针对乳腺癌相关上肢淋巴水肿(Breast cancer related lymphedema,BCRL)的预防,我们医院整形外科联合乳腺外科于2020年9月28日成功应用脱目镜3D超显微技术,借助吲哚菁绿造影,完成腋窝淋巴结清扫术同期预防性淋巴管静脉吻合(Lymphovenous ...针对乳腺癌相关上肢淋巴水肿(Breast cancer related lymphedema,BCRL)的预防,我们医院整形外科联合乳腺外科于2020年9月28日成功应用脱目镜3D超显微技术,借助吲哚菁绿造影,完成腋窝淋巴结清扫术同期预防性淋巴管静脉吻合(Lymphovenous anastomosis,LVA)1例,并借助Zeiss Kinevo 900FLOW800黑白荧光造影及彩色地图分析模块,对淋巴管静脉吻合口的通畅性进行量化评估。本文对该病例进行报道并作相关文献回顾。展开更多
A new class of branching models,the general collision branching processes with two parameters,is considered in this paper.For such models,it is necessary to evaluate the absorbing probabilities and mean extinction tim...A new class of branching models,the general collision branching processes with two parameters,is considered in this paper.For such models,it is necessary to evaluate the absorbing probabilities and mean extinction times for both absorbing states.Regularity and uniqueness criteria are firstly established.Explicit expressions are then obtained for the extinction probability vector,the mean extinction times and the conditional mean extinction times.The explosion behavior of these models is investigated and an explicit expression for mean explosion time is established.The mean global holding time is also obtained.It is revealed that these properties are substantially different between the super-explosive and sub-explosive cases.展开更多
文摘针对乳腺癌相关上肢淋巴水肿(Breast cancer related lymphedema,BCRL)的预防,我们医院整形外科联合乳腺外科于2020年9月28日成功应用脱目镜3D超显微技术,借助吲哚菁绿造影,完成腋窝淋巴结清扫术同期预防性淋巴管静脉吻合(Lymphovenous anastomosis,LVA)1例,并借助Zeiss Kinevo 900FLOW800黑白荧光造影及彩色地图分析模块,对淋巴管静脉吻合口的通畅性进行量化评估。本文对该病例进行报道并作相关文献回顾。
基金supported by National Natural Science Foundation of China (Grant No.10771216)Research Grants Council of Hong Kong (Grant No.HKU 7010/06P)Scientific Research Foundation for Returned Overseas Chinese Scholars,State Education Ministry of China (Grant No.[2007]1108)
文摘A new class of branching models,the general collision branching processes with two parameters,is considered in this paper.For such models,it is necessary to evaluate the absorbing probabilities and mean extinction times for both absorbing states.Regularity and uniqueness criteria are firstly established.Explicit expressions are then obtained for the extinction probability vector,the mean extinction times and the conditional mean extinction times.The explosion behavior of these models is investigated and an explicit expression for mean explosion time is established.The mean global holding time is also obtained.It is revealed that these properties are substantially different between the super-explosive and sub-explosive cases.