NDBI differences exceed NDVI differences. Empirical field observations and interview data contextualize these spatial findings by revealing contrasting yet persistent place attachment across reclamation-influenced areas and communities exposed to erosion and flooding. Building on these findings, the study proposes the notion of the (un)disrupted place to explain how disruption, efforts for resilience and continuity coexist unevenly across coastal space. This study advances a socio-environmental understanding of coastal land transformation and highlights the need for more equitable and multidisciplinary approaches to coastal governance and resilience planning. Full article
(This article belongs to the Special Issue Climate Adaptation and Mitigation in the Urban Environment)
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14 pages, 1340 KB  
Article
Phellodendron amurense Leaf Extract Inhibits Rhabdovirus Infection by Targeting Early Stages of Viral Entry
by Su Yeon Kim, Taek-Kyun Lee and Tae-Jin Choi
Pathogens 2026, 15(5), 491; https://doi.org/10.3390/pathogens15050491 - 1 May 2026
Viewed by 358
Abstract
RNA viruses exhibit high mutation rates, necessitating antivirals targeting conserved infection mechanisms. In this study, viral hemorrhagic septicemia virus (VHSV), a non-human pathogenic negative-sense RNA virus, was used as a surrogate model to enable high-throughput antiviral screening under reduced biosafety conditions. A recombinant [...] Read more.
RNA viruses exhibit high mutation rates, necessitating antivirals targeting conserved infection mechanisms. In this study, viral hemorrhagic septicemia virus (VHSV), a non-human pathogenic negative-sense RNA virus, was used as a surrogate model to enable high-throughput antiviral screening under reduced biosafety conditions. A recombinant VHSV expressing enhanced green fluorescent protein was used to screen 17,265 compounds, 2000 plant extracts, and 100 marine extracts. Among the candidates, the leaf extract of Phellodendron amurense Rupr. (PL extract) exhibited antiviral activity with low cytotoxicity (selectivity index ≈ 10). The extract reduced viral infectivity in a dose-dependent manner and showed cross-activity against snakehead rhabdovirus. Mechanistic analyses indicated that the PL extract acts primarily at early stages of infection. Virucidal assays demonstrated direct, time-dependent inactivation of viral particles, while pre-treatment reduced host cell susceptibility. Time-of-addition experiments confirmed that antiviral activity was restricted to early infection, suggesting interference with viral attachment or entry rather than intracellular replication. Fractionation revealed that activity was associated with the non-polar n-hexane fraction, implicating lipophilic compounds that may disrupt viral envelope integrity or membrane interactions. These findings suggest that P. amurense leaf extract is a promising candidate for broad-spectrum antivirals targeting conserved entry processes in enveloped RNA viruses. Full article
(This article belongs to the Special Issue Advances in Virology of Aquatic Animal Viruses)
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14 pages, 4828 KB  
Article
Surgical Correction of Keratinized Mucosa Deficiency Around Dental Implants: A Clinical, Histological and Immunohistochemical Study
by Emil K. Khabirov, Gulshat T. Saleeva, Dmitry E. Tsyplakov, Rinat A. Saleev and Laysan R. Shakirova
Dent. J. 2026, 14(5), 256; https://doi.org/10.3390/dj14050256 - 28 Apr 2026
Viewed by 403
Abstract
Background/Objectives: Peri-implant inflammatory complications remain a major cause of late implant failure and are closely associated with the condition of peri-implant soft tissues. Insufficient keratinized attached mucosa has been identified as a potential risk factor for peri-implant inflammation; however, morphological and immunohistochemical [...] Read more.
Background/Objectives: Peri-implant inflammatory complications remain a major cause of late implant failure and are closely associated with the condition of peri-implant soft tissues. Insufficient keratinized attached mucosa has been identified as a potential risk factor for peri-implant inflammation; however, morphological and immunohistochemical validation of soft tissue remodeling following corrective interventions remains limited. The aim of this study was to perform a morphological and immunohistochemical evaluation of a reproducible surgical approach for increasing keratinized attached mucosa around dental implants. Methods: A comparative clinical–morphological study included 25 patients undergoing implant-supported prosthetic treatment. Patients were divided into a control group (standard prosthetic protocol without soft tissue augmentation, n = 10) and a study group (soft tissue correction using a previously developed technique, n = 15). Punch biopsies of peri-implant mucosa were obtained at baseline and prior to definitive prosthetic restoration. Histological examination and immunohistochemical analysis were performed using the semi-quantitative Astaldi–Verga method. Expression of inflammatory markers (MPO, CD3, CD20, CD68), vascular marker CD31, and remodeling markers MMP-9 and TIMP-2 was evaluated. Data were analyzed using the Mann–Whitney U test (p < 0.05). Results: The study group demonstrated significantly lower expression of inflammatory markers, including MPO, CD68, CD3, and CD20 (p < 0.001), and reduced MMP-9 expression (p = 0.001) compared with controls. The MMP-9/TIMP-2 balance was more favorable in the study group, suggesting more regulated extracellular matrix remodeling. Histologically, the control group exhibited epithelial disruption and microcirculatory alterations, whereas the study group showed preserved epithelial architecture and reduced inflammatory infiltration. Conclusions: Morphological and immunohistochemical assessment suggests that soft tissue correction of keratinized mucosa deficiency may be associated with more favorable early peri-implant soft tissue characteristics, including reduced inflammatory activity and modulation of matrix remodeling. Immunohistochemical markers such as MMP-9 and TIMP-2 may provide additional insight into early soft tissue integration around dental implants. However, these findings should be interpreted with caution due to the exploratory design and short follow-up period. Full article
(This article belongs to the Special Issue Risk Factors in Implantology)
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12 pages, 31864 KB  
Case Report
Open Double Mallet Lesion of the Ring Finger with Concomitant Little Finger Fracture: A Case Report
by Suguru Yokoo, Takahiro Toriyama, Yukimasa Okada and Chuji Terada
Diagnostics 2026, 16(9), 1248; https://doi.org/10.3390/diagnostics16091248 - 22 Apr 2026
Viewed by 395
Abstract
Background and Clinical Significance: Mallet finger is a common injury of the extensor mechanism at the distal interphalangeal (DIP) joint; however, open double mallet lesions are rare and may present a complex reconstruction challenge. Case Presentation: A 15-year-old male high school [...] Read more.
Background and Clinical Significance: Mallet finger is a common injury of the extensor mechanism at the distal interphalangeal (DIP) joint; however, open double mallet lesions are rare and may present a complex reconstruction challenge. Case Presentation: A 15-year-old male high school student who sustained an open injury to the left ring and little fingers after a high-energy buggy accident. The ring finger showed an open double mallet lesion in which the extensor tendon remained attached to a tiny avulsion fragment, and a separate dorsal base fragment was also present. The adjacent little finger had a concomitant open fracture with substantial soft tissue injury. Emergency surgery was performed on the day of the injury. For the ring finger, reduction of the tendon-attached avulsion fragment and separate dorsal base fragment was achieved using extension-block pinning, transarticular DIP pinning, and pull-out fixation over a volar button. For the little finger, cross-pinning was performed because the distal fragment was too small for stable non-transarticular fixation. Serial radiographs showed maintained alignment and progressive healing. At the final follow-up, 21 months after the injury, residual deformity and limitation of DIP motion remained; however, no infection, major skin complications, or nail deformity were observed. The little finger DIP joint became ankylosed, whereas some residual mobility remained in the ring finger DIP joint. Despite persistent functional limitations, the patient was able to continue school attendance and percussion-related activities. Conclusions: This case highlights that in an open double mallet lesion, disruption of both the tendon-attached fragment and its bony bed should be considered, and stabilization of the base may be useful in selected injury patterns before definitive tendon-side repair. Full article
(This article belongs to the Section Clinical Diagnosis and Prognosis)
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30 pages, 453 KB  
Review
Biosurfactants as Antibiofilm Agents for Medical Devices: Mechanisms, Evidence and Integration into Infection Prevention and Control
by Sunday Stephen Abi and Ibrahim M. Banat
Microorganisms 2026, 14(4), 910; https://doi.org/10.3390/microorganisms14040910 - 17 Apr 2026
Cited by 3 | Viewed by 1043
Abstract
Biofilms rapidly form on medical devices such as urinary catheters and surgical materials. These biofilms compromise patient safety and undermine infection prevention and control (IPC). Biofilms also reduce the effectiveness of antibiotics and disinfectants. As a result, they increase healthcare-associated infections and increase [...] Read more.
Biofilms rapidly form on medical devices such as urinary catheters and surgical materials. These biofilms compromise patient safety and undermine infection prevention and control (IPC). Biofilms also reduce the effectiveness of antibiotics and disinfectants. As a result, they increase healthcare-associated infections and increase costs through device failure and the need for maintenance or replacement. Researchers are increasingly exploring biosurfactants (BSs) as surface coatings and cleaning additives to prevent microbial attachment and disrupt early biofilm formation on medical devices and healthcare-related surfaces. This review examines the translational potential of biosurfactants as preventive, disruptive, and adjunctive antibiofilm agents for medical devices and healthcare-related surfaces. Literature evidence on glycolipids (rhamnolipids, sophorolipids) and lipopeptides (surfactin) from static, flow-based, and microfluidic in vitro models that used clinically relevant materials, such as silicone and polydimethylsiloxane (PDMS), were examined. In our literature search, we focused on pathogens central to IPC, such as Staphylococcus aureus, Pseudomonas aeruginosa, Enterococcus spp., and Candida spp., and it was generally noted that BSs reduced microbial adhesion and delayed early biofilm formation on medical devices and healthcare-related surfaces. Significant evidence also suggests that they partially disrupt biofilms and improve antimicrobial penetration when co-applied, mainly through membrane disruption, destabilization of extracellular substances, interfering with quorum sensing, and synergistic and/or antagonistic interactions with other molecules. Their performance varied with class, formulation, hydrodynamic conditions, and microbial composition. BSs function better as preventive and adjunctive IPC tools than stand-alone antimicrobial agents and can help to reduce biofilm formation on devices and improve surface disinfection. However, translating this promise into practice demands more robust data on long-term safety, stability, and product quality. Full article
(This article belongs to the Special Issue Latest Review Papers in Antimicrobial Agents and Resistance 2026)
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19 pages, 3940 KB  
Article
Functionalized Cotton as a Robust Platform for Laccase Immobilization: A Sustainable Approach for Bisphenol A Bioremediation
by Reda M. El-Shishtawy, Nedaa Alharbi and Yaaser Q. Almulaiky
Textiles 2026, 6(2), 48; https://doi.org/10.3390/textiles6020048 - 17 Apr 2026
Viewed by 500
Abstract
This study presents a highly efficient and sustainable biocatalytic platform for bisphenol A (BPA) bioremediation through the covalent immobilization of laccase onto hierarchically functionalized cotton fibers. The immobilization strategy involved selective periodate oxidation of cellulose, grafting a hexamethylenediamine (HMDA) spacer arm, and glutaraldehyde [...] Read more.
This study presents a highly efficient and sustainable biocatalytic platform for bisphenol A (BPA) bioremediation through the covalent immobilization of laccase onto hierarchically functionalized cotton fibers. The immobilization strategy involved selective periodate oxidation of cellulose, grafting a hexamethylenediamine (HMDA) spacer arm, and glutaraldehyde activation, ensuring stable covalent attachment. Characterization via FTIR, SEM, and BET confirmed successful surface modification and high enzyme loading, achieving an immobilization yield of 90.5%. The immobilized laccase (CT-DA-HMD-Lac) exhibited significantly enhanced performance compared to the free enzyme, with a two-fold increase in maximum reaction velocity (Vmax) and a 75% improvement in catalytic efficiency of action (Vmax/Km). Furthermore, the biocatalyst demonstrated superior robustness, maintaining high activity across broader pH and temperature ranges, and retaining 75% of its initial activity after 15 consecutive reusability cycles. Storage stability was also markedly improved, with 83% activity retention after 60 days. Practical application in BPA degradation showed 85% removal efficiency within 300 min, a 2.4-fold increase in the degradation rate constant over the free enzyme. These results highlight functionalized cotton as a promising, cost-effective, and scalable support for advanced enzymatic wastewater treatment and the remediation of persistent endocrine-disrupting chemicals. Full article
(This article belongs to the Special Issue Textile Recycling and Sustainability)
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17 pages, 2583 KB  
Review
Polysialic Acid Modulation of Glutamate Receptors and Synaptic Mechanisms Underlying Neuronal Plasticity
by Kawsar Ullah Chowdhury, Subhrajit Bhattacharya, Md Reaz Uddin, Miranda N. Reed, Soon Goo Lee and Vishnu Suppiramaniam
NeuroSci 2026, 7(2), 45; https://doi.org/10.3390/neurosci7020045 - 15 Apr 2026
Viewed by 1761
Abstract
Polysialic acid (PSA), a highly negatively charged glycan attached mainly to the neural cell adhesion molecule (NCAM), is emerging as a critical but underrecognized extracellular regulator of glutamatergic neurotransmission. While previous literature has focused on PSA’s developmental roles, increasing evidence indicates that PSA–NCAM [...] Read more.
Polysialic acid (PSA), a highly negatively charged glycan attached mainly to the neural cell adhesion molecule (NCAM), is emerging as a critical but underrecognized extracellular regulator of glutamatergic neurotransmission. While previous literature has focused on PSA’s developmental roles, increasing evidence indicates that PSA–NCAM also contributes to synaptic plasticity mechanisms in the mature brain. This review integrates evidence from structural biophysics, single-channel electrophysiology, and disease models to explain how PSA modulates glutamate receptor gating to control learning and memory. We synthesize findings from biochemical reconstitution, electrophysiological recordings, and in vivo studies to show that PSA can modulate α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptor open probability, burst duration, and cooperative gating without affecting conductance, thereby promoting long-term potentiation. Conversely, PSA selectively suppresses GluN2B-containing extrasynaptic N-methyl D-Aspartate (NMDA) receptor activity by lowering open probability and calcium influx, maintaining an optimal balance between potentiation and depression while providing neuroprotection. Disruption of PSA–NCAM signaling in developmental and disease models, including prenatal cannabinoid exposure and neurodegeneration, produces cognitive deficits reversible by PSA restoration. Notably, much of the current evidence derives from in vitro systems, with relatively few studies conducted in vivo, and studies employing PSA mimetics mostly, which should be considered when interpreting physiological relevance. Collectively, the available evidence suggests that PSA functions as an extracellular modulator linking synaptic glycans to glutamate receptor regulation and plasticity related signaling pathways, highlighting the potential importance of extracellular glycan mechanisms in the control of synaptic function. Full article
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15 pages, 1789 KB  
Article
Impact of Oral Pre-Exposure Secretory IgA Prophylactic Produced in Rice on Gut Microbiome Homeostasis
by Ravi Bharadwaj, Carlos Gaspar, Tyler D. Moeller, Doyle Ward, Mark S. Klempner, Yang Wang and Lisa A. Cavacini
Pharmaceutics 2026, 18(4), 457; https://doi.org/10.3390/pharmaceutics18040457 - 9 Apr 2026
Viewed by 769
Abstract
Background/Objectives: Enterotoxigenic Escherichia coli (ETEC) is a leading cause of diarrheal illness worldwide, resulting in approximately 380,000 deaths annually, with significant morbidity in children and travelers to endemic regions. ETEC infection begins with the attachment of the bacterium to the small intestine [...] Read more.
Background/Objectives: Enterotoxigenic Escherichia coli (ETEC) is a leading cause of diarrheal illness worldwide, resulting in approximately 380,000 deaths annually, with significant morbidity in children and travelers to endemic regions. ETEC infection begins with the attachment of the bacterium to the small intestine via filamentous colonization factors (CF), followed by the production of heat-labile (LT) and heat-stable (ST) toxins that induce watery diarrhea. Targeting CF to prevent ETEC attachment is challenging due to strain heterogeneity. Methods: In previous studies, we developed a class-switched human monoclonal antibody, 68–90, expressed as secretory IgA (SIgA) in rice for cost-effective and stable storage. Rice-produced SIgA exhibited comparable binding efficiency to CfaE, a component of CF, compared to CHO-produced SIgA in vitro. Results: In this work, we showed that oral administration of 68–90 SIgA to Aotus nancymaae did not alter gut microbiome distribution or show signs of systemic exposure. Conclusions: These findings suggest that oral delivery of ETEC-specific SIgA is safe and does not disrupt the gut microbial population, highlighting its potential as an effective and targeted therapeutic strategy. Full article
(This article belongs to the Section Biologics and Biosimilars)
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