Morphometric Changes Research Articles

Adaptation of the small intestine mucosa after gastric bypass surgery with a single anastomosis

Objective. To compare the morphological and morphometric changes of the small intestine mucosa in its common and biliopancreatic loops at different times after gastric bypass surgery with a single anastomosis. Materials and methods. The study included 36 patients who received surgical treatment at the Department of Thoracoabdominal Surgery of the Shalimov National Research Center for Surgery and Transplantation of the National Academy of Medical Sciences of Ukraine for morbid obesity, which consisted of gastric bypass surgery with a single anastomosis in various variants (long–loop, distal, mini–gastric bypass) in the period from 2016 to 2022. Further outpatient follow–up included scheduled endoscopic examinations at 3, 12, and 24 months after surgery. Results. At 3 months after the operation, no morphological and morphometric changes were detected in the studied biopsies of the mucous membrane of the biliopancreatic and common loops of the small intestine. The first morphological and morphometric changes in the small intestinal mucosa were observed 12 months after surgery. There was a statistically significant (p < 0.05) difference in the length of intestinal villi in the common and biliopancreatic loops of the small intestine – (0.390 ± 0.199) and (0.377 ± 0.184) mm, respectively. These changes indicate hypertrophy of villi in the colon to increase the absorption area. The thickness of the basal layer was greater in the biliopancreatic loop than in the total loop and amounted to (0.196 ± 0.068) and (0.167 ± 0.043) mm, respectively (p > 0.05). There was no statistically significant difference between the number of crypts containing Paneth cells in the biliopancreatic and common loops, so the regulatory function of these cells was preserved in any variant of gastric bypass with a single anastomosis. Conclusions. Morphological and morphometric changes in the small intestinal mucosa after gastric bypass with a single anastomosis may be associated with various physiological conditions and have clinical significance for understanding the mechanisms of absorption and intestinal protection. Additional studies with a larger number of samples and the use of modern methods of morphological analysis are needed to deepen the understanding of these processes.

Oxidative Stress and Histomorphometric Remodeling: Two Key Intestinal Features of Type 2 Diabetes in Goto–Kakizaki Rats

Gastrointestinal complications of diabetes are often overlooked, despite affecting up to 75% of patients. This study innovatively explores local glutathione levels and morphometric changes in the gut of Goto–Kakizaki (GK) rats, a type 2 diabetes animal model. Segments of the intestine, cecum, and colon were collected for histopathological analysis and glutathione quantification. A significant increase in the total thickness of the intestinal wall of GK rats was observed, particularly in the duodenum (1089.02 ± 39.19 vs. 864.19 ± 37.17 µm), ileum (726.29 ± 24.75 vs. 498.76 ± 16.86 µm), cecum (642.24 ± 34.15 vs. 500.97 ± 28.81 µm), and distal colon (1211.81 ± 51.32 vs. 831.71 ± 53.2 µm). Additionally, diabetic rats exhibited thickening of the muscular layers in all segments, except for the duodenum, which was also the only portion where the number of smooth muscle cells did not decrease. Moreover, myenteric neuronal density was lower in GK rats, suggesting neurological loss. Total glutathione levels were lower in all intestinal segments of diabetic rats (except duodenum), and the reduced/oxidized glutathione ratio (GSH/GSSG) was significantly decreased in GK rats, indicating increased oxidative stress. These findings strongly indicate that GK rats undergo significant intestinal remodeling, notable shifts in neuronal populations, and heightened oxidative stress—factors that likely contribute to the functional gastrointestinal alterations seen in diabetic patients.

Late olfactory bulb involvement in COVID19.

Transient or persistent hypo-anosmia is common in SARS‑CoV‑2 infection but olfactory pathway late-term morphometric changes are still under investigation. We evaluated late olfactory bulb (OB) imaging changes and their correlates with the olfactory function in otherwise neurologically asymptomatic COVID-19 patients. Eighty-three subjects (mean-age 43±14 years; 54 females; time-interval infection/MRI: 129±68 days) affected by asymptomatic to mild COVID19 in 2020 and 25 healthy controls (mean-age 40±13 years; 9 females) underwent 3T-MRI and olfactory function evaluation through anamnestic questionnaire and Sniffin' Sticks. Exclusion criteria were intensive care treatment or neurological involvement other than olfaction. Maximal OB area was measured blindly on high-resolution coronal T2w images by two observers. Patients were subdivided into: i) persistently hypo/anosmic, ii) recovered normosmic and iii) never complaining smell dysfunction with proven normal olfactory function. No significant differences were observed among patients' subgroups (p=0.76). Intra-observer and inter-observer reliability were high.(r=0.96 and 0.86). Former COVID19 patients had decreased mean maximal OB area than controls (6.52±1.11mm2 vs 7.26±1.17mm2, p=0.008) even when considering persistently hypo-anosmic (6.46±0.90, p=0.006) or normosmic patients at MRI (6.57±1.25, p=0.04). SARS-CoV-2 infection is associated with mid/late-term morphological changes on the olfactory bulbs, regardless of presence or persistence of olfactory dysfunction. The long-term consequences on olfactory aging need to be further investigated including possible links with neurodegenerative disorders.

Brainstem changes causing reversible RBD in patients with spontaneous intracranial hypotension: a longitudinal neuroimaging study.

This study aimed to investigate the prevalence of REM sleep behavior disorder (RBD) in patients with spontaneous intracranial hypotension (SIH) and longitudinally assess the effects of epidural blood patch (EBP) treatment on brainstem structures using a neuroimaging approach. Twenty-two participants (10 SIH patients and 12 controls) underwent 3-Tesla Magnetic Resonance Imaging (MRI) scans. Midbrain and pons areas were measured on T1-weighted scans at baseline in both groups and three months after the first EBP in SIH patients to determine any MRI structural changes. The RBD Single-Questionnaire was used to screen SIH patients with symptoms suggestive of RBD for polysomnographic (PSG) recording. Half of the SIH patients (5/10) exhibited PSG-confirmed RBD. Baseline evaluation revealed deep brain swelling (DBS) on MRI scans in SIH-RBD patients. Following EBP treatment, significant changes in midbrain and pons morphometry were associated with complete clinical remission of RBD. Cross-sectional analysis showed larger midbrain and pons areas in SIH patients (with and without RBD) compared to controls. A midbrain area of 200 mm2 was identified as a cut-off value distinguishing SIH patients (with and without RBD) from controls individually. Longitudinal analysis demonstrated lower midbrain areas at follow-up compared to baseline in SIH patients. The study suggests that brainstem morphometric changes may underlie reversible RBD in SIH patients. Midbrain area measurement could serve as a dynamic biomarker for SIH, particularly in the presence of RBD, offering insights for clinical practice.

Clinical and morphometric features in cervical spine pathology in humans and animals

Background. The neck, its bone-cartilaginous and muscle apparatus, etc. high activity is well known. Cervical spine degenerative-dystrophic processes are considered to be an urgent problem. The purpose of the study was to determine the clinical and morphometric changes of the cervical spine in humans and animals with neck pain based on a clinical and neurological examination, determination of the vertebral body density, their configuration, and ratio for timely correction and prognosis of this patho­logy. Materials and methods. Pain intensity was studied in humans and animals using the adapted visual-analogue scale. The inde­xes of computer tomography with measurement of vertebral body density, and morphometric indexes with an emphasis on C5-C7 le­vel were also studied. All studies were conducted following existing bioethical standards. Results. The pathology of spine configuration was registered in 84.6 % of the examined patients in the form of angular kyphosis or straightened lordosis, more often in women. It was observed in 34.7 % of cases in dogs and cats. The normal configuration is more common: in cats — 78.6 % and in dogs of small breeds — 78.5 %, in large breed dogs — only 26.3 %, and deformations were more frequent than in cats and small dogs (2.7 times more). The cervical vertebrae bodies density in all groups decreased toward the caudal direction with a difference of 18.1 % in humans. In cats — 2.7 %, in dogs of small breeds, it was higher (7.5 %), and in large breed dogs, it reached 14.3 %. The maximum deviations of the studied indicators were found in humans and maximally coincided with those in dogs of large breeds. Conclusions. Thus, animals, especially dogs of large breeds, can serve as a model for studying etiopathogenetic factors, the course, prognosis of degeneration of the bone-cartilage apparatus.

Manifestation of polystyrene microplastic accumulation in brain with emphasis on morphometric and histopathological changes in limbic areas of Swiss albino mice

The widespread problem of microplastic (MP) contamination is becoming a major threat to the globe. Although most of the research to date has concentrated on the physiological impacts of MPs exposure, a relatively new field of study is beginning to examine its effects on the behaviour and limbic regions of the brain. In this study, exposure to polystyrene MPs (PS-MPs) for acute and sub-chronic durations negatively affected cognition and induced anxiety-like behaviour in mice. PS-MPs were detected in vital organs of mice, including the brain, which induced neurobehavioural and pathological changes in the limbic system. Furthermore, morphometric analysis revealed a significant decrease in the total cell count in the Dentate Gyrus (DG) and Cornu Ammonis (CA) regions of the hippocampus. Signs of neuronal injury and dystrophic changes were observed in the cortex, amygdala, and hypothalamus, potentially affecting anxiety and fear responses. Our study thus provides insight into the effect of PS-MPs on the neurobiology of the brain’s limbic system and related behavioural alterations.

Morphometric evaluation of facial and vestibulocochlear nerves using magnetic resonance imaging in patients with Menière's disease.

Menière's disease (MD) is a condition of unknown etiology, involving genetic predisposition, autoimmune processes, viral infections, cellular apoptosis, and oxidative stress. This study aimed to investigate potential differences in the VIIth and VIIIth cranial nerves in MD patients using Hydrops-MRI (FLAIR) for morphometric evaluations. Using a 3T MRI scanner, constructive-interference-in-steady-state (CISS) and 3D-FLAIR-inversionrecovery (FLAIR) sequences were acquired. We evaluated the morphometrics of the VIIth and VIIIth cranial nerves from the cerebellopontine angle to the internal auditory canal fundus, comparing the non-affected and affected sides. Furthermore, we examined the findings in relation to symptom duration and evaluated feasibility of FLAIR-imaging in morphometry of cranial nerves. A total of 53 MD patients with unilateral symptoms were included. After statistical analysis, no significant differences were found regarding morphometric changes in the affected side compared to the non-affected side of the VIIth and VIIIth cranial nerves. There was also no significant difference between morphometric evaluations of patients with different symptom durations. The morphometric evaluation using Hydrops-MRI-Sequences (FLAIR) showed no significant difference compared to established morphometric highly T2-weighted imaging (CISS). Our data found no differences in nerve morphometry between clinically non-affected and affected sides in unilateral MD patients, nor any correlation with symptom duration. This contrasts with previous findings of correlations between clinical features and endolymphatic hydrops. A disease process starting before clinical symptom onset could be a possible explanation. Morphometric evaluation of brain nerves using Hydrops-MRI-Sequences is practical and provides similar results to T2-weighted imaging, improving patient comfort and reducing MRI scan time. CN = cochlear nerve; CPA = cerebellopontine angle; CSA = cross-sectional area; FN = facial nerve; IAC = internal auditory canal; IVN = inferior vestibular nerve; LD = long diameter; MD = Menière's disease; SD = short diameter; SVN = superior vestibular nerve.

Automatic Detection and Identification of Calcareous Nannofossils in Chalk Using Deep Learning: A Proof-of-Concept Study for Biostratigraphy and Climate Research

Calcareous nannofossils serve as crucial indicators for establishing the biostratigraphic age of chalk macrofossil specimens in natural science collections. Better age control of specimens collected several hundred years ago enables us to uncover the dark data hidden within these collections and incorporate these data into current research projects, examining ecosystem response to past climate change. However, the manual identification of these microscopic organisms is laborious and subjective, and so we are harnessing deep learning techniques for automatic nannofossil detection and identification. This approach required the construction of a robust dataset, currently comprising over 100,000 labelled images, complemented by the development of multiple specialised deep learning models. While some models focus on detecting target species, others are dedicated to species classification. Evaluation on an independent test set showcases the efficacy of our methodology, with the current detection model achieving a balanced accuracy of 93%. Similarly, the classification model demonstrates robust performance, attaining an average balanced accuracy of 96%. Furthermore, as well as assisting with our biostratigraphic studies, the dataset of accurately labelled images has enabled us to test other aspects of ecosystem response. For example, examining morphometric changes in nannofossils over geological time can provide valuable insights into the potential impact of current global warming on modern phytoplankton assemblages (Mancini et al. 2021). This is particularly important for coccolithophores (Young et al. 2005), which play a critical role as primary producers in the global carbon cycle. A decrease in their size could lead to bottom-up ecosystem impacts and reduced carbon sequestration (Poulton et al. 2007, Krumhardt et al. 2017). Using our dataset, we conducted a deep-learning-enhanced automatic morphometric analysis focusing on the nannofossil species, Tranolithus orionatus. Our analysis revealed that two key morphometric parameters, minor axis and area size, showed statistically significant differences between the Cenomanian stage (approximately 100.5 to 93.9 million years ago) and the post-Cenomanian stages of the Late Cretaceous (approximately 93.9 to 66.0 million years ago). Kolmogorov-Smirnov tests (Massey 1951) between the two samples yielded p-values of 0.039 for the minor axis and 0.031 for the area size. Understanding these morphometric changes is crucial due to the close parallels between current climate projections and the warming and greenhouse climate of the Late Cretaceous, particularly the Cenomanian-Turonian boundary event (Arthur et al. 1990). Insights into how organisms changed morphologically during past periods of environmental stress can help us more effectively predict future responses of organisms under similar conditions (Razmjooei et al. 2020). These findings underscore the effectiveness of our approach in automating the identification and recognition of chalk nannofossils, helping to unlock natural science collections and to address key questions related to marine response to past climate change.

Exposure to microplastics contaminated with pharmaceuticals and personal care products: Histological effects on Ucides cordatus

Pharmaceuticals and personal care products (PPCPs) are known to interact with microplastics (MPs) in aquatic environments, with substances such as the antimicrobial triclosan (TCS) and the synthetic hormone 17α-ethinylestradiol (EE2) being prevalent. These persistent contaminants are linked to toxic effects in aquatic organisms. This study aimed to investigate histological and morphometric changes in the gills of Ucides cordatus exposed to microplastics alone and microplastics contaminated with PPCPs. The experimental design included four treatment groups: 1) control (C), 2) virgin microplastics (MP), 3) microplastics fortified with triclosan (MPT), and 4) microplastics fortified with 17α-ethinylestradiol (MPE), with exposure durations of 3 or 7 days. Significant differences were observed in the histopathological indices for treatments with PPCP-fortified microplastics at 3 days (MPT and MPE) and 7 days (MPT). Notable pathologies included necrosis, fibrosis, and circulatory disorders. Exposure duration was significantly associated with morphometric changes, including secondary lamellar width in MPT and secondary lamellar length in MPE. These findings indicate that exposure to microplastics contaminated with PPCPs may impair the osmoregulatory and respiratory functions of Ucides cordatus.

Morphometric analysis of the spinal cord in patients undergoing posterior vertebral column subtraction osteotomy for recurrent tethered cord syndrome.

In posterior vertebral column subtraction osteotomy (PVCSO), a section of a thoracic or lumbar vertebra and the adjacent disc are resected to shorten the spinal column, aiming to permanently alleviate tension on the spinal cord in patients with recurrent tethered cord syndrome (TCS). The effects of this procedure on the spinal cord are not well characterized. This study investigated morphometric changes in the cord following PVCSO and assessed associated clinical outcomes in patients with recurrent TCS. A retrospective review of patients with recurrent TCS undergoing PVCSO with robotic assistance at the authors' tertiary care institution between 2019 and 2023 was performed. Clinical data were recorded from electronic medical records, and morphometric measurements, including T12-L2 sagittal height, intradural diameter, and the diameters, area, eccentricity, and positioning of the spinal cord, were collected from MRI. Spinal cord dimensions including anteroposterior and lateral diameters, area, eccentricity, positioning, and intradural diameter were compared before and after surgery. Six patients were included in this study. At 6-week follow-up, all patients had improvement on lower-extremity motor function examinations, 40% had improvement on lower-extremity sensory function examinations, and 83% had improved self-reported pain. Bladder and bowel incontinence were improved in 50% and 60%, respectively. PVCSO reduced the height of the spinal column by a mean of 18.1 ± 5.2 mm. PVCSO increased the mean spinal cord anteroposterior diameter by 0.8 ± 0.5 mm at T12 (p = 0.03) and the mean area by 0.4 ± 0.3 mm2 at T12 (p = 0.03). The mean eccentricity of the spinal cord decreased by 0.15 ± 0.15 at L1 (p = 0.05), indicating that the spinal cord became more circular after surgery. No major complications were reported, although 1 patient experienced atelectasis and pulmonary embolism postoperatively. This study provides novel insights into the morphometric changes induced by PVCSO and their correlation with clinical outcomes in patients with TCS. The procedure effectively increased spinal cord dimensions, alleviating tension and offering potential benefits in symptom relief. The study underscores the need for objective metrics to guide surgical decision-making and enhance the long-term success of PVCSO in the management of TCS.

Morphometric analysis and LULC change dynamics of Nayar watershed for the sustainable watershed management

The morphometric analysis of the watersheds is essential for the conservation of natural resources, including soil, water, and vegetation. The Morphometric analysis defines the linear, areal and relief aspects of the watershed. It involves the comprehensive analysis of various factors such as drainage network, surface water flow, and other topographical features. The aim of this study is to develop a sustainable watershed management strategy for the Nayar watershed based on morphometry and Land Use Land Cover (LULC) change dynamics. The Nayar watershed has a total area of 1956.33 km2. The multispectral satellite imagery, Digital Elevation Model (DEM) data, and Survey of India (SOI) Toposheets were used for understanding the topographical and morphological characteristics along with the LULC change dynamics. The findings of this research conclude that the Nayar watershed has parallel and dendritic drainage patterns with high relief. According to the LULC change dynamics, the Nayar watershed's area change comprising 57.60 km2 and 57.15 km2, are from Agricultural Land to Wasteland and from Forest Cover to Wasteland, respectively. This shift in the hilly region will increase the risks of landslides and erosion. Furthermore, the change of 110.03 km2 area of Forest Cover to Agricultural Land raises further challenges due to loss of natural vegetation in long run. In summary the change in LULC of Nayar watershed is vulnerable to risk of natural calamities like landslide, erosion. This work would be helpful to many experts and decision-makers for sustainable watershed management and natural resource management.

Evaluating waterlogging stress response and recovery in barley (Hordeum vulgare L.): an image-based phenotyping approach

Waterlogging is expected to become a more prominent yield restricting stress for barley as rainfall frequency is increasing in many regions due to climate change. The duration of waterlogging events in the field is highly variable throughout the season, and this variation is also observed in experimental waterlogging studies. Such variety of protocols make intricate physiological responses challenging to assess and quantify. To assess barley waterlogging tolerance in controlled conditions, we present an optimal duration and setup of simulated waterlogging stress using image-based phenotyping. Six protocols durations, 5, 10, and 14 days of stress with and without seven days of recovery, were tested. To quantify the physiological effects of waterlogging on growth and greenness, we used top down and side view RGB (Red-Green-Blue) images. These images were taken daily throughout each of the protocols using the PSI PlantScreen™ imaging platform. Two genotypes of two-row spring barley, grown in glasshouse conditions, were subjected to each of the six protocols, with stress being imposed at the three-leaf stage. Shoot biomass and root imaging data were analysed to determine the optimal stress protocol duration, as well as to quantify the growth and morphometric changes of barley in response to waterlogging stress. Our time-series results show a significant growth reduction and alteration of greenness, allowing us to determine an optimal protocol duration of 14 days of stress and seven days of recovery for controlled conditions. Moreover, to confirm the reproducibility of this protocol, we conducted the same experiment in a different facility equipped with RGB and chlorophyll fluorescence imaging sensors. Our results demonstrate that the selected protocol enables the assessment of genotypic differences, which allow us to further determine tolerance responses in a glasshouse environment. Altogether, this work presents a new and reproducible image-based protocol to assess early stage waterlogging tolerance, empowering a precise quantification of waterlogging stress relevant markers such as greenness, Fv/Fm and growth rates.

A living organoid biobank of patients with Crohn’s disease reveals molecular subtypes for personalized therapeutics

Crohn's disease (CD) is a complex and heterogeneous condition with no perfect preclinical model or cure. To address this, we explore adult stem cell-derived organoids that retain their tissue identity and disease-driving traits. We prospectively create a biobank of CD patient-derived organoid cultures (PDOs) from colonic biopsies of 53 subjects across all clinical subtypes and healthy subjects. Gene expression analyses enabled benchmarking of PDOs as tools for modeling the colonic epithelium in active disease and identified two major molecular subtypes: immune-deficient infectious CD (IDICD) and stress and senescence-induced fibrostenotic CD (S2FCD). Each subtype shows internal consistency in the transcriptome, genome, and phenome. The spectrum of morphometric, phenotypic, and functional changes within the "living biobank" reveals distinct differences between the molecular subtypes. Drug screens reverse subtype-specific phenotypes, suggesting phenotyped-genotyped CD PDOs can bridge basic biology and patient trials by enabling preclinical phase "0" human trials for personalized therapeutics.

Cortical and subcortical morphometric changes in patients with frontal focal cortical dysplasia type II

Cortical and subcortical morphometric changes in patients with frontal focal cortical dysplasia type II

Mastocytosis and intraepithelial lymphocytosis in the ileum and colon characterize chronic Toxoplasma gondii infection in mice

Toxoplasma gondii is the causative agent of toxoplasmosis, a common zoonotic disease affecting vertebrates with high global incidence. For the parasite to disseminate throughout the body, it crosses the intestinal barrier, triggering inflammatory reactions. This study aimed to assess the tissue response in the ileum and colon of mice following chronic infection with T. gondii. Fourteen mice were divided into two groups: the infected group received 1000 T. gondii oocysts via gavage, and after 60 days, the mice were euthanized. The ileum and colon were collected and processed for histological analysis, inflammatory marker measurement and myenteric neuron analysis. Chronic infection resulted in a significant increase in intraepithelial lymphocytes and mast cells, as well as morphometric changes such as increased total intestinal wall thickness of the ileum, crypt depth, collagen fiber area, and a decrease in myeloperoxidase activity, without altering nitric oxide levels. While the number of myenteric neurons remained unchanged, there was an increase in vasoactive intestinal peptide expression. These results suggest persistence intestinal inflammatory stimuli in chronic T. gondii infection.

Morphometric Assessment of the Hip Joint in a Functional Dysplastic Rabbit Model.

The present study investigates the morphometric changes in the hip joint in a surgically induced rabbit model of hip dysplasia through the sectioning of the ligamentum capitis femoris and pelvic limb immobilization. A total of seventeen rabbits were evaluated using radiographic and computed tomographic imaging to measure the following parameters: the femoral angles of anteversion and inclination, length and width indexes of the neck of the femur, and acetabular depth and ventroversion. Significant differences in femoral anteversion angle and acetabular depth were observed, particularly in the group of hip instability surgery with pelvic limb immobilization. The results have shown the influence of hip joint instability in the promotion of femoral anteversion and acetabular shallowing. These findings provide a foundation for future research on naturally occurring or experimentally induced hip dysplasia in rabbits and underscore the model's potential for studying the biomechanical and developmental aspects of hip joint disorders.

To Shrink or Not to Shrink? An Objective Assessment of Free Gracilis Muscle Volume Change in Lower-Extremity Defect Reconstruction.

Background: The use of free gracilis muscle flaps in reconstructive surgery of the lower leg is common practice to cover defects. However, there is still a lack of understanding of the morphometric changes that occur in the transferred muscle and area of interest over time, particularly the characteristic volume decrease that is observed over the course of the first year. This study aimed to assess volume changes in patients with free gracilis muscle flap reconstruction following infection, trauma, or malignancies of the lower extremity. Methods: Three-dimensional surface imaging was performed intraoperatively after 2 weeks, 6 months, and 12 months with the Vectra H2 system. A total of 31 patients were included in this study and analyzed. Results: There was an average volume increase of 146.67 ± 29.66% 2 weeks after reconstruction. Compared to this volume increase, there was a reduction of 108.44 ± 13.62% after 12 months (p < 0.05). Overall, we found a shrinkage to 85.53 ± 20.14% of the intraoperative baseline volume after 12 months. Conclusions: The use of non-invasive 3D surface imaging is a valuable tool for volume monitoring after free flap reconstruction of the lower extremity. The free gracilis muscle flap undergoes different phases of volume change over the first year, with the greatest influence on overall change being the development and decongestion of edema. Precise initial surgical tailoring is crucial for optimal long-term functional and cosmetic results.

Morphometric and functional changes in the kidney of rats induced by inorganic selenium.

Selenium (Se) is an essential trace element. Depending on concentration, Se can manifest both beneficial and harmful effects on the cell and can have both oxidative and antioxidant effects. Because the therapeutic index for Se is very narrow and it can depend on the form of Se used, we aimed to investigate the potential safety and side effects of inorganic Se on kidney function and structure in rats. After 8 days of treatment, no detectable signs of microscopic changes or oxidative stress in kidney tissue were observed. We detected a moderate increase in urea and creatinine levels in the blood as a sign of a slight decrease in kidney function. The most notable changes in our study were morphometric alterations in proximal tubules and glomeruli, both of which were considerably enlarged. The short-term application of inorganic Se to rats in a supratherapeutic dose induced mild functional and ultrastructural changes in the kidneys. The dose of inorganic Se used could be considered relatively safe for short-term application in situations where Se could be beneficial to the organism, such as the usage of known nephrotoxicants or high levels of oxidative stress in the body.

Effect of fish oil supplementation on histological changes, apoptosis and oxidative stress of rat placenta against formaldehyde-induced toxicity

Formaldehyde (FA) as a common organic compound has been shown to cause placental dysfunction and fetal defects. The potential benefits of fish oil (FOil) in protecting placental structures are attributed to its antioxidant properties. This study aimed to explore the preventive role of FOil in mitigating the adverse effects of FA in pregnant rats. Thirty pregnant Wistar rats were randomly categorized into five groups of control, sham (Normal saline; Orally and intraperitoneally), FOil (0.5 ml/day; Orally), FA (5 mg/kg/bw; intraperitoneally), FA+FOil. The treatment period was from day 0–20 of pregnancy. On the 20th day of pregnancy, placental morphometric parameters were measured. The histological and histochemical analyses were performed using H&E and PAS staining, respectively. Also, the placenta tissue was analyzed for oxidative stress biomarkers, p-53 protein levels, and the expression of caspase-3 gene. The administration of FA led to a significant decrease in the weight, diameter, and thickness of the placenta, as well as a decrease in the thickness of the decidua layer, junctional and labyrinth zone, and the number of trophoblast giant cells in rat placentas. FA led to a significant increase in placental p-53 protein levels, caspase-3 expression, and oxidative stress biomarkers. Administration of FOil to pregnant rats treated with FA led to a significant decrease in morphometric and histological changes, oxidative stress, and the expression of genes associated with apoptosis. The findings suggest that the administration of FOil to FA-treated pregnant rats can protect placental histopathological changes by enhancing the activity of the antioxidant enzymes.

From hatching to juvenile: Larval development of Vieja fenestrata (Teleostei: Cichlidae).

This study delves into the early development of Vieja fenestrata (Cichlidae), with a specific focus on the description of external morphological and morphometric changes, and growth patterns from hatching to the loss of larval characters under controlled laboratory conditions at a temperature of 28°C. Asynchronous hatching was observed between 58 and 60 h postfertilization, with the posterior body emerging first. Over 14 days, significant morphological, physiological, and behavioral changes were observed, revealing a complex developmental trajectory. The initial developmental phases were characterized by rapid vascularization, fin differentiation, and heightened activity, and the subsequent days witnessed the flexion of the notochord, emergence of swim bladder functionality, and transition to exogenous feeding. Maturation progressed with the absorption of the yolk sac, regression of cement glands, and fin ray development, culminating in metamorphosis by 14 days post-hatching. Throughout this period, evolving pigmentation patterns and structural adaptations highlight the species' adaptive strategies. During the larval period of V. fenestrata, substantial changes in morphological proportions were observed. Before the inflection, tail length, trunk length, and body depth had negative allometric growth, and head length, eye diameter, and snout length had positive allometric growth. After the inflection, body depth and snout length showed positive allometric growth; head length and trunk length exhibited isometric growth, whereas tail length and eye diameter demonstrated negative allometric growth. These findings contribute insights into the intricate developmental dynamics of V. fenestrata. Moreover, further research may explore these developmental dynamics' ecological and evolutionary implications.