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33 pages, 4715 KB  
Article
Agrivoltaics Can Add Value to High Tunnels in a Subtropical Environment
by Richard Field, Brian Abernathy, Eshwar Ravishankar, Kate Cassity-Duffey and Justin Vaughn
Agronomy 2026, 16(13), 1299; https://doi.org/10.3390/agronomy16131299 (registering DOI) - 7 Jul 2026
Abstract
The goal of agrivoltaic engineers is to use growing space for the synergistic production of both food and energy, typically via photovoltaic (PV) capture. Most research in this area has been carried out in arid, high-light environments, but subtropical and temperate regions are [...] Read more.
The goal of agrivoltaic engineers is to use growing space for the synergistic production of both food and energy, typically via photovoltaic (PV) capture. Most research in this area has been carried out in arid, high-light environments, but subtropical and temperate regions are also critical production zones, and installation designs vary considerably. In this study, tomato and lettuce production using an agrivoltaic high tunnel (HT) design specific for a subtropical environment (NE Georgia, USA, USDA Zone 8A) was tested using organic production standards. The design utilized typical HTs (approx. 11 m × 5 m) with solar panel arrays hung internally. The design aimed to (1) meet off-grid power needs, (2) mitigate excessive temperature and humidity, (3) balance shade and plant productivity, and (4) simplify installation and maintenance. Treatments were replicated at the HT level, and cultivar differences were assessed to identify genotypes that might serve in future work to optimize yield under partial shade. In 2023 and 2024, we employed novel organic photovoltaic (OPV) panels, which are partially opaque. The OPV panels provided sufficient energy needs to maintain beneficial conditions without external power sources. In 2024, tomato plants in the OPV HTs experienced an area-weighted daily light integral (DLI, mol photons m−2 d−1) of approximately 31.8 (95% CI [28.9, 34.7]), compared to 34.7 (95% CI [31.8, 37.6]) in non-OPV HTs, an approximate reduction of 8%. Average maximum temperatures in the OPV HTs were 33.5 °C (95% CI [30.6, 36.4], compared to 35.1 °C (95% CI [30.9, 39.2]) in the non-OPV HTs, an approximate reduction of 1.6 °C. In 2023, tomato marketable yield was reduced by approximately 0.9 kg per plant in OPV HTs compared to non-OPV HTs (p = 0.023). In 2024, yields were statistically equivalent across all treatments (p > 0.1), while marketable fraction was improved relative to 2023 and was greatest in the HTs. Lettuce yield for both years was unaffected by the presence of HTs or OPV panels (p > 0.1). In 2025, we conducted an additional experiment using a shade-equivalent array of conventional 100% opaque photovoltaic (PV) panels and observed a similar reduction in DLI and no significant impact on tomato yield parameters (p > 0.1 Both designs were effective at equilibrating conditions inside the HTs to ambient temperature levels outside the tunnels. Using results from the study, an app for agrivoltaic value estimation was developed. Based on that software, the presented agrivoltaic design under currently available silicon–PV technology achieves an 18% annual return, assuming system depreciation is minimal and surplus energy could be applied to other on-farm needs. Full article
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16 pages, 2525 KB  
Article
Multilocus Molecular Characterization of a 16SrII-D Phytoplasma Infecting Black Carrot in Türkiye
by Hakan Çarpar and Ömer Faruk Coşkun
Pathogens 2026, 15(7), 712; https://doi.org/10.3390/pathogens15070712 - 7 Jul 2026
Abstract
During the 2024 growing season, black carrot (Daucus carota subsp. sativus) plants showing symptoms consistent with phytoplasma infection, including leaf chlorosis, reduced leaf size, witches’ broom, excessive fibrous root formation, multiple lateral taproots, and floral phyllody, were observed in production fields [...] Read more.
During the 2024 growing season, black carrot (Daucus carota subsp. sativus) plants showing symptoms consistent with phytoplasma infection, including leaf chlorosis, reduced leaf size, witches’ broom, excessive fibrous root formation, multiple lateral taproots, and floral phyllody, were observed in production fields in Hatay Province, Türkiye. To identify the associated phytoplasma, 23 symptomatic plants and two asymptomatic control plants were analysed using PCR-based molecular detection, sequencing, BLASTn comparison, and phylogenetic analyses of the 16S rRNA, secA, tuf, and imp gene regions. The SAP11 gene was also screened as an additional virulence-associated molecular marker, but no functional characterization was performed. All symptomatic samples yielded amplicons of the expected sizes for the targeted loci, whereas no amplification was obtained from asymptomatic controls. Sequence comparisons revealed >99% nucleotide identity with members of the peanut witches’ broom group, and multilocus phylogenetic analyses consistently placed the black carrot phytoplasma isolate within the 16SrII-D subgroup. To our knowledge, this study provides the first documented evidence of a 16SrII-D phytoplasma associated with black carrot in Türkiye. The finding is relevant for plant pathology and plant protection because it indicates the occurrence of a phytoplasma lineage with potential epidemiological importance in an economically important vegetable production area. These results provide a basis for future studies on disease distribution, insect vectors, alternative host plants, epidemiology, and management strategies in black carrot production systems. Full article
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24 pages, 6995 KB  
Article
Decoding the Geomechanical Memory of Deep Shales: Decoupling Extreme 3D Stress and Overpressure for Unconventional Engineering
by Gang Wang, Changyu Fan, Zhenliang Wang and Haijun Yang
Geosciences 2026, 16(7), 276; https://doi.org/10.3390/geosciences16070276 - 6 Jul 2026
Abstract
Predicting present-day pore pressure and 3D in situ stress in ultra-deep fold-thrust belts is severely hindered by the inadequacies of traditional 1D vertical compaction models, which fail to account for massive lateral tectonic compression and continuous elastoplastic yielding. To overcome this, a 3D [...] Read more.
Predicting present-day pore pressure and 3D in situ stress in ultra-deep fold-thrust belts is severely hindered by the inadequacies of traditional 1D vertical compaction models, which fail to account for massive lateral tectonic compression and continuous elastoplastic yielding. To overcome this, a 3D poro-elastoplastic analytical framework is developed based on the Modified Cam-Clay model to decode the irreversible “geomechanical memory” of deeply buried argillaceous rocks. Applied to the highly compressed Kelasu Thrust Belt, this method links volumetric strain with mean and deviatoric stresses in stress-invariant space to reconstruct the maximum paleo-pore pressure and 3D paleo-stress tensor during the Coulomb Failure Period (CFP). The quantitative decoupling reveals an extreme state of geopressure prior to macroscopic faulting (pore pressure ratio α = 0.85–0.89). Crucially, the mean stress surge is identified as the dominant driver, generating ~91% of the excess overpressure. Consequently, horizontal tectonic compression accounts for 80–90% of the total overpressure anomaly, fundamentally overturning the classical assumption that vertical undercompaction (10–20%) is the primary mechanism. Furthermore, it is demonstrated that during subsequent tectonic uplift, the heavily compacted, salt-capped mudstones follow an undrained unloading path; the reduction in lithostatic burden is almost entirely offset by fluid depressurization, maintaining a constant effective stress state. This physically decoupled framework provides a rigorous basis for optimizing pre-drill safe mud-weight windows, designing hydraulic fracturing in highly deviatoric stress regimes, and assessing caprock integrity for deep geo-energy storage. Full article
(This article belongs to the Section Geomechanics)
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21 pages, 10147 KB  
Article
MI-ACVNet: A Lightweight Stereo Matching Network for High-Precision Single-View 3D Reconstruction of Kirin Watermelons
by Zetong Li, Xufeng Xu, Yuan Gao, Wenqian Lei and Xiuqin Rao
Agriculture 2026, 16(13), 1475; https://doi.org/10.3390/agriculture16131475 - 6 Jul 2026
Abstract
Three-dimensional surface reconstruction is essential for accurately acquiring the external quality parameters of watermelons, such as size, volume, and defect area. Binocular stereo vision provides a low-cost and easily deployable solution for the single-view 3D reconstruction of watermelons. However, watermelons present highly similar [...] Read more.
Three-dimensional surface reconstruction is essential for accurately acquiring the external quality parameters of watermelons, such as size, volume, and defect area. Binocular stereo vision provides a low-cost and easily deployable solution for the single-view 3D reconstruction of watermelons. However, watermelons present highly similar surface textures, and as typical spheroid-like objects, the excessive angle between surface normals of edge regions and the camera optical axis leads to insufficient feature representation. Consequently, directly applying existing stereo matching algorithms often introduces matching ambiguities, and lightweight networks struggle to balance real-time performance with matching accuracy. This study focuses on the high-precision single-view point cloud generation of Kirin watermelons. To address these issues, we first construct a cross-modal, high-precision Kirin watermelon stereo matching dataset. Building upon the Fast-ACVNet+ architecture, we then propose MI-ACVNet, a lightweight stereo matching network tailored for high-precision watermelon point cloud acquisition. In the feature extraction stage, a Multi-Scale Stereo Feature Extraction (MSFE) module is adapted. By incorporating the re-parameterized network MobileOne and Epipolar-Enhanced Coordinate Attention (E2CA), MSFE improves the discriminative capability for weak and similar textures without compromising inference speed. For cost computation, a Coarse-to-Fine Cascaded Residual Correction (C2F-CRC) strategy is incorporated to construct a fine-grained cost volume via sub-pixel interpolation, enhancing the network’s ability to capture subtle surface fluctuations. Furthermore, a Semantics-Guided Region-Aware Loss (SGRA-Loss) is formulated, leveraging semantic masks to apply differentiated supervision weights across edge, center, and background regions to significantly improve edge matching accuracy. Ablation studies validate the effectiveness of the MSFE, C2F-CRC, and SGRA-Loss components. Compared to the baseline model, the full MI-ACVNet reduces the End-Point Error (EPE) by 19.5% and the Bad-0.5 error rate by 34.5% in the watermelon region. Furthermore, when compared against five mainstream algorithms (StereoNet, AANet, HSMNet, LightStereo-L, and NMRF-swint), MI-ACVNet achieves state-of-the-art performance: EPE and Bad-0.5 are reduced to 0.091 pixels and 1.159%, respectively, with a single-frame inference time of only 46 ms. The average depth error of the reconstructed point clouds is merely 0.26 mm. By ensuring both real-time efficiency and high-precision depth estimation, this method demonstrates promising potential for deployment in industrial Kirin watermelon sorting lines, driving sorting equipment toward higher precision and intelligence. Full article
(This article belongs to the Special Issue Nondestructive Quality Evaluation of Agricultural Products)
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37 pages, 17500 KB  
Article
Experimental Investigation of a Modified Towery Bio-Rack Constructed Wetland System for Domestic Wastewater Treatment
by Mahesh Lokhande, Popat Kumbhar, Dipak A. Jadhav, Mahesh Balasaheb Chougule and Chirag Yogendra Chaware
Water 2026, 18(13), 1630; https://doi.org/10.3390/w18131630 - 5 Jul 2026
Viewed by 212
Abstract
The growing urbanisation of India is a major contributor to the production of 72,368 million litres of wastewater daily. Unfortunately, not even 28 to 31% of the generated wastewater receives proper treatment before disposal, putting public health, water quality, and ecological conditions at [...] Read more.
The growing urbanisation of India is a major contributor to the production of 72,368 million litres of wastewater daily. Unfortunately, not even 28 to 31% of the generated wastewater receives proper treatment before disposal, putting public health, water quality, and ecological conditions at risk. Traditional wastewater treatment technologies have been proven effective, but they cannot be applied in decentralised settings due to excessive initial investment costs, continuous power needs, and the need for expert supervision. Constructed wetlands (CWs) provide an efficient and environmentally friendly option for decentralised treatment, but these systems suffer from a gradual loss of effectiveness associated with the problem of media-clogging in traditional setups. This research investigates the functioning and efficiency of the Modified Towery Bio-rack Constructed Wetland (MTBRCW) technology designed specifically to mitigate media-clogging issues. The MTBRCW is tested on the basis of its performance under continuous operating conditions for thirteen months (January 2025 to January 2026), as well as on the effectiveness of the treatment at eight different hydraulic retention times (days 1 to 8). A pilot-scale MTBRCW system was monitored through two periodic sampling events (S1 and S2) conducted during each month of operation. The pilot-scale MTBRCW unit is made up of an inlet storage tank (volume 0.099 m3) followed by two wetland containers (volume 0.034 m3 each) planted with Typha angustifolia and Chrysopogon zizanioides (vetiver grass). In continuous testing mode, influent–effluent paired samples are collected for eight days at each HRT (totalling eighty samples), and samples are analysed according to APHA Standard Methods for pH, BOD, COD, TN, and TP. In continuous testing mode, the MTBRCW exhibits high removal efficiencies at the levels of 89.8% for BOD, 87.5% for COD, 78.2% for TN, and 74.4% for TP. The BOD/COD of the effluent was within the prescribed CPCB discharge limits for all thirteen months of the study, and the TN levels were adhered to in 12 out of 13 months, with one non-compliance event recorded only in July 2025 (effluent TN = 10.8 mg/L), coinciding with the peak monsoon hydraulic loading rate of 0.28 m3/m2·d. TP remained within CPCB limits in all thirteen months. In batch testing mode, removal efficiencies are 94.9% for BOD and 89.9% for COD by day 8. In addition, there were no indications of clogging or any reduction in hydraulic performance during the entire period of the tests through the use of visual inspections and measurement of the outlet flows, but this can only be seen as an observation in a field operation, and not as proof of the hydraulic performance of the system, since no tracer test or measurement of hydraulic conductivity was conducted. Full article
(This article belongs to the Special Issue Water Quality, Wastewater Treatment and Water Recycling, 2nd Edition)
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16 pages, 3728 KB  
Article
Fracture Risk Evaluation of Trochlear Groove Depth in Toy and Small-Breed Dogs Under Gait-Based Loading: A Finite Element and Fatigue Analysis Study
by Minuk Jeong, Heung-Myoung Woo, Kihoon Kim and Junhyung Kim
Animals 2026, 16(13), 2081; https://doi.org/10.3390/ani16132081 - 5 Jul 2026
Viewed by 85
Abstract
This study evaluated fracture risk associated with varying trochlear groove depth-to-patellar thickness (D/T) ratios in toy and small-breed dogs using finite element analysis and cadaveric mechanical testing. Finite element models derived from computed tomography data of a 4.5-kg toy poodle were adjusted to [...] Read more.
This study evaluated fracture risk associated with varying trochlear groove depth-to-patellar thickness (D/T) ratios in toy and small-breed dogs using finite element analysis and cadaveric mechanical testing. Finite element models derived from computed tomography data of a 4.5-kg toy poodle were adjusted to simulate D/T ratios ranging from 0.5 to 2.0 and analyzed for von Mises stress, principal strain, safety factor, and fatigue life under standing, trotting, and jumping conditions. Increasing D/T ratios led to progressive rises in stress and compressive strain, with the safety factor falling below 1.0 during jumping at ratios of 1.0 or higher. Fatigue life declined sharply beyond a ratio of 1.25 and reached zero-cycle failure at 2.0. Complementary mechanical testing of six distal femurs (6.42–8.7 kg), surgically modified to D/T ratios of 0.5, 1.0, or 1.5, revealed fracture patterns consistent with finite element predictions. These findings suggest that excessive trochlear deepening may compromise femoral integrity and elevate fracture risk, particularly under cyclic loading. Maintaining a D/T ratio between 0.75 and 1.0 may provide an optimal balance between effective patellar tracking and mechanical safety. Full article
(This article belongs to the Section Veterinary Clinical Studies)
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15 pages, 4414 KB  
Article
Identification of miR-320d as a Negative Regulator of Proliferation and Fatty Acid Synthesis via Targeting SCD in Ovine Tail Preadipocytes
by Yaling Yang, Wujun Liu and Hang Cao
Animals 2026, 16(13), 2071; https://doi.org/10.3390/ani16132071 - 4 Jul 2026
Viewed by 149
Abstract
Excessive tail fat deposition in sheep limits feed conversion efficiency and carcass quality, making the genetic improvement of this trait a priority. This study aimed to elucidate the molecular mechanisms regulating ovine fat metabolism. We analyzed the tissue specific expression of two candidate [...] Read more.
Excessive tail fat deposition in sheep limits feed conversion efficiency and carcass quality, making the genetic improvement of this trait a priority. This study aimed to elucidate the molecular mechanisms regulating ovine fat metabolism. We analyzed the tissue specific expression of two candidate microRNAs, miR-320d and miR-151b, alongside their target genes SCD and ACACA, across tissues from fat-tailed and thin-tailed sheep using quantitative real-time PCR. The regulatory function of the tail fat specific miR-320d was further validated in vitro using isolated ovine tail preadipocytes. Results indicated that miR-320d and miR-151b are specifically highly expressed in tail and subcutaneous adipose tissues, respectively, and correlate negatively with their target genes. Dual-luciferase reporter assays confirmed that miR-320d directly targets the 3′UTR of SCD and suppresses its transcription. Overexpression of miR-320d significantly inhibited the proliferation of tail preadipocytes and downregulated downstream genes in the fatty acid metabolism pathway, including ACACA, ELOVL6, ELOVL5, and FASN. In conclusion, miR-320d exerts a negative regulatory effect on sheep tail fat deposition by suppressing preadipocyte proliferation and fatty acid synthesis, while miR-151b emerges as a potential candidate for subcutaneous fat regulation. Full article
(This article belongs to the Section Small Ruminants)
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17 pages, 4282 KB  
Article
Regulatory Mechanism of SAC Content in Chloride Binding Characteristics of Ternary Repair Materials
by Xiang He, Mengdie Niu, Heng Zhou, Jingjing He, Honglin Xie, Cunbao Hu, Li Qian and Fangping Li
Materials 2026, 19(13), 2862; https://doi.org/10.3390/ma19132862 - 4 Jul 2026
Viewed by 145
Abstract
Corrosion of reinforcing steel and degradation of concrete caused by chloride penetration are the most critical forms of durability failure in marine environments. This requires that repair materials possess both high impermeability and stable chemical binding capacity. In this study, the impact patterns [...] Read more.
Corrosion of reinforcing steel and degradation of concrete caused by chloride penetration are the most critical forms of durability failure in marine environments. This requires that repair materials possess both high impermeability and stable chemical binding capacity. In this study, the impact patterns of sulfoaluminate cement (SAC) dosage on the chloride erosion durability of an OPC-GGBS-SAC ternary repair system were systematically evaluated. Through chloride ion binding capacity tests, electrical flux experiments, and microscopic analytical techniques including XRD, DTG and SEM-EDS, the synergistic regulation mechanisms of the dual functions of ‘physical barrier’ and ‘chemical binding’ in the composite material were elucidated. The findings show that the performance of the composite material was optimal at an SAC content of 10%. The electrical flux of composite materials at 28 d was 28.9% lower than that of the OPC system, whilst the chloride ion binding rate increased by 3.92%. Microstructural analysis indicates that an appropriate amount of SAC promoted the generation of ettringite (AFt) to optimize the early-age pore structure and stimulated the production of more C-S-H gel and AFm phases, thus synergistically enhancing impermeability and chemical binding capacity. When the SAC content exceeded 10%, excess gypsum inhibited the formation of AFm. Moreover, the concentration of early-stage hydration led to microdefects, resulting in a decline in durability. This study identifies the optimal dosage of SAC in the ternary system and clarifies the underlying mechanism, thereby providing a scientific basis for designing high-durability repair materials suitable for harsh ocean conditions. Full article
(This article belongs to the Section Construction and Building Materials)
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26 pages, 4250 KB  
Article
Integrated Foodomics Reveals Gut Microbiota–Metabolite–Gene Interactions Associated with the Immunoprotective Effects of Ganoderma lucidum Polysaccharide Peptide
by Jing Xie, Zilong An, Dongmei Lin, Jing Li, Shuqi Yu, Mazurenko Ihor and Zhanxi Lin
Foods 2026, 15(13), 2370; https://doi.org/10.3390/foods15132370 - 3 Jul 2026
Viewed by 192
Abstract
Ganoderma lucidum polysaccharide peptide (GLPP) is a food-derived macromolecule with immunomodulatory potential, but its gut-centered mechanisms under chemotherapy-associated immunosuppressive stress remain unclear. This study aimed to evaluate the protective effects of GLPP against cyclophosphamide (CTX)-induced immunosuppression and intestinal injury in mice and to [...] Read more.
Ganoderma lucidum polysaccharide peptide (GLPP) is a food-derived macromolecule with immunomodulatory potential, but its gut-centered mechanisms under chemotherapy-associated immunosuppressive stress remain unclear. This study aimed to evaluate the protective effects of GLPP against cyclophosphamide (CTX)-induced immunosuppression and intestinal injury in mice and to explore the associated microbiota–metabolite–gene interaction network using integrated foodomics. BALB/c mice were treated with CTX and then administered GLPP at 50, 100, or 200 mg/kg/day for 42 days, with levamisole as a positive control. High-dose GLPP restored spleen index from 1.592 ± 0.266 to 1.902 ± 0.212 mg/g and thymus index from 0.322 ± 0.146 to 0.656 ± 0.081 mg/g compared with the CTX group. It also enhanced lymphocyte proliferation (OD450: 1.529 ± 0.073 vs. 1.065 ± 0.051), increased carbon clearance index (3.403 ± 0.223 vs. 2.650 ± 0.164), elevated IL-2 and IgA levels, and reduced excessive IFN-γ and TNF-α responses. GLPP alleviated intestinal mucosal injury and reshaped gut microbial profiles, particularly taxa related to Bacteroidota and Bacteroides. Metabolomics revealed putatively annotated differential metabolites associated with amino acid, nicotinate–nicotinamide, and glycerophospholipid metabolism, while transcriptomics indicated modulation of PRR/MAPK-related immune signaling. Integrated correlation analysis suggested a microbiota–metabolite–gene–immune association network involving putative gamma-Glutamylleucine(γ-Glu-Leu), leukotriene D4(LTD4)-like lipid features, and hippuric acid. These findings support GLPP as a promising immune-supporting functional food ingredient, although metabolite assignments and causal mechanisms require further validation. Full article
(This article belongs to the Section Foodomics)
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27 pages, 4657 KB  
Review
Crinophagy in Pancreatic Beta Cells: From Insulin Granule Turnover to Diabetes Pathogenesis
by Muralidharan Mani and Thomas F. J. Martin
Pathophysiology 2026, 33(3), 45; https://doi.org/10.3390/pathophysiology33030045 - 3 Jul 2026
Viewed by 110
Abstract
Pancreatic β-cells maintain glucose homeostasis through tightly regulated insulin biosynthesis, storage, and secretion. To prevent pathological accumulation of excess or aging secretory granules (SGs), β-cells use crinophagy, a selective lysosomal degradation pathway in which mature insulin-containing granules fuse directly with lysosomes to form [...] Read more.
Pancreatic β-cells maintain glucose homeostasis through tightly regulated insulin biosynthesis, storage, and secretion. To prevent pathological accumulation of excess or aging secretory granules (SGs), β-cells use crinophagy, a selective lysosomal degradation pathway in which mature insulin-containing granules fuse directly with lysosomes to form hybrid organelles termed crinosomes. Crinophagy was historically considered a simple mechanism for discarding obsolete, aged SGs. The acidic, protease-rich environment of crinosomes is proposed to generate unconventional insulin-derived epitopes through cathepsin-mediated proteolysis and transpeptidation reactions. These cryptic epitopes, which include hybrid insulin peptides (HIPs) resulting from the covalent fusion of insulin fragments with peptides from co-resident granule proteins, are largely absent from the thymic epitope repertoire. This creates a “peripheral–thymic mismatch” that allows autoreactive CD4+ T cells to escape central tolerance, ultimately driving β-cell destruction in type 1 diabetes (T1D). Recent studies demonstrate that pharmacological or genetic inhibition of crinophagy reduces crinosome abundance, narrows the pathogenic epitope repertoire, and delays the onset of diabetes in preclinical models. In type 2 diabetes (T2D), a related pathway termed stress-induced nascent granule degradation (SINGD) diverts newly synthesized insulin granules to lysosomes under glucolipotoxic conditions, contributing to insulin depletion and progressive β-cell failure. This review summarizes the current understanding of the molecular mechanisms behind crinophagy. It discusses its two main functions: maintaining physiological quality control and generating pathological antigens. Additionally, the review explores how crinophagy interacts with other cellular stress pathways and highlights new therapeutic strategies aimed at targeting this process to protect pancreatic β-cell function and potentially prevent or delay diabetes. Full article
(This article belongs to the Section Cellular and Molecular Mechanisms)
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10 pages, 1207 KB  
Article
Hemicircular Tibial Plateau Leveling Osteotomy (hTPLO) for Dogs with Excessive Tibial Plateau Angles: A Comparative Study Using 3D Bone Models
by Kyuman Cho
Vet. Sci. 2026, 13(7), 648; https://doi.org/10.3390/vetsci13070648 - 2 Jul 2026
Viewed by 269
Abstract
A comparative study on hemicircular tibial plateau leveling osteotomy (hTPLO) and TPLO for correcting cranial cruciate ligament (CCL) ruptures at excessive tibial plateau angles (eTPAs) was performed with a specially fabricated hTPLO saw blade (hemicircular) and TPLO saw blade (quartercircular), respectively. Ten 3D-printed [...] Read more.
A comparative study on hemicircular tibial plateau leveling osteotomy (hTPLO) and TPLO for correcting cranial cruciate ligament (CCL) ruptures at excessive tibial plateau angles (eTPAs) was performed with a specially fabricated hTPLO saw blade (hemicircular) and TPLO saw blade (quartercircular), respectively. Ten 3D-printed bone models with eTPAs (TPA > 40°), were resized to accommodate the respective saw blade shape for each method. Cranial closing wedge osteotomy (CCWO) combined with TPLO was also performed. Distances of segment rotation below the patellar tendon insertion (PTI) and differences between anatomical and mechanical axes after correction were measured. The TPAs of the bone models were 46.06 ± 4.40° (40.0–50.7°). Postoperative TPAs of hTPLO, TPLO, and TPLO combined with CCWO were 4.93 ± 1.025°, 4.52 ± 0.085°, and 4.17 ± 1.128°, respectively. Rotation distances from the PTI were 0.46 ± 2.153 mm, 8.67 ± 2.318 mm, and 1.13 ± 1.796 mm, respectively. hTPLO showed significantly less movement of the segment below the PTI than TPLO with or without CCWO (p < 0.01). Differences between anatomical and mechanical axes after hTPLO and TPLO with or without CCWO were 5.74 ± 2.231°, 6.43 ± 2.105°, and 5.16 ± 2.465°, respectively. Within the limitations of this model-based study, hTPLO demonstrated geometric feasibility for correction of excessive tibial plateau angles and was associated with less rotational displacement of the proximal tibial segment relative to the patellar tendon insertion than conventional TPLO and TPLO combined with CCWO. Further cadaveric, biomechanical, and clinical studies are required to evaluate its safety and clinical applicability. Full article
(This article belongs to the Section Veterinary Surgery)
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26 pages, 5529 KB  
Article
A Mathematical Model for Water Huff-and-Puff in Tight Oil Reservoirs Considering the Effect of Low-Salinity Water
by Xiong Liu, Yu Chen, Yirui Ren, Tuanqi Yao and Zhiyuan Du
Processes 2026, 14(13), 2153; https://doi.org/10.3390/pr14132153 - 1 Jul 2026
Viewed by 153
Abstract
To address the insufficient consideration of osmotic pressure in existing studies on water huff-and-puff in tight oil reservoirs, this paper introduces both osmotic and capillary pressures into two-phase flow theory and develops a full-cycle model for low-salinity water injection. The effects of salinity, [...] Read more.
To address the insufficient consideration of osmotic pressure in existing studies on water huff-and-puff in tight oil reservoirs, this paper introduces both osmotic and capillary pressures into two-phase flow theory and develops a full-cycle model for low-salinity water injection. The effects of salinity, injection rate, and soaking time on pressure, saturation, and salt concentration are analyzed. Results show that lower salinity enhances osmotic drive and improves recovery. Specifically, 1000 mg/L yields the highest recovery (10.94%) and an osmotic gradient of ~3.9 MPa. Capillary pressure acts synergistically with osmotic pressure during the soaking stage, promoting spontaneous imbibition and fluid redistribution. An optimal injection rate exists: excessive rates reduce swept volume, while very low rates prolong the cycle. Quantitatively, 80 m3/d is preferred (recovery 10.94%) over 40 m3/d (11.13%) as it halves the injection time with comparable recovery. There is also an optimal soaking time beyond which incremental gain diminishes. Recovery rises from 9.32% at 20 d to 10.94% at 40 d, with only 0.28% and 0.20% gains afterward; thus, 40 d is optimal. The model captures osmotic-driven behavior and reveals the secondary displacement effect during soaking, supporting parameter optimization. Full article
(This article belongs to the Section Petroleum and Low-Carbon Energy Process Engineering)
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22 pages, 2186 KB  
Article
High-Content Analysis of 3D Chondrogenic Pellets Derived from Primary Cells In Vitro
by Lucija Voga, Tilen Burnik, Maša Kandušer, Matjaž Jeras, Janja Zupan and Andreja Trojner Bregar
Biomedicines 2026, 14(7), 1496; https://doi.org/10.3390/biomedicines14071496 - 1 Jul 2026
Viewed by 291
Abstract
Background: Primary cells derived from connective tissues contain mesenchymal stem/stromal cell (MSC)–like progenitors with chondrogenic potential relevant for cartilage repair. However, donor- and tissue-specific variability and the lack of robust, high-content analytical methods limit their translational use. Objectives: This study aimed [...] Read more.
Background: Primary cells derived from connective tissues contain mesenchymal stem/stromal cell (MSC)–like progenitors with chondrogenic potential relevant for cartilage repair. However, donor- and tissue-specific variability and the lack of robust, high-content analytical methods limit their translational use. Objectives: This study aimed to develop and optimize a high-content imaging workflow for quantitative evaluation of chondrogenesis in three-dimensional (3D) pellets derived from primary cells. Methods: Primary human cells isolated from cartilage were chondrogenically differentiated in vitro. A systematic optimization of immunofluorescence staining parameters was performed, including staining platform, enzymatic matrix digestion, non-specific site blocking, membrane permeabilization, and nuclear counterstaining. Type II collagen was detected using an Alexa Fluor 488–conjugated antibody, and pellets were analyzed using high-content non-confocal imaging. Fluorescence intensities were adjusted to the pellet area to account for size-dependent effects. Results: Staining directly in imaging plates enabled streamlined high-content analysis. Controlled pepsin-mediated matrix digestion markedly enhanced antibody penetration, while excessive digestion compromised pellet integrity. Extended bovine serum albumin blocking improved type II collagen signal intensity and homogeneity. Triton X-100 permeabilization increased detection sensitivity but occasionally induced structural disruption in weakly organized control pellets. The optimized protocol enabled clear discrimination between chondrogenic pellets and controls, with approximately threefold higher type II collagen signal in chondrogenic samples. Conclusions: This study establishes a high-content imaging–based workflow for quantitative assessment of 3D chondrogenesis from primary cells. The approach provides a rapid, scalable platform with direct relevance for in vitro screening, potency testing, and quality control in cartilage-oriented advanced therapy development. Full article
(This article belongs to the Special Issue Stem Cell Therapy: Traps and Tricks)
7 pages, 4213 KB  
Proceeding Paper
Impact of Post-Processing Cleaning Agents on the Mechanical and Physical Properties of Water-Washable vs. Conventional 3D-Printed Dental Resins
by Roxana Gheorghita, Irina Besliu Bancescu and Alexandru Nemtoi
Eng. Proc. 2026, 148(1), 9; https://doi.org/10.3390/engproc2026148009 - 1 Jul 2026
Viewed by 84
Abstract
This study aimed to evaluate the influence of various 3D printing resins and post-processing cleaning protocols on the physical and mechanical characteristics of printed dental models. Specifically, the research compared the effects of water-based vs. isopropyl alcohol (IPA)-based cleaning on surface morphology, mass, [...] Read more.
This study aimed to evaluate the influence of various 3D printing resins and post-processing cleaning protocols on the physical and mechanical characteristics of printed dental models. Specifically, the research compared the effects of water-based vs. isopropyl alcohol (IPA)-based cleaning on surface morphology, mass, color stability, and mechanical durability. The findings revealed that surface roughness and microstructure remained constant regardless of the solvent used, indicating that these properties are primarily driven by resin composition and curing protocols. However, specimens cleaned with water exhibited slightly higher mass values due to moisture retention or lower evaporation rates. Color stability remained unaffected by the post-processing method. Most notably, water-cleaned models demonstrated superior mechanical durability and structural integrity compared to those processed with IPA, which is often associated with micro-fractures and excessive dehydration. Full article
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17 pages, 1804 KB  
Article
Evaluation and Selection of Thermal Processing Conditions for Safety, Flavor Retention, and Shelf-Life Extension of Fermented Pickled Mustard Greens
by Qiuming Chen, Shikang Chen, Junjie Tong, Zhaojun Wang, Maomao Zeng, Zhiyong He and Jie Chen
Molecules 2026, 31(13), 2289; https://doi.org/10.3390/molecules31132289 - 1 Jul 2026
Viewed by 117
Abstract
To address post-acidification, microbial contamination, and quality deterioration in fermented pickled mustard greens after fermentation, this study systematically evaluated the effects of thermal treatment on quality preservation, selected a preferred thermal processing condition from three kinetically designed treatments, and predicted product shelf life. [...] Read more.
To address post-acidification, microbial contamination, and quality deterioration in fermented pickled mustard greens after fermentation, this study systematically evaluated the effects of thermal treatment on quality preservation, selected a preferred thermal processing condition from three kinetically designed treatments, and predicted product shelf life. Based on heat penetration curves and the thermal death kinetics of the target heat-resistant microorganism, Bacillus subtilis, three thermal processing conditions were established: 75 °C for 64 min, 85 °C for 19 min, and 95 °C for 17 min. The D-value of B. subtilis spores at 85 °C was 1.37 min, and the corresponding thermal treatments were designed according to a 2D reduction principle. HS-SPME-GC-MS analysis identified 84 volatile compounds, with isothiocyanates representing key contributors to the characteristic pungent aroma of mustard-based pickles. Sensory evaluation showed that the 85 °C treatment group achieved the best observed balance among pungency, refreshing aroma, mellow flavor, color, texture, and overall acceptability, whereas excessive heating at 95 °C promoted isothiocyanate loss and texture deterioration. During accelerated storage, the selected treatment inhibited post-acidification, maintained nitrite at a low level (<1 mg/kg), and delayed microbial and sensory deterioration. Integrating physicochemical indices, microbial populations, and sensory scores, the theoretical shelf life under refrigeration at 4 °C was predicted to be 170 days using the Q10 model. These findings provide practical guidance for selecting thermal processing conditions that balance microbial safety, flavor retention, and shelf-life extension in industrial fermented pickled mustard greens. Full article
(This article belongs to the Special Issue New Achievements and Challenges in Food Chemistry, 2nd Edition)
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