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Search Results (534)

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Keywords = pre-irradiation

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20 pages, 5162 KB  
Article
Photoreforming of Polylactic Acid over g-C3N4-Based Catalysts Derived from Sustainable Precursors
by Daniela Casamayor-Roberto, Alejandro Ariza-Pérez, David Ortega-Domínguez, Vicente Montes, Rafael Estevez, Francisco J. Urbano, Alberto Marinas and Francisco J. López-Tenllado
Clean Technol. 2026, 8(4), 104; https://doi.org/10.3390/cleantechnol8040104 - 9 Jul 2026
Abstract
The global proliferation of plastic waste has made the search for sustainable chemical recycling strategies imperative to transition toward a circular bioeconomy. This study presents a dual-valorization approach for polylactic acid (PLA) waste, utilizing it both as a sustainable precursor for g-C3 [...] Read more.
The global proliferation of plastic waste has made the search for sustainable chemical recycling strategies imperative to transition toward a circular bioeconomy. This study presents a dual-valorization approach for polylactic acid (PLA) waste, utilizing it both as a sustainable precursor for g-C3N4 catalyst synthesis and as a sacrificial agent for green hydrogen production via photoreforming. Platinum-modified graphitic carbon nitride catalysts were synthesized and evaluated using pure lactic acid and commercial PLA waste under solar-simulated irradiation. Results identified C3N4-NaOH-Pt as the most active material, while the simultaneous one-pot depolymerization/photoreforming of macroscopic PLA fragments exhibited a peak H2 production rate of 1.5 mmol·h−1·g−1, remarkably surpassing both the pure monomer model and pre-depolymerized solutions. This enhanced performance is tentatively attributed to a “controlled release” mechanism that prevents catalyst surface saturation and minimizes light scattering effects inherent to fine powders. The study concludes that maintaining the macroscopic integrity of PLA waste provides a strategic advantage for chemical reforming by eliminating energy-intensive grinding and pretreatment. Future research into diverse operational and chemical parameters, including temperature and base-addition strategies, will be essential for scaling solar-driven upcycling technologies. Full article
(This article belongs to the Topic Green and Sustainable Chemical Processes)
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11 pages, 1313 KB  
Article
Systemic Immunomodulatory Effects of Full-Body Blue Light Therapy in Psoriasis Vulgaris Patients
by Daniel Nolberczak, Aleksandra Lesiak, Magdalena Sadowska, Igor Aleksander Bednarski, Natalia Bień and Joanna Narbutt
J. Clin. Med. 2026, 15(13), 5109; https://doi.org/10.3390/jcm15135109 - 1 Jul 2026
Viewed by 159
Abstract
Background/Objectives: Psoriasis vulgaris is a chronic inflammatory skin condition with significant psychosocial burden. While phototherapy remains one of the most widely used treatment regimens, novel modalities like blue light therapy offer UV-free alternatives with potentially more favorable safety profiles, but their systemic immunomodulatory [...] Read more.
Background/Objectives: Psoriasis vulgaris is a chronic inflammatory skin condition with significant psychosocial burden. While phototherapy remains one of the most widely used treatment regimens, novel modalities like blue light therapy offer UV-free alternatives with potentially more favorable safety profiles, but their systemic immunomodulatory effects remain poorly understood. We aimed to evaluate the impact of full-body blue light irradiation on clinical outcomes and selected systemic biochemical and immunological markers in patients with mild-to-moderate psoriasis vulgaris. Methods: This preliminary study involved 21 patients (13 females, 8 males) with mild-to-moderate psoriasis vulgaris. Participants received ten sessions of full-body blue light therapy (453 nm, 40 mW/cm2, 30 min per session). Clinical assessments (PASI, PGA, DLQI, VAS, Pruritus Scale) and serum analyses of inflammatory (TNF-α, IL-13, IL-17, IL-31), metabolic (adiponectin, 25(OH)D3), and neuroimmune markers (serotonin, kynurenic acid, quinolinic acid) were performed pre- and post-treatment. Results: Significant improvements were observed in PASI, PGA, DLQI, and pruritus scores (p < 0.05). 25(OH)D3, serotonin, and kynurenic acid levels increased significantly, while IL-31 and IL-17 levels decreased and IL-13 levels increased; TNF-α, adiponectin, and quinolinic acid levels showed no significant changes. Counterintuitively, correlation analysis demonstrated a moderate positive association between changes in IL-13 and PASI improvement (r = 0.51, p = 0.02), while changes in other biochemical parameters were not significantly associated with clinical outcomes. Conclusions: Full-body blue light therapy resulted in significant clinical improvement accompanied by heterogeneous systemic immunometabolic changes. These findings suggest complex, pathway-specific immunomodulation, but this requires further investigation in larger controlled studies. Full article
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25 pages, 2275 KB  
Article
Climate-Dependent Performance of Solar-Powered Spray Cooling Canopies: A Climate-Archetype Zone Framework for Pre-Deployment Feasibility Assessment
by Coskun Firat and Asfaw Beyene
Climate 2026, 14(7), 135; https://doi.org/10.3390/cli14070135 - 24 Jun 2026
Viewed by 395
Abstract
Urban heat stress is intensifying under climate change, particularly in outdoor public spaces where conventional mechanical cooling is impractical. This study develops a climate-driven, system-level numerical framework to evaluate the pre-deployment feasibility of modular, solar-powered spray cooling canopies across 110 cities in Türkiye. [...] Read more.
Urban heat stress is intensifying under climate change, particularly in outdoor public spaces where conventional mechanical cooling is impractical. This study develops a climate-driven, system-level numerical framework to evaluate the pre-deployment feasibility of modular, solar-powered spray cooling canopies across 110 cities in Türkiye. Hourly Typical Meteorological Year (TMYx) weather files, representing a single typical year constructed from 2009 to 2023 source data, are used to estimate photovoltaic (PV) energy yield, electrical load, feasible misting duration, water demand, and PV-to-load autonomy under summer daytime conditions. The misting operation is governed by a rule-based adaptive control strategy based on air temperature, relative humidity, and plane-of-array irradiance. To support transferable comparison, the cities are classified into six summer climate-archetype zones using k-means clustering of standardized climate variables, including temperature, humidity, irradiance, wind speed, and summer precipitation. Results show that evaporative cooling feasibility is governed primarily by humidity rather than temperature alone. Hot–Dry Inland cities exhibit the longest mean misting duration (501.90 h) and highest water demand (30,152 L per module), but the lowest PV-to-load autonomy ratio (1.55) because of high pump-driven electrical demand. In contrast, Humid Black Sea cities show minimal misting duration (11.43 h) and water use (465 L per module), but the highest autonomy ratio (39.68) due to very limited system activation. Thus, high autonomy does not necessarily indicate high cooling usefulness. The proposed framework provides a reproducible screening tool for identifying where PV-powered spray cooling canopies are climatically suitable, where water and PV sizing become limiting, and where alternative outdoor heat-mitigation strategies may be more appropriate. Full article
(This article belongs to the Section Sustainable Urban Futures in a Changing Climate)
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15 pages, 2411 KB  
Systematic Review
Prophylactic Cranial Irradiation in MRI-Staged Limited-Stage Small-Cell Lung Cancer: A Systematic Review and Meta-Analysis of Survival and Neurocognitive Outcomes
by Shaoli Li, Xin Zheng, Yinnan Meng, Gang Chen, Caining Zhao, Sijin Zhong, Huixia Li, Rui Bai, Ying Dong and Feng-Ming (Spring) Kong
Cancers 2026, 18(12), 1970; https://doi.org/10.3390/cancers18121970 - 17 Jun 2026
Viewed by 334
Abstract
Background: The necessity of prophylactic cranial irradiation (PCI) for limited-stage small-cell lung cancer (LS-SCLC) is increasingly debated in the era of high-resolution magnetic resonance imaging (MRI). This meta-analysis evaluated the survival and neurocognitive effects of PCI in LS-SCLC patients confirmed negative for brain [...] Read more.
Background: The necessity of prophylactic cranial irradiation (PCI) for limited-stage small-cell lung cancer (LS-SCLC) is increasingly debated in the era of high-resolution magnetic resonance imaging (MRI). This meta-analysis evaluated the survival and neurocognitive effects of PCI in LS-SCLC patients confirmed negative for brain metastases (BM) by pre-PCI MRI. Methods: Following PRISMA guidelines, a systematic search of PubMed, Embase, and Cochrane Library was conducted through 23 September 2025. Pooled hazard ratios (HRs) and risk ratios (RRs) were calculated to assess overall survival (OS), progression-free survival (PFS), brain metastasis-free survival (BMFS), and BM rate. Results: Eleven studies involving 1894 patients were synthesized. PCI conferred a significant survival advantage, reducing the risk of death by 31% (HR = 0.69, 95% CI: 0.61–0.78), which translated to an absolute OS improvement of 8.5% at 2 years and 6.5% at 5 years. Substantial improvements were also observed in PFS (HR = 0.71, 95% CI: 0.60–0.84) and BMFS (HR = 0.53, 95% CI: 0.32–0.88), alongside a 36% reduction in BM rate (RR = 0.64, 95% CI: 0.53–0.77). Notably, PCI maintained its OS benefit even when compared directly against active MRI surveillance. While neurocognitive adverse events were reported, evidence suggests that these effects are predominantly transient and domain-specific, without a sustained decrease in global quality of life. Conclusions: In the MRI-staging era, PCI remains a significant therapeutic option for LS-SCLC. It offers a favorable risk–benefit profile by significantly enhancing survival while maintaining manageable neurocognitive safety. Full article
(This article belongs to the Special Issue Advances in the Management and Prognosis of Brain Metastases)
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36 pages, 8959 KB  
Article
Pre-Sowing E-Beam and X-Ray Irradiation of Wheat Seeds to Enhance Yield and Improve Phytopathogenic Status of Crops
by Natalya Chulikova, Yana Zubritskaya, Anna Malyuga, Ulyana Bliznyuk, Polina Borshchegovskaya, Aleksandr Nikitchenko, Victoria Ipatova, Dmitry Yurov, Grigorii Krusanov, Maria Chibisova, Sergei Goloschapov, Alexander Chernyaev, Tatyana Saltykova, Igor Rodin and Elena Kozlova
Plants 2026, 15(12), 1806; https://doi.org/10.3390/plants15121806 - 11 Jun 2026
Viewed by 195
Abstract
The two-year research involving laboratory and field studies supported by Geant4 computer simulation is aimed at determining the optimal parameters of 1 MeV accelerated electrons and 80 keV X-ray pre-planting irradiation of wheat seeds in order to find the optimal dose range which [...] Read more.
The two-year research involving laboratory and field studies supported by Geant4 computer simulation is aimed at determining the optimal parameters of 1 MeV accelerated electrons and 80 keV X-ray pre-planting irradiation of wheat seeds in order to find the optimal dose range which increases the crop yield while making wheat plants more resistant to fungal diseases caused by species of the genus Septoria. During the laboratory studies we measured the germination rate and biometric properties of plants, as well as the type, number, and average diameter of fungi found in the irradiated and non-irradiated seeds after irradiation with electrons and X-rays with the dose range 2–1000 Gy. Following the laboratory studies showing that the doses exceeding 30 Gy decreased the germination rate of wheat, field studies evaluated the impact of pre-planting irradiation with the doses in the range of 5–30 Gy on the wheat productivity and the rate of fungal diseases in wheat plants grown from irradiated and non-irradiated seeds. It has been found that the dose range 5–15 Gy is more preferable for pre-planting wheat irradiation, both for e-beam and X-rays, since it increases the crop yield while making wheat plants more resistant to fungal diseases caused by species of the genus Septoria. The X-ray dose of 15 Gy is found to be the most effective since it increased the yield up to 40% and also suppressed the Septoria glume blotch up to 40%. Since seed irradiation requires a particularly delicate approach given that the goal of irradiation is not only to reduce the rate of fungal diseases in the plants but also to increase the crop yield without detriment to the soil and the plant itself, consistency of dose uniformity across the seeds during pre-planting irradiation ensures the high reliability and repeatability of the irradiation effect. Our approach to irradiation planning with the use of Geant4 computer simulation allows us to precisely estimate the dose distribution in individual seeds and the distribution of radiation-chemical yield of radicals occurring as result of radiolysis in order to predict the effect of pre-planting irradiation and select the optimal irradiation parameters for maximizing the yield and crop quality. Full article
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16 pages, 4853 KB  
Article
Determining Optimal Fractionation of Neoadjuvant Radiation in Low-Risk, Early-Stage Breast Cancer—Randomized SIGNAL Clinical Trial
by Melanie Spears, Michael Lock, Brian Yaremko, Vida Talebian, Zoe Kerhoulas, Kalan S. Lynn, William T. Tran, Neil Gelman, Matthew Mouawad, Stewart Gaede, Allison Maciver, Megan Hopkins, Linda Liao, Fang-I Lu, Anat Kornecki, Silvia C. Formenti, Sandra Demaria and Muriel Brackstone
Cancers 2026, 18(12), 1867; https://doi.org/10.3390/cancers18121867 - 8 Jun 2026
Viewed by 419
Abstract
Background: Neoadjuvant partial breast irradiation using stereotactic body radiotherapy (SBRT) has emerged as a strategy to induce tumor and immune responses in early-stage, low-risk breast cancer. While prior studies have demonstrated encouraging response rates and evidence of immune modulation, the optimal radiotherapy regimen [...] Read more.
Background: Neoadjuvant partial breast irradiation using stereotactic body radiotherapy (SBRT) has emerged as a strategy to induce tumor and immune responses in early-stage, low-risk breast cancer. While prior studies have demonstrated encouraging response rates and evidence of immune modulation, the optimal radiotherapy regimen for immune priming remains unclear. SIGNAL 2.0 is a randomized phase II trial designed to compare the biological and immunological impact of a single-fraction versus three-fraction neoadjuvant SBRT. Materials and Methods: Sixty-one postmenopausal patients ≥ 50 years with unifocal, hormone positive, node-negative invasive ductal carcinoma < 3 cm were randomized 1:1 to receive either 21 Gy in one fraction or 30 Gy in three fractions, delivered to the tumor in the prone position. Core biopsies were collected pre-SBRT and 14–20 days post-SBRT at the time of surgery. Immune markers were assessed using tumor-infiltrating lymphocyte (TIL) scoring, NanoString nCounter PanCancer Immune Profiling, and NanoString GeoMx Digital Spatial Profiling (DSP). Results: Available tumor samples from 47 patients underwent paired tissue analysis. Three-fraction SBRT induced 200 differentially expressed genes, including enrichment of pathways related to adaptive immune activation, with significant increases in expression levels of macrophages, dendritic cells, neutrophils and CD8 T-cells. Proteomic profiling also identified a significant increase in the expression levels of neutrophils, Treg cells, macrophages, and NK cells in the tumor microenvironment of the samples from patients receiving the three-fraction regimen. Conclusions: Neoadjuvant SBRT induces measurable immune activation, with three-fraction regimens generating more extensive transcriptional, proteomic, and cellular immune changes than a single fraction. Three-fraction neoadjuvant SBRT may provide superior immune priming, providing a foundation for future trials integrating neoadjuvant radiotherapy with immunomodulatory therapies. Full article
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22 pages, 5534 KB  
Article
Electron Beam-Degraded β-Glucans from P. ostreatus Retain Their Structure and Biological Activity
by Zhanna Lyutova, Alexandra Dozortseva, Yakov Manurikov, Maria Markova, Anton Mazur, Vladislav Khaleev, Alexandr Arutyunyan and Alina Borisenkova
Polymers 2026, 18(11), 1363; https://doi.org/10.3390/polym18111363 - 30 May 2026
Viewed by 555
Abstract
β-glucans are biologically active biopolymers that influence metabolic activity and possess immunomodulatory, antitumor, anti-inflammatory, and wound-healing properties. The biological activity of β-glucans is influenced by both their primary structure and spatial conformation, which, in turn, depend on the natural source of the polysaccharides [...] Read more.
β-glucans are biologically active biopolymers that influence metabolic activity and possess immunomodulatory, antitumor, anti-inflammatory, and wound-healing properties. The biological activity of β-glucans is influenced by both their primary structure and spatial conformation, which, in turn, depend on the natural source of the polysaccharides and their extraction methods. In this study, the water-soluble fraction of β-(1→3,1→6)-D-glucan, isolated from non-irradiated and irradiated Pleurotus ostreatus cryopowder pre-treated with alcohol, was investigated. Increasing the irradiation dose was found to increase the yield of the water-soluble glucan fraction. Furthermore, irradiation increased the solubility of glucans in water and reduced their bulk density and moisture content, which may be due to partial degradation of the biopolymer. According to FTIR and NMR spectroscopy, water-soluble glucan samples isolated from both irradiated and non-irradiated samples consist predominantly of β-(1→3,1→6)-D-glucan, protein, and a small amount of (1→3)-α-glucan. It was found that the triple-helix conformation of glucans in solution, assessed using Congo red analysis, did not change upon irradiation. Irradiation resulted in a dose-dependent increase in the antiradical activity of the glucans against the stable DPPH radical. Addition of irradiated glucans to sugar syrup used as a feed supplement for bee feeding resulted in a significant increase in the proline content of honey. Thus, electron irradiation is a promising method for obtaining β-glucans with high water solubility and contributes to enhancing their biological activity. Full article
(This article belongs to the Special Issue Degradation and Stability of Polymer-Based Systems: 3rd Edition)
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12 pages, 861 KB  
Article
Beyond the 5-Year Window: Late-Onset Ocular Morbidity and a Proposed 10-Year Functional Survivorship Protocol for Pediatric Orbital Rhabdomyosarcoma
by Hadeel Halalsheh, Yacoub A. Yousef, Mona Mohammad, Ahmad Kh. Ibrahimi and Iyad Sultan
Cancers 2026, 18(10), 1633; https://doi.org/10.3390/cancers18101633 - 19 May 2026
Viewed by 369
Abstract
Background: Orbital rhabdomyosarcoma (RMS) is the most common primary pediatric malignant orbital tumor, typically curable with chemotherapy and radiation. Data regarding MRI chemotherapy response and long-term ophthalmologic outcomes remain limited in non-cooperative-group settings. Methods: We retrospectively reviewed children with primary orbital RMS treated [...] Read more.
Background: Orbital rhabdomyosarcoma (RMS) is the most common primary pediatric malignant orbital tumor, typically curable with chemotherapy and radiation. Data regarding MRI chemotherapy response and long-term ophthalmologic outcomes remain limited in non-cooperative-group settings. Methods: We retrospectively reviewed children with primary orbital RMS treated at King Hussein Cancer Center (2002–2025) with vincristine, actinomycin-D, and cyclophosphamide (VAC). Pre-local-control MRI responses were classified as complete (CR), partial (PR), stable/minor (SD/MR), or progressive disease (PD). Survival and ophthalmologic outcomes were analyzed. Results: Twenty-two patients (median age 5.6 years) were included. All had localized disease (77% low-risk). All received VAC; 20 (91%) received radiotherapy (median 45 Gy). Pre-radiotherapy MRI showed 8 (36%) CR and 11 (50%) PR. Four patients (18%) died. Five-year event-free survival (EFS) and overall survival (OS) were 73% and 84%, respectively. Cataracts developed in 45% of the cohort (50% of irradiated patients) at a median of 39.1 months (range 9.4–95.1). At last assessment, visual acuity was good in 60%, moderate in 25%, and severely impaired in 15%. Conclusions: Excellent survival in orbital RMS is achievable in resource-stratified settings. Induction MRI progressive disease (PD) was associated with poor outcomes in this cohort and may represent an early prognostic signal warranting further validation in larger studies. Furthermore, the documented maximum cataract latency of 95 months suggests that the standard 5-year surveillance window is insufficient. These findings support extending ophthalmologic surveillance beyond the standard 5-year window. We propose, based on our retrospective institutional data, a 10-year functional survivorship framework. Full article
(This article belongs to the Special Issue Clinical Research in Ocular Oncology)
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34 pages, 7804 KB  
Article
Design of an Intelligent Control System for Multifunctional Agricultural Simulator
by Muhammad Afzaal, Fawad Azeem and Zulfiqar Memon
AgriEngineering 2026, 8(5), 163; https://doi.org/10.3390/agriengineering8050163 - 27 Apr 2026
Viewed by 388
Abstract
Crop cultivation involves a series of procedures from sowing till harvesting, making it a time-consuming activity. The crop cycle typically spans four to six months, during which cultivation outcomes are influenced by dynamic environmental and management factors such as water availability, temperature, and [...] Read more.
Crop cultivation involves a series of procedures from sowing till harvesting, making it a time-consuming activity. The crop cycle typically spans four to six months, during which cultivation outcomes are influenced by dynamic environmental and management factors such as water availability, temperature, and humidity. These parameters are collectively referred to as Optimum Cultivation Factors (OCFs). Once the cultivation process starts, poor OCFs may lead to reduced crop growth, leading to heavy economic loss. Historically, lessons learned from previous cultivation cycles have been a primary source for improving agricultural practices. Developing simulators that mimic agricultural environments in a controlled setting can support the analysis of cultivation factors while reducing time and resource requirements. In this study, a multifunctional agricultural simulator with a network of actuators is developed in the MATLAB/Simulink environment. The designed simulator mimics the agricultural field’s real-time environment while maintaining the temperature, humidity, and moisture content with appropriate water provision. Based on real field environmental data, the fuzzy-based membership functions are designed to emulate outdoor agricultural conditions at the laboratory scale. The designed system monitors and controls the actuators, such as water pumps for moisture, a heater for temperature, and a sun simulator for solar irradiation control. The cascaded fuzzy logic controller enables multi-factor environmental assessment by analyzing actuator responses under varying operating conditions, supporting pre-cultivation decision making. Full article
(This article belongs to the Special Issue Precision Agriculture: Sensor-Based Systems and IoT-Enabled Machinery)
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14 pages, 258 KB  
Article
Management of Complex CNS Tumours: Impact of Multiple Tumour Board Review
by Chalina Huynh, Pavanpreet Metley, Kent Powell, Matthew Larocque, Keith Aronyk and Alysa Fairchild
Radiation 2026, 6(2), 14; https://doi.org/10.3390/radiation6020014 - 7 Apr 2026
Viewed by 979
Abstract
Background. Patients with malignant or benign central nervous system (CNS) tumours are evaluated for suitability of treatment modality based on multiple clinical and tumour-related factors. To obtain multidisciplinary consensus, a patient’s file and imaging are commonly reviewed by a tumour board (TB). [...] Read more.
Background. Patients with malignant or benign central nervous system (CNS) tumours are evaluated for suitability of treatment modality based on multiple clinical and tumour-related factors. To obtain multidisciplinary consensus, a patient’s file and imaging are commonly reviewed by a tumour board (TB). There are three relevant weekly TB venues at our institute—gamma knife stereotactic radiosurgery (SRS) intake rounds, CNS rounds, and stereotactic body radiotherapy (SBRT) rounds—which are attended by non-overlapping clinician teams. We explored the clinical parameters prompting multiple TB reviews in patients with complex CNS tumours. Methods. Data were retrospectively obtained from electronic medical records. Patients referred for discussion at SRS rounds (November 2017–June 2020) were cross-referenced with those reviewed in CNS rounds and SBRT rounds. The cohort of interest included patients who underwent review at more than one TB for the same indication. Patient, tumour, and treatment factors were abstracted, and descriptive statistics were calculated. A sub-cohort of patients with pre-plans created for both SRS and conventionally fractionated external beam radiotherapy (EBRT) was identified. Dosimetric data were analyzed. Results. Of 1091 patients, 87 (8.0%) were discussed at more than one TB. 59/87 (67.8%) patients were reviewed at two TBs pertaining to the same CNS lesion and comprised the study cohort. The most common tumour type was meningioma (20/59), and the most common reason for multiple discussions was proximity to optic structures (19/59). After TB discussions, 25/59 patients were seen in consultation by one specialist, 29/59 by two, and 5/59 by none. Overall, the final treatment decisions were conventional EBRT in 21/59; SRS in 18/59; surveillance in 12/59; surgery in 3/59; systemic therapy in 3/59; proton referral in 1/59; and SBRT in 1/59. A total of 20/59 patients were treated with palliative intent. Among all patients who ultimately received radiotherapy, median interval between the first TB discussion and the first RT treatment was 56 days (IQR 7.5–65.5 d). The pre-plan sub-cohort consisted of four patients, all of whom were ultimately treated with conventional EBRT. Conclusions. Evidence to support optimal treatment for some complex CNS tumours can be limited. Multiple radiotherapy modalities may be equally favourable (or unfavourable) options. Proximity to the optic apparatus and previous CNS irradiation are common reasons for clinical equipoise. Tumour board review is an essential tool in formulating a multidisciplinary care plan; however, attention should be paid to ensuring that subsequent consultations and treatment initiation are not unduly delayed. Full article
11 pages, 2380 KB  
Article
Direct Singlet Oxygen Generation and Inhibition of Glioblastoma Cell Proliferation Using a Bi-Chromatic Raman Fiber Laser
by Mariia Naumenko, Vitaly Volosi, Anastasia Leonteva, Anna Nushtaeva, Alexey Ivanenko, Sergey Kulemzin, Konstantin Baranov and Alexander Moskalensky
Photochem 2026, 6(2), 15; https://doi.org/10.3390/photochem6020015 - 2 Apr 2026
Viewed by 673
Abstract
Singlet oxygen (1O2) is a key mediator in photodynamic therapy (PDT), and its generation and reactivity in biological systems have been extensively studied. It has been shown that laser radiation at near-infrared (NIR) regions can be used to directly [...] Read more.
Singlet oxygen (1O2) is a key mediator in photodynamic therapy (PDT), and its generation and reactivity in biological systems have been extensively studied. It has been shown that laser radiation at near-infrared (NIR) regions can be used to directly generate 1O2. In this work, we investigated photosensitizer-free 1O2 generation using an original all-fiber pulsed laser operating at 1066 nm and 1241 nm and evaluated its impact on mitochondrial activity in U-87 MG glioblastoma cells. Singlet oxygen was evaluated using the 1,3-diphenylisobenzofuran (DPBF) chemical probe and confirmed with argon-purging controls, demonstrating clear oxygen- and wavelength-dependent effects. Laser irradiation of glioblastoma cells demonstrated distinct effects depending on the wavelength, although decrease in cellular metabolic activity was observed in both cases. Interestingly, some inhibitory effect was also observed when the culture medium was pre-irradiated at 1241 nm and subsequently added to intact cells. These results demonstrate that laser radiation at both studied wavelengths can elicit measurable biological effects, although the relative efficiency in chemical versus cellular systems varies. Collectively, these findings provide a foundation for further systematic studies of wavelength-specific NIR interactions with cellular and molecular components in biological environments. Full article
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14 pages, 2369 KB  
Article
Paraspeckles Are Associated with the Activation and Nuclear Localization of Unphosphorylated miR-34a
by Graham H. Read, Kristen McGreevy, Hanny Issawi, Tiffany Yang, Cynthia Tsang, Ihsan A. Turk, Emily Rietdorf, Whitaker Cohn, David W. Salzman, Julian P. Whitelegge and Joanne B. Weidhaas
Non-Coding RNA 2026, 12(2), 12; https://doi.org/10.3390/ncrna12020012 - 31 Mar 2026
Viewed by 1482
Abstract
Background/Objectives: Canonical microRNAs possess a 5′ phosphate required for Argonaute binding and activity. However, prior work identified an unphosphorylated, inactive nuclear pool of the important radiation-responsive microRNA, miR-34, that is rapidly phosphorylated and activated in response to ionizing radiation (IR). Here, we extend [...] Read more.
Background/Objectives: Canonical microRNAs possess a 5′ phosphate required for Argonaute binding and activity. However, prior work identified an unphosphorylated, inactive nuclear pool of the important radiation-responsive microRNA, miR-34, that is rapidly phosphorylated and activated in response to ionizing radiation (IR). Here, we extend this work and investigate the role of paraspeckles, a phase-separated nuclear sub-compartment, and their association with the localization of unphosphorylated miR-34a. Methods: Mass spectrometry was performed to identify interacting partners of unphosphorylated mir-34. CRISPR-mediated deletion of the paraspeckle NEAT1_2 triple helix motif was performed to create an A549 cell line lacking paraspeckles (dTH). Activity and expression of mir-34a post-irradiation were evaluated by qRT-PCR and luciferase assays comparing dTH and wild-type (WT) A549 cell lines. In situ hybridization (ISH) was performed to evaluate mir-34a localization before and after IR, comparing dTH and WT cell lines. Results: Mass spectrometry identified paraspeckle proteins as significantly enriched interacting partners of unphosphorylated mir-34 mimics. By qRT-PCR and luciferase assays, we found that paraspeckle loss prevented radiation-induced early activation of unphosphorylated mir-34a. We found no difference in radiation-induced transcription of pri-miR-34a, but early processing to pre-miR-34a appeared delayed. ISH confirmed that loss of paraspeckles altered the nuclear localization of miR-34a before and after IR. Conclusions: These data suggest that paraspeckles are associated with nuclear localization and early radiation-responsive activation of unphosphorylated miR-34a. This suggests a coordinated nuclear sequestration of this important miR in its unphosphorylated state to enable an enhanced radiation response. Full article
(This article belongs to the Section RNA Modifications)
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20 pages, 302 KB  
Review
Qualification Pathways for Fusion Structural Materials
by Emily R. Lewis, Guy Anderson, Diego Martinez de Luca, Bradley A. Young and Thomas P. Davis
J. Nucl. Eng. 2026, 7(1), 23; https://doi.org/10.3390/jne7010023 - 18 Mar 2026
Viewed by 1847
Abstract
Qualification is the evidence-based process through which confidence is established that a component will perform its intended function, in its intended environment, for its intended lifetime, with the required reliability. It is an owner-led activity that defines the type, quantity and quality of [...] Read more.
Qualification is the evidence-based process through which confidence is established that a component will perform its intended function, in its intended environment, for its intended lifetime, with the required reliability. It is an owner-led activity that defines the type, quantity and quality of data required for codification and for the industrial deployment of components and their structural materials. This paper presents a structured qualification framework and applies it to a fusion machine breeder blanket structure as a representative component. It demonstrates that qualification, rather than material properties alone, dictates the use of fusion structural materials and the deployment of such materials under ASME BPV and AFCEN RCC codes. Current limitations in addressing irradiation synergy, liquid metal corrosion, and joint integrity expose gaps that these codes cannot yet prescribe. Two contrasting structural blanket material case studies: metallic-based ferritic-martensitic steel Eurofer97 and non-metallic-based silicon carbide fibre-reinforced composites (SiCf/SiC) are used to illustrate the differing evidence requirements for each system type. Industrial scale-up considerations, including alloy specifications, manufacturing readiness, inspection reliability, and supply-chain maturity, are evaluated alongside the need for internationally harmonised datasets and design methodologies. Fusion programmes can use a phased qualification strategy in which early, time-limited operation under controlled conditions builds the evidence needed for codification and scale-up, with the required pre-operation qualification level depending on risk, component criticality and failure consequences, and with the pace of qualification ultimately setting how quickly industry can supply components for commercial fusion. Codification remains essential for commercial deployment because construction codes express codified material behaviour through allowable stresses and permitted fabrication routes, enabling designers to use advanced materials without disclosing proprietary data. In jurisdictions where ASME BPV compliance is mandatory, codification determines whether a material may enter pressure boundary service and must therefore form part of the fusion machine owner’s long-term strategy for deployment. Full article
19 pages, 3921 KB  
Article
A Defined Patho-Mechanism for Acute Radiation Syndrome Death and a Three-Drug Regimen to Prevent It
by William E. Fahl, Hannah R. Goesch, Sarah R. Goesch and Bryan L. Fahl
Int. J. Mol. Sci. 2026, 27(6), 2659; https://doi.org/10.3390/ijms27062659 - 14 Mar 2026
Viewed by 1018
Abstract
Death from acute radiation syndrome (ARS) has been a long-standing threat. Given the current heightened risk of a nuclear event, e.g., a conflict bomb, terror bomb, reactor core dispersion, or recurrent exposure to medical radiation, a systemic treatment to reduce or eliminate ARS [...] Read more.
Death from acute radiation syndrome (ARS) has been a long-standing threat. Given the current heightened risk of a nuclear event, e.g., a conflict bomb, terror bomb, reactor core dispersion, or recurrent exposure to medical radiation, a systemic treatment to reduce or eliminate ARS death would be beneficial. This study utilizes step-wise progression to (i) identify why lethally irradiated mice die from ARS and (ii) identify a multidrug regimen, administered before or after irradiation, that prevents or treats ARS pathologies to significantly suppress or eliminate ARS death. Lethal blood-borne E. coli septic infection was found in 97% of near-death, irradiated mice; this observation was consistent with the numerous breaches observed in GI histology showing a broken and breached GI epithelium and GI muscularis externa. Our study found (i) a new and clear explanation of why irradiated mice die from ARS; (ii) identified two drugs (PrC-210, ciprofloxacin), which, when administered minutes pre-radiation, conferred 100% survival benefit or 56% when administered a day after irradiation; and (iii) a three-drug regimen (PrC-210, ciprofloxacin, GCSF) that conferred 92% survival benefit when administered 1–2 days after radiation. These drug regimens can be “field-deployed” to field staging areas and home medicine chests to enable the simple, widespread use of the regimens in the face of radiation threat. Full article
(This article belongs to the Special Issue New Insight into Radiation Biology and Radiation Exposure)
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13 pages, 800 KB  
Review
Radiation-Induced Carotid Artery Disease: Pathogenesis, Diagnosis and Management
by Alfredo Mauriello, Adriana Correra, Anna Chiara Maratea, Giovanni Benfari, Federica Ilardi, Giuseppe Giugliano, Matteo Lisi, Alessandro Malagoli, Giulia Elena Mandoli, Maria Concetta Pastore, Simona Sperlongano, Vincenzo Russo, Matteo Cameli and Antonello D’Andrea
Diagnostics 2026, 16(6), 841; https://doi.org/10.3390/diagnostics16060841 - 12 Mar 2026
Cited by 2 | Viewed by 1351
Abstract
Patients undergoing radiotherapy (RT) for head and neck cancers (HNCs) face a significantly increased risk of developing carotid artery stenosis (CAS) and cerebrovascular disease (CVD). This condition, known as accelerated or radiation-induced carotid atherosclerosis, represents a long-term toxicity that profoundly impacts patients’ quality [...] Read more.
Patients undergoing radiotherapy (RT) for head and neck cancers (HNCs) face a significantly increased risk of developing carotid artery stenosis (CAS) and cerebrovascular disease (CVD). This condition, known as accelerated or radiation-induced carotid atherosclerosis, represents a long-term toxicity that profoundly impacts patients’ quality of life and survival. Pathogenesis is complex, involving mechanisms such as direct endothelial damage, oxidative stress, chronic inflammatory activation, peri-adventitial fibrosis, and the acceleration of pre-existing atherosclerotic processes. Despite this elevated risk, universal screening and treatment are not yet standardized across all international guidelines. This narrative review summarizes the epidemiology, pathological mechanisms, and clinical implications of accelerated radiation-induced carotid stenosis (RICS) after neck irradiation. Full article
(This article belongs to the Special Issue Advanced Diagnostics in Head and Neck Oncology)
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