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Keywords = animal anomalies

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22 pages, 3553 KiB  
Article
In-Depth Analysis of Chlorophyll Fluorescence Rise Kinetics Reveals Interference Effects of a Radiofrequency Electromagnetic Field (RF-EMF) on Plant Hormetic Responses to Drought Stress
by Julian Keller, Uwe Geier and Nam Trung Tran
Int. J. Mol. Sci. 2025, 26(15), 7038; https://doi.org/10.3390/ijms26157038 - 22 Jul 2025
Viewed by 207
Abstract
The proliferation of telecommunication devices in recent decades has resulted in a substantial increase in exposure risk to manmade radiofrequency electromagnetic fields (RF-EMFs) for both animals and plants. The physiological effects of these exposures remain to be fully elucidated. In this study, we [...] Read more.
The proliferation of telecommunication devices in recent decades has resulted in a substantial increase in exposure risk to manmade radiofrequency electromagnetic fields (RF-EMFs) for both animals and plants. The physiological effects of these exposures remain to be fully elucidated. In this study, we measured and analyzed the chlorophyll fluorescence rise kinetics of lettuce plants in the presence of RF-EMFs and after a short drought treatment. The analysis of the fluorescence data was conducted using two different strategies: a conventional JIP test and a novel machine learning-assisted anomaly-detection approach. Our results suggest that exposure to RF-EMFs weakens the plant’s hormetic responses induced by drought treatment, both in terms of the response’s magnitude and its extent. These findings provide further evidence supporting the hypothesis that RF-EMFs interfere with plant stress responses. Full article
(This article belongs to the Special Issue New Insights into Plant Stress)
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19 pages, 8549 KiB  
Article
Complex Body Wall Closure Defects in Seven Dog Fetuses: An Anatomic and CT Scan Study
by Nieves Martín-Alguacil, José M. Cozar and Luis Avedillo
Animals 2025, 15(14), 2030; https://doi.org/10.3390/ani15142030 - 10 Jul 2025
Viewed by 305
Abstract
Body stalk anomaly (BSA) is a rare and usually fatal congenital disorder involving severe malformations of the body wall, limbs, spine, and internal organs. This study presents the first documented cases of BSA in seven dogs, offering new insights into how the disorder [...] Read more.
Body stalk anomaly (BSA) is a rare and usually fatal congenital disorder involving severe malformations of the body wall, limbs, spine, and internal organs. This study presents the first documented cases of BSA in seven dogs, offering new insights into how the disorder manifests in animals. The affected fetuses consistently exhibited major anomalies, including large abdominal wall defects, structural spinal abnormalities, and a variety of limb malformations ranging from partial agenesis and meromelia to phocomelia and complete amelia. Structural urogenital anomalies and orofacial clefts were also observed, aligning with similar findings in BSA cases reported in pigs and cats. These findings support the hypothesis of a multifactorial etiology involving early embryonic disruptions, such as abnormal folding of the embryo, rupture of the amniotic membrane, and vascular compromise. The frequent occurrence of abdominal wall defects alongside umbilical cord abnormalities further suggests a shared developmental pathway. This study also highlights the value of veterinary cases in comparative embryology and the need to assess congenital anomalies as part of a broader malformation complex. By expanding the phenotypic spectrum of BSA in domestic animals, this work contributes to a deeper understanding of its pathogenesis and emphasizes the importance of further research into the genetic and environmental factors involved. Such efforts could lead to improved classification and diagnosis of complex congenital malformations, as well as facilitate cross-species comparisons. Full article
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33 pages, 25988 KiB  
Article
Erosion Resistance Assessment of Grass-Covered Embankments: Insights from In Situ Overflow Tests at the Living Lab Hedwige-Prosper Polder
by Davy Depreiter, Jeroen Vercruysse, Kristof Verelst and Patrik Peeters
Water 2025, 17(13), 2016; https://doi.org/10.3390/w17132016 - 4 Jul 2025
Viewed by 241
Abstract
Grass-covered levees commonly protect river and estuarine areas against flooding. Climate-induced water level changes may increasingly expose these levees to overflow events. This study investigates whether grass-covered levees can withstand such events, and under what conditions failure may occur. Between 2020 and 2022, [...] Read more.
Grass-covered levees commonly protect river and estuarine areas against flooding. Climate-induced water level changes may increasingly expose these levees to overflow events. This study investigates whether grass-covered levees can withstand such events, and under what conditions failure may occur. Between 2020 and 2022, full-scale overflow tests were conducted at the Living Lab Hedwige-Prosperpolder along the Dutch–Belgian Scheldt Estuary to assess erosion resistance under varying hydraulic conditions and vegetation states. A custom-built overflow generator was used, with instrumentation capturing flow velocity, water levels, and erosion progression. The results show that well-maintained levees with intact grass cover endured overflow durations up to 30 h despite high terminal flow velocities (4.9–7.7 m/s), without structural damage. In contrast, levee sections with pre-existing surface anomalies, such as animal burrows, slope irregularities, surface damage, or reed-covered soft soils, failed rapidly, often within one to two hours. Animal burrows facilitated subsurface flow and internal erosion, initiating fast, retrograde failure. These findings highlight the importance of preventive maintenance, particularly the timely detection and repair of anomalies. Once slope failure begins, the process unfolds rapidly, leaving no practical window for intervention. Full article
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21 pages, 5977 KiB  
Article
A Two-Stage Machine Learning Approach for Calving Detection in Rangeland Cattle
by Yuxi Wang, Andrés Perea, Huiping Cao, Mehmet Bakir and Santiago Utsumi
Agriculture 2025, 15(13), 1434; https://doi.org/10.3390/agriculture15131434 - 3 Jul 2025
Viewed by 420
Abstract
Monitoring parturient cattle during calving is crucial for reducing cow and calf mortality, enhancing reproductive and production performance, and minimizing labor costs. Traditional monitoring methods include direct animal inspection or the use of specialized sensors. These methods can be effective, but impractical in [...] Read more.
Monitoring parturient cattle during calving is crucial for reducing cow and calf mortality, enhancing reproductive and production performance, and minimizing labor costs. Traditional monitoring methods include direct animal inspection or the use of specialized sensors. These methods can be effective, but impractical in large-scale ranching operations due to time, cost, and logistical constraints. To address this challenge, a network of low-power and long-range IoT sensors combining the Global Navigation Satellite System (GNSS) and tri-axial accelerometers was deployed to monitor in real-time 15 parturient Brangus cows on a 700-hectare pasture at the Chihuahuan Desert Rangeland Research Center (CDRRC). A two-stage machine learning approach was tested. In the first stage, a fully connected autoencoder with time encoding was used for unsupervised detection of anomalous behavior. In the second stage, a Random Forest classifier was applied to distinguish calving events from other detected anomalies. A 5-fold cross-validation, using 12 cows for training and 3 cows for testing, was applied at each iteration. While 100% of the calving events were successfully detected by the autoencoder, the Random Forest model failed to classify the calving events of two cows and misidentified the onset of calving for a third cow by 46 h. The proposed framework demonstrates the value of combining unsupervised and supervised machine learning techniques for detecting calving events in rangeland cattle under extensive management conditions. The real-time application of the proposed AI-driven monitoring system has the potential to enhance animal welfare and productivity, improve operational efficiency, and reduce labor demands in large-scale ranching. Future advancements in multi-sensor platforms and model refinements could further boost detection accuracy, making this approach increasingly adaptable across diverse management systems, herd structures, and environmental conditions. Full article
(This article belongs to the Special Issue Modeling of Livestock Breeding Environment and Animal Behavior)
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20 pages, 1211 KiB  
Article
Unsupervised Anomaly Detection with Continuous-Time Model for Pig Farm Environmental Data
by Heng Zhou, Seyeon Chung, Malik Muhammad Waqar, Muhammad Ibrahim Zain Ul Abideen, Arsalan Ahmad, Muhammad Ans Ilyas, Hyongsuk Kim and Sangcheol Kim
Agriculture 2025, 15(13), 1419; https://doi.org/10.3390/agriculture15131419 - 30 Jun 2025
Viewed by 434
Abstract
Environmental air anomaly detection is crucial for ensuring the healthy growth of livestock in smart pig farming systems. This study focuses on four key environmental variables within pig housing: temperature, relative humidity, carbon dioxide concentration, and ammonia concentration. Based on these variables, it [...] Read more.
Environmental air anomaly detection is crucial for ensuring the healthy growth of livestock in smart pig farming systems. This study focuses on four key environmental variables within pig housing: temperature, relative humidity, carbon dioxide concentration, and ammonia concentration. Based on these variables, it proposes a novel encoder–decoder architecture for anomaly detection based on continuous-time models. The proposed framework consists of two embedding layers: an encoder module built around a continuous-time neural network, and a decoder composed of multilayer perceptrons. The model is trained in a self-supervised manner and optimized using a reconstruction-based loss function. Extensive experiments are conducted on a multivariate multi-sequence dataset collected from real-world pig farming environments. Experimental results show that the proposed architecture significantly outperforms existing transformer-based methods, achieving 92.39% accuracy, 92.08% precision, 85.84% recall, and an F1 score of 88.19%. These findings highlight the practical value of accurate anomaly detection in smart farming systems; timely identification of environmental irregularities enables proactive intervention, reduces animal stress, minimizes disease risk, and ultimately improves the sustainability and productivity of livestock operations. Full article
(This article belongs to the Special Issue Modeling of Livestock Breeding Environment and Animal Behavior)
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46 pages, 6442 KiB  
Review
Stress Responses and Mechanisms of Phytopathogens Infecting Humans: Threats, Drivers, and Recommendations
by Md. Motaher Hossain, Farjana Sultana, Mahabuba Mostafa, Humayra Ferdus, Mrinmoy Kundu, Shanta Adhikary, Nabela Akter, Ankita Saha and Md. Abdullah Al Sabbir
Stresses 2025, 5(2), 28; https://doi.org/10.3390/stresses5020028 - 18 Apr 2025
Cited by 1 | Viewed by 3188
Abstract
Cross-kingdom infections, where pathogens from one kingdom infect organisms of another, were historically regarded as rare anomalies with minimal concern. However, emerging evidence reveals their increasing prevalence and potential to disrupt the delicate balance between plant, animal, and human health systems. Traditionally recognized [...] Read more.
Cross-kingdom infections, where pathogens from one kingdom infect organisms of another, were historically regarded as rare anomalies with minimal concern. However, emerging evidence reveals their increasing prevalence and potential to disrupt the delicate balance between plant, animal, and human health systems. Traditionally recognized as plant-specific, a subset of phytopathogens, including certain fungi, bacteria, viruses, and nematodes, have demonstrated the capacity to infect non-plant hosts, particularly immunocompromised individuals. These pathogens exploit conserved molecular mechanisms, such as immune evasion strategies, stress responses, and effector proteins, to breach host-specific barriers and establish infections. Specifically, fungal pathogens like Fusarium spp. and Colletotrichum spp. employ toxin-mediated cytotoxicity and cell-wall-degrading enzymes, while bacterial pathogens, such as Pseudomonas syringae, utilize type III secretion systems to manipulate host immune responses. Viral and nematode phytopathogens also exhibit molecular mimicry and host-derived RNA silencing suppressors to facilitate infections beyond plant hosts. This review features emerging cases of phytopathogen-driven animal and human infections and dissects the key molecular and ecological determinants that facilitate such cross-kingdom transmission. It also highlights critical drivers, including pathogen plasticity, horizontal gene transfer, and the convergence of environmental and anthropogenic stressors that breach traditional host boundaries. Furthermore, this review focuses on the underlying molecular mechanisms that enable host adaptation and the evolutionary pressures shaping these transitions. To address the complex threats posed by cross-kingdom phytopathogens, a comprehensive One Health approach that bridges plant, animal, and human health strategies is advocated. Integrating molecular surveillance, pathogen genomics, AI-powered predictive modeling, and global biosecurity initiatives is essential to detect, monitor, and mitigate cross-kingdom infections. This interdisciplinary approach not only enhances our preparedness for emerging zoonoses and phytopathogen spillovers but also strengthens ecological resilience and public health security in an era of increasing biological convergence. Full article
(This article belongs to the Collection Feature Papers in Human and Animal Stresses)
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16 pages, 2269 KiB  
Article
Behavioral and Spatial Analysis of a Symphalangus syndactylus Pair in a Controlled Environment
by Chiara Carpino, Roberta Castiglioni, Elisa Sacchet, Arianna Milesi, Luca Marano, Francesco Luigi Leonetti, Viviana Romano, Gianni Giglio and Emilio Sperone
J. Zool. Bot. Gard. 2025, 6(2), 23; https://doi.org/10.3390/jzbg6020023 - 10 Apr 2025
Viewed by 735
Abstract
For the effective management of captive animals, monitoring their behavior and interactions within the exhibit is essential. This approach provides insights into their welfare and helps identify behavioral differences compared to conspecifics in the wild. This ex situ study aimed to provide more [...] Read more.
For the effective management of captive animals, monitoring their behavior and interactions within the exhibit is essential. This approach provides insights into their welfare and helps identify behavioral differences compared to conspecifics in the wild. This ex situ study aimed to provide more insights about the behavior of a pair of siamangs residing at the Wildlife Park “Le Cornelle” in Valbrembo, Italy. The focus was on their behavior, and observations were conducted during two distinct periods (May–June 2021 and December 2021) to identify any seasonal differences. In both periods, the most frequent behaviors observed were resting, feeding, and allogrooming. Compared to conspecifics in the wild, allogrooming and singing occurred more frequently. Spatial analysis indicated a higher utilization of outdoor spaces than the tunnel and indoor areas, with statistically significant variations for both periods. The spatial analysis of singing behavior showed an equal use of outdoor and indoor areas during the first observation period. However, in the second observation period, a preference for indoor spaces was observed, likely due to lower recorded temperatures. More observations are needed to identify the factors influencing behavior, but it is clear that continuous monitoring plays a vital role in promptly addressing deviations or anomalies in animal behavior. Full article
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14 pages, 9014 KiB  
Article
Correction of Significant Urethral Anomalies Using a Tissue-Engineered Human Urethral Substitute: Proof of Concept
by Christophe Caneparo, Elissa Elia, Stéphane Chabaud, François Berthod, Julie Fradette and Stéphane Bolduc
Int. J. Mol. Sci. 2025, 26(5), 1825; https://doi.org/10.3390/ijms26051825 - 20 Feb 2025
Viewed by 1164
Abstract
Urethral reconstruction remains a challenge. Indeed, the use of oral mucosa, the reference biomaterial for urethroplasty, is associated with two main drawbacks: the limited availability of autologous tissues and potential short- and long-term complications, especially for patients with recurrences or severe anomalies. Therefore, [...] Read more.
Urethral reconstruction remains a challenge. Indeed, the use of oral mucosa, the reference biomaterial for urethroplasty, is associated with two main drawbacks: the limited availability of autologous tissues and potential short- and long-term complications, especially for patients with recurrences or severe anomalies. Therefore, the development of alternative approaches, such as urethral tissue engineering, is necessary. A new type of human urethral substitute devoid of exogenous biomaterials has been reconstructed in vitro. It presented sufficient mechanical strength and had histological and functional properties comparable to native tissues. These reconstructed tissues were implanted in vivo to repair hypospadias induced in tacrolimus-immunosuppressed rabbits via a two-stage urethroplasty. In the first stage, the distal part of the native urethra was removed, and a flat graft was implanted, leaving the urethra open proximally. Twelve weeks later, the graft was tubularized to create a neourethra, reproducing the usual clinical scenario. The results obtained for the experimental group were less effective than for the control group, with a success rate of 50% after excluding the animal affected by unwanted events unrelated to urethroplasty, and it is possible that the animal model or surgical technique used was not suitable and should be modified. Nevertheless, half of the urethral substitutes grafted on rabbits showed successful integration. These self-assembled artificial tissues represent promising substitutes for urethroplasty. Full article
(This article belongs to the Section Molecular Pathology, Diagnostics, and Therapeutics)
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10 pages, 5946 KiB  
Proceeding Paper
In-Silico Investigation of Phyllanthus niruri Phytochemicals as Hepatic Fibrosis Modulators
by Chithra Raju and Kavitha Sankaranarayanan
Biol. Life Sci. Forum 2024, 38(1), 7; https://doi.org/10.3390/blsf2024038007 - 14 Feb 2025
Viewed by 829
Abstract
The liver is a pioneer internal organ that orchestrates major metabolic, detoxification, and endocrine roles. Acute factors like hepatitis and drug allergy and chronic causes like metabolic dysfunction-associated fatty liver disease (MASLD) and Hepatocellular carcinoma (HCC) drive hepatic wellness imbalances. Liver fibrosis is [...] Read more.
The liver is a pioneer internal organ that orchestrates major metabolic, detoxification, and endocrine roles. Acute factors like hepatitis and drug allergy and chronic causes like metabolic dysfunction-associated fatty liver disease (MASLD) and Hepatocellular carcinoma (HCC) drive hepatic wellness imbalances. Liver fibrosis is a reversible and curable anomaly, but the limited availability of safe and higher-specificity therapeutics is a challenging quest in hepatology. This study investigates the hepato-protective effect of Phyllanthus niruri compounds against liver fibrosis targets like lysyl oxidase-like 2 (LOXL2), heat shock protein 47 (HSP47), bromodomain-containing protein 4 (BRD4) and inhibitory kappa B kinase beta (IKKβ) and compare their anti-hepatic fibrosis activity against known inhibitors. Potential plant compounds from P. niruri were retrieved from the literature repositories, and the top 35 compounds were screened based on molecular weight, Lipinski’s rule of 5, and bioavailability score. The in silico molecular docking and in silico ADMET results provide valuable insights into hit compounds of P. niruri, namely quercitrin and hinokinin, to have good binding scores (BE) below −7 kcal/mol threshold and molecular interactions with many key residues of all the four liver fibrosis targets namely the BRD4, HSP47, LOLX2, and IKKB proteins explored in this research. Quercitrin has been identified to have BE values of −8.1, −8.3, −8.2, and −9.1 kcal/mol scores against the BRD4, HSP47, LOLX2, and IKKB proteins, respectively. Similarly, hinokinin also shows BE values of −8.8, −7.4, −6.7, and −9.0 kcal/mol scores with BRD4, HSP47, LOLX2, and IKKB proteins individually. Further, in vitro and animal model-based in vivo experimental analysis needs to be explored to validate the potential of quercitrin and hinokinin for anti-liver fibrosis in the future. Full article
(This article belongs to the Proceedings of The 4th International Electronic Conference on Nutrients)
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14 pages, 3571 KiB  
Article
Application of the Buccal Micronucleus Cytome Assay for Genotoxicity Detection in Dogs
by Bruna Filipa Tavares da Costa, Alexandra Teixeira, Joana C. Prata and Daniel Pérez-Mongiovi
Animals 2025, 15(3), 382; https://doi.org/10.3390/ani15030382 - 28 Jan 2025
Cited by 2 | Viewed by 1448
Abstract
In Europe, there is a growing concern for animal welfare, encompassing both their rights and health. Consequently, identifying biomarkers that predict serious pathological conditions has become crucial in veterinary medicine. The Buccal Micronucleus Cytome (BMCyt) assay is a minimally invasive method that uses [...] Read more.
In Europe, there is a growing concern for animal welfare, encompassing both their rights and health. Consequently, identifying biomarkers that predict serious pathological conditions has become crucial in veterinary medicine. The Buccal Micronucleus Cytome (BMCyt) assay is a minimally invasive method that uses biomarkers to evaluate DNA damage and chromosomal instability, using exfoliated buccal cells. A rising frequency of anomalies, such as micronuclei formation, strongly indicates an elevated risk of cancer, neurodegenerative diseases, or accelerated aging, potentially originating from exposure to genotoxins and cytotoxins. This method has been validated in humans, but very little research has been conducted on animals. This work aims to provide a detailed description of an optimized method for collecting buccal exfoliated cells in dogs and to characterize a biomarker related to genomic damage using optical and fluorescent microscopy. Samples from dogs in breeding kennels, including pregnant animals, were tested for chromosomal instability. By following procedures similar to those used in humans, we were able to detect and count major nuclear abnormalities. The percentage of micronuclei was higher compared to other studies. Technical aspects, such as avoiding artifacts and ensuring prior training of the operator, must be taken into account. This work validated the BMCyt method for collecting and processing samples in dogs, potentially enhancing the understanding of micronuclei as biomarkers for pre-pathological states in canines. Full article
(This article belongs to the Section Veterinary Clinical Studies)
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13 pages, 280 KiB  
Communication
Causes of Condemnations of Edible Parts of Slaughtered Pigs in Bavaria and Their Economic Implications: A Retrospective Survey (2021–2022)
by Sebastian Ciui, Adriana Morar, Viorel Herman, Emil Tîrziu, Mirela Imre, Alexandra Ban-Cucerzan, Sebastian Alexandru Popa, Răzvan-Tudor Pătrînjan, Doru Morar and Kálmán Imre
Vet. Sci. 2025, 12(2), 88; https://doi.org/10.3390/vetsci12020088 - 23 Jan 2025
Viewed by 1483
Abstract
This study aimed to provide insights into the main causes of postmortem carcass and organ condemnations in a pig slaughterhouse and evaluate the resulting financial impact of the rejection of edible parts of animals. A population of 307,866 pigs, admitted for slaughter between [...] Read more.
This study aimed to provide insights into the main causes of postmortem carcass and organ condemnations in a pig slaughterhouse and evaluate the resulting financial impact of the rejection of edible parts of animals. A population of 307,866 pigs, admitted for slaughter between January 2021 and December 2022 in a Bavarian abattoir, was studied. Regarding the examined carcasses, 2.09% (n = 6422) presented pathological conditions. Of these, 8.12% (n = 522) and 91.88% (n = 5900) were totally and partially confiscated, respectively. The main reason for the complete rejection of carcasses was the occurrence of generalized diseases (62.6%), while the presence of abscesses and traumatic and/or tail lesions was the most frequently implicated (70.7%) in partial condemnations. In the case of the organs, 17.59% (n = 54,145) presented abnormalities, with distributions of 14.71% (n = 45,290), 1.94% (n = 5968), 0.72% (n = 2213), and 0.22% (n = 674) within the examined liver, lung, kidney, and heart specimens, respectively. The principal reasons for liver, lung, kidney, and heart condemnations were the occurrence of parasitic diseases (53.4%), bacterial/viral infections (63.5%), dystrophies/anomalies (98.4%), and bacterial/viral infections (98.5%), respectively. The total financial loss attributable to carcass and organ condemnations was estimated at EUR 392,744.2, which represents 0.40% of the total achievable net revenue without rejections. Of this, EUR 197,120 (0.20%) and EUR 195,624.2 (6.95%) were related to carcass and offal seizures, respectively. The study results offer useful information for veterinarians, stockowners, and epidemiologists to make and set up policies to increase the efficiency and benefits of the swine production system and protect public health. Full article
(This article belongs to the Section Veterinary Food Safety and Zoonosis)
15 pages, 229 KiB  
Review
Fetal Safety in MRI During Pregnancy: A Comprehensive Review
by Gal Puris, Angela Chetrit and Eldad Katorza
Diagnostics 2025, 15(2), 208; https://doi.org/10.3390/diagnostics15020208 - 17 Jan 2025
Viewed by 3794
Abstract
As medical imaging continues to expand, concerns about the potential risks of ionizing radiation to the developing fetus have led to a preference for non-radiation-based alternatives such as ultrasonography and fetal MRI. This review examines the current evidence on the safety of MRI [...] Read more.
As medical imaging continues to expand, concerns about the potential risks of ionizing radiation to the developing fetus have led to a preference for non-radiation-based alternatives such as ultrasonography and fetal MRI. This review examines the current evidence on the safety of MRI during pregnancy, with a focus on 3 T MRI and contrast agents, aiming to provide a comprehensive synthesis that informs clinical decision-making, ensures fetal safety and supports the safe use of all available modalities that could impact management. We conducted a comprehensive review of studies from 2000 to 2024 on MRI safety during pregnancy, focusing on 3 T MRI and gadolinium use. The review included peer-reviewed articles and large database studies, summarizing key findings and identifying areas for further research. Fetal MRI, used alongside ultrasound, enhances diagnostic accuracy for fetal anomalies, particularly in the brain, thorax, gastrointestinal and genitourinary systems, with no conclusive evidence of adverse effects on fetal development. While theoretical risks such as tissue heating and acoustic damage exist, studies show no significant harm at 1.5 T or 3 T, though caution is still advised in the first trimester. Regarding gadolinium-based contrast agents, the evidence is conflicting: while some studies suggest risks such as stillbirth and rheumatological conditions, animal studies show minimal fetal retention and no significant toxicity, and later clinical research has not substantiated these risks. The existing literature on fetal MRI is encouraging, suggesting minimal risks; however, further investigation through larger, prospective and long-term follow-up studies is essential to comprehensively determine its safety and late effects. Full article
(This article belongs to the Special Issue Advances in Fetal Diagnosis and Therapy)
27 pages, 6768 KiB  
Article
Complex Study of Settlements Dating from the Paleolithic to Medieval Period in the Ural Mountains on the Border of Europe and Asia
by Valentina Prikhodko, Nikita Savelev, Vyacheslav Kotov, Sergey Nikolaev, Evgeny Ruslanov, Mikhail Rumyantsev and Elena Manakhova
Geosciences 2025, 15(1), 31; https://doi.org/10.3390/geosciences15010031 - 16 Jan 2025
Cited by 1 | Viewed by 1100
Abstract
Soil, geochemical, microbiological, and archeological studies were conducted at eight settlements dating from the Paleolithic to Late Medieval and Modern Ages near the southern Trans-Urals Mountains, Russia. The forest-steppe landscapes, rivers, and abundant mineral resources have attracted people to the region since ancient [...] Read more.
Soil, geochemical, microbiological, and archeological studies were conducted at eight settlements dating from the Paleolithic to Late Medieval and Modern Ages near the southern Trans-Urals Mountains, Russia. The forest-steppe landscapes, rivers, and abundant mineral resources have attracted people to the region since ancient times. Cultural layers (CLs) are marked by finds of ceramics fragments, animal bones, stone, and metal tools. The properties of CLs include close-to-neutral pH, being well structured, the absence of salinity, enrichment with exchangeable calcium, and anthropogenic phosphorus (0.2–0.4%). The majority of CLs start at a depth of 3–25 cm, extend to 40–60 cm, and contain 6–10% organic carbon (Corg) in the 0–20 cm layer, reflecting carbon input from modern-day processes. At the Ishkulovo site (0.6–0.8 ka BP), Corg decreases to 1.3% because the CL is below 80 cm, and in the absence of fresh organic material input, carbon has been mineralized. The proximity of sites to deposits of copper, chromium, zinc, and manganese in the Ural Mountains creates natural high-content anomalies in the region, as indicated by their abundance in soils and parent rocks. In the past, these elements were also released into CLs from metal products, ceramic fragments, and raw materials used in their manufacture. The sites are quite far (18–60 km) from the Magnitogorsk Metallurgical plant, but industrial stockpiles of S (technogenic coefficient—Ct 30–87%), and, less often, Cr, Mn, and Sr (Ct 30–40%) accumulated in surface layers. These three factors have led to the concentration of pollutants of the first (arsenic, chromium, lead, and zinc) and second (cobalt, copper, and nickel) hazard classes at CLs, often in quantities 2–5 times higher than values for parent materials and geosphere average content (“Clarke” value), and, and less often, more than the allowable content for human health. This may have influenced their health and behavioral functions. Due to the above properties, chernozems have a high buffering capacity and a strong bond with heavy metals. Therefore, no inhibition of microbes was observed. The microbial biomass of the 0–10 cm layer is high, 520–680 µg C/g, and microbes cause the emission of 1.0 C-CO2 µg/g of soil per hour. During the ancient settlements’ development, a favorable paleoclimate was noted based on the data cited. This contributed to the spread of productive paleolandscapes, ensuring the development of domestic cattle breeding and agriculture. Full article
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33 pages, 1735 KiB  
Review
Ambient Air Pollution and Congenital Heart Disease: Updated Evidence and Future Challenges
by Francesca Gorini and Alessandro Tonacci
Antioxidants 2025, 14(1), 48; https://doi.org/10.3390/antiox14010048 - 3 Jan 2025
Cited by 2 | Viewed by 1914
Abstract
Congenital heart disease (CHD) represents the major cause of infant mortality related to congenital anomalies globally. The etiology of CHD is mostly multifactorial, with environmental determinants, including maternal exposure to ambient air pollutants, assumed to contribute to CHD development. While particulate matter (PM) [...] Read more.
Congenital heart disease (CHD) represents the major cause of infant mortality related to congenital anomalies globally. The etiology of CHD is mostly multifactorial, with environmental determinants, including maternal exposure to ambient air pollutants, assumed to contribute to CHD development. While particulate matter (PM) is responsible for millions of premature deaths every year, overall ambient air pollutants (PM, nitrogen and sulfur dioxide, ozone, and carbon monoxide) are known to increase the risk of adverse pregnancy outcomes. In this literature review, we provide an overview regarding the updated evidence related to the association between maternal exposure to outdoor air pollutants and CHD occurrence, also exploring the underlying biological mechanisms from human and experimental studies. With the exception of PM, for which there is currently moderate evidence of its positive association with overall CHD risk following exposure during the periconception and throughout pregnancy, and for ozone which shows a signal of association with increased risk of pooled CHD and certain CHD subtypes in the periconceptional period, for the other pollutants, the data are inconsistent, and no conclusion can be drawn about their role in CHD onset. Future epidemiological cohort studies in countries with different degree of air pollution and experimental research on animal models are warranted to gain a comprehensive picture of the possible involvement of ambient air pollutants in CHD etiopathogenesis. While on the one hand this information could also be useful for timely intervention to reduce the risk of CHD, on the other hand, it is mandatory to scale up the use of technologies for pollutant monitoring, as well as the use of Artificial Intelligence for data analysis to identify the non-linear relationships that will eventually exist between environmental and clinical variables. Full article
(This article belongs to the Special Issue Oxidative Stress and Environmental Toxicology)
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23 pages, 2563 KiB  
Article
Consequences of Early Maternal Deprivation on Neuroinflammation and Mitochondrial Dynamics in the Central Nervous System of Male and Female Rats
by Diego San Felipe, Beatriz Martín-Sánchez, Khaoula Zekri-Nechar, Marta Moya, Ricardo Llorente, Jose J. Zamorano-León, Eva M. Marco and Meritxell López-Gallardo
Biology 2024, 13(12), 1011; https://doi.org/10.3390/biology13121011 - 4 Dec 2024
Viewed by 1260
Abstract
Early life stress (ELS) is associated with an increased risk for neuropsychiatric disorders, and both neuroinflammation and mitochondrial dysfunction seem to be central to mental health. Herein, using an animal model of ELS, a single episode of maternal deprivation (MD, 24 h on [...] Read more.
Early life stress (ELS) is associated with an increased risk for neuropsychiatric disorders, and both neuroinflammation and mitochondrial dysfunction seem to be central to mental health. Herein, using an animal model of ELS, a single episode of maternal deprivation (MD, 24 h on pnd 9) extensively documented to elicit behavioural anomalies in male and female Wistar rats, we investigated its consequences in terms of neuroinflammation and mitochondrial dynamics in the prefrontal cortex (PFC) and the hippocampal formation (HCF). MD differentially affected the brain content of cytokines: MD induced a transient increase in pro-inflammatory cytokines (IL-1β and IL-6) in the PFC, as well as in the levels of the anti-inflammatory cytokine IL-10 in the HCF. MD also induced a significant decrease mitochondria citrate synthase activity, but MD did not exert significant changes in mitochondria Complex IV activity, revealing a generalized decrease in mitochondrial density without any change in mitochondrial respiration. In the present study, we demonstrate that MD induces neuroinflammatory processes in specific brain regions. Additional research is needed to better understand the temporal pattern of such changes, their impact on the developing brain, and their participation in the already well-known behavioural consequences of MD. Full article
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