Reporting animal research: Explanation and elaboration for the ARRIVE guidelines 2.0

3D connective micro-fragment enriched with stromal vascular fraction in osteoarthritis: chondroprotective evidence in a preclinical in vivo model

Introduction

Adipose-derived cell therapies are one of the most common regenerative therapeutic options to alleviate the multi-component damage of osteoarthritis (OA). Adipose stromal vascular fraction (SVF) has gained scientific consensus for its ability to interact protectively with the joint microenvironment. Recently, the wide range of enzyme-free tissue processing systems has outperformed classical treatments, because of their ability to produce connective micrografts enriched with the SVF (mctSVF). This preclinical in vivo study evaluates the chondroprotective potential of a newly generated mctSVF compared with in vitro expanded adipose stromal cells (ASC) in OA.

Methods

A mild grade of OA was induced through bilateral anterior cruciate ligament transection (ACLT) surgery in 32 Specific Pathogen Free (SPF) Crl: KBL (NZW) male rabbits followed by the surgical excision of inguinal adipose tissue. After 2 months, OA joints were treated with an intra-articular (IA) injection of mctSVF or ASC. Local biodistribution analysis was used to determine migration patterns of PKH26-labelled cells in the knee joint after 1 month. Efficacy was assessed by gross analysis, histology and immunohistochemistry on the osteochondral unit, synovial membrane and meniscus.

Results

We elucidate the effectiveness of a one-step approach based on mechanical isolation of mctSVF. Through epifluorescence analysis, we found a similar pattern of cell distribution between cell treatments, mainly towards articular cartilage. Similar regenerative responses were observed in all experimental groups. These effects included: (i) osteochondral repair (promotion of typical anabolic markers and reduction of catabolic ones); (ii) reduction of synovial reactions (reduced synovial hypertrophy and inflammation, and change of macrophage phenotype to a more regenerative one); and (iii) reduction of degenerative changes in the meniscus (reduction of tears).

Discussion

Our study demonstrates the validity of a novel mechanical system for the generation of the mctSVF micrograft with chondroprotective potential in a preclinical model of moderate OA. The resulting final product can counteract inflammatory processes beyond the OA microenvironment and protect cartilage through the colonization of its structure. The intact and active microanatomy of mctSVF makes it a suitable candidate for translational medicine to treat OA without the need for cell manipulation as with ASC.

Recommendations for reporting preclinical radiobiological studies in targeted radionuclide therapy

The growing interest and investments in targeted radionuclide therapy (TRT) have expanded research efforts across preclinical and clinical domains. Researchers from diverse fields, including nuclear medicine, radiochemistry, radiopharmacy, radiotherapy, biology, and physics, are increasingly focusing on TRT. Despite this, a lack of standardization in preclinical radiobiological studies hinders the evaluation and comparison of therapeutic radiopharmaceuticals across laboratories. Recognizing this, participants at the second International Workshop on Radiobiology of Molecular Radiotherapy, held in London, UK, in March 2023, emphasized the need for a consensus on nomenclature and standardized reporting guidelines in this field. The recommendations outlined here aim to address this gap by promoting consistent reporting. By adopting these standards, we hope to enhance the reproducibility, inter-laboratory comparability and visibility of preclinical TRT research, ultimately accelerating progress and amplifying its impact on the field and clinic.

Tuning TCR complex recruitment to the T cell antigen coupler (TAC) enhances TAC-T cell function

The T cell antigen coupler (TAC) receptor is a novel synthetic receptor designed to maximize the therapeutic potential of T cells in the absence of tonic signaling or receptor-related toxicities. Prior studies indicated that TACs provide safe and long-lasting anti-tumor immunity in multiple preclinical models of solid tumors supported by mounting clinical evidence. TAC receptors function by targeting a cancer associated surface antigen while recapitulating natural T cell receptor (TCR) signaling, which involves both TCR/CD3 recruitment and intracellular CD4 co-receptor activity. While other receptor designs exist that redirect TCR signaling towards cancer associated antigens, the TAC technology is unique in that antigen binding is distinctly separated from TCR/CD3 complex recruitment. In the present study, we show that single amino-acid changes in the TAC domain responsible for TCR recruitment of a Claudin 18.2-directed TAC receptor led to enhanced in vivo functionality. Analyzing biophysical properties of the receptor suggests that TAC receptors with high TCR affinities are suboptimal compared to receptor constructs that show lower TCR affinities with notably fast off-rates. This work demonstrates that balancing TCR recruitment is critical when designing effective TAC T cell receptors, a concept that may apply more broadly to other therapeutic approaches relying on TCR signaling.

Acute and sub-acute toxicity of ethanol extracts of Hagenia abyssinica and Rumex abyssinicus flowers in Swiss albino mice

BACKGROUND

Hagenia abyssinica (Bruce) J.F. Gmel (Family: Rosaceae) and Rumex abyssinicus Jacq (Family: Polygonaceae) are valuable medicinal plants traditionally used in Ethiopia to treat various diseases. Recent studies have also demonstrated that solvent extracts of these plants exhibit molluscicidal activities under laboratory conditions, highlighting their potential for snail control. However, limited information is available regarding their safety profiles.

OBJECTIVE

This study aimed to evaluate acute, and sub-acute toxicity of 70% ethanol extracts of H. abyssinica and R. abyssinicus flowers in Swiss albino mice, following the Organization for Economic Co-operation and Development guidelines 423 and 407.

METHODS

In the acute toxicity study, both extracts were administered orally to experimental groups at varying concentrations (mg/kg bodyweight): 5, 50, 300, and 2000. For the sub-acute toxicity study, both extracts were given to the experimental groups at doses (mg/kg) of 125, 250, and 500 daily for 28 days. Blood samples were collected from each mouse and analyzed for hematological and biochemical parameters. Additionally, the heart, liver, and kidneys were excised, stained, and examined for potential histopathological effects.

RESULTS

The acute toxicity study revealed no noticeable changes in behavior at the highest oral dosage of 2000 mg/kg. In the sub-acute toxicity study, no statistically significant changes were observed in hematological and biochemical parameters compared to the control group. Similarly, no abnormal histological findings were noted in the examined organs in comparison to the control group.

CONCLUSION

These findings indicate that flower extracts of both plants did not show significant toxicity to laboratory mammals at an oral dosage of 2000 mg/kg.

Oxidative Stress and Epithelial-Mesenchymal Transition: The Impact of Ubiquitin C-terminal Hydrolase L1 in Cigarette Smoke-Induced COPD

PURPOSE

Cigarette smoke (CS) has been demonstrated to mediate oxidative stress (OS) and epithelial-mesenchymal transition (EMT) in bronchial epithelial cells, thereby contributing to airway remodeling in chronic obstructive pulmonary disease (COPD). Studies have shown upregulation of Ubiquitin C-terminal hydrolase L1 (UCHL1), a deubiquitinating enzyme, in the airway epithelium of smokers. Many studies indicate that UCHL1's regulation of EMT and OS has a complex role in various cell types, including respiratory epithelium. Thus, we aimed to investigate UCHL1's regulation of EMT, OS, and related mechanisms in cigarette smoke-exposed airway epithelium.

METHODS

Exposure to cigarette smoke (CS) or cigarette smoke extract (CSE) was employed to establish both animal and cellular models. Protein expression was analyzed using immunohistochemistry, immunofluorescence, and Western blotting. Lentiviral UCHL1 or GPX1-siRNA was used to modulate UCHL1 or GPX1 expression, respectively. Transwell assays were employed to evaluate cell migration and EMT-related alterations. Oxidative stress levels were assessed using specific assay kits.

RESULTS

This study validated that exposure to CS induces UCHL1 expression in bronchial epithelial cells both in vitro and in vivo, a phenomenon positively correlated with increased OS and EMT in the airway. Notably, UCHL1 overexpression counteracted CSE's impact on EMT markers, cell migration, and oxidative stress in BEAS-2B cells, while UCHL1 knockdown exacerbated these effects. Furthermore, in BEAS-2B cells treated with CSE, upregulation of UCHL1 was found to enhance the expression of glutathione peroxidase 1 (GPX1), an antioxidant enzyme. The effect of UCHL1 overexpression on EMT-related protein markers and cell migration was reversed upon GPX1 silencing via siRNA.

CONCLUSIONS

These findings suggest that UCHL1-mediated regulation of GPX1 expression alleviates cigarette smoke-induced EMT-related protein markers change and cell migration in BEAS-2B cell.

Efficacy of Naringenin against aging and degeneration of nucleus pulposus cells through IGFBP3 inhibition

Naringenin (NAR), a natural flavonoid, exerts anti-inflammatory and antioxidant pharmacology. However, the pharmacological mechanisms through which NAR prevents and treats intervertebral disc degeneration (IDD) remain unclear. We utilized bioinformatics, machine learning, and network pharmacology to identify shared targets among NAR, senescence, and IDD. Subsequently, molecular docking was conducted to evaluate NAR's binding affinity to common target. Additionally, we used IL-1β to induce senescence and degeneration in nucleus pulposus cells (NPCs) and conducted a series of cellular assays, including immunoblotting, immunofluorescence, β-galactosidase staining, cell proliferation, cell cycle analysis, and measurement of reactive oxygen species levels, to investigate NAR's impact on IL-1β-induced senescence and degeneration of NPCs. Our study revealed that Insulin-like growth factor binding protein 3 (IGFBP3) was the only common target. IGFBP3 exhibited significant differences between the IDD and healthy groups and proved to be an effective diagnostic marker for IDD. Molecular docking confirmed the binding between NAR and IGFBP3. In vitro experiments, we observed that Igfbp3 expression increased in the senescence and degeneration groups. Igfbp3 knockdown and NAR attenuated IL-1β-induced senescence and degenerative phenotypes in NPCs. In contrast, the effect of NAR was attenuated by recombinant IGFBP3 protein. In conclusion, our findings suggest that NAR plays a preventive and therapeutic role in IDD, likely achieved through the inhibition of Igfbp3 expression.

In vivo biocompatibility and long-term durability of nanofibrillated cellulose as a urethral bulking agent in rats and Beagle dogs

BACKGROUND

Cystoscopy-assisted submucosal injections of urethral bulking agents offer a safe and efficient alternative to surgery for treating urinary incontinence in both dogs and women. To address the concern of their transient therapeutic effect, a preclinical study evaluating the biocompatibility, safety, and durability of nanofibrillated cellulose as a bulking agent was designed. Plant-based nanofibrillated cellulose is considered renewable, biocompatible, and non-degradable in vivo. To the best of our knowledge, no studies of nanofibrillated cellulose injected into the urethral wall of experimental animals have been published to date.

METHODS

After assessing the rheological behavior of nanofibrillated cellulose, a biocompatibility study with 50 rats and a durability study with two Beagle dogs were conducted. In anesthesized rats, deposits of either nanofibrillated cellulose or sodium chloride as an inert control were injected into the urethral wall via a caudal laparotomy. The rats were euthanized for histopathological assessment after 7, 30, and 90 days. In dogs, cystoscopy-assisted injections of nanofibrillated cellulose were followed with magnetic resonance imaging at 14 days and at 2, 3, 6, and 12 months.

RESULTS

The rheological studies demonstrated a gel-like behavior under a wide range of shear stress. Nanofibrillated cellulose induced a moderate host tissue response according to the EN ISO 10993-6 standard, consisting primarily of macrophages, foreign body giant cells, lymphocytes, and plasma cells. No significant difference was observed in the tissue response at different time points. In dogs, the bulking agent was visible in 4/5 (80%) injection sites on magnetic resonance imaging at 12 months post-injection. No signs of migration, abscess formation or any major or long-term complications were observed.

CONCLUSIONS

Nanofibrillated cellulose maintains a chronic but stable and tolerable inflammatory response for up to 90 days in the urethral wall of rats. Durability in the urethral wall of dogs indicates a potential long-term effect.

Renal mitochondria response to sepsis: a sequential biopsy evaluation of experimental porcine model

BACKGROUND

The pathophysiology of sepsis-induced acute kidney injury remains elusive. Although mitochondrial dysfunction is often perceived as the main culprit, data from preclinical models yielded conflicting results so far. The aim of this study was to assess the immune-metabolic background of sepsis-associated renal dysfunction using sequential biopsy approach with mitochondria function evaluation in a large clinically relevant porcine models mimicking two different paces and severity of sepsis and couple this approach with traditional parameters of renal physiology.

METHODS

In this randomized, open-label study, 15 anaesthetized, mechanically ventilated and instrumented (renal artery flow probe and renal vein catheter) pigs were randomized in two disease severity groups-low severity (LS) sepsis (0.5 g/kg of autologous faeces intraperitoneally) and high severity (HS) sepsis (1 g/kg of autologous faeces intraperitoneally). Sequential cortical biopsies of the left kidney were performed and a pyramid-shaped kidney specimen with cortex, medulla and renal papilla was resected and processed at the end of the experiment. Oxygraphic data and western blot analysis of proteins involved in mitochondrial biogenesis and degradation were obtained.

RESULTS

In contrast to increased mitochondrial activity observed in LS sepsis, a significant decrease in the oxidative phosphorylation capacity together with an increase in the respiratory system uncoupling was observed during the first 24 h after sepsis induction in the HS group. Those changes preceded alterations of renal haemodynamics. Furthermore, serum creatinine rose significantly during the first 24 h, indicating that renal dysfunction is not primarily driven by haemodynamic changes. Compared to cortex, renal medulla had significantly lower oxidative phosphorylation capacity and electron-transport system activity. PGC-1-alfa, a marker of mitochondrial biogenesis, was significantly decreased in HS group.

CONCLUSIONS

In this experimental model, unique sequential tissue data show that the nature and dynamics of renal mitochondrial responses to sepsis are profoundly determined by the severity of infectious challenge and resulting magnitude of inflammatory insult. High disease severity is associated with early and stepwise progression of mitochondria dysfunction and acute kidney injury, both occurring independently from later renal macro-haemodynamic alterations. Our data may help explain the conflicting results of preclinical studies and suggest that sepsis encompasses a very broad spectrum of sepsis-induced acute kidney injury endotypes.

A Two-Hour Fetal Glucagon Infusion Stimulates Hepatic Catabolism of Amino Acids in Fetal Sheep

Postnatally, glucagon acutely lowers plasma amino acid (AA) concentrations by stimulating hepatic AA catabolism, but its fetal actions remain unclear. This study tested whether a 2 h fetal glucagon infusion would stimulate hepatic AA catabolism and inhibit placental AA transfer. Late-gestation pregnant sheep (0.9 gestation) underwent surgical, vascular catheterization and received fetal glucagon (n = 8) or vehicle infusions (n = 8) in a crossover design with a 48 h washout period. Nutrient uptake and utilization were assessed during each infusion, and fetal liver and placental tissue were collected post-infusion under hyperglucagonemic (n = 4) or vehicle (n = 4) conditions. Glucagon receptor was identified in fetal hepatocyte and trophoblast cells. Glucagon reduced fetal plasma AA concentrations by 20% (p = 0.0103) and increased plasma glucose by 47% (p = 0.0152), leading to a three-fold rise in fetal plasma insulin (p = 0.0459). Hepatic gene expression associated with AA catabolism and gluconeogenesis increased (p < 0.0500) following glucagon infusion, and hepatic metabolomic analysis showed enrichment in AA metabolism pathways. However, placental AA transfer was unaffected by 2 h fetal glucagon infusions. In conclusion, a 2 h glucagon infusion stimulates hepatic glucose production and enhances AA catabolism in the fetal liver, lowering plasma AA concentrations. The primary acute effects of fetal glucagon are hepatic, as placental AA transfer is unchanged.

Perinatal obesity primes the hepatic metabolic stress response in the offspring across life span

Perinatal obesity is associated with an increased risk of metabolic diseases and hepatic dysfunction in offspring. However, the underlying mechanisms of this metabolic programming remain incompletely understood. This study aimed to elucidate the influence of maternal obesity and early life exposure to high-fat diet on offspring liver phenotype, hepatokine profile, and key components of hepatic metabolism. To this end, we employed a murine high-fat diet-induced perinatal obesity model, investigating the offspring in early life and late adulthood. After exposure to perinatal obesity, the offspring showed a significantly increased body weight in early life with no histological signs of steatosis, but a dysregulated hepatokine profile. Proteomic profiling, followed by molecular analyses, revealed a decreased lipogenesis and increased fatty acid oxidation, suggesting a protective mechanism against the development of steatosis. These changes were accompanied by increased markers of lipid peroxidation and DNA damage, indicating increased oxidative stress. Concomitantly, the antioxidative enzymes catalase and superoxide dismutase 2 were significantly reduced and oxidative phosphorylation was impaired, implying an altered oxidative stress response. While changes in oxidative stress level were only detected in early life, the lipid metabolism was altered across life span. This metabolic programming could determine the resilience and susceptibility to chronic liver disease later in life.

Evaluating the efficacy of endotracheal and intranasal epinephrine administration in severely asphyxic bradycardic newborn lambs: a randomised preclinical study

OBJECTIVE

Intravenous epinephrine administration is preferred during neonatal resuscitation, but may not always be rapidly administered due to lack of equipment or trained staff. We aimed to compare the time to return of spontaneous circulation (ROSC) and post-ROSC haemodynamics between intravenous, endotracheal (ET) and intranasal (IN) epinephrine in severely asphyxic, bradycardic newborn lambs.

METHODS

After instrumentation, severe asphyxia (heart rate <60 bpm, blood pressure ~10 mm Hg) was induced by clamping the cord in near-term lambs. Resuscitation was initiated with ventilation followed by chest compressions. Lambs were randomly assigned to receive intravenous (0.02 mg/kg), ET (0.1 mg/kg) or IN (0.1 mg/kg) epinephrine. If ROSC was not achieved after three allocated treatment doses, rescue intravenous epinephrine was administered. After ROSC, lambs were ventilated for 60 min.

RESULTS

ROSC in response to allocated treatment occurred in 8/8 (100%) intravenous lambs, 4/7 (57%) ET lambs and 5/7 (71%) IN lambs. Mean (SD) time to ROSC was 173 (32) seconds in the intravenous group, 360 (211) seconds in the ET group and 401 (175) seconds in the IN group (p<0.05 intravenous vs IN). Blood pressure and cerebral oxygen delivery were highest in the intravenous group immediately post-ROSC (p<0.05), whereas the ET group sustained the highest blood pressure over the 60-min observation (p<0.05).

CONCLUSION

Our study supports neonatal resuscitation guidelines, highlighting intravenous administration as the most effective route for epinephrine. ET and IN epinephrine should only be considered when intravenous access is delayed or not feasible.

New insights into the range and transmission dynamics of a koala gammaherpesvirus, phascolarctid gammaherpesvirus 2

The recent classification of the koala to endangered across most of its range has emphasised the urgent need for enhanced disease surveillance. Little is known about the distribution and clinical significance of phascolarctid gammaherpesvirus 2 (PhaHV-2) outside the Australian states of Victoria and South Australia. PhaHV-2 may have significant impacts on koala wellbeing, justifying investigation into its distribution and impact. To better characterise virus distribution and factors associated with infection, we developed a novel quantitative polymerase chain reaction assay with a high sensitivity, specificity and throughput capacity, to facilitate rapid detection and quantification of PhaHV-2. We applied this assay to 157 predominantly clinically-derived, urogenital swab samples. Results indicated that the distribution of PhaHV-2 extends throughout the endangered New South Wales koala populations. Frequency of detection of PhaHV-2 was highest in South Australia (25%) and lowest in northern Qld (0%) and was more likely in older koalas than younger koalas. We corroborate previous findings of an association with presence of PhaHV-1 and find no evidence to support sex as a predictor for viral presence in clinically-derived samples. The capacity to rapidly detect mucosal shedding of PhaHV-2 will enable rapid isolation of affected individuals and aid further research into the pathophysiological impacts of this virus in koalas and the influence of co-infections.

Effects of Pesticide Exposure on Neuroinflammation and Microglial Gene Expression: Relevance to Mechanisms of Alzheimer's Disease Risk

Background

Alzheimer's disease (AD) is characterized by the presence of amyloid-β plaques, neurofibrillary tangles, and neuroinflammation. Previously, we reported serum levels of dichlorodiphenyldichloroethylene (DDE), the primary metabolite of the pesticide dichlorodiphenyltrichloroethane (DDT), were significantly higher in AD patients compared to age-matched controls and that DDT exposure worsened AD pathology in animal models.

Objective

Here, we investigated the effect of DDT on neuroinflammation in primary mouse microglia (PMG) and C57BL/6J mice.

Methods

Effects of DDT on inflammation and disease-associated microglia were determined in primary mouse microglia and C57BL/6J mice.

Results

PMG exposed to DDT (0.5-5.0 µM) elicited a ∼2-3-fold increase in Il-1b mRNA levels, with similar concentration-dependent upregulation in Il-6, Nos2, and Tnfa . These effects were blocked by the sodium channel antagonist tetrodotoxin, demonstrating the role of DDT-microglial sodium channel interactions in mediating this response. Additionally, NOS2 protein levels increased by ∼1.5-2-fold, while TNFa was elevated by 2-4-fold. C57BL/6J male and female mice exposed to DDT (30 mg/kg) demonstrated significantly increased mRNA levels of Nos2 , Il-1b , and Il-6 in the frontal cortex (1.5-2.3-fold), and Nos2 , Il-1b, and Tnfa (1.5-1.8-fold) in the hippocampus. Furthermore, microglial homeostatic genes, Cx3cr1 , P2ry12, and Tmem119 , were downregulated, while stage 1 disease-associated microglia genes were upregulated both in vitro and in vivo . Notably, Apoe and Trem2 were only upregulated in the frontal cortex and hippocampus of females.

Conclusion

These data indicate that DDT increases neuroinflammation, which may result from direct actions of DDT on microglia, providing a novel pathway by which DDT may contribute to AD risk.

Unveiling the role of sex in the metabolism of indoxyl sulfate and apixaban

Chronic Kidney Disease (CKD) is associated with heightened risk of thrombosis. Prescription of anticoagulants is key to manage it; however, CKD patients have shown an increased risk of bleeding under anticoagulation therapy compared to non-CKD patients. We hypothesized that the sex could modify the metabolism of indoxyl sulfate (IS), a uremic toxin and Apixaban. Our intoxication model shows that higher doses of IS and apixaban accumulate in the plasma of female mice because of expression differences in efflux transporters and cytochromes in the liver, ileum and kidneys, when compared to males. Furthermore, we found that accumulation of apixaban in females contributes to increased bleeding. Transcriptional analysis of liver samples revealed elevated Sult1a1 but reduced Abcg2 and Cyp3a11 in female mice, while in the kidneys the expression rates of Oat1 and Oat3 were respectively lower and higher than those observed in males, potentially affecting drug clearance. Whole proteomics liver analysis confirmed the previous transcriptional results at the protein level and revealed that sex had a major influence in regulating both coagulation and drug metabolism pathways. Thus, our findings underline the need for inclusive clinical and preclinical trials to accurately reflect sex-specific metabolic variations, and to consider CKD-specific changes to optimize dosing, minimize side effects, and improve patient outcomes.

Early-life environmental enrichment promotes positive animal welfare for juvenile Atlantic salmon (Salmo salar) in aquaculture research

Early life experiences have long-lasting effects on behaviour and physiology, influencing development of adaptive natural behaviours. Enriching farmed environments encourages expression of natural behaviours in captive fish, promoting positive animal welfare, important for conducting valid and reproducible research and informing better management practices. Using juvenile Atlantic Salmon (Salmo salar), we tested whether provision of environmental enrichment in early life improves welfare. Welfare indicators were measured comparing enriched to non-enriched tanks. Morphological (fin damage and body condition), physiological (plasma cortisol) and behavioural traits (activity, group cohesion, and neophobia) were recorded. Molecular expression of brain mRNA transcripts related to stress response, neuroplasticity and serotonergic system was analysed. Environmental enrichment did not affect morphological welfare indicators, activity, or cortisol. Enriched fish were more cohesive than non-enriched fish, less neophobic, with higher serotonergic turnover, suggesting enrichment mitigates against stress, promoting positive emotional states. Genes related to neuronal development and activity (bdnf and ndf1), cellular stress (hsp90 and hsp70), and serotonin synthesis (tph2) increased in enriched fish following stress, enhancing cognitive function. Our findings suggest early life environmental enrichment is advantageous for positive animal welfare by improving emotional states in captive environments, ensuring animals are free of negative experiences and able to access positive ones.

Phenotypic and genotypic characterization of Aeromonas hydrophila isolated from freshwater fishes at Middle Upper Egypt

Aeromonas hydrophila is a common fish pathogen and a significant foodborne pathogen of increasing public health concern. This study was conducted in Middle Upper Egypt to determine the prevalence of A. hydrophila among the diseased Oreochromis niloticus (n = 100) and Clarias gariepinus (n = 100) at Assiut and Sohag Governorates. A. hydrophila isolates (n = 44) were assessed for antimicrobial susceptibility and biofilm production. Moreover, PCR was performed to analyze the incidence of some genes in 20 isolates of A. hydrophila. The results showed that 24% and 20% of the examined O. niloticus and C. gariepinus were infected with A. hydrophila respectively, with all (100%) showing a variety of clinical signs of septicemia. A. hydrophila isolates were all biofilm producers, with varied degrees of biofilm production. 79.5% of the isolates were multidrug-resistant and had a high multiple antimicrobial resistance index > 0.2. PCR analysis revealed that all isolates carried act and blaTEM genes but not carried int2 gene. Additionally, sul1, aer, tetA, int1, and qnrA genes were present in 75%, 60%, 55%, 55% and 45% of them, respectively. This study highlights the high incidence of multidrug-resistant pathogenic A. hydrophila in the infected fishes, posing a serious risk to humans and fish.

Accelerating veterinary low field MRI acquisitions using the deep learning based denoising solution HawkAI

Magnetic resonance imaging (MRI) has changed veterinary diagnosis but its long-sequence time can be problematic, especially because animals need to be sedated during the exam. Unfortunately, shorter scan times implies a fall in overall image quality and diagnosis reliability. Therefore, we developed a Generative Adversarial Net-based denoising algorithm called HawkAI. In this study, a Standard-Of-Care (SOC) MRI-sequence and then a faster sequence were acquired and HawkAI was applied to the latter. Radiologists were then asked to qualitatively evaluate the two proposed images based on different factors using a Likert scale (from 1 being strong preference for HawkAI to 5 being strong preference for SOC). The aim was to prove that they had at least no preference between the two sequences in terms of Signal-to-Noise Ratio (SNR) and diagnosis. They slightly preferred HawkAI in terms of SNR (confidence interval (CI) being [1.924-2.176]), had no preference in terms of Artifacts Presence, Diagnosis Pertinence and Lesion Conspicuity (respective CIs of [2.933-3.113], [2.808-3.132] and [2.941-3.119]), and a very slight preference for SOC in terms of Spatial Resolution and Image Contrast (respective CIs of [3.153-3.453] and [3.072-3.348]). This shows the possibility to acquire images twice as fast without any major drawback compared to a longer acquisition.

Effect of Sequential vs. Simultaneous Dual Growth Factor Release from Structured Heparin-Poly-Electrolyte Multilayer Coatings on Peri-Implant Bone Formation and Angiogenesis in Pig Mandibles

The aim of the present study was to test the sequential and simultaneous release of rhBMP2 and rhVEGF165 from poly-l-lysine-heparin (PLL-Hep) poly-electrolyte multilayer (PEM) coating on titanium surfaces for their ability to enhance peri-implant bone formation and CD31 expression around disc-shaped titanium implants (5 × 7 mm) in mini-pig mandibles. Bare titanium surfaces loaded with respective growth factor combinations served as controls. Ten different surface conditions were tested exhibiting early VEGF release, early BMP release, simultaneous VEGF and BMP release, and sole VEGF/BMP release, respectively. The implants were inserted press-fit into 5 mm trephine cavities at the lower border of the mandibles of mini-pigs and left to heal for 4 and 13 weeks. After 4 weeks, there was no significant difference in peri-implant bone formation, bone-implant contact nor CD31 expression between the different surface conditions. After 13 weeks, bone formation was significantly higher in the zone of 100 μm next to implant surfaces releasing either BMP alone or with an early release of BMP2. Expression of CD31 has significantly decreased from 4 to 13 weeks with significantly higher values in the group of implants with early release of BMP2. The results indicate that the range of released growth factors is limited to a distance of approximately 100 μm and that the sequence of early release of BMP2 followed by VEGF165 promotes peri-implant bone formation and peri-implant angiogenesis, which is in contrast to the current understanding of the temporal patterns of growth factor release for enhancement of bone formation.

Using major histocompatibility complex (MHC) II expression to predict antitumor response to CD4 + lymphocyte depletion

Immunotherapy targeting CD4 + FoxP3 + regulatory T cells (Tregs) through CD4 + lymphocyte depletion is being investigated as cancer treatment. This study examines the efficacy and limitations of CD4 depletion across various cancer models. We examined CD4 depletion in syngeneic mouse tumor models including B16 melanoma, Renca kidney cancer, and Hepa1-6 hepatocellular carcinoma. The study explored the relationship between MHC II expression and tumor growth, immune response, and survival. In mouse models, CD4 depletion suppressed B16 and Renca tumor growth but accelerated Hepa1-6 tumors. Hepa1-6 had high MHC II expression while the other two lines had low MHC II expression. Manipulation of MHC II expression in Hepa1-6 and Renca cell lines confirmed the mechanistic importance of MHC II in generating a CD4-based antitumor immune response. Analysis of the TCGA dataset supports the relevance of this mechanism in patients. In tumors with high MHC II and low MHC I expression, increased CD4 levels correlated with improved survival. CD4 depletion can suppress tumor growth or promote tumor growth, depending on tumor MHC expression status. MHC status may identify tumors where intratumor CD4 may be a better early-response marker than CD8.

Physiology-Related Variations in the Blood Hormone and Metabolome of Endangered Hog Deer (Axis porcinus)

Background/Objectives: The hog deer (Axis porcinus) is an endangered species facing significant threats from habitat loss and fragmentation, with only captive populations remaining in China. Expanding breeding programs and restoring wild populations are critical strategies for the species' conservation. Achieving this requires the development of an effective health database and the identification of molecular biomarkers for their physiological traits. Methods: In this study, we present the largest blood metabolomics dataset to date for captive hog deer, comprising 73 healthy individuals. We conducted targeted metabolomics to quantify blood hormone levels and untargeted metabolomics to characterize blood metabolic profiles, aiming to evaluate the associations of sex, age, and weight with metabolic profiles. Results: Our results reveal distinct growth patterns between females and males, with males reaching their body weight plateau at a larger size. We observed significant sex differences (p < 0.05) in blood hormones and metabolic profiles. Females exhibited higher levels of progesterone, hydroxyprogesterone, stress hormones (e.g., cortisol), and proline, while males had higher levels of testosterone, uric acid, phenylalanine, and guanidinosuccinic acid. Notably, body weight emerged as a more important factor than gender in explaining variations in the metabolome, particularly in males. Several blood biomarkers were identified as correlating with age and body weight. Specifically, blood progesterone levels in females were linked to both age and body weight, while in males, uric acid, prolylhydroxyproline, and 3-methylhistidine were associated with these factors. The potential significance of these results for the artificial breeding and conservation of hog deer were discussed. Conclusions: Our study provides a metabolic reference for identifying abnormal individuals and offers potential biomarkers for determining the gender, age, and body weight of hog deer. These findings may have significant implications for the artificial breeding and conservation efforts of the species.

Alleviating isolation stress in chickens: The benefits of home pen playback and mirrors

This study investigated whether the provision of (1) a mirror or (2) video and sound playback of conspecifics in the home pen (i.e., playback) could alleviate stress in socially isolated adult domestic chickens. Thirty adult chickens participated in the study, undergoing three-minute sessions of social isolation over three consecutive days in an arena containing a tray of food treats. Each chicken was exposed to three conditions, one per day, in a semi-randomised order: (1) mirror, (2) playback, and (3) control. Video recordings of the tests were coded for stress-related behaviours, including stress behaviour (i.e., pooled stress vocalisations and escape behaviour), vigilance, feeding, and exploration. Additionally, thermal imaging was used to measure the surface temperatures of the eye and comb. Social isolation elicited mild stress responses, as evidenced by reduced surface eye and comb temperatures along with the exhibition of stress and vigilance behaviours. Both playback and mirror conditions appeared to reduce stress behaviours compared to the control, although the effect of the mirror was not statistically significant. It is possible that the playbacks simulated the presence of a group of calm conspecifics. Vigilance behaviour, however, remained unaffected across conditions. These findings suggest that playback, and to a lesser extent mirrors, may alleviate certain stress-related behaviours in socially isolated adult chickens. As individual variation was high, future research should explore the role of individual differences in stress responses, as well as the long-term effects of repeated exposure to mirrors and playback, along with other environmental variables.

NRBF2 plays a crucial role in the acquisition process of learning and memory, independent of the Vps34 complex

Introduction

NRBF2, a component of autophagy-associated PIK3C3/VPS34-containing phosphatidylinositol 3-kinase complex, plays a crucial role in learning and memory processes, yet its specific impact on memory and the underlying molecular mechanisms remains unclear.

Methods

Here, we utilized NRBF2 knockout mice to examine its influence on the time course of fear memory. Employing quantitative PCR, Western blot analysis, behavioral tests, and electrophysiology, we investigated the mechanisms through which NRBF2 affects memory processing.

Results

We observed an increase in Nrbf2 mRNA levels at 6 and 12 h, and protein levels at 6 h post fear conditioning. Depletion of NRBF2 impaired memory acquisition, short-term, and long-term memory without causing any anxiety-like behavior. Interestingly, inhibition of Vps34 and autophagy by SAR405 disrupted fear memory consolidation, while leaving memory acquisition, short-term memory, and long-term potentiation (LTP) unaffected. Our results suggested that NRBF2 deletion impaired memory acquisition through an autophagy-independent pathway and provided novel insights into the role of NRBF2 in the central nervous system.

Discussion

This study offer new insights into the role of NRBF2 and highlight the potential of targeting NRBF2 as a therapeutic strategy for addressing cognitive deficits associated with various disorders.

Vortioxetine's Therapeutic Potential: Cardiac Responses to Chronic Unpredictable Mild Stress in a Rat Model

BACKGROUND

Stress arises in response to threats or challenges, affecting both physical and mental health. While its harmful effects on the heart are widely recognized, cellular-level investigations remain limited. Antidepressants, including vortioxetine (VOR), are known to impact the cardiovascular system. VOR, used to treat major depressive disorder, is considered a promising option for patients with heart disease due to its anti-inflammatory and antioxidant properties, which may reduce cardiac damage.

OBJECTIVES

This study aimed to assess the effects of chronic unpredictable mild stress (CUMS) on rat hearts and evaluate VOR's potential protective effects against stress-induced cardiac damage.

METHODS

Twenty-eight male Wistar Albino rats were divided into four groups. The CUMS group experienced random daily stress for 6 weeks, while the CUMS+VOR group received VOR treatment alongside stress. VOR and control groups were not exposed to stress. Heart samples were examined histopathologically and immunohistochemically.

RESULTS

The CUMS group showed increased hyperemia, hemorrhage, edema, vacuolar degeneration, and mononuclear cell infiltrations, with reduced troponin and IL-10 and increased caspase-3 and NF-κB expressions compared to the control group (p≤0.001). VOR treatment improved these findings, normalizing histopathological and immunohistochemical results.

CONCLUSIONS

CUMS caused significant cardiac damage in rats, while VOR treatment showed protective effects by alleviating these pathological changes.

The inaccurate citation of the "Universal Declaration of Animal Rights" (UDAR) in the scientific literature: a scoping review

BACKGROUND

The Universal Declaration of Animal Rights (UDAR), adopted in 1977 by an international NGO inspired by the Universal Declaration of Human Rights and made public the following year, aimed to establish a universal code for human conduct toward animals. The declaration was revised twice, in 1989 and 2018, but it failed to be internationally recognised or adopted. While its global influence remained limited, misinterpretations of its scope and context have proliferated in legal and veterinary documents. To gauge its impact on scientific literature, a scoping review across three databases (Scopus, Web of Science Core Collection, and Google Scholar) was conducted for publications citing the UDAR from 1979 to 2022.

RESULTS

In terms of research field, the UDAR is mostly cited in the fields of law (27%), philosophy, ethics, and religion (17%), clinical medicine (17%), and basic medicine (11%). The 1978 UDAR version was most often cited. Among 305 screened publications, 47.9% contained erroneous or misleading claims about the UDAR. Common errors included linking the UDAR to UNESCO (34.8%) and conferring it universal endorsement or legally binding value (10.2%). More than half (57%, 59/103) of the mentions in the ethics section contained errors, namely confusing UDAR with other animal protection texts. Regarding the type of animal use, most misleading claims were found in scientific publications focusing on the use of animals in research.

CONCLUSIONS

The misappropriation of the UDAR risks providing a false sense of legitimacy and moral compass to editors, reviewers, and readers regarding animal use and highlights that the authors are unaware of ethical or regulatory frameworks governing the proper use of animals in science. This is particularly relevant because the 1978 version, which is antithetical to animal use in science, was most often cited, raising concerns about the governance of animal research in some institutions and the efficacy of the peer review process in detecting these errors. Finally, UDAR mentions grew more than the estimated growth of scientific publications worldwide, thus suggesting an increase in its influence.

An injectable, expandable polyacrylamide cryogel decreases blood loss and improves survival in a porcine model of junctional hemorrhage

Uncontrolled hemorrhage, including junctional hemorrhage, is a leading cause of preventable death in military trauma. Effective therapies are urgently needed to stabilize patients and prevent further blood loss. We developed an injectable, Expandable Polyacrylamide Cryogel (EPC) that rapidly expands to tamponade bleeding. The hemostatic efficacy of EPC was compared to other hemostatic products in a porcine junctional hemorrhage model. Splenectomized domestic swine (~ 40 kg; N = 37) were randomized to no treatment (N = 8), EPC (N = 7), EPC + thrombin (N = 6), XStat (N = 7), and Combat Gauze (CG, N = 9). They underwent transection of the right femoral artery/vein, followed by 30 s of free bleed, 3 min of manual compression, and observation for up to 3 h. EPC application achieved hemostasis and 100% survival for both formulations, compared to XStat (85%), CG (67%), and no treatment (37%) (p 0.0228, Fisher exact). Mean total blood loss was lowest in EPC groups (~ 590 mL) versus no treatment (1,683 ± 570 mL), XStat (784 ± 407 mL), and CG (1,181 ± 721 mL; p < 0.001 ANOVA). All other endpoints tended to favor the EPC formulations. EPC application for junctional-type injury produced wound tamponade with better survival, reduced blood loss, and better hemodynamic and laboratory parameters compared to no treatment, with trending improvements over XStat and CG.

Siponimod supports remyelination in the non-supportive environment

Inflammatory demyelination, a hallmark of multiple sclerosis (MS) lesions, leads to functional impairments and progressive axonal loss over time. Although remyelination is thought to protect axons, endogenous regenerative processes are often incomplete or fail entirely in many MS patients. While the precise reasons for remyelination failure remain unclear, repeated demyelination in previously affected white matter regions is a recognized contributing factor. In a previous study, we demonstrated that the sphingosine-1-phosphate modulator Siponimod ameliorates metabolic oligodendrocyte injury in an MS animal model. In this study, we explored the potential of Siponimod to enhance remyelination in a non-supportive environment. To this end, male mice were subjected to Cuprizone intoxication for seven weeks. From the onset of the fifth week, when oligodendrocyte progenitor cells begin to differentiate, mice were administered either a vehicle or Siponimod solution. Post-treatment, brain specimens were processed for (immune-) histochemical analyses. After four weeks of Cuprizone intoxication, staining intensities for various myelination markers, were significantly reduced. At the end of week seven, loss of myelin staining intensities was still pronounced, but anti-myelin basic protein (MBP) and myelin-associated glycoprotein (MAG) expression was significantly higher in Siponimod- versus vehicle-treated mice. Consistent with this finding, densities of OLIG2+ oligodendrocytes significantly recovered in Siponimod-treated but not in vehicle-treated mice. This enhanced recovery was paralleled by the trend of lower densities of Ki67+ proliferating oligodendrocyte progenitor cells. Our findings suggest that Siponimod has modest pro-regenerative capacities, partly explaining the amelioration of disease progression in secondary progressive MS patients.

HACE1 protects against myocardial ischemia-reperfusion injury via inhibition of mitochondrial fission in mice

BACKGROUND

HECT domain and Ankyrin repeat Containing E3 ubiquitin-protein ligase 1 (HACE1) has been found to be associated with mitochondrial protection. Mitochondrial damage is a critical contributor to myocardial ischemia-reperfusion injury (I/RI). However, little is known about the role of HACE1 in the pathogenesis of myocardial I/RI.

METHODS

Male C57BL6 mice with HACE1 knockout (KO) were subjected to 30 min of ischemia via ligation of the left anterior descending artery, followed by 0, 2, 6, or 24 h of reperfusion. The mice were evaluated for myocardial histopathological injury, serum troponin I (cTnI) levels, oxidative stress injury, apoptosis and cardiac function. Prior to ischemia, Mdivi-1(1.2 mg/kg) or vehicle was administered.

RESULTS

The study revealed that increased expression of HACE1 was associated with myocardial ischemia/reperfusion injury (I/RI), and that knockout of HACE1 resulted in more severe myocardial damage and cardiac dysfunction during I/R(P < 0.05). The HACE1 knockout group exhibited higher levels of malondialdehyde (MDA), greater mitochondrial fission, and dissipation of mitochondrial membrane potential (MMP), leading to more apoptosis and severe cardiac dysfunction compared to the wild-type I/R group(P < 0.05). On the other hand, HACE1 knockout further reduced superoxide dismutase (SOD) activity in the myocardium(P < 0.05), further supporting the findings. However, the adverse effects were almost completely eliminated by pharmacological blockade of the dynamin-related protein 1 (Drp1) inhibitor, Mdivi-1, which inhibits mitochondrial fission during cardiac I/R(P < 0.05).

CONCLUSION

Collectively, our data show that myocardial I/RI is associated with HACE1 downregulation and Drp1 activation, causing cardiomyocytes to undergo cell death. Therefore, HACE1 could be a promising therapeutic target for the treatment of myocardial I/RI.

RadioFlow Cytometry Reveals That [18F]FDG Uptake in K-RAS Lung Cancer Is Driven by Immune Cells: An Analysis on a Single-Cell Level

Tumor metabolism is a hallmark of cancer, yet cellular heterogeneity within the tumor microenvironment presents a significant challenge, as bulk analysis masks the diverse metabolic profiles of individual cell populations. This complexity complicates our understanding of [18F]FDG uptake by distinct cell types in the tumor microenvironment. This study aims to investigate [18F]FDG uptake at the single-cell level in the lung of Kirsten rat sarcoma virus-driven cancer mouse models using the novel technique radio-flow cytometry (radioFlow). Methods: Two Kirsten rat sarcoma virus-driven lung cancer mouse models were injected with [18F]FDG for small-animal PET/CT and subsequent fluorescence-activated cell sorting of the lung. For radioFlow, the sorted cell fractions were then measured in a γ-counter and their radioactivity was normalized to the number of cells. Results: RadioFlow analysis of the lung tissue of both models showed a robust cell type-specific uptake pattern across experiments. Our key findings indicate that the [18F]FDG PET signal predominantly derives from immune cells (CD45+, F4/80-, 78.3% ± 6.6%; macrophage, 13.9% ± 4.3%), whereas tumor cells contributed only with 2.8% ± 1.0%, similar to the uptake of structural cells (CD45-; tumor cells, 5.0% ± 2.3%). Normalization showed that macrophages exhibited the highest glucose metabolism in both tumor models (57% ± 8%), followed by the remaining immune cells (27% ± 3%). Conclusion: These findings highlight the critical influence of immune cell metabolism on [18F]FDG imaging, emphasizing the need to account for immune contributions when interpreting [18F]FDG imaging in cancer.

Rethinking animal attrition in preclinical research: Expressing causal mechanisms of selection bias using directed acyclic graphs

Animal attrition in preclinical experiments can introduce bias in the estimation of causal treatment effects, as the treatment-outcome association in surviving animals may not represent the causal effect of interest. This can compromise the internal validity of the study despite randomization at the outset. Directed Acyclic Graphs (DAGs) are useful tools to transparently visualize assumptions about the causal structure underlying observed data. By illustrating relationships between relevant variables, DAGs enable the detection of even less intuitive biases, and can thereby inform strategies for their mitigation. In this study, we present an illustrative causal model for preclinical stroke research, in which animal attrition induces a specific type of selection bias (i.e., collider stratification bias) due to the interplay of animal welfare, initial disease severity and negative side effects of treatment. Even when the treatment had no causal effect, our simulations revealed substantial bias across different scenarios. We show how researchers can detect and potentially mitigate this bias in the analysis phase, even when only data from surviving animals are available, if knowledge of the underlying causal process that gave rise to the data is available. Collider stratification bias should be a concern in preclinical animal studies with severe side effects and high post-randomization attrition.

Exploring the Therapeutic Potential of Three Cucurbit Plants Involving In Vivo Diabetes Screening

BACKGROUND

Trichosanthes cucumerina L. (TC), Momordica charantia var. muricata (Willd.) Chakrav. (MCM), and Luffa acutangula (L) Roxb. (LA) are common vegetables widely used in traditional and folk systems of medicine for various ailments including diabetes.

METHODOLOGY

This work evaluated the antidiabetic potential of 95% ethanolic extract (EE) obtained from Trichosanthes cucumerina, Momordica charantia var. muricata, and Luffa acutangula whole plant. Their antidiabetic activity was screened in fasted, fed, glucose-loaded, and diabetic rats treated for up to 4 h.

RESULTS

The tested herbal extracts possess potent therapeutic applications; more specifically Momordica charantia var. muricata whole plant extract possessed the most significant blood glucose lowering in fasted (19.68%; p<0.001), fed (8.1%; p<0.001), glucose loaded (18.78%; p<0.001), and diabetic (30.99%; p<0.001) models.

CONCLUSION

Our method of testing the glucose-lowering in four experimental models offers a time-saving approach to screen the hypoglycemic potential of candidate drugs. These findings validate the traditional claims and provide novel insights into the quest for antidiabetic cure.

MIBLood-EV: An Online Reporting Tool to Facilitate the Standardized Reporting of Preanalytical Variables and Quality Control of Plasma and Serum to Enhance Rigor and Reproducibility in Liquid Biopsy Research

Pre-analytical variability significantly impacts the reproducibility of liquid biopsy research, which is critical for precision medicine and biomedical research. This report highlights the challenges and variability in the pre-analytical processes of liquid biopsies, especially regarding extracellular vesicles (EVs), which are crucial for diagnostics in oncology. The MIBlood-EV initiative aims to standardize the reporting of pre-analytical variables and the quality control of plasma and serum samples to enhance reproducibility in EV research. By providing a comprehensive and flexible reporting framework, MIBlood-EV seeks to improve the reliability of EV studies and facilitate the development of evidence-based protocols, ultimately advancing the field of liquid biopsy research.

Lasmiditan ameliorates serotonergic itch in mice: Possible involvement of 5-HT1F receptors

Previously, some allergic conditions involving pruritus have been linked to migraine, raising the possibility that migraine and itching may be governed by similar underlying mechanisms. We aimed to investigate the efficacy of Lasmiditan, a highly selective agonist of the 5-hydroxytryptamine 1F (5-HT1F) receptor and a recently approved medication for the treatment of migraine headaches, in ameliorating serotonergic itching. Forty animals were employed in the present study (n = 40). Eight animals were randomly assigned to each of the following study groups (n = 8, in each group): (1) "Normal Saline": This group was given intradermal injections of normal saline (2) "5-HT": The animals were injected with intradermal 5-HT, which was used to induce itching. (3) "Lasmiditan 0.3", "Lasmiditan 1", and "Lasmiditan 3" groups: injected with 5-HT as well as intraperitoneal Lasmiditan at different dose levels (0.3, 1, and 3 mg/kg, respectively). Scratching behavior was recorded for 60 min, and the skin tissue of three mice was sampled at the end of the behavioral experiment to assess the levels of TLR-4, IL-31, 5-HT1F receptor, CGRP & TRPV4. In the present study, we found that Lasmiditan when administered at 1 mg/kg effectively reduced serotonin-induced itching compared to the "5-HT" group (P < 0.0001). Following the administration of Lasmiditan (1 mg/kg), the expression levels of the 5-HT1F receptor significantly increased (P < 0.01). Further, the levels of TLR-4, IL-31, CGRP & TRPV4 were substantially reduced upon the administration of Lasmiditan (1 mg/kg). We found that Lasmiditan is effective in reducing serotonergic itch in mice through its interaction with the 5-HT1F receptor in the skin tissue of mice.

A bacterial artificial chromosome mouse model of amyotrophic lateral sclerosis manifests 'space cadet syndrome' on two FVB backgrounds

C9orf72-related amyotrophic lateral sclerosis (ALS)/frontotemporal dementia (FTD) has proven difficult to model in mice. Liu et al. (2016) reported a bacterial artificial chromosome (BAC) transgenic mouse displaying behavioural, motor and pathological abnormalities. This was followed by multiple laboratories independently refuting and confirming phenotypes. A proposed explanation centred on the use of different FVB background lines (from The Jackson Laboratory and Janvier Labs). We studied C9orf72 BAC mice on both backgrounds and found significantly elevated levels of dipeptide repeat proteins, but no evidence of a transgene-associated phenotype. We observed seizures and a gradual decline in functional performance in transgenic and non-transgenic mice, irrespective of genetic background. The phenotype was in keeping with the so-called 'space cadet syndrome'. Our findings indicate that the differences previously reported are not due to C9orf72 status and highlight the importance of using genetic backgrounds that do not confound interpretation of neurodegenerative phenotypes.

Comparison of mouse models of heart failure with reduced ejection fraction

AIMS

Heart failure with reduced ejection fraction (HFrEF) is a leading cause of death worldwide; thus, therapeutic improvements are needed. In vivo preclinical models are essential to identify molecular drug targets for future therapies. Transverse aortic constriction (TAC) is a well-established model of HFrEF; however, highly experienced personnel are needed for the surgery, and several weeks of follow-up are necessary to develop HFrEF. To this end, we aimed (i) to develop an easy-to-perform mouse model of HFrEF by treating Balb/c mice with angiotensin-II (Ang-II) for 2 weeks by minipump and (ii) to compare its cardiac phenotype and transcriptome to the well-established TAC model of HFrEF in C57BL/6J mice.

METHODS

Mortality and gross pathological data, cardiac structural and functional characteristics assessed by echocardiography and immunohistochemistry and differential gene expression obtained by RNA-sequencing and gene-ontology analyses were used to characterize and compare the two models. To achieve statistical comparability between the two models, changes in treatment groups related to the corresponding control were compared (ΔTAC vs. ΔAng-II).

RESULTS

Compared with the well-established TAC model, chronic Ang-II treatment of Balb/c mice shares similarities in cardiac systolic functional decline (left ventricular ejection fraction: -57.25 ± 7.17% vs. -43.68 ± 5.31% in ΔTAC vs. ΔAng-II; P = 0.1794) but shows a lesser degree of left ventricular dilation (left ventricular end-systolic volume: 190.81 ± 44.13 vs. 57.37 ± 10.18 mL in ΔTAC vs. ΔAng-II; P = 0.0252) and hypertrophy (cell surface area: 58.44 ± 6.1 vs. 10.24 ± 2.87 μm2 in ΔTAC vs. ΔAng-II; P < 0.001); nevertheless, transcriptomic changes in the two HFrEF models show strong correlation (Spearman's r = 0.727; P < 0.001). In return, Ang-II treatment in Balb/c mice needs significantly less procedural time [38 min, interquartile range (IQR): 31-46 min in TAC vs. 6 min, IQR: 6-7 min in Ang-II; P < 0.001] and surgical expertise, is less of an object for peri-procedural mortality (15.8% in TAC vs. 0% in Ang-II; P = 0.105) and needs significantly shorter follow-up for developing HFrEF.

CONCLUSIONS

Here, we demonstrate for the first time that chronic Ang-II treatment of Balb/c mice is also a relevant, reliable but significantly easier-to-perform preclinical model to identify novel pathomechanisms and targets in future HFrEF research.

Effects of topical isoxsuprine ointment on imiquimod-induced psoriasiform skin inflammation in mice

This study assesses the potential positive impact of a 0.05% isoxsuprine ointment on psoriasiform skin inflammation generated by imiquimod in mouse models. Thirty-two male albino mice were allocated into four groups: the control group (which received topical emollients twice daily for 16 days), the induction group (which received imiquimod cream (5%) for 8 days, twice daily followed by petrolatum gel (15%) for another 8 days), and the other two groups, which received imiquimod cream (5%) for 8 days followed by either clobetasol ointment (0.05%) or isoxsuprine ointment (0.05%) twice daily for an additional 8 days. At the end of the experiment, mice were sacrificed by ethical standards, and levels of TNF-α, IL-6, IL-17A, IL-23, and VEGF were measured; PASI and Backer's score were examined, in addition to the histopathology of skin tissue. Each clobetasol and isoxsuprine group displayed a significant reduction in tissue homogenate levels of TNF-α, IL-6, IL-17A, IL-23, and VEGF, besides increments in IL-10 compared to the induction group. Some markers (IL-17A, IL23, and VEGF) showed no significant difference between clobetasol and the isoxsuprine group. In contrast, the other markers (TNF-α, IL6, and IL10) showed significant differences between clobetasol and isoxsuprine groups. Isoxsuprine ointment showed comparable efficacy to clobetasol ointment in treating imiquimod-induced psoriasiform skin inflammation in mice models, probably due to its possible effect of anti-inflammatory and immunomodulatory activities.

Does defect configuration affect the outcomes of alveolar ridge preservation? An experimental in vivo study

PURPOSE

The purpose of this study was to compare the bone healing potential of 1-, 2-, and 3-wall defects following alveolar ridge preservation (ARP) treatment, as well as to evaluate the efficacy of ARP as a treatment option for destructive sites.

METHODS

Three groups, characterized by 1-, 2-, and 3-wall defects, were randomly assigned to the maxillary second, third, and fourth premolars in each of 8 beagle dogs. Each defect was created at either the mesial or distal root site of the tooth, which was hemi-sectioned and extracted. The contralateral root was preserved to superimpose with the experimental site for histomorphometric analysis. For each site, either spontaneous healing (SH; control) or ARP (test intervention) was randomly applied. Each group was divided in half and underwent a healing period of either 4 or 12 weeks. The Mann-Whitney U test and Kruskal-Wallis test were used for histomorphometric analyses. Statistical significance was set at P<0.05.

RESULTS

Qualitative analysis revealed a higher percentage of new bone in the apical area compared to the coronal area, regardless of defect type and healing period. In quantitative analysis, the 3-wall defect exhibited a significantly higher percentage of mineralization in the ARP group after 12 weeks of healing (ARP: 61.73%±7.52%; SH: 48.84%±3.06%; P=0.029). An increased percentage of mineralization was observed with a greater number of remaining bony walls, although this finding did not reach statistical significance.

CONCLUSIONS

Within the limitations of this study, ARP treatment for compromised sockets appears to yield a higher percentage of mineralization compared to SH. Although the effectiveness of the remaining bony walls was limited, their presence appeared to improve the percentage of mineralization in ARP treatment.

Regeneration of Chronic Alveolar Vertical Defects Using a Micro Dosage of rhBMP-2. An Experimental In Vivo Study

OBJECTIVE

The objective of this study is to compare the effect of the location of recombinant human bone morphogenetic protein 2 (rhBMP-2) from the native bone and the periosteum for vertical alveolar bone augmentation.

MATERIALS AND METHODS

Mandibular, chronic, standardized, bilateral, and vertical defects in 12 beagle dogs were evaluated using four modalities: a xenograft alone (XENO; n = 6); rhBMP-2 alone (BMP; n = 6); a technique with rhBMP-2 close to the host bone covered by xenograft (SAN; n = 6); and a technique with rhBMP-2 close to the flap on top of the xenograft (LAS; n = 6). After 8 weeks, a series of in vivo inspections, fluorescence microscopy, histologic and histomorphometric evaluations, and micro-CT analyses.

RESULTS

After 8 weeks of healing, new bone formation correlated with proximity of rhBMP to the perforated membrane with BMP and LAS (p = 0.024). The highest total bone volume was found in the LAS group (45.1% ± 13.3%), followed by the SAN group (35.2% ± 6.7%), BMP group (33.1% ± 11.8%), followed by the XENO group (23.1% ± 6.5%). The SAN group demonstrated frequent seroma formation. Blood vessel formation was more pronounced in the LAS + rhBMP group, with a significant increase of 27.1% compared to the XENO group (p = 0.02). Micro-CT revealed a strong trend for higher bone volume in the BMP group (34.7%) compared to the XENO group (13.6%) (p = 0.06). Only rhBMP-2 groups demonstrated bone formation above the perforated membrane.

CONCLUSION

The location of rhBMP-2 in relation to the biomaterial and periosteum influenced the effectiveness of vertical bone regeneration.

Oral Lactoferrin-Responsive Formulation Anchoring around Inflammatory Bowel Region for IBD Therapy

Oral formulation is the ideal treatment method for inflammatory bowel disease (IBD) therapy, but the mucosal damage and diarrhea symptoms impede the drug retention around the inflammatory region, severely limiting IBD therapeutic efficacy. To address this, an oral astaxanthin (Ast) precise delivery formulation is developed with the selective Ast anchoring around the inflammatory region by the novel lactoferrin (LF)-responsive flocculation. This formulation also heightens the apparent solubility of Ast with the minimized edible safety risks for the edible raw materials. For in vivo IBD therapy, the precise delivery formulation exhibits remarkable outcomes, including a significant increase in colon length and a 100% survival rate. Furthermore, it is verified that the mechanism of treatment is primarily attributed to the improved immunoregulation, epithelial repair, and gut microbiota remodeling after the LF-responsive flocculation. This effective inflammatory-responsive delivery design is instructive and valuable to develop more precise delivery systems for IBD therapy.

Transplantation of a genetically modified porcine heart into a live human

Following our previous experience with cardiac xenotransplantation of a genetically modified porcine heart into a live human, we sought to achieve improved results by selecting a healthier recipient and through more sensitive donor screening for potential zoonotic pathogens. Here we transplanted a 10-gene-edited pig heart into a 58-year-old man with progressive, debilitating inotrope-dependent heart failure due to ischemic cardiomyopathy who was not a candidate for standard advanced heart failure therapies. He was maintained on a costimulation (anti-CD40L, Tegoprubart) blockade-based immunomodulatory regimen. The xenograft initially functioned well, with excellent systolic and diastolic function during the first several weeks posttransplantation. Subsequently, the xenograft developed rapidly progressing diastolic heart failure, biventricular wall thickening and, ultimately, near-complete loss of systolic function necessitating initiation of extracorporeal membranous oxygenation on day 31. Given these setbacks, the patient chose to transition to comfort care after 40 days. As with our first patient, histology did not reveal substantial immune cell infiltration but suggested capillary endothelial injury with interstitial edema and early fibrosis. No evidence of porcine cytomegalovirus replication in the xenograft was observed. Strategies to overcome the obstacle of antibody-mediated rejection are needed to advance the field of xenotransplantation.

The Protective Effects of Carvacrol Against Doxorubicin-Induced Cardiotoxicity In Vitro and In Vivo

Doxorubicin (DOX) is a remarkable chemotherapeutic agent, however, its adverse effect on DOX-induced cardiotoxicity (DIC) is a rising concern. Recent research has identified carvacrol (CAR), an antioxidant and anti-inflammatory agent, as a promising natural compound for protecting against DIC. This study aims to investigate the potential cardioprotective effects properties of CAR in vitro and in vivo. The cardioprotective effect of CAR was assessed by pretreating H9c2 cells with non-toxic CAR for 24 h, followed by co-treatment with DOX (10 μM) for an additional 24 h. The cell viability was determined using an MTT assay. For the in vivo study, male Sprague-Dawley rats (200-250 g) were randomly divided into three groups: control, cardiotoxicity (DOX), and treatment (CAR + DOX) groups. CAR (50 mg/kg, BW) was administered orally to the CAR + DOX groups for 14 days. Then, a single dose of DOX (15 mg/kg/i.p, BW) was administered on day 15 for DOX and CAR + DOX groups. The rats were allowed to recover for 3 days before being sacrificed. Our results demonstrated that DOX (10 µM) significantly reduced H9c2 cell viability by 50% (p < 0.0001), and CAR (0.067 µM) protected H9c2 cells from DIC (p = 0.0045). In the rat model, CAR pretreatment effectively mitigated DOX-induced reductions in systolic pressure (p = 0.0007), pulse pressure (p = 0.0213), hypertrophy (p = 0.0049), and cardiac fibrosis (p = 0.0006). However, the pretreatment did not alter the heart function, oxidative stress, and antioxidant enzymes. In conclusion, our results indicate that CAR could potentially serve as an adjuvant to reduce cardiotoxicity by ameliorating myocardial fibrosis and hypertrophy.

Genes involved in osteogenic differentiation induced by low‑intensity pulsed ultrasound in goldfish scales

The teleost scale is a unique calcified tissue that contains osteoclasts, osteoblasts, osteocytes and the bone matrix, similar to mammalian bone. Here, the effects of low-intensity pulsed ultrasound (LIPUS) on osteoblasts and osteoclasts in goldfish scales were investigated. Scales were treated with LIPUS, which is equivalent to use under clinical conditions (30 mW/cm2 for 20 min), then cultured at 15˚C. Alkaline phosphatase activity, a marker of osteoblasts, or tartrate-resistant acid phosphatase (TRAP) activity, a marker of osteoclasts was measured. The gene expression profile was examined using RNA-sequencing. Gene network and biological function analyses were performed using the Ingenuity® Pathways Knowledge Base. A single exposure of LIPUS significantly increased ALP activity but did not affect TRAP activity. These data indicated that LIPUS induced osteoblastic activation in goldfish scales. Using RNA-sequencing, numerous genes that were significantly and differentially expressed 3, 6, and 24 h after LIPUS exposure were observed. Ingenuity® pathway analysis demonstrated that three gene networks, GN-3h, GN-6h, and GN-24h, were obtained from upregulated genes at 3, 6 and 24 h culture, respectively, and included several genes associated with osteoblast differentiation, such as protein kinase D1, prostaglandin-endoperoxide synthase 2, TNFRSF11B (tumor necrosis factor receptor superfamily, member 11b) and WNT3A (Wnt family member 3A). A significant upregulation of expression levels of these genes in scales treated with LIPUS was confirmed by reverse transcription-quantitative polymerase chain reaction. These results contribute to elucidating the molecular mechanisms of osteoblast activation induced by LIPUS.

Fracture Fusion on Fast-Forward: Locally Administered Deferoxamine Significantly Enhances Fracture Healing in Animal Models: A Systematic Review and Meta-Analysis

Fractures, with a yearly incidence of 1.2%, can lead to healing complications in up to 10% of cases. The angiogenic stimulant deferoxamine (DFO) is recognized for enhancing bone healing when administered into the fracture gap. This systematic review with meta-analysis investigates the effect of local DFO application on bone healing in rat and mouse models. EMBASE, MEDLINE (PubMed), and Web of Science are systematically searched in January 2024. The study is prospectively registered in PROSPERO (CRD42024492533), and the SYRCLE tool is used to assess study quality and risk of bias. Outcome values contain the primary endpoint bone volume fraction (BV/TV) as well as the secondary endpoints bone volume, tissue volume, bone mineral density, trabecular separation, trabecular thickness, vessel formation and the mechanical properties, assessed by µCT, angiography and mechanical strength tests. Out of 21 included studies, 18 qualify for meta-analysis, involving 539 animals. DFO-treated groups exhibit significantly higher BV/TV values (p < 0.0001) compared to controls, with similarly significant improvements in secondary outcomes. These findings highlight the substantial benefit of DFO in promoting bone healing, especially after radiotherapy. Rapid clinical implementation is recommended to help patients at high risk of fracture healing complications.

Maternal ingestion of cannabidiol (CBD) in mice leads to sex-dependent changes in memory, anxiety, and metabolism in the adult offspring, and causes a decrease in survival to weaning age

RATIONALE

The consequences of perinatal cannabidiol (CBD) exposure are severely understudied, but are important, given its widespread use and believed safety as a natural supplement.

OBJECTIVE

The objective of this study was to test the health, metabolic, and behavioral consequences of perinatal CBD exposure on dams and their offspring raised to adult.

METHODS

Primiparous female C57BL/6J mice were orally administered 100 mg/kg CBD in strawberry jam to expose offspring during gestation, lactation, or both using a cross-fostering design. Adult offspring were metabolically profiled using indirect calorimetry and intraperitoneal glucose tolerance testing. Adults were behaviorally phenotyped, video recorded, and mouse position tracked using DeepLabCut.

RESULTS

CBD was detected in maternal plasma using LC-MS 10-min post consumption (34.2 ± 1.7 ng/μl) and peaked within 30 min (371.0 ± 34.0 ng/μl). Fetal exposure to CBD significantly decreased survival of the pups, and decreased male postnatal development, but did not alter litter size, maternal body weight or pup birth weight. We observed many sex-dependent effects of perinatal CBD exposure. Exposure to CBD during gestation and lactation increased meal size, caloric intake, and respiratory exchange ratio for adult male offspring, while exposure during lactation decreased fasting glucose, but had no effect on clearance. Adult female offspring exposed to CBD during lactation showed increased drink size. Perinatal CBD exposure increased obsessive compulsive- and decreased anxiety-like behaviors (marble burying, light-dark box, elevated-plus maze) in female mice, decreased long-term object memory in male mice, and had no effect on attention tasks for either sex.

CONCLUSIONS

We conclude that orally-administered CBD during pregnancy affects behavior and metabolism in a sex-dependent manner, and mice are differentially sensitive to exposure during gestation vs. lactation, or both. Because long-term changes are observed following perinatal exposure to the drug, and exposure significantly decreases survival to weaning, more research during development is warranted.

Effect of low-intensity pulsed ultrasound on the mineralization of force-treated cementoblasts and orthodontically induced inflammatory root resorption via the Lamin A/C-Yes associated protein axis

AIMS

Orthodontic treatment commonly results in orthodontically induced inflammatory root resorption (OIIRR). This condition arises from excessive orthodontic force, which triggerslocal inflammatory responses and impedes cementoblasts' mineralization capacity. Low-intensity pulsed ultrasound (LIPUS) shows potential in reducing OIIRR. However, the precise mechanisms through which LIPUS reduces OIIRR remain unclear. This study aimed to explore the effects and mechanisms of LIPUS on the mineralization of force-treated cementoblasts and its impact on OIIRR.

METHODS

We established a rat OIIRR model and locally administered LIPUS stimulation for 7 and 14 days. We analyzed root resorption volume, osteoclast differentiation, and the expression of osteocalcin and yes-associated protein 1 (YAP1) using micro-computed tomography (micro-CT), hematoxylin and eosin, tartrate-resistant acid phosphatase, immunofluorescence and immunohistochemistry staining. In vitro, we applied compressive force and LIPUS to the immortalized mouse cementoblasts (OCCM30). We assessed mineralization using alkaline phosphatase (ALP) staining, alizarin red staining, real-time quantitative polymerase chain reaction, Western blotting and immunofluorescence staining.

RESULTS

In rats, LIPUS reduced OIIRR, as evidenced by micro-CT analysis and histological staining. In vitro, LIPUS enhanced mineralization of force-treated OCCM30 cells, as indicated by ALP and alizarin red staining, upregulated mRNA expression of mineralization-related genes, and increased protein expression of mineralization markers. Mechanistically, LIPUS activated YAP1 signaling via the cytoskeleton-Lamin A/C pathway, supported by immunofluorescence and Western blot analysis.

CONCLUSION

This study demonstrates that LIPUS promotes mineralization in force-treated cementoblasts and reduces OIIRR by activating YAP1 through the cytoskeletal-Lamin A/C signaling pathway. These findings provide fresh insights into how LIPUS benefits orthodontic treatment and suggest potential strategies for preventing and treating OIIRR.

Endogenous recovery of hippocampal function following global cerebral ischemia in juvenile female mice is influenced by neuroinflammation and circulating sex hormones

Cardiac arrest-induced global cerebral ischemia (GCI) in childhood often results in learning and memory deficits. We previously demonstrated in a murine cardiac arrest and cardiopulmonary resuscitation (CA/CPR) mouse model that a cellular mechanism of learning and memory, long-term potentiation (LTP), is acutely impaired in the hippocampus of juvenile males, correlating with deficits in memory tasks. However, little is known regarding plasticity impairments in juvenile females. We performed CA/CPR in juvenile (P21-25) female mice and used slice electrophysiology and hippocampal dependent behavior to assess hippocampal function. LTP was and contextual fear were impaired 7-days after GCI and endogenously recovered by 30-days. LTP remained impaired at 30 days in ovariectomized females, suggesting the surge in gonadal sex hormones during puberty mediates endogenous recovery. Unlike juvenile males, recovery of LTP in juvenile females was not associated with BDNF expression. NanoString transcriptional analysis revealed a potential role of neuroinflammatory processes, and specifically Cd68 pathways, in LTP impairment and hormone-dependent recovery. We were able to restore LTP in ovariectomized females with chronic and acute PPT administration, implicating estrogen receptor alpha in recovery mechanisms. This study supports a mechanism of endogenous LTP recovery after GCI in juvenile female mice which differs mechanistically from juvenile males and does not occur in adults of either sex.

Combined delivery of IL12 and an IL18 mutant without IL18BP-binding activity by an adenoviral vector enhances tumor specific immunity

Cytokines play pivotal roles in anticancer immune response. We previously reported that adenovirus armed with an IL18 variant (DR18) that overcomes IL18BP neutralizing effect displayed powerful therapeutic effects in local and distant tumors when delivered intratumorally. Here, we tested a combined delivery of IL12 and DR18 in tumor models since IL12 and IL18 are known to act synergistically in potentiating IFNγ production and antitumor immunity. To minimize adverse effects associated with systemic delivery, we constructed oncolytic adenoviruses (oAd) harboring DR18 and IL12 (oAd.DR18/IL12). IL12 was expressed as a single chain IL12 (scIL12) peptide composed of the IL12/p40 and IL12/p35 subunits. Intratumoral administration of oAd.DR18/IL12, oAd-expressing DR18 (oAd.DR18), or oAd-expressing IL12 (oAd.IL12) showed antitumor effect in syngeneic colorectal tumor models. Compared to oAd.DR18 or oAd.IL12, administration of oAd.DR18/IL12 improved the antitumor effects as well as increased survival rate in these models. We detected enhanced tumor infiltrating T lymphocytes and NK cells in oAd.DR18/IL12-treated mice than those from mock-treated or individually treated groups. Moreover, mice received oAd.DR18/IL12 had more robust tumor-specific cytotoxicity. Importantly, mice that had tumor regression after oAd.DR18/IL12 treatment established anti-tumor specific immune memory. These results show that adenovirus armed with engineered cytokines boosts tumor specific immunity and antitumor effect.

"Omics" and Postmortem Interval Estimation: A Systematic Review

Postmortem interval (PMI) estimation is a challenge of utmost importance in forensic daily practice. Traditional methods face limitations in accuracy and reliability, particularly for advanced decomposition stages. Recent advances in "omics" sciences, providing a holistic view of postmortem biochemical changes, offer promising avenues for overcoming these challenges. This systematic review aims at investigating the role of mass-spectrometry-based "omics" approaches in PMI estimation to elucidate molecular mechanisms underlying predictable time-dependent biochemical alterations occurring after death. A systematic search was performed, adhering to PRISMA guidelines, through "free-text" protocols in the databases PubMed, SCOPUS and Web of Science. The inclusion criteria were as follows: experimental studies analyzing, as investigated samples, animal or human corpses in toto or in parts and estimating PMI through MS-based untargeted omics approaches, with full texts in the English language. Quality assessment was performed using STROBE and ARRIVE critical appraisal checklists. A total of 1152 papers were screened and 26 included. Seventeen papers adopted a proteomic approach (65.4%), nine focused on metabolomics (34.6%) and two on lipidomics (7.7%). Most papers (57.7%) focused on short PMIs (<7 days), the remaining papers explored medium (7-120 days) (30.77%) and long PMIs (>120 days) (15.4%). Muscle tissue was the most frequently analyzed substrate (34.6% of papers), followed by liver (19.2%), bones (15.4%), cardiac blood and leaking fluids (11.5%), lung, kidney and serum (7.7%), and spleen, vitreous humor and heart (3.8%). Predictable time-dependent degradation patterns of macromolecules in different biological substrates have been discussed, with special attention to molecular insights into postmortem biochemical changes.

In vivo and in silico study of europinidin against streptozotocin-isoproterenol-induced myocardial damage via alteration of hs-CRP/CPK-MB/Caspase-3/Bcl-2 pathways

Europinidin is a novel anthocyanidin found in the petals of Plumbago europea that exhibits several physiological effects. Research was conducted to assess europinidin's cardioprotective efficacy in a diabetic and myocardial infarction (MI) experimental model. Rat was injected through the intraperitoneal administration of 45 mg/kg of streptozotocin (STZ), while MI was induced by subcutaneously administering 85 mg/kg of isoproterenol (ISP) at 24 and 48 h prior to the sacrifice procedure. Europinidin 10 and 20 mg/day was administered orally for 4 weeks after validation of diabetes (glucose > 250 mg/dl) on the 7th day. Experimental rats were randomly allocated to control, STZ-ISP control, STZ-ISP + europinidin-10 mg, STZ-ISP + europinidin-20 mg and europinidin 20 mg perse group. Biochemicals parameters including anti-diabetic (Glucose, HbA1c, serum insulin), cardiac markers (hs-CRP, CPK-MB), dyslipidaemia (lipid analysis), anti-inflammatory (IL6, TNF-α and IL-β), oxidative stress (MDA) and antioxidant (SOD, CAT and GSH), kidney function (creatinine), liver function (AST) and pancreatic function (lipase) along with apoptosis markers (Bcl-2, caspase-3) were evaluated. In addition, histopathological indices of heart injury were investigated. In addition, molecular docking (AUTODOCK Tools 1.5.6.) and dynamics were performed. Europinidin (10 and 20 mg/day) reduced blood glucose, HbA1c, hs-CRP, and CPK-MB. It improved serum insulin, blood lipid profile and reduced inflammatory cytokines (IL-6, TNF-α, IL-β), oxidative stress and increased antioxidant enzymes (SOD, CAT and GSH). Europinidin also protected renal, hepatic functions and restored apoptosis markers (increased Bcl-2, decreased caspase-3 levels). Histopathological analysis demonstrated a reduced extent of myocardial necrosis and fibrosis. Europinidin binds in silico to proteins 1NME, 1I0E, 3I2Y and 4AQ3 with energies of -7.038, -6.682, -8.6 and - 8.761 kcal/mol, respectively. While molecular dynamics simulation studies supported the interactions of europinidin with important therapeutic target proteins. Europinidin demonstrates significant cardioprotective and anti-diabetic potential in a diabetic MI experimental model.

The Use of Antimicrobials in Animal Husbandry as a Potential Factor for the Increased Incidence of Colorectal Cancer: Food Safety and Kinetics in a Murine Model

The aim of this research was to investigate the effects of the prolonged use of the broad-spectrum antimicrobial widely used in animal husbandry. By means of a mouse model, a translational study was carried out on immunocompetent mice (with a complete immune system). This study highlighted the effect of antimicrobial residues taken in with food on the growth time of cancer and on alterations to the gut microbiota. This project considered the fight against antimicrobial resistance from a One Health perspectivethrough collaboration between human medicine and veterinary medicine. Regarding food safety, antimicrobial residues in products of animal origin are rarely detected; they therefore constitute a negligible factor in determining colorectal cancer.

The histopathologic evaluation of local effects of ozone therapy on the healing of experimental calvarial defects of rats

BACKGROUND

This study evaluates the effects of ozone on hard and soft tissue healing when a free tissue flap is used to close wound areas lacking primary closure over autogenous grafted sites.

METHODS

In our study, 24 male Wistar rats were divided into four groups: two control groups and two ozone-treated groups. All rats underwent the same surgical procedure. After surgery, the control groups received no additional treatment, while the ozone groups received topical ozone application. Ozone was applied for 2 min, three times per week, with one-day intervals, for a duration of 2 weeks post-surgery. Sacrifice was performed on the 14th day for one control and one ozone group, and on the 28th day for the remaining groups. All soft and hard tissue samples were then examined histopathologically.

CLINICAL TRIAL NUMBER

not applicable.

RESULTS

Histopathological evaluations and statistical analyses on the 14th day indicated that bone healing was significantly better in the ozone group compared to the control group (p = 0.049). For soft tissue healing, although there was no statistically significant difference between the ozone and control groups, proportional values showed better recovery in the ozone-treated groups compared to the controls.

CONCLUSIONS

The present study concludes that ozone has a positive effect on new bone formation in the early stages; however, it showed no statistically significant effect on soft tissue healing. We believe that further comprehensive studies would be beneficial to confirm these findings.