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19 pages, 6086 KB  
Article
Bioactive Glycosaminoglycans from Caranx crysos: A Structure–Function Study of Selective Anticoagulant Activity
by Ranim Kroumi, Soumaya Alimi, Fabiana Esposito, Asma Haffouz, Basma Hadjkacem, Angela Casillo, Anissa Haddar, Assaad Sila, Emiliano Bedini and Ali Bougatef
Mar. Drugs 2026, 24(7), 234; https://doi.org/10.3390/md24070234 - 3 Jul 2026
Abstract
Glycosaminoglycans (GAGs) are the carbohydrate portion of proteoglycans (PGS), a family of complex biomacromolecules ubiquitously found in the extracellular matrix and on cell surfaces that play critical roles in a plethora of physiological and pathological processes. In the present work, chondroitin sulfate (CS) [...] Read more.
Glycosaminoglycans (GAGs) are the carbohydrate portion of proteoglycans (PGS), a family of complex biomacromolecules ubiquitously found in the extracellular matrix and on cell surfaces that play critical roles in a plethora of physiological and pathological processes. In the present work, chondroitin sulfate (CS) and dermatan sulfate (DS) were extracted and purified from the head (GCB) and skin (GDB) of blue runner fish (Caranx crysos) to explore their structural features and biological properties. GCB and GDB were purified by ion-exchange chromatography with yields of 0.82% and 0.61%, respectively. Chemical and structural analysis showed that GCB and GDD demonstrated quite similar sulfation degrees (4.45% and 4.24%, respectively). The molecular weight values obtained for GCB and GDB as estimated by high-performance size exclusion chromatography coupled with a triple detector array (HP-SEC-TDA) were 48.9 and 28.54 KDa, respectively. Structural features were elucidated using FT-IR and 2D NMR spectroscopy. GCB was mainly identified as chondroitin sulfate, containing 82% GlcA and minor proportions of IdoA and IdoA2S (scoring 18% dermatan-like structures). In contrast, GDB was predominantly dermatan sulfate, with a higher unsulfated IdoA content (54%) and a lower GlcA percentage (17%). In vitro anticoagulant activity, evaluated using APTT and PT assays, demonstrated that both GAGs exhibit significant anticoagulant potential. In addition, both fractions exhibited no antiplatelet activity, suggesting that the isolated glycosaminoglycans selectively target the coagulation cascade without affecting platelet aggregation. Furthermore, hemolytic assays confirmed that neither GCB nor GDB showed any hemolytic activity at the tested concentrations. Cytotoxicity assessment in HEK293 and HUVEK cell lines further confirmed the absence of detectable toxicity even at high concentration. Overall, these marine-derived GAGs present promising therapeutic potential as a source of anticoagulant drugs. Full article
(This article belongs to the Special Issue Structure-Activity Relationships of Marine Natural Product)
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17 pages, 2294 KB  
Article
Gene Silencing of ANGPTL3 Induces PCSK9: Exploring the Biological Significance in the Hepatoma Huh7 Cell Line
by Ilaria Rossi, Ruolan Chen, Enidia Hazizaj, Maria Giovanna Lupo, Giorgia Marodin, Stijn Cos, Alessandra Giannella, Giulio Ceolotto and Nicola Ferri
Cells 2026, 15(13), 1195; https://doi.org/10.3390/cells15131195 - 30 Jun 2026
Viewed by 137
Abstract
Background: Angiopoietin-like 3 (ANGPTL3) and proprotein convertase subtilisin/kexin type 9 (PCSK9) are key regulators of lipid homeostasis. We have previously shown that gene silencing of ANGPTL3 significantly induces PCSK9 expression in the human hepatoma cell line Huh7. Here, we investigated the biological significance [...] Read more.
Background: Angiopoietin-like 3 (ANGPTL3) and proprotein convertase subtilisin/kexin type 9 (PCSK9) are key regulators of lipid homeostasis. We have previously shown that gene silencing of ANGPTL3 significantly induces PCSK9 expression in the human hepatoma cell line Huh7. Here, we investigated the biological significance of this regulation in the cultured human hepatoma cell line Huh7. Methods: We performed an RNA-seq analysis in Huh7 cells transfected with siRNA-ANGPTL3, siRNA-PCSK9, and double siRNA-ANGPTL3/PCSK9. Selected findings were assessed by RT-qPCR, Western blotting, and ELISA. Results: Among 13,945 detected transcripts, 192 genes were differentially expressed after ANGPTL3 silencing, 88 after PCSK9 silencing, and 219 after combined ANGPTL3/PCSK9 silencing, compared with scramble-siRNA controls. When ANGPTL3 gene expression was silenced, we observed a compensatory induction in PCSK9 mRNA and protein expression. Bioinformatic analysis revealed that gene silencing of ANGPTL3 or both ANGPTL3/PCSK9 suppresses serpin family A member 1 (SERPINA1), which encodes α1-antitrypsin, and lectin mannose-binding 1 (LMAN1). These data were confirmed by Western blot and RT-PCR analysis. In addition, ANGPTL3-siRNA, alone or combined with PCSK9-siRNA, significantly increased FV and FVIII mRNA expression and secretion in conditioned medium. Conclusions: Our data identified SERPINA1 and LMAN1 as genes downregulated in response to ANGPTL3 silencing in Huh7 hepatoma cells, which was also associated with increased expression of FV and FVIII. Our study suggests a potential link between ANGPTL3 silencing and coagulation-related processes, extending the biological relevance of ANGPTL3 beyond lipid metabolism. Full article
(This article belongs to the Section Cellular Metabolism)
23 pages, 1110 KB  
Review
Immunothrombotic Cell–Cell Communication Networks in Coronary Atherosclerosis: Critical Insights from Single-Cell and Spatial Systems Biology
by Beata Krasińska, Antoni Staniewski, Oliwia Kalus, Joanna Maćkowiak, Zofia Szymańska, Zofia Gramala, Katarzyna Zalewska, Michał Karpiński, Paulina Mertowska, Łucja Rolek, Kinga Koziarska, Krzysztof J. Filipiak, Mansur Rahnama, Mariusz Kowalewski, Calogera Pisano, Giuseppe Maria Raffa, Zbigniew Krasiński, Piotr Suwalski, Vincenzo Nuzzi, Ewelina Grywalska and Tomasz Urbanowiczadd Show full author list remove Hide full author list
Int. J. Mol. Sci. 2026, 27(13), 5900; https://doi.org/10.3390/ijms27135900 - 30 Jun 2026
Viewed by 126
Abstract
Coronary artery disease (CAD) is increasingly recognized as a thromboinflammatory disorder in which innate immune activation and coagulation are tightly coupled within the plaque microenvironment. Emerging single-cell and spatial technologies have refined this paradigm by demonstrating that these processes are not diffusely distributed [...] Read more.
Coronary artery disease (CAD) is increasingly recognized as a thromboinflammatory disorder in which innate immune activation and coagulation are tightly coupled within the plaque microenvironment. Emerging single-cell and spatial technologies have refined this paradigm by demonstrating that these processes are not diffusely distributed but instead concentrated within discrete cellular niches. This narrative review critically evaluates mechanistic and translational studies integrating single-cell RNA sequencing, spatial transcriptomics, and ligand–receptor modeling to characterize cell–cell communication networks driving immunothrombosis in CAD. Converging evidence from single-cell and spatial studies indicates substantial heterogeneity among macrophages, neutrophils, and smooth muscle cells, with functionally distinct subpopulations contributing differentially to inflammation, matrix remodeling, and thrombogenicity. Spatial analyses further demonstrate that procoagulant and inflammatory programs converge in anatomically defined high-risk regions, particularly at the plaque shoulder and sites of endothelial dysfunction. However, whether these transcriptional states represent causal drivers or epiphenomena remains unresolved. Many insights are derived from murine models or dissociated tissues, raising concerns regarding translational relevance and loss of spatial context. Additionally, computational inference of intercellular communication remains indirect and requires functional validation. In conclusion, immunothrombosis in CAD should be interpreted as an emergent property of spatially organized cellular networks rather than a uniform inflammatory state. While these approaches identify candidate therapeutic nodes, their clinical translation and the central challenge is to distinguish causal regulatory nodes from transcriptional correlates generated by high-dimensional profiling. Full article
(This article belongs to the Special Issue Molecular Pathophysiology and Treatment of Coronary Artery Disease)
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19 pages, 9799 KB  
Article
Effects of Nanoparticle-Based Activating Flux with Sodium-Silicate Solvent on Activated Gas Tungsten Arc Welded Inconel 718
by Sebastian Balos, Nemanja Kljestan, Miroslav Dramicanin, Petar Janjatovic and Marko Knezevic
Materials 2026, 19(13), 2776; https://doi.org/10.3390/ma19132776 - 30 Jun 2026
Viewed by 139
Abstract
Activated Tungsten Inert Gas (ATIG) welding employs an activating flux to increase penetration and improve productivity compared with the conventional Tungsten Inert Gas (TIG) process. Conventional fluxes typically consist of metallic oxides dispersed in alcohol- or acetone-based solvents. In this study, a novel [...] Read more.
Activated Tungsten Inert Gas (ATIG) welding employs an activating flux to increase penetration and improve productivity compared with the conventional Tungsten Inert Gas (TIG) process. Conventional fluxes typically consist of metallic oxides dispersed in alcohol- or acetone-based solvents. In this study, a novel flux composed of SiO2 and TiO2 nanoparticles suspended in a sodium-silicate solvent was used for welding Inconel 718. The proposed flux achieved full penetration of a 7 mm thick plate at 160 A DCEN using 60° and 90° electrode tip angles, without visible distortion or defects in the examined cross-sections. Microstructural characterization revealed notable changes in the content, morphology, and size of Nb-rich interdendritic constituents consistent with Laves phase formation compared with welds produced without flux. ATIG specimens contained a lower amount of these brittle intermetallic constituents, which exhibited a less branched and more coagulated morphology despite the lower cooling rate. As a result, a greater fraction of alloying elements remained available for dendrite reinforcement rather than being segregated into Nb-rich interdendritic regions, leading to higher weld-metal microhardness in the ATIG60 specimen than in TIG welds. These observations were attributed to enhanced weld-pool stirring caused by molten metal flow toward the weld center and downward through the weld pool, consistent with the reversal of Marangoni convection. Full article
(This article belongs to the Special Issue Advanced Machining and Technologies in Materials Science)
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18 pages, 2376 KB  
Review
Hemostatic Resuscitation in Trauma-Induced Coagulopathy: A Comprehensive Narrative Review
by Matteo Matteucci, Bruno Cirillo, Francesco Brucchi, Fabio Suadoni, Antonio Pesce, Daniele Giuliani, Alessandro Spizzirri, Vincenzo Napolitano, Marta Micheli, Gianlorenzo Dionigi and Roberto Cirocchi
Medicina 2026, 62(7), 1263; https://doi.org/10.3390/medicina62071263 - 30 Jun 2026
Viewed by 194
Abstract
Background and Objectives: Traumatic hemorrhage remains the leading cause of preventable death following major injury, with most hemorrhage-related fatalities occurring within the first hours after trauma. During this early phase, trauma-induced coagulopathy (TIC) frequently develops as an independent pathophysiological response, affecting up [...] Read more.
Background and Objectives: Traumatic hemorrhage remains the leading cause of preventable death following major injury, with most hemorrhage-related fatalities occurring within the first hours after trauma. During this early phase, trauma-induced coagulopathy (TIC) frequently develops as an independent pathophysiological response, affecting up to one-third of severely injured patients and being strongly associated with increased morbidity and mortality. Over the past two decades, TIC has been recognized as a complex endogenous process rather than a simple consequence of dilution, hypothermia, or acidosis, prompting a paradigm shift in early trauma resuscitation. Materials and Methods: This narrative review analyzes the current literature on the pathophysiology of TIC and the evolution of hemostatic resuscitation strategies. Key topics include the mechanisms underlying early coagulopathy, its clinical impact, and the evidence supporting contemporary therapeutic approaches. Published data on balanced transfusion strategies, whole blood transfusion, fibrinogen replacement, cryoprecipitate, prothrombin complex concentrates, tranexamic acid and viscoelastic-guided resuscitation were reviewed, along with relevant international guidelines. Results: Emerging evidence supports early, balanced, and targeted hemostatic resuscitation to mitigate the effects of TIC and improve outcomes in bleeding trauma patients. Balanced transfusion ratios, prompt correction of fibrinogen deficiency, early antifibrinolytic therapy and selective use of coagulation factor concentrates have been associated with reduced transfusion requirements and improved survival. Viscoelastic testing enables rapid, individualized assessment of coagulation abnormalities, although its availability and implementation remain inconsistent across trauma systems. Conclusions: Early recognition and aggressive, structured management of trauma-induced coagulopathy are essential to reduce preventable deaths from traumatic hemorrhage. While advances in hemostatic resuscitation have improved outcomes, significant challenges remain in standardizing treatment protocols and expanding access to viscoelastic diagnostics. Ongoing research and system-level optimization are needed to further refine and disseminate evidence-based strategies for the management of TIC. Full article
(This article belongs to the Section Surgery)
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8 pages, 3782 KB  
Case Report
Septic Shock, Infective Endocarditis, Septic Embolization and Disseminated Intravascular Coagulation Caused by a Toxigenic C. diphtheriae Strain: A Case Report
by Matteo Fabris, Ivan Martinello and Flavio Bassi
Healthcare 2026, 14(13), 1890; https://doi.org/10.3390/healthcare14131890 - 29 Jun 2026
Viewed by 125
Abstract
Background: Diphtheria is an acute infectious disease caused by Corynebacterium diphtheriae. Despite several worldwide outbreaks, it is now considered a rare disease by industrialized countries. Clinical manifestations usually account for oropharyngeal lesions, but rare cases of systemic involvement (mainly endocarditis) have been [...] Read more.
Background: Diphtheria is an acute infectious disease caused by Corynebacterium diphtheriae. Despite several worldwide outbreaks, it is now considered a rare disease by industrialized countries. Clinical manifestations usually account for oropharyngeal lesions, but rare cases of systemic involvement (mainly endocarditis) have been described among non-toxigenic strains. Case description: We report the case of a patient who experienced septic shock, disseminated intravascular coagulation and multiorgan failure due to Corynebacterium diphtheriae infection. The pathogen was further characterized as a highly toxigenic strain. Infective endocarditis with mitral and aortic valve vegetations led to early multiorgan septic embolization. Major stroke, liver function impairment, heart failure and acute kidney injury were the main findings. Unlike the typical forms of infection caused by this pathogen, there was no evidence of airway or skin involvement. Furthermore, apart from hemocultures, none of the other investigations (pharyngeal swabs, bronchoalveolar lavages, urine culture) ever tested positive for the bacteria. Conclusions: The report we present describes a case of C. diphtheriae infection with many atypical characteristics: (i) lack of any pathognomonic signs or symptoms; (ii) extensive endocarditic process (very uncommon for toxigenic strains); (iii) early septic emboli development, with rapid evolution to multiorgan failure; (iv) detection of disseminated intravascular coagulation. Despite disseminated intravascular coagulation being a known complication of septic shock, regardless of the etiological agent, according to our literature research, this is the second known case driven by C. diphtheriae infection in an adult. Full article
(This article belongs to the Special Issue New Tools and Technologies in Emergency Medicine and Critical Care)
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30 pages, 3410 KB  
Article
Effect of Mechanical Homogenization on Nopal Mucilage for the Treatment of a Real Cyanidation Barren Solution
by Allison Vianey Valle-Bravo, Brenda Hildeliza Camacho-Díaz, Denis Rodrigue, Glenda Pacheco-Vargas, Francisco Rodríguez-González, Isidra Guadalupe Ruiz-Martínez and Javier Solorza-Feria
Gels 2026, 12(7), 569; https://doi.org/10.3390/gels12070569 - 27 Jun 2026
Viewed by 206
Abstract
This study investigated the effect of brief mechanical homogenization using a household blender on the properties of nopal mucilage and its performance in removing potentially toxic elements (PTEs), specifically Pb, Ni, As, Cd, and Zn, from a real cyanidation barren solution. An aqueous [...] Read more.
This study investigated the effect of brief mechanical homogenization using a household blender on the properties of nopal mucilage and its performance in removing potentially toxic elements (PTEs), specifically Pb, Ni, As, Cd, and Zn, from a real cyanidation barren solution. An aqueous extract from Opuntia ficus-indica cladodes was homogenized for 0, 30, or 60 s before spray drying, yielding powders designated as CA, CB, and CC. The powders and water-reconstituted dispersions were characterized and evaluated in coagulation–flocculation assays. Homogenization reduced water activity and average hydrodynamic diameter and significantly modified the ζ potential, although the effects were not proportional to processing time. At 10% w·v−1, the reconstituted mucilages showed frequency-dependent viscoelastic behavior consistent with a transient gel-like organization. All treatments removed more than 98% of Pb, Ni, and As at doses of 200–800 mg·L−1. Cd removal was more variable and significantly affected by mucilage type, whereas Zn showed lower, non-monotonic removal. ESEM–EDS detected PTE-bearing inorganic domains within the recovered flocs, corroborating transfer from the liquid to the solid phase. Overall, mechanical homogenization modified the colloidal, supramolecular, and gel-related properties of spray-dried nopal mucilage, which showed potential as a multifunctional hydrocolloid for treating chemically complex cyanidation process streams. Full article
(This article belongs to the Section Gel Processing and Engineering)
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19 pages, 920 KB  
Review
Vitamin K Deficiency and Thrombophilia in Pregnancy: A Fine Balance Between Bleeding and Thrombus Formation-Insights from a Narrative Review
by Miruna Samfireag, Ovidiu Potre, Cristina Potre, Ema Borsi, Teodora Hoinoiu, Lavinia Cristina Moleriu, Daniel Pit and Andrei Anghel
Int. J. Mol. Sci. 2026, 27(13), 5811; https://doi.org/10.3390/ijms27135811 - 27 Jun 2026
Viewed by 226
Abstract
This current research is a narrative review that seeks to establish the occasions under which thrombophilia can result in complications regarding bleeding and thrombosis during pregnancy. Under such circumstances, the influence of vitamin K deficiency is considered, since vitamin K plays an important [...] Read more.
This current research is a narrative review that seeks to establish the occasions under which thrombophilia can result in complications regarding bleeding and thrombosis during pregnancy. Under such circumstances, the influence of vitamin K deficiency is considered, since vitamin K plays an important role in activating the coagulation system. This occurs directly, via the activation of coagulation factors, as well as indirectly, through the activation of proteins S and C. Both proteins play an important role in the hemostatic mechanism of thrombosis and bleeding. However, the risk associated with the relationship between thrombosis and bleeding changes during pregnancy and is heightened by the natural tendency towards hypercoagulability during pregnancy. This paper presents a narrative review of the literature concerning the links between vitamin K, protein C, and protein S in relation to thrombophilia from the perspectives of both biochemistry and medicine, with a special focus on pregnancy. The study examined factors that could be useful to define the balance between hemorrhagic and thrombotic tendency, comparing conventional methods of studying hemostasis with other possible tests that can help better understand the interplay between hemorrhage and thrombosis. Collectively, disorders within the processes associated with vitamin K-mediated blood clotting may have a considerable effect on the woman’s thrombotic risk, especially for women who suffer from thrombophilia. This study confirms the need for monitoring and personalized treatment options to avoid thrombotic and hemorrhagic complications during pregnancy. Full article
(This article belongs to the Special Issue Vitamin K in Disease Mechanisms and Therapy)
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12 pages, 2196 KB  
Article
Comparative Study on the Properties of Smoke Sheet Rubber Produced by Different Solidification Methods
by Linguang Ruan, Lin Yan, Dandan Yao, Bingguo Liu, Shenghui Guo and Jiawang Yin
Polymers 2026, 18(13), 1593; https://doi.org/10.3390/polym18131593 - 26 Jun 2026
Viewed by 231
Abstract
To investigate the effects of coagulation methods on the structure and properties of sheet rubber, this study prepared natural rubber using different coagulation systems, including acetic acid, formic acid, biological coagulants, and pineapple juice, and systematically analyzed their non-rubber components, gel content, molecular [...] Read more.
To investigate the effects of coagulation methods on the structure and properties of sheet rubber, this study prepared natural rubber using different coagulation systems, including acetic acid, formic acid, biological coagulants, and pineapple juice, and systematically analyzed their non-rubber components, gel content, molecular weight distribution, rheological behavior, and mechanical properties of the vulcanized rubber. The results indicate that the type of coagulant significantly affects the protein, phospholipid, and gel content. Among these, the pineapple juice gel exhibited the lowest residual protein content, suggesting that the proteases, organic acids, and active components it contains promote the degradation and removal of non-rubber components. GPC and rheological results show that pineapple juice gel and bio-gel samples possess a broad molecular weight distribution and exhibit a more pronounced viscoelastic response at high temperatures. After uniform vulcanization, the differences in hardness, tensile strength, and tear resistance among the various samples were minimal, indicating that the vulcanized network determines the final mechanical properties, while the coagulation method primarily regulates microstructure and processing behavior. This study provides a theoretical basis for the application of bio-coagulants in the processing of green shikigai gum. Full article
(This article belongs to the Section Polymer Analysis and Characterization)
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18 pages, 1216 KB  
Article
Chitosan Production from Fish Scales and Its Application as a Natural Coagulant for Surface Water Treatment: Experimental and Statistical Evaluation
by José Lugo-Arias, Javier Carpintero, Salvador Villamizar, Jorge Luis Pacheco Yepes, Ruben Cantero-Rodelo, Leandro Gómez-Plata and Keila Isabel Cruz
Water 2026, 18(13), 1565; https://doi.org/10.3390/w18131565 - 26 Jun 2026
Viewed by 712
Abstract
The progressive deterioration of surface water quality due to natural and anthropogenic factors, together with the limitations associated with conventional chemical coagulants, has driven the development of natural coagulants as sustainable alternatives for water treatment. In this context, the present study analyzed the [...] Read more.
The progressive deterioration of surface water quality due to natural and anthropogenic factors, together with the limitations associated with conventional chemical coagulants, has driven the development of natural coagulants as sustainable alternatives for water treatment. In this context, the present study analyzed the production and application of a chitosan-based natural coagulant obtained from Oreochromis niloticus fish scales through a chemical method. The first phase involved biopolymer extraction through depigmentation, deproteinization, demineralization, and deacetylation; the second phase evaluated its performance as a coagulant using jar tests with water from the Magdalena River; and the third phase consisted of statistical analysis of the results using ANOVA. Yields of 78%, 78.20%, 88.52%, and 30% were obtained for each processing stage, and the chitosan achieved a degree of deacetylation of 76.87%, confirming its potential for water treatment applications. Optimal conditions were determined as a coagulant dosage of 300 mg/L and a flocculation time of 30 min, while ANOVA results indicated that both variables significantly influenced turbidity removal (p < 0.05). Under these conditions, a turbidity reduction of 76.30% was achieved. However, the final turbidity and color values did not meet Colombian regulatory standards, which was attributed to the presence of residual minerals and a moderate degree of deacetylation. Overall, the results demonstrate that chitosan derived from fish scales represents a sustainable alternative to chemical coagulants; however, process optimization and complementary treatment stages are required to meet drinking water standards. Full article
(This article belongs to the Section Wastewater Treatment and Reuse)
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17 pages, 2394 KB  
Article
Screening of Aeromonas hydrophila W-02 with High Polysaccharide Hydrolases Activity and Its Application in Alginate Preparation
by Lijiao Wang, Chao Wang, Wenjun Deng, Qunqun Guo, Guicai Du and Ronggui Li
Microorganisms 2026, 14(7), 1407; https://doi.org/10.3390/microorganisms14071407 - 25 Jun 2026
Viewed by 238
Abstract
Alginate is the main structural polysaccharide in brown algal cell walls and is widely used in pharmaceuticals, textiles, cosmetics, feed, and other fields. Its tradition production methods feature low yield, high water consumption and environmental pollution, which need industrial upgrading. In this study, [...] Read more.
Alginate is the main structural polysaccharide in brown algal cell walls and is widely used in pharmaceuticals, textiles, cosmetics, feed, and other fields. Its tradition production methods feature low yield, high water consumption and environmental pollution, which need industrial upgrading. In this study, Aeromonas hydrophila W-02, a bacterial strain capable of simultaneously producing high levels of cellulase, pectinase, and glucanase, was isolated and identified from kelp humic liquid. Genome sequencing revealed that it has 5781 genes, 116 of which are related to glycoside hydrolysis. When A. hydrophila W-02 was applied to kelp for alginate extraction, the optimized bacterial method achieved a 38.21% yield, four times that of the traditional acid coagulation–acidification method (8.12%). Alginate was used to prepare alginate fiber and its performance indices were compared with those of commercial fibers. Scanning electron microscopy and mechanical properties analysis revealed no significant difference between alginate fibers from this novel process and commercial alginate. This study provides an efficient and green approach for alginate preparation and provides data to support the industrialization of high-efficiency bio-based alginate extraction. Full article
(This article belongs to the Section Environmental Microbiology)
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33 pages, 6201 KB  
Article
Innovative Bio-Based Coagulant from Prickly Pear (Opuntia ficus-indica) Seeds: Extraction, Optimization, and Application for Sustainable Wastewater Treatment
by Nawal Ferroudj, Abderrezzaq Benalia, Ouiem Baatache, Amira Trodi, Aya Mokhati, Kerroum Derbal, Amel Khalfaoui, Antonio Pizzi, Gennaro Trancone, Antonio Panico and Antonios N. Papadopoulos
Appl. Sci. 2026, 16(13), 6378; https://doi.org/10.3390/app16136378 (registering DOI) - 25 Jun 2026
Viewed by 230
Abstract
Coagulation–flocculation is widely recognized as a fundamental step in wastewater treatment, as it promotes the aggregation and removal of suspended particles and organic contaminants following the addition of a coagulant. In this study, a bio-based coagulant was prepared from prickly pear (Opuntia [...] Read more.
Coagulation–flocculation is widely recognized as a fundamental step in wastewater treatment, as it promotes the aggregation and removal of suspended particles and organic contaminants following the addition of a coagulant. In this study, a bio-based coagulant was prepared from prickly pear (Opuntia ficus-indica) seed residues obtained after essential oil extraction. The extraction process for bioactive agents was successfully modeled using Central Composite Design (CCD)-based Response Surface Methodology (RSM). Optimal extraction was reached at pH 13, PPSM of 7.5 g, 0.75 M NaCl, and 40 min of stirring, providing maximum yields of 69.63 g proteins, 217.075 g total sugars, and 81.416 g polyphenols. The optimized extract was subsequently used as a bio-coagulant for the treatment of wastewater collected from the Chalghoum El Aid–Oued El Athmania wastewater treatment plant (Mila, Algeria). The effects of three operating parameters, initial turbidity, solution pH, and bio-coagulant dosage, on the coagulation–flocculation performance were investigated using a Box–Behnken design (BBD). Process efficiency was evaluated in terms of turbidity, chemical oxygen demand (COD), and organic matter (OM) removal. The raw wastewater exhibited initial values of 200 NTU for turbidity, 640 mg/L for COD, and 25 for organic matter. Statistical analysis revealed that the developed quadratic models were highly significant (p ≤ 0.05) and showed excellent predictive performance, with coefficients of determination (R2 ≥ 0.97). Optimal treatment conditions were identified at pH 7, a bio-coagulant dosage of 1 mL/L, and an initial turbidity of 200 NTU. Under these conditions, removal efficiencies exceeded 98% for turbidity and COD and reached 88.08% for organic matter. Furthermore, Fourier-Transform Infrared (FTIR) Spectroscopy analysis confirmed the presence of functional groups responsible for the coagulation activity of the bio-coagulant. These findings highlight the potential of prickly pear seed residues as an effective, sustainable, and low-cost alternative to conventional chemical coagulants in wastewater treatment. Full article
(This article belongs to the Special Issue Innovative Materials and Technologies for Sustainable Packaging)
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23 pages, 1817 KB  
Article
Formulation Optimization of Felodipine Push–Pull Osmotic Pump Capsules Using Quality by Design Approach
by Chaowalit Monton and Poj Kulvanich
Sci. Pharm. 2026, 94(3), 52; https://doi.org/10.3390/scipharm94030052 - 25 Jun 2026
Viewed by 320
Abstract
Recently, the Quality by Design (QbD) principle has been implemented in the pharmaceutical industry to enhance product and process understanding through a science- and risk-based approach. This study aimed to apply QbD principles to the formulation development of felodipine push–pull osmotic pump (PPOP) [...] Read more.
Recently, the Quality by Design (QbD) principle has been implemented in the pharmaceutical industry to enhance product and process understanding through a science- and risk-based approach. This study aimed to apply QbD principles to the formulation development of felodipine push–pull osmotic pump (PPOP) capsules. The quality target product profile (QTPP) and critical quality attributes (CQAs) were established. A Box–Behnken experimental design was employed to optimize the formulation variables, including the amounts of Polyox WSR N80, Polyox WSR Coagulant, and sodium chloride, selected based on the initial risk assessment. Four responses were monitored: lag time, release rate and R2 based on zero-order release kinetics, and drug release at 24 h. Results indicated that the optimal formulation consisted of 125 mg Polyox WSR N80, 26 mg Polyox WSR Coagulant, and 30 mg sodium chloride. This formulation met the predefined criteria for lag time (≤6 h) and release kinetics (R2 ≥ 0.95), while drug release at 24 h remained below the target value (≥80%). Because most fitted response surface models were not statistically significant, the generated regression equations and response surfaces were interpreted qualitatively to identify formulation trends rather than as predictive models. Experimental verification showed reasonable consistency in overall response trends, although substantial deviations between predicted and observed values were observed for some responses, particularly drug release at 24 h. Therefore, the present work should be considered a formulation-development and QbD feasibility study rather than a definitive optimization study. These findings demonstrate that the QbD-based approach enabled systematic, multivariate optimization and design space establishment, providing a more structured framework for formulation refinement compared with prior exploratory development and supporting controlled drug release characteristics of felodipine PPOP capsules. Full article
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40 pages, 4494 KB  
Review
The Serpin Superfamily in Adipose Tissue Remodeling: Molecular Drivers of Immune–Metabolic Crosstalk and Insulin Sensitivity
by Nouran Alwisi, Alaa Abdelhamid, Amna Al-Quradaghi, Maha Talhami, Aldana M. Alkuwari, Nadia Alsharif, Jessica Saliba and Abdullah A. Shaito
Biology 2026, 15(13), 989; https://doi.org/10.3390/biology15130989 - 23 Jun 2026
Viewed by 385
Abstract
Adipose tissue remodeling is a dynamic process essential for metabolic homeostasis, enabling tissue expansion, extracellular matrix (ECM) turnover, angiogenesis, and coordinated immune adaptation. In obesity, however, maladaptive remodeling characterized by fibrosis, chronic low-grade inflammation, and hypoxia disrupts adipose plasticity and promotes systemic insulin [...] Read more.
Adipose tissue remodeling is a dynamic process essential for metabolic homeostasis, enabling tissue expansion, extracellular matrix (ECM) turnover, angiogenesis, and coordinated immune adaptation. In obesity, however, maladaptive remodeling characterized by fibrosis, chronic low-grade inflammation, and hypoxia disrupts adipose plasticity and promotes systemic insulin resistance. Central to these processes is the tightly regulated homeostasis between proteases and their inhibitors, in which the serine protease inhibitor (serpin) superfamily represents an important yet underappreciated regulatory axis. Beyond their classical roles in coagulation and fibrinolysis, serpins regulate ECM remodeling, macrophage recruitment and polarization, cytokine signaling, angiogenic responses, adipokine activity, and insulin sensitivity, thereby orchestrating immune–metabolic crosstalk within adipose depots. Emerging evidence indicates that individual serpins exert distinct and context-dependent effects, with some promoting fibrosis, inflammation, and metabolic dysfunction, whereas others preserve adipose tissue homeostasis and metabolic function. This review synthesizes current knowledge on the structural and functional diversity of the serpin superfamily and examines their mechanistic roles in adipose tissue remodeling during obesity, with particular emphasis on how adipose-associated serpins regulate adipose tissue homeostasis, depot-specific remodeling, and immune–metabolic crosstalk. The review further discusses the experimental and translational applications of emerging single-cell and spatial transcriptomics, multi-omics, and computational approaches that may advance the understanding of serpin biology, improve the investigation of human adipose tissue, and accelerate the identification of clinically relevant serpin-related biomarkers and therapeutic targets for obesity and related metabolic disorders. By positioning serpins as key regulators of adipose tissue remodeling and immune–metabolic integration, this review highlights protease–antiprotease balance as a central determinant of metabolic health and identifies serpins as promising biomarkers and therapeutic targets for obesity and related metabolic disorders. Full article
(This article belongs to the Section Medical Biology)
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21 pages, 2999 KB  
Article
Study of Polyurethane Microplastics Removal from Water Using Smart Installation
by Daniela Simina Stefan, Gheorghe Pauna, Andreea Alexandra Barbu, Rachid Aziam and Ana Iulia Stefan
Polymers 2026, 18(12), 1513; https://doi.org/10.3390/polym18121513 - 17 Jun 2026
Viewed by 263
Abstract
Microplastics, MPs, plastic particles with dimensions between 0.1 and 5 mm, represent an important environmental pollutant. The removal of microplastics from natural and wastewater is a challenging research topic. In this regard, high-performance technical solutions must be identified, which can be based on [...] Read more.
Microplastics, MPs, plastic particles with dimensions between 0.1 and 5 mm, represent an important environmental pollutant. The removal of microplastics from natural and wastewater is a challenging research topic. In this regard, high-performance technical solutions must be identified, which can be based on existing treatment and purification technologies, to ensure their removal at concentration values in accordance with the legislation in force. In this study, the efficiency of removing some fractions of polyurethane microplastics, with dimensions smaller than 500 µm, from aqueous synthetic solutions with a concentration of 0.2 g L−1, i.e., around 175 NTU, was evaluated. In the first stage of the study, the doses of coagulants and flocculants effective for the removal of microplastics were identified through the Jar Test. The variation in turbidity and their removal efficiencies were evaluated in the presence of classic coagulants, such as aluminum sulfate, Al2(SO4)3·18H2O, SA; iron sulfate (ferrous sulfate), FeSO4, IS; polyaluminum chloride, [Al2(OH)nCl6−n], PAC; Aloe Vera, AV, a flocculant; and activated carbon, AC, of the Norit GAC 830 W type. Classic coagulants, such as aluminum sulfate, have a good efficiency in removing microplastics, being able to provide a residual turbidity in the range of 6–10 NTU after a retention time of 50–60 min. In the second stage of the study, the removal efficiency of microplastics was tested using a laboratory pilot plant—called in the study the Smart Decantation-Filtration System, SDFS. The efficiency of the decanter was studied using Response Surface Methodology (RSM) to identify mathematical models that characterize the influence of key process variables: flow rate (A), microplastic size (B) and aluminum sulfate concentration (C) on microplastic removal efficiency. Sedimentation in the specially constructed decanter can raise the optimal value of the removal efficiency of polyurethane microplastics to 98.98%, and filtration can ensure an efficiency that reaches over 99.5%. Through this research, we aimed to identify viable solutions that can be applied to remove microplastics, MPs, from natural and wastewater. A novel element is the fact that we chose to study the removal of polyurethane, which is studied little in the literature. We identified the optimal doses of coagulants and flocculants that help sedimentation of MPs. The efficiency of an installation called Smart Decantation-Filtration System, specially designed to ensure increased efficiency in the removal of microplastics, was determined. The results obtained were encouraging. Full article
(This article belongs to the Section Circular and Green Sustainable Polymer Science)
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