Your search keyword '"mechanical injury"' showing total 291 results

1. Comprehensive lifecycle safety risk assessment for construction robotics using T-S fault tree analysis and Bayesian network

Author

Wang, Liying, Huang, Yuecheng, Wang, Yao, Gu, Botao, Li, Boning, and Fang, Dongping

Published

2025

2. Partial compression increases acidity, but decreases phenolics in jujube fruit: Evidence from targeted metabolomics

Author

Zhang, Shuang, Wu, Zhengbao, Liu, Lingling, Wang, Luyin, Li, Xihong, Ban, Zhaojun, Chen, Cunkun, and Zhu, Yi

Published

2023

3. Graphene oxide interaction with Lemna minor: Root barrier strong enough to prevent nanoblade-morphology-induced toxicity

Author

Malina, Tomáš, Lamaczová, Adéla, Maršálková, Eliška, Zbořil, Radek, and Maršálek, Blahoslav

Published

2022

4. 利用低场核磁共振技术探究机械损伤对蓝莓 果实内部水分状态的影响.

Author

罗子旋, 姜凤利, 吴沛净, 宋 平, and 丁柯柯

Subjects

NUCLEAR magnetic resonance, WATER transfer, WATER distribution, RIGHT to water, WATER rights, BLUEBERRIES, NUCLEAR magnetic resonance spectroscopy

Abstract

Copyright of Shipin Kexue/ Food Science is the property of Food Science Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

5. Edaravone Alleviates Traumatic Brain Injury by Inhibition of Ferroptosis via FSP1 Pathway.

Author

Shi, Haoyu, Song, Libiao, Wu, Yonghui, Shen, Ruonan, Zhang, Chenxu, Liao, Xingzhi, Wang, Qiuhong, and Zhu, Jie

Abstract

Traumatic brain injury (TBI) is a highly severe form of trauma with complex series of reactions in brain tissue which ultimately results in neuronal damage. Previous studies proved that neuronal ferroptosis, which was induced by intracranial haemorrhage and other reasons, was one of the most primary causes of neuronal damage following TBI. However, the association between neuronal mechanical injury and ferroptosis in TBI and relevant treatments remain unclear. In the present study, we first demonstrated the occurrence of neuronal ferroptosis in the early stage of TBI and preliminarily elucidated that edaravone (EDA), a cerebroprotective agent that eliminates oxygen radicals, was able to inhibit ferroptosis induced by TBI. A cell scratching model was established in PC12 cells, and it was confirmed that mechanical injury induced ferroptosis in neurons at the early stage of TBI. Ferroptosis suppressor protein 1 (FSP1) plays a significant role in inhibiting ferroptosis, and we found that iFSP, a ferroptosis agonist which is capable to inhibit FSP1 pathway, attenuated the anti-ferroptosis effect of EDA. In conclusion, our results suggested that EDA inhibited neuronal ferroptosis induced by mechanical injury in the early phase of TBI by activating FSP1 pathway, which could provide evidence for future research on prevention and treatment of TBI. [ABSTRACT FROM AUTHOR]

Published

2024

6. Exploring the Effect of Mechanical Damage on the Water State in Blueberries Using Low-Field Nuclear Magnetic Resonance Spectroscopy

Author

LUO Zixuan, JIANG Fengli, WU Peijing, SONG Ping, DING Keke

Subjects

blueberry, mechanical injury, temperature, low-field nuclear magnetic resonance spectroscopy, moisture distribution, Food processing and manufacture, TP368-456

Abstract

In this study, a custom apparatus was utilized to obtain blueberry samples with high and low levels of mechanical injury (DI and DII group), which were subsequently stored at 4 or 25 ℃ and analyzed using low-field nuclear magnetic resonance (LF-NMR) spectroscopy. Spectroscopic data and proton density images were collected at 0, 6, and 24 h post-damage. The results demonstrated a significant impact of injury on the water state and distribution of blueberries. Notably, the cell wall water content A21 decreased, whereas the cytoplasm water content A22 increased over time post-damage. The A22 of the high injury group increased by 1.45 times at 24 h compared with that at 0 h, while the vacuole water content A23 and the total water content A2 notably declined, indicating a rapid redistribution and transfer of water from damaged blueberries to the external environment. As the degree of damage increased, the major peak of vacuole water shifted to the right and decreased significantly. Furthermore, increasing storage temperature further exacerbated these changes. At 25 ℃, the emergence of 4 relaxation peaks at both 6 and 24 h after damage indicated a significant deterioration in the quality of blueberries. Compared with 25 ℃, storage at 4 ℃ was more conducive to maintaining fruit integrity and slowing down the rate of moisture loss from damaged blueberries. The experimental results provide a theoretical basis and data reference for the rapid detection and mechanistic understanding of mechanical damage in blueberries.

Published

2025

7. A Pilot Study on Forensic Imaging of Mechanical Injuries

Author

Bin Wu, Yang Li, Xiao-Fei Hu, Zhi-Yuan Xia, Wei Li, Guang-Long He, and Jian-Jun Li

Subjects

forensic imaging, forensic pathology, mechanical injury, postmortem computed tomography, postmortem computed tomography angiography, Public aspects of medicine, RA1-1270

Abstract

Background: Postmortem imaging has played an important role in the field of forensic medicine. Objective: To preliminarily explore the application value of cadaver imaging in mechanical injury. Methods: Three cases of mechanical injury were collected, and the external examination, postmortem computed tomography (PMCT), postmortem computed tomography angiography (PMCTA), and autopsy examination were performed in proper order to compare and analyze the diagnostic ability of postmortem imaging in the exploration of fractures, organ ruptures, and bleeding sources. Conclusion: Postmortem imaging (PMCT and PMCTA) has important application value in the analysis of cause of death, inference of injury objects, wound reconstruction, and search for bleeding sources. The combination of postmortem imaging and traditional anatomy can significantly improve the quality of forensic examinations.

Published

2024

8. Proinflammatory microglial activation impairs in vitro cortical tissue repair via zinc‐dependent ADAM17 cleavage of the CSF‐1 receptor.

Author

Hernandez‐Espinosa, Diego R., Medina‐Ruiz, Gabriela I., Scrabis, Mia G., Thathiah, Amantha, and Aizenman, Elias

Subjects

*BRAIN injuries, *INFLAMMATION, *MECHANICAL models, *MICROGLIA, *PROGNOSIS

Abstract

Infection and subsequent inflammatory processes negatively impact prognosis in individuals with traumatic brain injury (TBI). Tissue repair following TBI is tightly regulated by microglia, promoting or, importantly, preventing astrocyte‐mediated repair processes, depending on the activation state of the neuroimmune cells. This study investigated the poorly understood mechanism linking proinflammatory microglia activation and astrocyte‐mediated tissue repair using an in vitro mechanical injury model in mixed cortical cultures of rat neurons and glia. We hypothesized that proinflammatory activation disrupts the microglial response to colony‐stimulating factor 1 (CSF‐1), which stimulates microglia migration and proliferation, both essential for astrocyte‐mediated tissue repair. Following mechanical damage, cultures were treated with lipopolysaccharide (LPS) and interferon‐gamma (IFNγ) to induce a proinflammatory state. Immunocytochemical and biochemical analyses were used to evaluate glial repair. Proinflammatory activation dramatically impeded wound closure, reducing microglial levels via upregulation of the zinc‐dependent disintegrin and metalloprotease 17 (ADAM17), leading to the cleavage of the CSF‐1 receptor (CSF‐1R). Indeed, pharmacological inhibition of ADAM17 effectively promoted wound closure during inflammation. Moreover, zinc chelation prevented ADAM17‐mediated cleavage of CSF‐1R and induced the release of trophic factors, dramatically improving tissue recovery. Our findings strongly identify ADAM17 as a primary regulator of CSF‐1R‐mediated signaling and establish a mechanism defining the association between pro‐inflammatory microglial activation and tissue repair following injury. [ABSTRACT FROM AUTHOR]

Published

2024

9. A Pilot Study on Forensic Imaging of Mechanical Injuries.

Author

Wu, Bin, Li, Yang, Hu, Xiao-Fei, Xia, Zhi-Yuan, Li, Wei, He, Guang-Long, and Li, Jian-Jun

Subjects

POSTMORTEM imaging, FORENSIC pathology, ORGAN rupture, FORENSIC medicine, CAUSES of death

Abstract

Background: Postmortem imaging has played an important role in the field of forensic medicine. Objective: To preliminarily explore the application value of cadaver imaging in mechanical injury. Methods: Three cases of mechanical injury were collected, and the external examination, postmortem computed tomography (PMCT), postmortem computed tomography angiography (PMCTA), and autopsy examination were performed in proper order to compare and analyze the diagnostic ability of postmortem imaging in the exploration of fractures, organ ruptures, and bleeding sources. Conclusion: Postmortem imaging (PMCT and PMCTA) has important application value in the analysis of cause of death, inference of injury objects, wound reconstruction, and search for bleeding sources. The combination of postmortem imaging and traditional anatomy can significantly improve the quality of forensic examinations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Fractal image analysis and bruise damage evaluation of impact damage in guava

Author

Than Htike, Rattaporn Saengrayap, Hiroaki Kitazawa, and Saowapa Chaiwong

Subjects

Bruise susceptibility, Impact bruise, Mechanical injury, Transportation, Agriculture (General), S1-972, Information technology, T58.5-58.64

Abstract

Impact bruise damage and quality of ‘Gim Ju’ guava were investigated for different drop heights and number of drops using fractal image analysis. For the impact test, a stainless-steel metal ball (250 g) was dropped on fruit from three drop heights (0, 0.3, 0.6 m) either once or five times. Fruit quality was evaluated for impact energy, bruise area (BA), bruise volume (BV), bruise susceptibility, bruise score and pulp color (L*, a*, b* and C values). The fractal dimension (FD) value using fractal image analysis was analyzed at the bruise region. Results showed that five drops (0.3 m) with a high impact energy (3 678.75 J) and a single drop (0.6 m) with a low impact energy (1 471.50 J) exhibited no significant in BA, BV, bruise score as well as all color values (L*, a*, b* and C). While the FD value of a single drop from 0.6 m had a higher FD value than that of five drops from 0.3 m. It is indicated that FD exhibited a better performance to classify impact bruising level of guava than BA, BV and color parameters. The FD value gradually decreased with increase of storage time and bruise severity. The correlation coefficient (r) values of FD (r = − 0.794 and − 0.745) between BA and BV were more significant than those L* (r = − 0.660 and − 0.615) and a* (r = 0.579 and 0.473). The coefficient of determination (R2) of the polynomial equation in bruised fruit (R2 = 0.85 to 0.99) was greater than the control (no bruise) (R2 = 0.80). A higher R2val (0.88 and 0.92) was exhibited at five drops. Interestingly, FD analysis showed greater potential than color measurement to assess bruise impact damage in guava.

Published

2024

11. Ca2+‐mediated reactive oxygen species signaling regulates cell repair after mechanical wounding in the red alga Griffithsia monilis.

Author

Hong, Chan Young, Yun, Ji Ho, and Kim, Gwang Hoon

Subjects

*NICOTINAMIDE adenine dinucleotide phosphate, *REACTIVE oxygen species, *NADPH oxidase, *FLUORESCENT probes, *HOMEOSTASIS

Abstract

Mechanical damage to a cell can be fatal, and the cell must reseal its membrane and restore homeostasis to survive. Plant cell repair involves additional steps such as rebuilding vacuoles, rearranging chloroplasts, and remodeling the cell wall. When we pierced a Griffithsia monilis cell with a glass needle, a large amount of intracellular contents was released, but the cell membrane resealed in less than a second. The turgor of the vacuole was quickly restored, and the punctured cell returned to its original shape within an hour. Organelles such as chloroplasts and nuclei migrated to the wound site for 12 h and then dispersed throughout the cell after the wound was covered by a new cell wall. Using fluorescent probes, high levels of reactive oxygen species (ROS) and calcium were detected at the wound site from 3 h after wounding, which disappeared when cell repair was complete. Wounding in a solution containing ROS scavengers inhibited cellular repair, and inhibiting nicotinamide adenine dinucleotide phosphate (NADPH) oxidase activity or blocking calcium influx reversibly inhibited cell repair. Oryzalin reversibly inhibited both chloroplast movement and ROS production during cell repair. Our results show that cell repair in G. monilis is regulated by calcium‐mediated ROS signaling and that microtubules serve as mechanical effectors. [ABSTRACT FROM AUTHOR]

Published

2024

12. ROCK1 deficiency preserves caveolar compartmentalization of signaling molecules and cell membrane integrity

Author

Jianjian Shi and Lei Wei

Subjects

cardiomyocyte hypertrophy, caveolae, compartmentalization, insulin signaling, mechanical injury, plasma membrane repair, Biology (General), QH301-705.5

Abstract

Abstract In this study, we investigated the roles of ROCK1 in regulating structural and functional features of caveolae located at the cell membrane of cardiomyocytes, adipocytes, and mouse embryonic fibroblasts (MEFs) as well as related physiopathological effects. Caveolae are small bulb‐shaped cell membrane invaginations, and their roles have been associated with disease conditions. One of the unique features of caveolae is that they are physically linked to the actin cytoskeleton that is well known to be regulated by RhoA/ROCKs pathway. In cardiomyocytes, we observed that ROCK1 deficiency is coincident with an increased caveolar density, clusters, and caveolar proteins including caveolin‐1 and ‐3. In the mouse cardiomyopathy model with transgenic overexpressing Gαq in myocardium, we demonstrated the reduced caveolar density at cell membrane and reduced caveolar protein contents. Interestingly, coexisting ROCK1 deficiency in cardiomyocytes can rescue these defects and preserve caveolar compartmentalization of β‐adrenergic signaling molecules including β1‐adrenergic receptor and type V/VI adenylyl cyclase. In cardiomyocytes and adipocytes, we detected that ROCK1 deficiency increased insulin signaling with increased insulin receptor activation in caveolae. In MEFs, we identified that ROCK1 deficiency increased caveolar and total levels of caveolin‐1 and cell membrane repair ability after mechanical or chemical disruptions. Together, these results demonstrate that ROCK1 can regulate caveolae plasticity and multiple functions including compartmentalization of signaling molecules and cell membrane repair following membrane disruption by mechanical force and oxidative damage. These findings provide possible molecular insights into the beneficial effects of ROCK1 deletion/inhibition in cardiomyocytes, adipocytes, and MEFs under certain diseased conditions.

Published

2024

13. The influence of papaya shape on its mass model and mechanical properties.

Author

Aina, Ademola M., Harith, Hazreen, Hashim, Norhashila, and Shukery, Mohamad Firdza Mohamad

Subjects

PAPAYA, MECHANICAL models, COMPRESSION loads, ELASTICITY, ELASTIC modulus, INFORMATION design

Abstract

Postharvest handling tasks include fruit grading and minimizing loss. Fruits are often packaged into grades based on size and mass for uniformity and proper handling. Losses caused by mechanical damage can be reduced by understanding the fruit's response to loads. Papaya's (cv. Exotica) irregular shape and short shelf‐life are important factors for proper handling. This study aimed to develop a model for papaya mass based on geometric properties and to characterize its mechanical behavior when compressed along its major axis. For mass prediction, single‐ and multiple‐variable regression models using papaya's geometrical variables were developed. Despite its irregular shape, similar performance was observed in the best single‐ and multiple‐variable mass models (R2 ≈ 0.95, RMSE ≈ 82 g). However, the single‐variable model is likely more practical because only two axial lengths are needed and can be extracted from 2D images. For papaya's mechanical behavior, the results for elastic properties indicate some variations (p > 0.05) in elastic modulus, and failure stress and strain along the major axis, while results for viscoelastic properties indicate significant variation (p < 0.05) in the relaxation moduli. Overall, the bottom section is less resistant to deformation compared to the top. Therefore, reducing compression in the section could potentially reduce damage. Using the mechanical properties described here in computer simulation studies may provide more detailed load distribution. Mass modeling can aid the automation of papaya grading, while mechanical response characterization provides valuable information for designing postharvest handling systems. Practical Applications: Postharvest handling tasks include fruit grading and minimizing loss. Fruits are often packaged into grades based on size and mass for uniformity and proper handling. Losses caused by mechanical damage may be reduced by understanding the fruit's response to loads. Papaya's irregular shape and short shelf‐life are important factors for proper postharvest handling. Mass modeling can assist the automation of papaya sorting, while characterizing its mechanical response can assist the design of postharvest handling systems. The mass model result indicates that papaya's mass (cv. Exotica) can be predicted using two axial lengths, which can be easily obtained using 2D images. The advantage is that this task can be combined with other tasks using imaging data. While the mechanical properties of papaya indicate that its bottom section is more susceptible to deformation compared to the top when they are stored in an environment with minimal movements over an extended period. Therefore, in this setup, applying the compression load at the top section while minimizing compression load at the bottom may be more effective in preventing and minimizing mechanical damage. [ABSTRACT FROM AUTHOR]

Published

2024

14. ROCK1 deficiency preserves caveolar compartmentalization of signaling molecules and cell membrane integrity.

Author

Shi, Jianjian and Wei, Lei

Subjects

CELL membranes, INSULIN receptors, CELL communication, ADENYLATE cyclase, CAVEOLAE, MECHANICAL ability

Abstract

In this study, we investigated the roles of ROCK1 in regulating structural and functional features of caveolae located at the cell membrane of cardiomyocytes, adipocytes, and mouse embryonic fibroblasts (MEFs) as well as related physiopathological effects. Caveolae are small bulb‐shaped cell membrane invaginations, and their roles have been associated with disease conditions. One of the unique features of caveolae is that they are physically linked to the actin cytoskeleton that is well known to be regulated by RhoA/ROCKs pathway. In cardiomyocytes, we observed that ROCK1 deficiency is coincident with an increased caveolar density, clusters, and caveolar proteins including caveolin‐1 and ‐3. In the mouse cardiomyopathy model with transgenic overexpressing Gαq in myocardium, we demonstrated the reduced caveolar density at cell membrane and reduced caveolar protein contents. Interestingly, coexisting ROCK1 deficiency in cardiomyocytes can rescue these defects and preserve caveolar compartmentalization of β‐adrenergic signaling molecules including β1‐adrenergic receptor and type V/VI adenylyl cyclase. In cardiomyocytes and adipocytes, we detected that ROCK1 deficiency increased insulin signaling with increased insulin receptor activation in caveolae. In MEFs, we identified that ROCK1 deficiency increased caveolar and total levels of caveolin‐1 and cell membrane repair ability after mechanical or chemical disruptions. Together, these results demonstrate that ROCK1 can regulate caveolae plasticity and multiple functions including compartmentalization of signaling molecules and cell membrane repair following membrane disruption by mechanical force and oxidative damage. These findings provide possible molecular insights into the beneficial effects of ROCK1 deletion/inhibition in cardiomyocytes, adipocytes, and MEFs under certain diseased conditions. [ABSTRACT FROM AUTHOR]

Published

2024

15. 3D digital polarization‐holographic wavelet histology in determining the duration of mechanical damage to the myocardium.

Author

Ushenko, Alexander, Zheng, Jun, Litvinenko, Alexandra, Gorsky, Mykhaylo, Wanchuliak, Oleh, Dubolazov, Alexander, Ushenko, Yuriy, Soltys, Iryna, Salega, Olexander, and Chen, Zhebo

Abstract

We aimed developing and experimentally validating methods for 3D scale‐selective polarimetry of multiply scattered fields in diffuse myocardium layers for mechanical myocardial injury prescription histological differential diagnostics. We used the synthesis of diffuse object field polarization‐interference registration and polarization‐inhomogeneous field digital holographic reconstruction and layer‐by‐layer complex amplitudes distributions The method for selection single and diffuse object field multiply scattered components polarization maps is proposed. The conditions for eliminating the distorting influence of a depolarized background high level are found. On the basis of еру object field single scattered component polarization maps a large‐scale selective wavelet analysis the criteria (markers) for mechanical myocardial injury different prescription diagnosis was determinate. Excellent accuracy mechanical injury myocardium necrotic changes with different duration using polarization‐interference wavelet differentiation were achieved. [ABSTRACT FROM AUTHOR]

Published

2024

16. Mechanical scratch injury on differentiated motor neuron of NSC-34 cells as an in vitro model for evaluation of neuroregeneration potential of NeuroAiD II (MLC901)

Author

Anjum, Anam, Yazid, Muhammad Dain, Daud, Muhammad Fauzi, Idris, Jalilah, Ng, Angela Min Hwei, Naicker, Amaramalar Selvi, Ismail, Ohnmar Htwe, Athi Kumar, Ramesh Kumar, and Lokanathan, Yogeswaran

Published

2024

17. LOX1- and PLP1-dependent transcriptional reprogramming is essential for injury-induced conidiophore development in a filamentous fungus

Author

Martín O. Camargo-Escalante, Edgar Balcázar-López, Exsal M. Albores Méndez, Robert Winkler, and Alfredo Herrera-Estrella

Subjects

Trichoderma atroviride, mechanical injury, lipoxygenase, patatin-like phospholipase, oxylipins, oxidized lipids, Microbiology, QR1-502

Abstract

ABSTRACT Fungi use oxylipins (oxidized lipids) as signaling molecules to induce asexual development. These molecules play an essential role in the response to wounding, exerting a protective effect against plant pathogens, and are part of the inflammatory process in animals. However, the physiological and molecular mechanisms triggered by oxylipins that lead to asexual development in fungi are not well understood. Using a genetic approach, mass spectrometry, and phenotypic analysis, we describe the functional role of a patatin-like phospholipase (plp1) and a unique lipoxygenase (lox1) in the response to injury in the model fungus Trichoderma atroviride. lox1 and plp1 are co-expressed and regulated by damage signaling and sensing components. Phenotypic analysis revealed an essential defect in the emergence of aerial hyphae in the lox1 and plp1 null mutant strains, blocking injury-induced conidiation. In addition, functional loss analysis demonstrated that both genes are essential for wound-associated linoleic acid-derived oxylipin 13-hydroxy-9Z,11E-octadecadienoic acid (13-HODE) production and the transcriptional reprogramming required for conidiation. T. atroviride requires LOX1 and PLP1 to induce transcription factors involved in asexual development such as brlA, hox2, and azf1 homologs at the early stages of the response and at a later stage to activate lipid metabolism and the structural proteins involved in aerial mycelium emergence. Our study shows how the cooperative function of lox1 and plp1, during the response to wounding, regulates the molecular and physiological processes of damaged-sensitized cells that lead to reproductive aerial mycelium development and consequently, ensure survival through asexual reproduction. IMPORTANCE In addition to being considered a biocontrol agent, the fungus Trichoderma atroviride is a relevant model for studying mechanisms of response to injury conserved in plants and animals that opens a new landscape in relation to regeneration and cell differentiation mechanisms. Here, we reveal the co-functionality of a lipoxygenase and a patatin-like phospholipase co-expressed in response to wounding in fungi. This pair of enzymes produces oxidized lipids that can function as signaling molecules or oxidative stress signals that, in ascomycetes, induce asexual development. Furthermore, we determined that both genes participate in the regulation of the synthesis of 13-HODE and the establishment of the physiological responses necessary for the formation of reproductive aerial mycelium ultimately leading to asexual development. Our results suggest an injury-induced pathway to produce oxylipins and uncovered physiological mechanisms regulated by LOX1 and PLP1 to induce conidiation, opening new hypotheses for the novo regeneration mechanisms of filamentous fungi.

Published

2023

18. ПРАКТИЧНІ АСПЕКТИ "ШКІРНОГО РОГУ" КРАЙНЬОЇ ПЛОТІ.

Author

Прийма, О. Б.

Abstract

The paper analyzes the origin and treatment of five patients over the past 15 years. This disease is rare. Its frequency among the contingent of urological inpatients is 0.0003. Therefore, this disease can rightly be classified as an "orphan disease". It was noted that mechanical trauma and, especially, chronic balanoposthitis are essential points in the development of this disease. The results of the pathohistological examination of the "skin horn" before the operation and the operative material were analyzed. Microscopically, a thickened multi-layered flat epithelium covered with horny masses, in places in the form of pearls, was found in the "skin horn". Multiple focal mononuclear inflammatory infiltrates were found in the dermis of the "skin horn". This disease is classified as a facultative precancer, as evidenced by our own experience, where among 5 patients, we never observed a malignant transformation of the neoplasm. Surgical treatment, radical in nature, provides a good both therapeutic and cosmetic effect. [ABSTRACT FROM AUTHOR]

Published

2023

19. Effects of needle puncturing on re-vascularization and follicle survival in xenotransplanted human ovarian tissue

Author

Hanna Ørnes Olesen, Susanne Elisabeth Pors, Cristina Subiran Adrados, Mette Christa Zeuthen, Linn Salto Mamsen, Anette Tønnes Pedersen, and Stine Gry Kristensen

Subjects

Ovarian tissue cryopreservation, Transplantation, Controlled tissue damage, Needle puncturing, Mechanical injury, Vascularization, Gynecology and obstetrics, RG1-991, Reproduction, QH471-489

Abstract

Abstract Background Ovarian tissue transplantation can restore fertility in young cancer survivors, however the detrimental loss of follicles following transplantation of cryopreserved ovarian tissue is hampering the efficiency of the procedure. This study investigates whether needle puncturing prior to transplantation can enhance revascularization and improve follicle survival in xenotransplanted human ovarian cortex. Methods Cryopreserved human ovarian cortex pieces (N = 36) from 20 women aged 24–36 years were included. During the thawing process, each piece of tissue was cut in halves; one half serving as the untreated control and the other half was punctured approximately 150–200 times with a 29-gauge needle. The cortex pieces were transplanted subcutaneously to immunodeficient mice for 3, 6 and 10 days (N = 8 patients) and for 4 weeks (N = 12 patients). After 3, 6 and 10 days, revascularization of the ovarian xenografts were assessed using immunohistochemical detection of CD31 and gene expression of angiogenic factors (Vegfα, Angptl4, Ang1, and Ang2), and apoptotic factors (BCL2 and BAX) were performed by qPCR. Follicle density and morphology were evaluated in ovarian xenografts after 4 weeks. Results A significant increase in the CD31 positive area in human ovarian xenografts was evident from day 3 to 10, but no significant differences were observed between the needle and control group. The gene expression of Vegfα was consistently higher in the needle group compared to control at all three time points, but not statistically significant. The expression of Ang1 and Ang2 increased significantly from day 3 to day 10 in the control group (p

Published

2023

20. SOLUBLE DIFFERENTIATING ANTIGENS AND HISTOCOMPATIBILITY MOLECULES IN PATIENTS WITH DIFFERENT KIND OF TRAUMA

Author

A. V. Karaulov, M. Yu. Lebedev, and V. V. Novikov

Subjects

mechanical injury, craniocerebral trauma, burning injury, soluble differentiation antigens, molecules of histocompatibility, immune response regulation, Medicine (General), R5-920

Abstract

In biological fluids of trauma patients the essential changes in soluble forms of immune system cells membrane antigens in different states have been revealed. The soluble forms of membrane antigens, which can makes up oligomers, consists of subunits, belong to one antigen, or which can make up soluble complexes (associations), composed of pair receptor–ligand. The changes in concentration of soluble analogs of membrane antigens in patients with mechanical injury, craniocerebral trauma and burning injury are the perspective prognostic markers of possibility of development complication. The state of soluble differentiation molecules pool is one from factors which define the outcomes of underlying disease. Peculiarity of immune system cells transcriptome, associated with mRNA of soluble and membrane differentiation antigens have prognostic character in trauma patients.

Published

2022

21. Human endometrium-derived mesenchymal stem/stromal cells application in endometrial-factor induced infertility

Author

Raminta Bausyte, Brigita Vaigauskaite - Mazeikiene, Veronika Borutinskaite, Elvina Valatkaite, Justinas Besusparis, Ruta Barbora Valkiuniene, Edita Kazenaite, Diana Ramasauskaite, and Ruta Navakauskiene

Subjects

infertility, endometrium-derived mesenchymal stem cells, stromal cells, endometrial-factor, mechanical injury, chemotherapy, Biology (General), QH301-705.5

Abstract

Endometrial-factor induced infertility remains one of the most significant pathology among all fertility disorders. Stem cell-based therapy is considered to be the next-generation approach. However, there are still issues about successfully retrieving human endometrium-derived mesenchymal stem/stromal cells (hEnMSCs). Moreover, we need to establish a better understanding of the effect of hEnMSCs on the endometrial recovery and the clinical outcome. According to these challenges we created a multi-step study. Endometrium samples were collected from females undergoing assisted reproductive technology (ART) procedure due to couple infertility. These samples were obtained using an endometrium scratching. The hEnMSCs were isolated from endometrium samples and characterized with flow cytometry analysis. Groups of endometrium injured female mice were established by the mechanical injury to uterine horns and the intraperitoneal chemotherapy. The hEnMSCs suspension was injected to some of the studied female mice at approved time intervals. Histological changes of mice uterine horns were evaluated after Masson’s trichrome original staining, hematoxylin and eosin (H&E) staining. The fertility assessment of mice was performed by counting formed embryo implantation sites (ISs). The expression of fibrosis related genes (Col1a1, Col3a1, Acta2, and CD44) was evaluated by the reverse transcription—quantitative polymerase chain reaction (RT-qPCR). Results showed that endometrium scratching is an effective procedure for mesenchymal stem/stromal cells (MSCs) collection from human endometrium. Isolated hEnMSCs met the criteria for defining MSCs. Moreover, hEnMSCs-based therapy had a demonstrably positive effect on the repair of damaged uterine horns, including a reduction of fibrosis, intensity of inflammatory cells such as lymphocytes and polymorphonuclear cells (PMNs) and the number of apoptotic bodies. The injured mice which recieved hEnMSCs had higher fertility in comparison to the untreated mice. Gene expression was reflected in histology changes and outcomes of conception. In conclusion, hEnMSCs demonstrated a positive impact on endometrium restoration and outcomes of endometrial-factor induced infertility. Further exploration is required in order to continue exploring the multifactorial associations between stem cell therapy, gene expression, endometrial changes and reproductive health, so we can identify individually effective and safe treatment strategies for endometrial-factor induced infertility, which is caused by mechanical effect or chemotherapy, in daily clinical practise.

Published

2023

22. Mechanical and Thermal Skin Injury

Author

Damevska, Katerina, Vassileva, Snejina, Neloska, Lence, Peev, Igor, Drenovska, Kossara, Smoller, Bruce, editor, and Bagherani, Nooshin, editor

Published

2022

23. Establishment of an animal model of intrauterine adhesions

Author

Shi Wen, Zhou Shu

Subjects

intrauterine adhesion, rat, animal model, mechanical injury, Medicine

Abstract

Objective To establish a stable animal model for the study of pathological regeneration of intrauterine adhesions （IUAs）. Methods Thirty female SD rats were randomly divided into the experimental （n=15） and control groups （n=15）. In the experimental group, a self-made 2-mm diameter curette was utilized to create mild and severe mechanical injury to the left and right endometrium of estrous rats and then divided into the mild and severe mechanical injury groups, respectively. In the control group, the rats were not treated with endometrial injury after open surgery, which were used as sham surgery controls. At 0 h, 24 h, 72 h, 5 d, and 7 d after surgery, bilateral uteruses were removed from 3 rats in each group and prepared for quick frozen sections for MHCⅡ and BrdU immunohistochemical staining. The endometrial glands of different rats were observed at postoperative 7 d, and the inflammatory reaction of endometrial tissues and the changes of endometrial tissue proliferation and repair were also observed in rats with different degrees of mechanical injury at different time points after surgery. Results In the mild mechanical injury group, a small amount of red-stained BrdU-containing cells and blue-stained MHCⅡ cells were seen at 7 d after surgery, and the endometrium was basically repaired, while mild inflammatory reaction occurred. In the severe mechanical injury group, no endometrial glands or very few glands were detected, no obvious red-stained BrdU-containing cells were seen, a small quantity of blue-stained MHCⅡ cells, mild inflammatory reaction, endometrial fibrosis, local lumen closure and adhesion were observed at postoperative 7 d. Compared with the control group, the number of endometrial glands in the rat uterine cavity was decreased along with the increase in the degree of mechanical endometrial injury at 7 d after surgery, and the difference was statistically significant （P < 0.001）. Conclusions The rat model of IUAs can be successfully established by incision and suture of endometrial mechanical injury method. After mild mechanical injury, the endometrium of rats can regenerate and achieve basic repair. Nevertheless, the endometrial tissues cannot achieve basic repair after severe mechanical injury. In addition, tissue fibrosis occurs, leading to IUAs.

Published

2022

24. Effects of needle puncturing on re-vascularization and follicle survival in xenotransplanted human ovarian tissue.

Author

Olesen, Hanna Ørnes, Pors, Susanne Elisabeth, Adrados, Cristina Subiran, Zeuthen, Mette Christa, Mamsen, Linn Salto, Pedersen, Anette Tønnes, and Kristensen, Stine Gry

Subjects

OVARIAN transplantation, TRANSPLANTATION of organs, tissues, etc., VASCULAR endothelial growth factors, OVARIES, GENE expression

Abstract

Background: Ovarian tissue transplantation can restore fertility in young cancer survivors, however the detrimental loss of follicles following transplantation of cryopreserved ovarian tissue is hampering the efficiency of the procedure. This study investigates whether needle puncturing prior to transplantation can enhance revascularization and improve follicle survival in xenotransplanted human ovarian cortex. Methods: Cryopreserved human ovarian cortex pieces (N = 36) from 20 women aged 24–36 years were included. During the thawing process, each piece of tissue was cut in halves; one half serving as the untreated control and the other half was punctured approximately 150–200 times with a 29-gauge needle. The cortex pieces were transplanted subcutaneously to immunodeficient mice for 3, 6 and 10 days (N = 8 patients) and for 4 weeks (N = 12 patients). After 3, 6 and 10 days, revascularization of the ovarian xenografts were assessed using immunohistochemical detection of CD31 and gene expression of angiogenic factors (Vegfα, Angptl4, Ang1, and Ang2), and apoptotic factors (BCL2 and BAX) were performed by qPCR. Follicle density and morphology were evaluated in ovarian xenografts after 4 weeks. Results: A significant increase in the CD31 positive area in human ovarian xenografts was evident from day 3 to 10, but no significant differences were observed between the needle and control group. The gene expression of Vegfα was consistently higher in the needle group compared to control at all three time points, but not statistically significant. The expression of Ang1 and Ang2 increased significantly from day 3 to day 10 in the control group (p < 0.001, p = 0.0023), however, in the needle group this increase was not observed from day 6 to 10 (Ang2 p = 0.027). The BAX/BCL2 ratio was similar in the needle and control groups. After 4-weeks xenografting, follicle density (follicles/mm3, mean ± SEM) was higher in the needle group (5.18 ± 2.24) compared to control (2.36 ± 0.67) (p = 0.208), and a significant lower percentage of necrotic follicles was found in the needle group (19%) compared to control (36%) (p = 0.045). Conclusions: Needle puncturing of human ovarian cortex prior to transplantation had no effect on revascularization of ovarian grafts after 3, 6 and 10 days xenotransplantation. However, needle puncturing did affect angiogenic genes and improved follicle morphology. [ABSTRACT FROM AUTHOR]

Published

2023

25. Ca2+ Regulates Autophagy Through CaMKKβ/AMPK/mTOR Signaling Pathway in Mechanical Spinal cord Injury: An in vitro Study.

Author

Liu, Fu-Sheng, Jiang, Chang, Li, Zheng, Wang, Xiao-Bin, Li, Jing, Wang, Bing, Lv, Guo-Hua, and Liu, Fu-Bing

Subjects

*SPINAL cord injuries, *CELLULAR signal transduction, *CALCIUM-dependent protein kinase, *CALCIUM ions, *IN vitro studies

Abstract

Spinal cord injury (SCI), resulting in damage of the normal structure and function of the spinal cord, would do great harm to patients, physically and psychologically. The mechanism of SCI is very complex. At present, lots of studies have reported that autophagy was involved in the secondary injury process of SCI, and several researchers also found that calcium ions (Ca2+) played an important role in SCI by regulating necrosis, autophagy, or apoptosis. However, to our best of knowledge, no studies have linked the spinal cord mechanical injury, intracellular Ca2+, and autophagy in series. In this study, we have established an in vitro model of SCI using neural cells from fetal rats to explore the relationship among them, and found that mechanical injury could promote the intracellular Ca2+ concentration, and the increased Ca2+ level activated autophagy through the CaMKKβ/AMPK/mTOR pathway. Additionally, we found that apoptosis was also involved in this pathway. Thus, our study provides new insights into the specific mechanisms of SCI and may open up new avenues for the treatment of SCI. [ABSTRACT FROM AUTHOR]

Published

2023

26. Bidirectional regulation of structural damage on autophagy in the C. elegans epidermis.

Author

Fu, Rong, Jiang, Xiaowan, Yang, Yuyan, Wang, Chunxia, Zhang, Yun, Zhu, Yi, and Zhang, Huimin

Subjects

G protein coupled receptors, CAENORHABDITIS elegans, AUTOPHAGY, GREEN fluorescent protein, CYTOPLASMIC filaments, EPIDERMAL growth factor receptors, CELLULAR mechanics

Abstract

A variety of disturbances such as starvation, organelle damage, heat stress, hypoxia and pathogen infection can influence the autophagic process. However, how the macroautophagy/autophagy machinery is regulated intrinsically by structural damage of the cell remains largely unknown. In this work, we utilized the C. elegans epidermis as the model to address this question. Our results showed that structural damage by mechanical wounding exerted proximal inhibitory effect and distant promotional effect on autophagy within the same epidermal cell. By disrupting individual mechanical supporting structures, we found that only damage of the basal extracellular matrix or the underlying muscle cells activated a distinct autophagic response in the epidermis. On the contrary, structural disruption of the epidermal cells at the apical side inhibited autophagy activation caused by different stress factors. Mechanistic studies showed that the basal promotional effect of structural damage on epidermal autophagy was mediated by a mechanotransduction pathway going through the basal hemidesmosome receptor and LET-363/MTOR, while the apical inhibitory effect was mostly carried out by activation of calcium signaling. Elevated autophagy in the epidermis played a detrimental rather than a beneficial role on cell survival against structural damage. The results obtained from these studies will not only help us better understand the pathogenesis of structural damage- and autophagy-related diseases, but also provide insight into more generic rules of autophagy regulation by the structural and mechanical properties of cells across species. Abbreviations : ATG: autophagy related; BLI-1: BLIstered cuticle 1; CeHDs: C. elegans hemidesmosomes; COL-19: COLlagen 19; DPY-7: DumPY 7; ECM: extracellular matrix; EPG-5: ectopic PGL granules 5; GFP: green fluorescent protein; GIT-1: GIT1 (mammalian G protein-coupled receptor kinase InTeractor 1) homolog; GTL-2: Gon-Two Like 2 (TRP subfamily); HIS-58, HIStone 58; IFB-1: Intermediate Filament, B 1; LET: LEThal; LGG-1: LC3, GABARAP and GATE-16 family 1; MTOR: mechanistic target of rapamycin; MTORC1: MTOR complex 1; MUP-4: MUscle Positioning 4; NLP-29: Neuropeptide-Like Protein 29; PAT: Paralyzed Arrest at Two-fold; PIX-1: PIX (PAK (p21-activated kinase) Interacting eXchange factor) homolog 1; RFP: red fluorescent protein; RNAi: RNA interference; SQST-1: SeQueSTosome related 1; UNC: UNCoordinated; UV: ultraviolet; VAB-10: variable ABnormal morphology 10; WT: wild type. [ABSTRACT FROM AUTHOR]

Published

2022

27. EFFECT OF VARIOUS PRE-TREATMENTS FOR BREAKING THE DORMANCY OF RICINUS COMMUNIS LINN.

Author

Bhat, Mudasir Qadir and Lone, Zahoor Ahmad

Subjects

CASTOR oil plant, DORMANCY in plants, GERMINATION, ELECTRIC fields, THIOUREA

Abstract

In the present investigation, seeds of Ricinus communis were subjected to various treatments to achieve early germination by breaking dormancy. At the end of 17th day, highest germination (82%) was achieved in the seeds subjected to mechanical injury followed by IAA treated seeds (79%). The germination percentage was 28, 48, 54, 23, 40, 17, 37, 4, 27, 38, 43, 27, 30 and 77 respectively in the seeds kept as control, pretreated with hot water, scarified, stratified, subjected to alternate high and low temperature, KNO3, thiourea, kinetin, GA3, H2SO4, pre soaking treatment and those which were put in electric field and those which were subjected to coumarin and brassinolide. Thus, to achieve germination of R. communis seeds, the most suitable method is mechanical injury. IAA and brassinolide are also useful methods as they respectively resulted 79% and 77% germination in the present study (Table 1). [ABSTRACT FROM AUTHOR]

Published

2022

28. Self-drilling screws for the prevention of dental and skeletal injuries during open reduction and internal fixation of pediatric mandibular fractures

Author

Elavenil Panneerselvam and Anantanarayanan Parameswaran

Subjects

mechanical injury, pediatric mandibular fracture, self-drilling screws, thermal injury, tooth germ injury, Dentistry, RK1-715

Abstract

Facial trauma in pediatric population predisposes the child to injury of both the developing skeleton and dentition. This article aims to highlight the experience of the authors through a case report, in using self-drilling screws for fixation of mandibular fractures in pediatric age group. The use of self-drilling screws minimizes the complications such as thermal and/or mechanical damage to the developing dentition and the bone. They also provide significant advantages including ease of availability and technique, superior anchorage with primary stability, and minimizing or avoiding permanent damage to the developing tooth germs in the site of fracture. The use of self-drilling screws for mandibular open reduction and internal fixation in children is an easy, reliable, and safe technique which may have significant value addition in preventing inadvertent injury to the developing tooth germs.

Published

2022

29. 孕早期大鼠剖宫取出胚胎后机械刮宫方法 构建宫腔粘连模型 .

Author

谭琴 and 刘晓云

Abstract

Objective The intrauterine adhesion（IUA）model was established by mechanical curettage after em⁃ bryo removal by cesarean section in early-trimester rats，and its function was evaluated. Methods Forty-eight SD female rats with stable estrous cycles aged 8-9 weeks were randomly divided into groups A，B，C，and D，with 12 rats in each group. In the groups A，B，and C，after female mice and male mice were placed together，we screened pregnant rats（re⁃ corded as the 0. 5th day of pregnancy）. On the 5. 5th to 6. 5th day of pregnancy，the IUA model was established by me⁃ chanical curettage after the embryos were removed by cesarean section in the first trimester. The female rats in the group D were raised alone without male rats. We sutured and closed their abdomen without curettage. Rats in the groups A，B，and C were continued to feed for 1，2，and 3 estrous cycles after curettage. Six rats in each group were sacrificed，and uterine tissues were collected. After HE staining，the number of endometrial glands in each group was calculated. The degree of endometrial fibrosis in rats of each group was observed by using Masson staining method，and TGF-β1 in the endometrial tissues was detected by immunohistochemistry. The remaining six rats in each group were randomly assigned to male rats and caged，and the pregnant rats were sacrificed on the 14. 5th day of gestation，and the number of embryos in the uterus was recorded. Results Compared with group D，rats in groups A，B，and C had fewer endometrial glands，higher scores of endometrial fibrosis，and higher relative expression of TGF-β1 （all P<0. 05）. Compared with groups B and C，the num⁃ ber of endometrial glands was more，the score of fibrosis was lower，and the relative expression of TGF-β1 was lower in the group A（all P<0. 05）. On the 14. 5th day of pregnancy，the number of bilateral uterine embryos in the groups A，B，C，and D were 2. 08±1. 16，0，0，and 6. 75±1. 14，respectively. Compared with group D，the number of bilateral uterine em⁃ bryos in the group A was smaller（P<0. 05）. Conclusions The IUA rat model is successfully established by mechanical curettage after abortion in early-trimester rats. The model rats have decreased pregnancy ability，decreased number of en⁃ dometrial glands，increased fibrosis，and increased TGF-β1 expression. [ABSTRACT FROM AUTHOR]

Published

2022

30. Traumatic Brain Injury: Current Trends Towards the Increase of the Number of Cases and Its Diagnosis

Author

Kozan, Nataliia, Dunaiev, Oleksandr, Kozan, Nataliia, and Dunaiev, Oleksandr

Abstract

Introduction The global medical community calls traumatic brain injury (TBI) a "silent epidemic" because the latter causes a significant increase in mortality and disability more than any other mechanical injury. Although today's world achievements demonstrate powerful technical capabilities for accurate diagnosis of the time of occurrence and mechanism of TBI, however, the commission examination departments of the forensic medical examination bureau are considering more and more cases of diagnostic errors made by forensic medical experts during autopsies , which later caused protracted legal proceedings. Aim. In this study, we aimed to evaluate the modern diagnostic possibilities of methods for verifying the diagnosis and the time formation of TBI. Methods. Literary data on the prevalence and methods of diagnosing TBI at the present time were analyzed. Results. The degree and severity of TBI, as well as its course, after the initial mechanical injury depends on many factors. In the last decade, there has been an intensification of research on protein biomarkers based on biofluids (blood, cerebrospinal fluid) for intravitality diagnosis. However, not all markers provide reliable information that would correlate with the presence of TBI. Until now, the "gold standard" of diagnosis is an autopsy, next to which radiological studies are effectively used. Conclusion. Taking into account the global statistical data, postmortem diagnosis of TBI is an important issue of forensic traumatology, which requires a careful approach. &nbsp

Published

2024

31. One strike loading organ culture model to investigate the post-traumatic disc degenerative condition

Author

Zhiyu Zhou, Shangbin Cui, Jie Du, R. Geoff Richards, Mauro Alini, Sibylle Grad, and Zhen Li

Subjects

Degeneration, Extracellular matrix, Intervertebral disc, Mechanical injury, One strike loading, Post-traumatic, Diseases of the musculoskeletal system, RC925-935

Abstract

Summary: Background: Acute trauma on intervertebral discs (IVDs) is thought to be one of the risk factors for IVD degeneration. The pathophysiology of IVD degeneration induced by single high impact mechanical injury is not very well understood. The aim of this study was using a post-traumatic IVD model in a whole organ culture system to analyze the biological and biomechanical consequences of the single high-impact loading event on the cultured IVDs. Methods: Isolated healthy bovine IVDs were loaded with a physiological loading protocol in the control group or with injurious loading (compression at 50% of IVD height) in the one strike loading (OSL) group. After another 1 day (short term) or 8 days (long term) of whole organ culture within a bioreactor, the samples were collected to analyze the cell viability, histological morphology and gene expression. The conditioned medium was collected daily to analyze the release of glycosaminoglycan (GAG) and nitric oxide (NO). Results: The OSL IVD injury group showed signs of early degeneration including reduction of dynamic compressive stiffness, annulus fibrosus (AF) fissures and extracellular matrix degradation. Compared to the control group, the OSL model group showed more severe cell death (P ​

Published

2021

32. Genipin does not reduce the initiation or propagation of microcracks in collagen networks of cartilage

Author

Stephany Santos, Corey P. Neu, James J. Grady, and David M. Pierce

Subjects

Articular cartilage, Mechanical injury, Microcracks, Genipin, Cross-linking, Low-energy impact, Diseases of the musculoskeletal system, RC925-935

Abstract

Objective: We recently initiated microcracks, i.e. micron-scale cracks in the collagen networks of cartilage, using both single low-energy impacts and unconfined, cyclic compressions. We also tracked the propagation of microcracks after cyclic compressions simulating 12,000 walking strides. In this study, we aimed to determine the effect of one or more genipin treatments on: (1) the initiation of microcracks under mechanical impacts and (2) the subsequent propagation of microcracks under cyclic, unconfined compression. We hypothesized that treatments with genipin would improve the resistance of cartilage to microdamage, specifically reducing both the initiation of microcracks under impact loading and the propagation of microcracks under cyclic compression. Design: We tested 49 full-thickness, cylindrical osteochondral specimens. We incorporated one or two doses of genipin in between mechanical treatments, i.e. single low-energy mechanical impacts to initiate microcracks and unconfined, cyclic compressions to propagate microcracks. We also imaged specimens using second harmonic generation confocal microscopy, and analyzed the resulting images to quantify changes in morphologies (length, width, and depth) and orientations of microcracks. Finally, we used separate mixed-regression modeling to evaluate the effects of genipin treatments on mechanically induced microcracks. Results: Specimens treated with genipin presented significantly longer and marginally deeper microcracks after mechanical impacts. Two doses of genipin caused significantly longer and wider microcracks under propagation verses one dose. Conclusions: Our results do not support our hypothesis: unfortunately treatments with genipin, and the resulting mechanisms of cross-linking, do not provide resistance to microdamage, quantified as the initiation and propagation of microcracks.

Published

2022

33. 运输过程中振动对哈密瓜的机械损伤和贮藏品质的影响.

Author

纪锋, 李志元, 尚志勇, and 张连文

Abstract

Copyright of Xinjiang Agricultural Sciences is the property of Xinjiang Agricultural Sciences Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

34. Investigation and Evaluation of Impact Bruising in Guava Using Image Processing and Response Surface Methodology.

Author

Than Htike, Rattapon Saengrayap, Nattapol Aunsri, Khemapat Tontiwattanakul, and Saowapa Chaiwong

Subjects

GUAVA, FRUIT storage, IMAGE processing, RESPONSE surfaces (Statistics), PLANT injuries

Abstract

Simulated impact damage testing was investigated by fractal image analysis using response surface methodology (RSM) with a central composite design (CCF) on quality of ‘Glom Sali’ guava for drop heights (0.2, 0.4, and 0.6 m), number of drops (1, 3, and 5) and storage temperature conditions (10, 20, and 30 °C). After 48 h, impacted fruit were determined and analyzed for bruise area (BA), bruise volume (BV), browning index (BI), total color difference (∆E), image analysis for bruise area (BAI), and fractal dimension (FD) at the bruising region on peeled guava. Results showed that the correlation coefficient (r = −0.6055) between ∆E and FD value was higher than ∆E and either BA (r = 0.3132) or BV (r = 0.2095). The FD variable was determined as a better indicator than conventional measurement (BA or BV) for pulp browning and impact bruising susceptibility. The FD variable also exhibited highest R²adj value (81.69%) among the other five variables, as the highest precision model with high determination coefficient value (R²adj) (>0.8) for impact bruising prediction. Recommended condition of the FD variable to minimize impact bruising was drop height of 0.53 m for five drops under storage at 30 °C. FD variable assessed by image analysis was shown to be a highly capable measurement to determine impact bruising susceptibility in guava fruit. [ABSTRACT FROM AUTHOR]

Published

2021

35. Variation among Strawberry Cultivars in Bruising Susceptibility Related to Wound Ethylene Production and Sensitivity

Author

Lan-Yen Chang and Jeffrey K. Brecht

Subjects

calyx yellowing, decay, fragaria ×ananassa, mechanical injury, respiration, water soaking, Plant culture, SB1-1110

Abstract

Bruising of strawberry (Fragaria ×ananassa Duch.) fruit is a common mechanical injury that reduces product value. Wound-induced ethylene may accelerate deterioration or decay, affecting strawberry quality and shelf life. However, bruising susceptibility varies among strawberry cultivars. In this study, cultivars Monterey, Sweet Sensation, Radiance, and two proprietary cultivars (Cultivar A and Cultivar B) from a private breeding program were investigated to evaluate their bruising susceptibility and wound response. Bruising consisted of dropping a 28-g steel ball from 27 cm onto individual fruit; unbruised fruit were the primary control, while fruit exposed to 1 μL·L−1 ethylene were used as a check for ethylene response. All fruit were stored at 20 °C, 90% relative humidity (RH), with respiration and ethylene production measured at 2-hour intervals for 24 hours. Appearance observations were recorded daily until decay onset. Peak respiration rates of 30–40 mL CO2·kg−1·h−1 mostly occurred within 4 hours (‘Cultivar B’) to 6 hours (‘Cultivar A’ and ‘Sweet Sensation’) after bruising, except ‘Monterey’, which peaked at 60 mL CO2·kg−1·h−1 in 2 hours, and ‘Radiance’, which reached 70 mL CO2·kg−1·h−1 in 6 hours. Maximum ethylene production rates after bruising were 0.05 to 0.06 μL·kg−1·h−1 for ‘Monterey’, ‘Cultivar A’, and ‘Cultivar B’, 0.10 μL·kg−1·h−1 for ‘Sweet Sensation’, and 0.20 to 0.37 μL·kg−1·h−1 for ‘Radiance’. ‘Cultivar B’, with the lowest ethylene production, exhibited the lowest overall bruising severity, whereas ‘Radiance’, with the highest ethylene production, exhibited the most severe bruising-induced water soaking, and the other cultivars were intermediate, although ‘Monterey’ bruises were more discolored than those of the other cultivars. ‘Monterey’, ‘Radiance’, and ‘Sweet Sensation’ showed more yellowing and browning of the calyx in response to both bruising and ethylene exposure than ‘Cultivar A’ and ‘Cultivar B’. Except for ‘Cultivar B’, bruising and ethylene exposure increased decay severity.

Published

2020

36. Quality Detection of Postharvest Litchi Based on Electronic Nose: A Feasible Way for Litchi Fruit Supervision during Circulation Process

Author

Sai Xu, Huazhong Lu, and Xiuxiu Sun

Subjects

fruit, intelligent recognition, mechanical injury, storage quality, Plant culture, SB1-1110

Abstract

Susceptibility to mechanical injury and fast decay rates are currently two main problems of litchi fruit after harvesting. To achieve better postharvest management of litchi fruit, this study aimed to find an effective method of litchi fruit supervision during the circulation process that included mechanical injury detection and storage quality detection. For mechanical injury detection, injury-free litchis without any treatment and litchis with mild and severe mechanical injuries were dropped from 80 and 110 cm high, respectively. The electronic nose (E-nose) response, total soluble solid (TSS), and titratable acidity (TA) of samples were tested on days 0, 1, 2, 3, 4, and 5 after injury at room temperature. For storage quality detection, normal litchis were stored in a cold environment. The E-nose response, TSS, and TA of samples were tested on storage days 0, 3, 6, 10, 15, 19, and 24. The experimental results showed that mechanical injury not only accelerated pericarp browning but also accelerated flavor (TA and TSS) loss. The browning index quickly increased during storage, and the TSS and TA of defect-free litchis changed only barely at room temperature and during cold environment storage. After feature extraction, mechanical injury of litchi can be well-detected by E-nose from day 1 to day 4 after injury. The best mechanical injury detection time of litchi fruit is at day 4 after injury under room temperature storage conditions. After singular sensor elimination and comprehensive feature extraction, the storage time and browning degree, but not TSS and TA, of litchi fruit can be detected by E-nose. E-nose data preprocessing should differ according to the litchi variety and detection target.

Published

2020

37. RNA Sequencing Reveals Dynamic Carbohydrate Metabolism and Phytohormone Signaling Accompanying Post-mowing Regeneration of Forage Winter Wheat (Triticum aestivum L.)

Author

Guibin Cui, Mei Zhao, Hongbin Tan, Zhulin Wang, Min Meng, Fengli Sun, Chao Zhang, and Yajun Xi

Subjects

regeneration, forage wheat, mechanical injury, pasture, mowing, carbohydrate metabolism, Plant culture, SB1-1110

Abstract

Winter wheat (Triticum aestivum L.) is used as fresh green winter forage worldwide, and its ability to regenerate after mowing determines whether it can be used for forage production; however, the molecular mechanism of regeneration is poorly understood. This study identified long-chain coding and non-coding RNAs in the wheat cultivar “XN9106,” which is cultivated for forage and grain production separately in winter and summer, and analyzed their function during post-mowing regeneration. The results showed that the degradation of carbohydrate plays an important role in regeneration, as demonstrated by decreased carbohydrate content. The increased gene expression of enzymes including β-amylase, β-fructofuranosidase, sucrose synthase, sucrose-6-phosphate synthase, trehalose-6-phosphate synthase, and trehalose-6-phosphate phosphatase in mowed seedlings suggests regeneration is fueled by degraded carbohydrates that provide energy and carbon skeletons for the Krebs cycle and amino acid synthesis. The decreased auxin content relieved the inhibition of cytokinin synthesis, that controls the transition from cell division to cell expansion and stimulates cell expansion and differentiation during the cell expansion phase, and eventually accelerate post-mowing regeneration of seedlings. Additionally, differentially expressed long-chain non-coding RNAs (lncRNAs) might participate in the regulation of gene expression related to carbohydrate metabolism and hormone signal transduction. This study demonstrated the responses of key mRNAs and lncRNAs during post-mowing regeneration of winter wheat and revealed the importance of carbohydrate and hormone during regeneration, providing valuable information for genetic improvement of forage wheat.

Published

2021

38. The Cowpea Kinome: Genomic and Transcriptomic Analysis Under Biotic and Abiotic Stresses

Author

José Ribamar Costa Ferreira-Neto, Artemisa Nazaré da Costa Borges, Manassés Daniel da Silva, David Anderson de Lima Morais, João Pacífico Bezerra-Neto, Guillaume Bourque, Ederson Akio Kido, and Ana Maria Benko-Iseppon

Subjects

plants, mechanical injury, virus, kinase, root dehydration, Plant culture, SB1-1110

Abstract

The present work represents a pioneering effort, being the first to analyze genomic and transcriptomic data from Vigna unguiculata (cowpea) kinases. We evaluated the cowpea kinome considering its genome-wide distribution and structural characteristics (at the gene and protein levels), sequence evolution, conservation among Viridiplantae species, and gene expression in three cowpea genotypes under different stress situations, including biotic (injury followed by virus inoculation—CABMV or CPSMV) and abiotic (root dehydration). The structural features of cowpea kinases (VuPKs) indicated that 1,293 bona fide VuPKs covered 20 groups and 118 different families. The RLK-Pelle was the largest group, with 908 members. Insights on the mechanisms of VuPK genomic expansion and conservation among Viridiplantae species indicated dispersed and tandem duplications as major forces for VuPKs’ distribution pattern and high orthology indexes and synteny with other legume species, respectively. Ka/Ks ratios showed that almost all (91%) of the tandem duplication events were under purifying selection. Candidate cis-regulatory elements were associated with different transcription factors (TFs) in the promoter regions of the RLK-Pelle group. C2H2 TFs were closely associated with the promoter regions of almost all scrutinized families for the mentioned group. At the transcriptional level, it was suggested that VuPK up-regulation was stress, genotype, or tissue dependent (or a combination of them). The most prominent families in responding (up-regulation) to all the analyzed stresses were RLK-Pelle_DLSV and CAMK_CAMKL-CHK1. Concerning root dehydration, it was suggested that the up-regulated VuPKs are associated with ABA hormone signaling, auxin hormone transport, and potassium ion metabolism. Additionally, up-regulated VuPKs under root dehydration potentially assist in a critical physiological strategy of the studied cowpea genotype in this assay, with activation of defense mechanisms against biotic stress while responding to root dehydration. This study provides the foundation for further studies on the evolution and molecular function of VuPKs.

Published

2021

39. RNA Sequencing Reveals Dynamic Carbohydrate Metabolism and Phytohormone Signaling Accompanying Post-mowing Regeneration of Forage Winter Wheat (Triticum aestivum L.).

Author

Cui, Guibin, Zhao, Mei, Tan, Hongbin, Wang, Zhulin, Meng, Min, Sun, Fengli, Zhang, Chao, and Xi, Yajun

Subjects

WHEAT, CARBOHYDRATE metabolism, CYTOKININS, WINTER wheat, RNA sequencing, AMINO acid synthesis, GENETIC regulation

Abstract

Winter wheat (Triticum aestivum L.) is used as fresh green winter forage worldwide, and its ability to regenerate after mowing determines whether it can be used for forage production; however, the molecular mechanism of regeneration is poorly understood. This study identified long-chain coding and non-coding RNAs in the wheat cultivar "XN9106," which is cultivated for forage and grain production separately in winter and summer, and analyzed their function during post-mowing regeneration. The results showed that the degradation of carbohydrate plays an important role in regeneration, as demonstrated by decreased carbohydrate content. The increased gene expression of enzymes including β-amylase, β-fructofuranosidase, sucrose synthase, sucrose-6-phosphate synthase, trehalose-6-phosphate synthase, and trehalose-6-phosphate phosphatase in mowed seedlings suggests regeneration is fueled by degraded carbohydrates that provide energy and carbon skeletons for the Krebs cycle and amino acid synthesis. The decreased auxin content relieved the inhibition of cytokinin synthesis, that controls the transition from cell division to cell expansion and stimulates cell expansion and differentiation during the cell expansion phase, and eventually accelerate post-mowing regeneration of seedlings. Additionally, differentially expressed long-chain non-coding RNAs (lncRNAs) might participate in the regulation of gene expression related to carbohydrate metabolism and hormone signal transduction. This study demonstrated the responses of key mRNAs and lncRNAs during post-mowing regeneration of winter wheat and revealed the importance of carbohydrate and hormone during regeneration, providing valuable information for genetic improvement of forage wheat. [ABSTRACT FROM AUTHOR]

Published

2021

40. The Cowpea Kinome: Genomic and Transcriptomic Analysis Under Biotic and Abiotic Stresses.

Author

Ferreira-Neto, José Ribamar Costa, Borges, Artemisa Nazaré da Costa, da Silva, Manassés Daniel, Morais, David Anderson de Lima, Bezerra-Neto, João Pacífico, Bourque, Guillaume, Kido, Ederson Akio, and Benko-Iseppon, Ana Maria

Subjects

ABSCISIC acid, COWPEA, GENOMICS, ABIOTIC stress, POTASSIUM metabolism, MOLECULAR evolution, PROMOTERS (Genetics)

Abstract

The present work represents a pioneering effort, being the first to analyze genomic and transcriptomic data from Vigna unguiculata (cowpea) kinases. We evaluated the cowpea kinome considering its genome-wide distribution and structural characteristics (at the gene and protein levels), sequence evolution, conservation among Viridiplantae species, and gene expression in three cowpea genotypes under different stress situations, including biotic (injury followed by virus inoculation—CABMV or CPSMV) and abiotic (root dehydration). The structural features of cowpea kinases (VuPKs) indicated that 1,293 bona fide VuPKs covered 20 groups and 118 different families. The RLK-Pelle was the largest group, with 908 members. Insights on the mechanisms of VuPK genomic expansion and conservation among Viridiplantae species indicated dispersed and tandem duplications as major forces for VuPKs' distribution pattern and high orthology indexes and synteny with other legume species, respectively. K a / K s ratios showed that almost all (91%) of the tandem duplication events were under purifying selection. Candidate cis -regulatory elements were associated with different transcription factors (TFs) in the promoter regions of the RLK-Pelle group. C2H2 TFs were closely associated with the promoter regions of almost all scrutinized families for the mentioned group. At the transcriptional level, it was suggested that VuPK up-regulation was stress, genotype, or tissue dependent (or a combination of them). The most prominent families in responding (up-regulation) to all the analyzed stresses were RLK-Pelle_DLSV and CAMK_CAMKL-CHK1. Concerning root dehydration, it was suggested that the up-regulated VuPKs are associated with ABA hormone signaling, auxin hormone transport, and potassium ion metabolism. Additionally, up-regulated VuPKs under root dehydration potentially assist in a critical physiological strategy of the studied cowpea genotype in this assay, with activation of defense mechanisms against biotic stress while responding to root dehydration. This study provides the foundation for further studies on the evolution and molecular function of VuPKs. [ABSTRACT FROM AUTHOR]

Published

2021

41. Evaluation of mechanical injuries in cases of homicidal death in and around Vadodara Region, Gujarat

Author

Modi, Nisarg Y, Desani, A Chauham, and Patil, V. R.

Published

2019

42. Dual role of PpV in Drosophila crystal cell proliferation and survival.

Author

Luo W, Zhang F, Zhao F, Fang Y, Zhao L, and Su Y

Abstract

Drosophila melanogaster crystal cells are a specialized type of blood cells for innate immune process upon injury. Under normal conditions, crystal cells rarely proliferate and constitute a small proportion of fly blood cells. Notch signaling has been known to guide the cell fate determination of crystal cells and maintain their survival. Here, we reported that protein phosphatase V (PpV), the unique catalytic subunit of protein phosphatase 6 in Drosophila, is a novel regulator of crystal cell proliferation and integrity. We found that PpV proteins highly accumulated in crystal cells in the larval hematopoietic organ termed the lymph gland. Silencing PpV using RNA interference led to increased crystal cell proliferation in a Notch-independent manner and induced crystal cell rupture dependent on Notch signaling. Moreover, additive PpV prevented the rupture of crystal cells in lymph glands upon a needle injury, suggesting the involvement of PpV in wound healing. Altogether, our results indicated that PpV plays a dual role in lymph glands, preventing crystal cell proliferation to limit the cell number, as well as inhibiting crystal cell rupture to maintain their survival., (© The Author(s) 2024. Published by Oxford University Press on behalf of Institute of Biochemistry and Cell Biology, Shanghai Institutes for Biological Sciences, Chinese Academy of Sciences.)

Published

2024

43. Cartilage Injury and Osteoarthritis

Author

Ismail, Heba M., Vincent, Tonia L., Grässel, Susanne, editor, and Aszódi, Attila, editor

Published

2017

44. Self-drilling screws for the prevention of dental and skeletal injuries during open reduction and internal fixation of pediatric mandibular fractures.

Author

Panneerselvam, Elavenil and Parameswaran, Anantanarayanan

Abstract

Facial trauma in pediatric population predisposes the child to injury of both the developing skeleton and dentition. This article aims to highlight the experience of the authors through a case report, in using self-drilling screws for fixation of mandibular fractures in pediatric age group. The use of self-drilling screws minimizes the complications such as thermal and/or mechanical damage to the developing dentition and the bone. They also provide significant advantages including ease of availability and technique, superior anchorage with primary stability, and minimizing or avoiding permanent damage to the developing tooth germs in the site of fracture. The use of self-drilling screws for mandibular open reduction and internal fixation in children is an easy, reliable, and safe technique which may have significant value addition in preventing inadvertent injury to the developing tooth germs. [ABSTRACT FROM AUTHOR]

Published

2022

45. Association of phytopathogenic Pantoea dispersa inner boll rot of cotton (Gossypium hirsutum L.) in Maharashtra state, India.

Author

Nagrale, Dipak T., Gawande, Shailesh P., Gokte-Narkhedkar, Nandini, and Waghmare, Vijay N.

Abstract

During 2018–19, unusually higher incidences of inner cotton boll rot were reported in farmers' fields from cotton growing tracts of Maharashtra. Extensive survey was conducted to investigate these instances of boll rot. An unusual emerging problem in cotton has been associated with reduced boll development and yield. Green bolls with and without any sign of damage were collected from farmers fields and dissected under aseptic conditions. Bacterial species belonging to members of Enterobacteriaceae family (facultative anaerobe) were predominately isolated from rot affected cotton bolls. Four bacterial strains isolated from four locations were identified on the basis of morphological, biochemical and molecular characterization. Pathogenicity of all the four isolates (CBR2-YTML, CBR1-JLGN, CBR2-BLDN and CBR5-JLGN) was proved by Koch's postulates. To the best of our knowledge, this is the first report of occurrence and association of phytopathogenic bacteria Pantoea dispersa, a member of the Enterobacteriaceae family as a potential and principal pathogenic agent causing inner cotton (G. hirsutum L.) boll rots in Maharashtra state, India. [ABSTRACT FROM AUTHOR]

Published

2020

46. Mechanical injury and IL-1β regulated LOXs and MMP-1, 2, 3 expression in ACL fibroblasts co-cultured with synoviocytes.

Author

Wang, Chunli, Chi, Qingjia, Sha, Yongqiang, Xu, Kang, Xu, Chunming, Chen, Cheng, Huang, Wei, Chen, Peixing, Chen, Peter, Yang, Li, and Sung, K. L. Paul

Subjects

ANTERIOR cruciate ligament, LYSYL oxidase, ANTERIOR cruciate ligament injuries, PROTEIN expression, WOUNDS & injuries

Abstract

Objective: Interleukin (IL)-1β in the joint cavity increases to promote healing after anterior cruciate ligament (ACL) injury. Synovial tissue is a major joint microenvironmental regulator after ACL injury. The purpose of this study was to investigate the effects of synovial cells (SCs) on lysyl oxidase (LOX) and matrix metalloproteinase (MMP) production by ACL fibroblasts (ACLfs) in the presence of IL-1β. Results: This study sheds light on the regulation of LOX and MMP-1, -2, -3 expression by ACLfs co-cultured with SCs and treated with IL-1β. LOX and MMP-1, 2, 3 gene/protein expression in IL-1β/stretch-stimulated ACLfs co-cultured with SCs were measured by real-time quantitative PCR and Western blot. Meanwhile, MMP-2 activity was analyzed by zymogram. The results showed that co-culture with SCs increased LOX and MMP-1, -2, -3 gene and protein expression in the presence of IL-1β. Next, ACLfs were subjected to 12% mechanical stretch to simulate pathological injury. Under these conditions, SCs inhibited IL-1β-mediated upregulation of LOXs. However, IL-1β enhanced the expression of MMP-1, -2, -3 in injured ACLfs. Conclusions: SCs can either inhibit or increase LOX production in the presence of IL-1β, while promoting the accumulation of MMP in injured ACLfs. These results may provide crucial insights into the mechanisms underlying ACL poor healing capacity after injury. [ABSTRACT FROM AUTHOR]

Published

2020

47. Mechano growth factor pretreatment yield mechanical stimuli induced cell stress responses in ligament fibroblasts of osteoarthritis via activating ATF-2.

Author

Ma, Yu, Song, Yang, Li, Linhao, Dong, Lili, Wang, Chunli, Wang, Pingping, and Yang, Li

Subjects

FIBROBLASTS, CELL migration, LIGAMENT injuries, TRANSCRIPTION factors, LIGAMENTS, CELLS, PSYCHOLOGICAL feedback

Abstract

Objective: The purpose of this study is to investigate whether mechanical growth factor (MGF) promotes mechanical response to ligament fibroblasts in osteoarthritis knee cavity via activating transcription factor 2 (ATF-2). Results: Osteoarthritis ligament fibroblasts (OA-LFs) were suffered from 12% static mechanical stretch to mimic mechanical force mediated ligament injury. Meanwhile, OA-LFs were treated with MGF before and during mechanical stretch. We observed that OA delayed LFs response to mechanical injury, while MGF pretreatment promoted cells timely feedback the mechanically stimuli by inducing cellular stress. Additionally, MGF accelerated the ligament injury repair by promoting cell migration, decreasing the MMP-2 activity, and remitting the cell deformation via ATF-2 activating in cells. Conclusions: Our study shows that MGF pretreatment of OA-LFs can respond quickly to mechanical damage and repair ligament tissue by activating ATF-2. Therefore, MGF has potential as a therapeutic for OA patients. [ABSTRACT FROM AUTHOR]

Published

2020

48. USO DE BIOCORRETORES NA ESTIMULAÇÃO DA REGENERAÇÃO HEPÁTICA FETAL DE RATOS LESIONADOS MECANICAMENTE.

Author

ROMANOVA, Lubov, TOLMATCHEVA, Natalia, MASLOVA, Zhanna, KAPITOVA, Irina, and SHAMITOVA, Elena

Subjects

*PUERPERIUM, *MANUFACTURING processes, *LIVER, *LIVER cells, *COLLAGEN, *PEPSIN

Abstract

The article is devoted to studying the influence of biologically active substances on the regeneration of internal organs in mammals at the early stages of development. Complete recovery of the organ after damage does not occur. It is necessary to look for new ways that reveal the processes that contribute to regeneration. The study of processes that occur in the body before birth allows understanding the mechanisms of what happens in the postnatal period in general pathological processes. It was studied the mechanical damage to the liver in rat fetuses under the influence of biocorrectors "Trepel" and "Suvar." Morphological, morphometric, histochemical, and immunohistochemical methods were used for processing the material. The results of the work indicate that the combined use of these biocorrectors after the development of a necrosis focus in the liver reduces alternative manifestations of hepatocytes, inhibits reactive inflammation around the injury site, slows down the recruitment of fibroblasts to the injury zone, and inhibits collagen genesis. At the same time, biocorrectors have a pronounced stimulating effect on proliferation of hepatocytes, which, against the background of increased enzymatic activity, manifests itself in the form of mitotic division activation and polyploidization of hepatocytes. Despite the signs of regenerative stimulation, as a result, complete recovery of the liver in the site of the dead tissue in experimental rats does not occur; there is only a 34.7% decrease in the focus of fibrosis formed in the place of dead liver tissue, compared to control animals. [ABSTRACT FROM AUTHOR]

Published

2020

49. Investigation of healing strategies in a rat corneal opacity model with polychromatic light and stem cells injection.

Author

Uysal, Betül Seher, Sarıkaya, Burcu, Dizakar, Saadet Özen Akarca, Kaplanoğlu, Gülnur Take, and Gümüşderelioğlu, Menemşe

Abstract

Corneal opacities are a major cause of vision loss worldwide. However, the current therapies are suboptimal to manage the corneal wound healing process. Therefore, there is an obvious need to develop new treatment strategies that are efficient in promoting wound healing in patients with severe corneal disorders. In this study, we investigated and compared the efficacy of adipose-derived mesenchymal stem cells (ADMSCs) and photobiomodulation (PBM) with polychromatic light in the NIR (600–1200 nm) alone and in combination, on corneal opacity, inflammatory response, and tissue architecture in a rat corneal opacity model created by mechanical injury. All animals were divided into four groups randomly following the injury: injury only (no treatment), ADMSCs treatment, PBM treatment and combined (ADMSCs+PBM) treatment (n = 12 eyes per group). At the 10th and 30th day following injury, corneal opacity formation, neovascularization, and corneal thickness were assessed. On the 30th day the harvested corneas were analyzed by transmission electron microscopy (TEM), histological evaluation, immunohistochemical (IHC) staining and real-time polymerase chain reaction (RT-PCR). On day 30, the corneal opacity score, neovascularization grade, and corneal thickness in all treatment groups were significantly lower in comparison with the untreated injured corneas. The TEM imaging and H&E staining together clearly revealed a significant enhancement in corneal regeneration with improved corneal microenvironment and reduced vascularization in the combined administration of PBM and ADMSCs compared to treatment of PBM and ADMSCs alone. In addition, the IHC staining, and RT-PCR analysis supported our hypothesis that combining ADMSCs therapy with PBM alleviated the inflammatory response, and significantly decreased scar formation compared to either ADMSCs or PBM alone during the corneal wound healing. [Display omitted] • Safe, convenient, and inexpensive therapy was developed with polychromatic light in the NIR for corneal healing. • Combined effect of photobiomodulation and adipose derived mesenchymal stem cells in corneal regeneration was investigated. • Polychromatic light enhanced the efficacy of adipose derived mesenchymal stem cells. • PBM therapy may be a safe alternative to stem cell therapy in corneal healing. • Photobiomodulation decreased the corneal scar formation and neovascularization. [ABSTRACT FROM AUTHOR]

Published

2024

50. Stretch-injury promotes microglia activation with enhanced phagocytic and synaptic stripping activities.

Author

Procès, Anthony, Alpizar, Yeranddy A., Halliez, Sophie, Brône, Bert, Saudou, Frédéric, Ris, Laurence, and Gabriele, Sylvain

Subjects

*HOMEOSTASIS, *MICROGLIA, *CENTRAL nervous system, *CYTOSKELETON, *NEURAL circuitry, *DNA damage

Abstract

Microglial cells, as the primary defense line in the central nervous system, play a crucial role in responding to various mechanical signals that can trigger their activation. Despite extensive research on the impact of chemical signaling on brain cells, the understanding of mechanical signaling in microglia remains limited. To bridge this gap, we subjected microglial cells to a singular mechanical stretch and compared their responses with those induced by lipopolysaccharide treatment, a well-established chemical activator. Here we show that stretching microglial cells leads to their activation, highlighting their significant mechanosensitivity. Stretched microglial cells exhibited distinct features, including elevated levels of Iba1 protein, a denser actin cytoskeleton, and increased persistence in migration. Unlike LPS-treated microglial cells, the secretory profile of chemokines and cytokines remained largely unchanged in response to stretching, except for TNF-α. Intriguingly, a single stretch injury resulted in more compacted chromatin and DNA damage, suggesting potential long-term genomic instabilities in stretched microglia. Using compartmentalized microfluidic chambers with neuronal networks, we observed that stretched microglial cells exhibited enhanced phagocytic and synaptic stripping activities. These findings collectively suggest that stretching events can unlock the immune potential of microglial cells, contributing to the maintenance of brain tissue homeostasis following mechanical injury. [ABSTRACT FROM AUTHOR]

Published

2024