Purpose: Bioinformatics-based approach to screen and analyze differentially expressed genes associated with the biological characteristics of Ewing sarcoma. Means: The GSE17674 dataset was selected for analysis, obtai...Purpose: Bioinformatics-based approach to screen and analyze differentially expressed genes associated with the biological characteristics of Ewing sarcoma. Means: The GSE17674 dataset was selected for analysis, obtained by data retrieval based on the GEO public database. The R language limma toolkit was used to screen DEmRNAs. After the data were normalized, the Metascape online analysis software and the R language clusterProfiler package were used to analyze the GO function and KEGG pathway enrichment of DEmRNAs lines, respectively. The string database was selected for PPI analysis, and the results were imported into Cytoscape software to derive the core modules and predicted core genes. The genes selected above were analyzed for tissue localization specificity. Results: Through the analysis of GSE17674, differentially expressed genes were screened out, and GO and KEGG analyses were performed on the differentially expressed genes. The GO functional enrichment analysis was mainly enriched in the process of muscle system, muscle contraction, myocyte development, contractile fibers, myogenic fibers, myofibers, myofibrillar segments, actin binding, structural composition of muscle, and actin filament binding. KEGG pathway analysis showed that the core pathways associated with the development of ES were the core genes for myocardial contraction, congestive cardiomyopathy, and hypertrophic cardiomyopathy. Five Hub genes were obtained based on Cytoscape prediction. Tissue localization specificity analysis of Hub genes was performed, and a total of 2 Hub genes with tissue specificity were screened;MYH6 was specifically expressed in cardiac cells and MYL1 was specifically expressed in skeletal muscle cells. Conclusions: The differential genes screened will help to understand the molecular mechanisms underlying the highly invasive and metastasis-prone biological characteristics of ES, as well as provide new ideas for clinical drug-targeted treatment of ES.展开更多
Ewing’s sarcoma(EWS)is a highly aggressive malignant bone tumor primarily affecting adolescents and young adults.Despite the efficacy of chemoradiotherapy in some cases,the cure rate for patients with metastatic and ...Ewing’s sarcoma(EWS)is a highly aggressive malignant bone tumor primarily affecting adolescents and young adults.Despite the efficacy of chemoradiotherapy in some cases,the cure rate for patients with metastatic and recurrent disease remains low.Therefore,there is an urgent need for innovative therapeutic approaches to address the challenges associated with EWS treatment.Epigenetic regulation,a crucial factor in physiological processes,plays a significant role in controlling cell proliferation,maintaining gene integrity,and regulating transcription.Recent studies highlight the importance of abnormal epigenetic regulation in the initiation and progression of EWS.A comprehensive understanding of the intricate interactions between EWS and aberrant epigenetic regulation is essential for advancing clinical drug development.This review aims to provide a comprehensive overview of both epigenetic targets implicated in EWS,integrating various therapeutic modalities to offer innovative perspectives for the clinical diagnosis and treatment of EWS.展开更多
BACKGROUND Ewing’s sarcoma(ES)is a neuroectodermal tumor that typically occurs in the bones and soft tissues of children and young adults.Primary renal ES is rare;only a few cases and a small case series have been do...BACKGROUND Ewing’s sarcoma(ES)is a neuroectodermal tumor that typically occurs in the bones and soft tissues of children and young adults.Primary renal ES is rare;only a few cases and a small case series have been documented,and only four cases involved primary renal ES in older people(>65 years old).CASE SUMMARY Herein,we describe the radiological and pathological features of primary renal ES in an older person.A 76-year-old man complained of poor oral intake and was found to have a large cystic renal mass with indistinct margins on computed tomography.Ultrasound-guided biopsy revealed that the tumor contained small round blue cells.The patient underwent a right radical nephrectomy.The tumor cells showed diffuse membranous CD99,and nuclear friend leukemia integration 1 transcription factor and NK2 Homeobox 2.Fluorescence in situ hybridization revealed EWSR1 translocation.Postoperatively,18F-fluorodeoxyglucose positron emission tomography revealed no evidence of metastasis.The patient was diagnosed with primary renal ES.Six months following the surgery,local recurrence and distant metastasis were observed.Primary renal ES is rare and often lethal in older individuals.The specific imaging findings are unknown,and treatment protocols have not been standardized.CONCLUSION This case report describes the radiological and pathological features of primary renal ES in an older person.展开更多
The case report presents the clinical case of a pregnant patient with renal Ewing’s sarcoma, an extremely rare tumor. Renal tumors during pregnancy are uncommon, with renal cell carcinoma being the most frequent. The...The case report presents the clinical case of a pregnant patient with renal Ewing’s sarcoma, an extremely rare tumor. Renal tumors during pregnancy are uncommon, with renal cell carcinoma being the most frequent. The diagnosis of cancer during pregnancy has increased due to the use of non-invasive prenatal testing (NIPT) and advanced maternal age. Renal tumors, such as Ewing’s sarcoma, present a diagnostic and therapeutic challenge due to the physiological changes during pregnancy. Renal Ewing’s sarcoma is aggressive and tends to manifest with abdominal pain, a palpable mass, and severe hematuria. However, its symptoms often go unnoticed, leading to late diagnosis with distant metastasis and poor prognosis. This type of tumor is diagnosed through histopathological studies, as imaging alone is insufficient for its characterization. In the presented case, multiparametric magnetic resonance imaging (MP-MRI) was used to assess the renal mass due to the limitations of using computed tomography in pregnant women. MRI provides both morphological and behavioral information about the tumor and is particularly useful in patients where radiation exposure is contraindicated. In this case, the MRI revealed a large tumor in the left kidney, with extension to adjacent structures, thrombosis in the vena cava, and hepatic and bone metastases. The article concludes that this is the largest renal Ewing’s sarcoma tumor described in a pregnant patient in the literature. It highlights the importance of early diagnosis and appropriate intervention to improve the prognosis in these rare but aggressive cases.展开更多
Real-time assessment of slope reinforcements to diagnose their state in all stages of service life is imperative for prompt evaluation of slope stability and establishing an efficient early warning(EW)system.Many poin...Real-time assessment of slope reinforcements to diagnose their state in all stages of service life is imperative for prompt evaluation of slope stability and establishing an efficient early warning(EW)system.Many point-based monitoring instruments have been used in the last few decades.However,these sensors suffer from a particular risk of detection failures and practical limitations.Fibre-optic sensing(FOS)technologies have been developed,tested,and validated across various geoengineering applications,including slope monitoring,as they offer exceptional advantages,such as high data-carrying capacity,precise mapping of physical parameters,durability,and immunity to electromagnetic interference.The deformation of rock/soil causes the deformation and fracture of reinforcement materials,which are subsequently transferred to the encapsulated fibre-optic(FO)sensors,providing valuable information on reinforcements'safety state and performance for early failure detection.This paper is devoted to critically analysing the application of cutting-edge FOS technologies for slope reinforcement monitoring.Firstly,a concise overview of the fundamental principles underlying discrete and distributed FOS methods is provided.The key considerations for selecting FO cables and the appropriate packaging techniques necessary to withstand the challenges posed by complex geological environments are also summarised.We delve into the details of three distinct cable installation techniques within slope reinforcement components:surface bonding,slot embedment,and clamping.The recent advancements in FOS methods for monitoring slope reinforcements such as rock bolts,soil nails,anti-slide piles,geosynthetics,and retaining walls are extensively reviewed.The paper addresses this novel sensing technique's challenges and comprehensively explores its prospects.This review is anticipated to be a valuable resource for geoengineers and researchers involved in slope monitoring through FOS technology,offering insightful perspectives and guidance.展开更多
文摘Purpose: Bioinformatics-based approach to screen and analyze differentially expressed genes associated with the biological characteristics of Ewing sarcoma. Means: The GSE17674 dataset was selected for analysis, obtained by data retrieval based on the GEO public database. The R language limma toolkit was used to screen DEmRNAs. After the data were normalized, the Metascape online analysis software and the R language clusterProfiler package were used to analyze the GO function and KEGG pathway enrichment of DEmRNAs lines, respectively. The string database was selected for PPI analysis, and the results were imported into Cytoscape software to derive the core modules and predicted core genes. The genes selected above were analyzed for tissue localization specificity. Results: Through the analysis of GSE17674, differentially expressed genes were screened out, and GO and KEGG analyses were performed on the differentially expressed genes. The GO functional enrichment analysis was mainly enriched in the process of muscle system, muscle contraction, myocyte development, contractile fibers, myogenic fibers, myofibers, myofibrillar segments, actin binding, structural composition of muscle, and actin filament binding. KEGG pathway analysis showed that the core pathways associated with the development of ES were the core genes for myocardial contraction, congestive cardiomyopathy, and hypertrophic cardiomyopathy. Five Hub genes were obtained based on Cytoscape prediction. Tissue localization specificity analysis of Hub genes was performed, and a total of 2 Hub genes with tissue specificity were screened;MYH6 was specifically expressed in cardiac cells and MYL1 was specifically expressed in skeletal muscle cells. Conclusions: The differential genes screened will help to understand the molecular mechanisms underlying the highly invasive and metastasis-prone biological characteristics of ES, as well as provide new ideas for clinical drug-targeted treatment of ES.
基金funded in part by the National Natural Science Foundation of China(No.82371877)Advanced Talents and Science and Technology Innovation Foundation at Yangzhou University(No.137011856,HS).
文摘Ewing’s sarcoma(EWS)is a highly aggressive malignant bone tumor primarily affecting adolescents and young adults.Despite the efficacy of chemoradiotherapy in some cases,the cure rate for patients with metastatic and recurrent disease remains low.Therefore,there is an urgent need for innovative therapeutic approaches to address the challenges associated with EWS treatment.Epigenetic regulation,a crucial factor in physiological processes,plays a significant role in controlling cell proliferation,maintaining gene integrity,and regulating transcription.Recent studies highlight the importance of abnormal epigenetic regulation in the initiation and progression of EWS.A comprehensive understanding of the intricate interactions between EWS and aberrant epigenetic regulation is essential for advancing clinical drug development.This review aims to provide a comprehensive overview of both epigenetic targets implicated in EWS,integrating various therapeutic modalities to offer innovative perspectives for the clinical diagnosis and treatment of EWS.
文摘BACKGROUND Ewing’s sarcoma(ES)is a neuroectodermal tumor that typically occurs in the bones and soft tissues of children and young adults.Primary renal ES is rare;only a few cases and a small case series have been documented,and only four cases involved primary renal ES in older people(>65 years old).CASE SUMMARY Herein,we describe the radiological and pathological features of primary renal ES in an older person.A 76-year-old man complained of poor oral intake and was found to have a large cystic renal mass with indistinct margins on computed tomography.Ultrasound-guided biopsy revealed that the tumor contained small round blue cells.The patient underwent a right radical nephrectomy.The tumor cells showed diffuse membranous CD99,and nuclear friend leukemia integration 1 transcription factor and NK2 Homeobox 2.Fluorescence in situ hybridization revealed EWSR1 translocation.Postoperatively,18F-fluorodeoxyglucose positron emission tomography revealed no evidence of metastasis.The patient was diagnosed with primary renal ES.Six months following the surgery,local recurrence and distant metastasis were observed.Primary renal ES is rare and often lethal in older individuals.The specific imaging findings are unknown,and treatment protocols have not been standardized.CONCLUSION This case report describes the radiological and pathological features of primary renal ES in an older person.
文摘The case report presents the clinical case of a pregnant patient with renal Ewing’s sarcoma, an extremely rare tumor. Renal tumors during pregnancy are uncommon, with renal cell carcinoma being the most frequent. The diagnosis of cancer during pregnancy has increased due to the use of non-invasive prenatal testing (NIPT) and advanced maternal age. Renal tumors, such as Ewing’s sarcoma, present a diagnostic and therapeutic challenge due to the physiological changes during pregnancy. Renal Ewing’s sarcoma is aggressive and tends to manifest with abdominal pain, a palpable mass, and severe hematuria. However, its symptoms often go unnoticed, leading to late diagnosis with distant metastasis and poor prognosis. This type of tumor is diagnosed through histopathological studies, as imaging alone is insufficient for its characterization. In the presented case, multiparametric magnetic resonance imaging (MP-MRI) was used to assess the renal mass due to the limitations of using computed tomography in pregnant women. MRI provides both morphological and behavioral information about the tumor and is particularly useful in patients where radiation exposure is contraindicated. In this case, the MRI revealed a large tumor in the left kidney, with extension to adjacent structures, thrombosis in the vena cava, and hepatic and bone metastases. The article concludes that this is the largest renal Ewing’s sarcoma tumor described in a pregnant patient in the literature. It highlights the importance of early diagnosis and appropriate intervention to improve the prognosis in these rare but aggressive cases.
基金funding support from JSPS KAKENHI(Grant Nos.21H01593 and 21K18794)through Tetsuya KogureThis work was also partially supported by the Sasakawa Scientific Research Grant(2023e2026)from the Japan Science Society(JSS)through Ashis Acharya.
文摘Real-time assessment of slope reinforcements to diagnose their state in all stages of service life is imperative for prompt evaluation of slope stability and establishing an efficient early warning(EW)system.Many point-based monitoring instruments have been used in the last few decades.However,these sensors suffer from a particular risk of detection failures and practical limitations.Fibre-optic sensing(FOS)technologies have been developed,tested,and validated across various geoengineering applications,including slope monitoring,as they offer exceptional advantages,such as high data-carrying capacity,precise mapping of physical parameters,durability,and immunity to electromagnetic interference.The deformation of rock/soil causes the deformation and fracture of reinforcement materials,which are subsequently transferred to the encapsulated fibre-optic(FO)sensors,providing valuable information on reinforcements'safety state and performance for early failure detection.This paper is devoted to critically analysing the application of cutting-edge FOS technologies for slope reinforcement monitoring.Firstly,a concise overview of the fundamental principles underlying discrete and distributed FOS methods is provided.The key considerations for selecting FO cables and the appropriate packaging techniques necessary to withstand the challenges posed by complex geological environments are also summarised.We delve into the details of three distinct cable installation techniques within slope reinforcement components:surface bonding,slot embedment,and clamping.The recent advancements in FOS methods for monitoring slope reinforcements such as rock bolts,soil nails,anti-slide piles,geosynthetics,and retaining walls are extensively reviewed.The paper addresses this novel sensing technique's challenges and comprehensively explores its prospects.This review is anticipated to be a valuable resource for geoengineers and researchers involved in slope monitoring through FOS technology,offering insightful perspectives and guidance.
