BACKGROUND Cellular myofibroma is a rare subtype of myofibroma that was first described in 2017.Its diagnosis is often challenging because of its relative rarity,lack of known genetic abnormalities,and expression of m...BACKGROUND Cellular myofibroma is a rare subtype of myofibroma that was first described in 2017.Its diagnosis is often challenging because of its relative rarity,lack of known genetic abnormalities,and expression of muscle markers that can be confused with sarcomas that have myogenic differentiation.Currently,scholars have limited knowledge of this disease,and published cases are few.Further accumulation of diagnostic and treatment experiences is required.CASE SUMMARY A 16-year-old girl experienced left upper limb swelling for 3 years.She sought medical attention at a local hospital 10 months ago,where magnetic resonance imaging revealed a 5-cm soft tissue mass.Needle biopsy performed at a local hospital resulted in the diagnosis of a spindle cell soft tissue sarcoma.The patient was referred to our hospital for limb salvage surgery with endoprosthetic replacement.She was initially diagnosed with a synovial sarcoma.Consequently,clinical management with chemotherapy was continued for the malignant sarcoma.Our pathology department also performed fluorescence in situ hybridization for result validation,which returned negative for SS18 gene breaks,indicating that it was not a synovial sarcoma.Next-generation sequencing was used to identify the SRF-RELA rearrangement.The final pathological diagnosis was a cellular/myofibroblastic neoplasm with an SRF-RELA gene fusion.The patient had initially received two courses of chemotherapy;however,chemotherapy was discontinued after the final diagnosis.CONCLUSION This case was misdiagnosed because of its rare occurrence,benign biological behavior,and pathological similarity to soft tissue sarcoma.展开更多
大学生科技创新基金(Students Research Fund,SRF)的设立和发展是新时代高等学校创新教育事业的重要内容,也是实现创新型人才培养的重要途径。以华中农业大学食品科学技术学院为例,研究了大学生科技创新基金对大学生创新能力提升的效果...大学生科技创新基金(Students Research Fund,SRF)的设立和发展是新时代高等学校创新教育事业的重要内容,也是实现创新型人才培养的重要途径。以华中农业大学食品科学技术学院为例,研究了大学生科技创新基金对大学生创新能力提升的效果,分析了大学生科技创新基金的意义,并结合大学生科技创新基金促进成果转化的情况,就大学生科技创新基金对大学生创新能力的提升中的问题提出了建议及对策。展开更多
To achieve the dual goals of high yield and good quality with low environmental costs,slow-release fertilizer(SRF)has been widely used in lotus cultivation as new type of fertilizer instead of traditional nitrogen fer...To achieve the dual goals of high yield and good quality with low environmental costs,slow-release fertilizer(SRF)has been widely used in lotus cultivation as new type of fertilizer instead of traditional nitrogen fertilizer.However,the optimal amount of SRF and how it would promote lotus rhizome quality remain unclear.This study was designed to investigate the photosynthetic characteristics and the synthesis,accumulation,and physicochemical properties of lotus rhizome starches under six SRF levels(CK,S1,S2,S3,S4,and S5).Compared with CK(0 kg ha^(–1)),the net photosynthetic rate(P_(n))and SPAD values of leaves remained at higher levels under SRF treatment.Further research showed that SRF increased the lotus rhizome yield,the contents of amylose,amylopectin,and total starch,and the number of starch granules.Among the six SRF levels,S3(1035 kg ha^(–1))showed the greatest difference from CK and produced the highest levels.With the increasing SRF levels,the peak,hot and final viscosities decreased at first and then increased,but the setback viscosity and pasting temperature increased.In order to interpret these changes at the molecular level,the activities of key enzymes and relative expression levels of starch accumulation related genes were analyzed.Each of these parameters also increased under SRF treatment,especially under the S3 treatment.The results of this study show that SRF,especially S3(1035 kg ha^(–1)),is a suitable fertilizer option for lotus planting which can improve lotus rhizome quality by affecting starch accumulations related enzymes and genes.These results will be useful for SRF application to high-quality lotus rhizome production with low environmental costs.展开更多
文摘BACKGROUND Cellular myofibroma is a rare subtype of myofibroma that was first described in 2017.Its diagnosis is often challenging because of its relative rarity,lack of known genetic abnormalities,and expression of muscle markers that can be confused with sarcomas that have myogenic differentiation.Currently,scholars have limited knowledge of this disease,and published cases are few.Further accumulation of diagnostic and treatment experiences is required.CASE SUMMARY A 16-year-old girl experienced left upper limb swelling for 3 years.She sought medical attention at a local hospital 10 months ago,where magnetic resonance imaging revealed a 5-cm soft tissue mass.Needle biopsy performed at a local hospital resulted in the diagnosis of a spindle cell soft tissue sarcoma.The patient was referred to our hospital for limb salvage surgery with endoprosthetic replacement.She was initially diagnosed with a synovial sarcoma.Consequently,clinical management with chemotherapy was continued for the malignant sarcoma.Our pathology department also performed fluorescence in situ hybridization for result validation,which returned negative for SS18 gene breaks,indicating that it was not a synovial sarcoma.Next-generation sequencing was used to identify the SRF-RELA rearrangement.The final pathological diagnosis was a cellular/myofibroblastic neoplasm with an SRF-RELA gene fusion.The patient had initially received two courses of chemotherapy;however,chemotherapy was discontinued after the final diagnosis.CONCLUSION This case was misdiagnosed because of its rare occurrence,benign biological behavior,and pathological similarity to soft tissue sarcoma.
文摘大学生科技创新基金(Students Research Fund,SRF)的设立和发展是新时代高等学校创新教育事业的重要内容,也是实现创新型人才培养的重要途径。以华中农业大学食品科学技术学院为例,研究了大学生科技创新基金对大学生创新能力提升的效果,分析了大学生科技创新基金的意义,并结合大学生科技创新基金促进成果转化的情况,就大学生科技创新基金对大学生创新能力的提升中的问题提出了建议及对策。
基金financial support they received from the National Key R&D Program of China(2020YFD1000300)the earmarked fund for China Agriculture Research System(CARS-24)the HighLevel Talent Support Plan(Lv-Yang-Jin-Feng),Yangzhou,China。
文摘To achieve the dual goals of high yield and good quality with low environmental costs,slow-release fertilizer(SRF)has been widely used in lotus cultivation as new type of fertilizer instead of traditional nitrogen fertilizer.However,the optimal amount of SRF and how it would promote lotus rhizome quality remain unclear.This study was designed to investigate the photosynthetic characteristics and the synthesis,accumulation,and physicochemical properties of lotus rhizome starches under six SRF levels(CK,S1,S2,S3,S4,and S5).Compared with CK(0 kg ha^(–1)),the net photosynthetic rate(P_(n))and SPAD values of leaves remained at higher levels under SRF treatment.Further research showed that SRF increased the lotus rhizome yield,the contents of amylose,amylopectin,and total starch,and the number of starch granules.Among the six SRF levels,S3(1035 kg ha^(–1))showed the greatest difference from CK and produced the highest levels.With the increasing SRF levels,the peak,hot and final viscosities decreased at first and then increased,but the setback viscosity and pasting temperature increased.In order to interpret these changes at the molecular level,the activities of key enzymes and relative expression levels of starch accumulation related genes were analyzed.Each of these parameters also increased under SRF treatment,especially under the S3 treatment.The results of this study show that SRF,especially S3(1035 kg ha^(–1)),is a suitable fertilizer option for lotus planting which can improve lotus rhizome quality by affecting starch accumulations related enzymes and genes.These results will be useful for SRF application to high-quality lotus rhizome production with low environmental costs.