经常有人问,以下几款的区别:都是金樽一段,不同工艺,同样的配方,是粉末状和液体奶的区别。
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黄色--Neuro Pro金樽,脱颖而出的特点:乳脂球膜+DHA,贴近母乳成分,促进脑力发育,增强抵抗力
美版美赞臣|完备的母婴喂养方案[爱心]可混合搭配使用:
1⃣️包装可重复清洁使用
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3⃣️补充包 储存便利
#brainnews[超话]#
弥漫性脑桥内生型胶质瘤(DIPG)的MR成像特征及其与总体生存的关系:国际DIPG注册中心的报告
【导读】 脑干肿瘤占儿童中枢神经系统(CNS)肿瘤的10-20%。世界卫生组织(WHO)将弥散性脑干胶质瘤重新定义为“弥漫中线胶质瘤,H3K27M突变”,主要包括脑干、脊髓和丘脑肿瘤。但DIPG一词仍然具有临床放射学诊断意义,因其涵盖了弥漫脑桥内生型肿瘤,但其中许多并不存在H3K27M突变。为了增进对DIPG的了解,欧洲及美洲多家机构共同成立了国际DIPG登记中心(IDIPGR),目前已从15个国家的115个参与机构中募集了1032名患者。本文即为该中心基于该登记研究数据分析获得的DIPG影像学特征与总体生存之间的分析报告,文章在线发表于2020年06月的《Neuro-Oncology》上。该研究也是评估DIPG影像学特征和生存率之间关系的最大单项登记研究。
来源:西北胶质瘤中心
弥漫性脑桥内生型胶质瘤(DIPG)的MR成像特征及其与总体生存的关系:国际DIPG注册中心的报告
【导读】 脑干肿瘤占儿童中枢神经系统(CNS)肿瘤的10-20%。世界卫生组织(WHO)将弥散性脑干胶质瘤重新定义为“弥漫中线胶质瘤,H3K27M突变”,主要包括脑干、脊髓和丘脑肿瘤。但DIPG一词仍然具有临床放射学诊断意义,因其涵盖了弥漫脑桥内生型肿瘤,但其中许多并不存在H3K27M突变。为了增进对DIPG的了解,欧洲及美洲多家机构共同成立了国际DIPG登记中心(IDIPGR),目前已从15个国家的115个参与机构中募集了1032名患者。本文即为该中心基于该登记研究数据分析获得的DIPG影像学特征与总体生存之间的分析报告,文章在线发表于2020年06月的《Neuro-Oncology》上。该研究也是评估DIPG影像学特征和生存率之间关系的最大单项登记研究。
来源:西北胶质瘤中心
小胶质细胞、星形胶质细胞、自噬与神经再生研究专题文章2019-2020
1. Microglial cathepsin B as a key driver of inflammatory brain diseases and brain aging
Hiroshi Nakanishi
2. The plasticity of plasticity: lesson from remote microglia induced by focal central nervous system injury
Maria Teresa Viscomi
3. Genetic targeting of astrocytes to combat neurodegenerative disease
Rachel Kéry, Allen P. F. Chen, Gregory W. Kirschen
4. Regional brain susceptibility to neurodegeneration: what is the role of glial cells?
Andrea Beatriz Cragnolini, Giorgia Lampitella, Assunta Virtuoso, Immacolata Viscovo, Fivos Panetsos, Michele Papa, Giovanni Cirillo
5. Adult neurogenesis from reprogrammed astrocytes
Brian B. Griffiths, Anvee Bhutani, Creed M. Stary
6. Astrocytic modulation of potassium under seizures
Fushun Wang, Xiaoming Qi, Jun Zhang, Jason H. Huang
7. Exosome-mediated crosstalk between microglia and neural stem cells in the repair of brain injury
Bo-Ru Hou, Cheng Jiang, Ze-Ning Wang, Hai-Jun Ren
8. Human endogenous retroviruses: ammunition for myeloid cells in neurodegenerative diseases?
Joel Gruchot, David Kremer, Patrick Küry
9. Targeting the P2X7 receptor in microglial cells to prevent brain inflammation
Lin-Hua Jiang, Sébastien Roger
10. Rifampicin quinone pretreatment improves neuronal survival by modulating microglia inflammation induced by α-synuclein
Leonardo Acuña, Natalia S. Corbalán, Rita Raisman-Vozari
11. Green tea catechins inhibit microglial activation which prevents the development of neurological disorders
Tahereh Farkhondeh, Ali Mohammad Pourbagher-Shahri, Milad Ashrafizadeh, Silvia Llorens Folgado, Ali Rajabpour-Sanati, Mohammad Reza Khazdair, Saeed Samarghandian
12. Limited therapeutic potential of astrocyte elevated gene-1 transduction in an animal model of Parkinson’s disease
Eunju Leem, Sang Ryong Kim
13. Astrocyte syncytium: a functional reticular system in the brain
Conrad M Kiyoshi, Min Zhou
14. Magnetofection as a new tool to study microglia biology
Jose Luis Venero, Miguel Angel Burguillos
15. Role of microglial cells in photoreceptor degeneration
Johnny Di Pierdomenico, Diego García-Ayuso, Marta Agudo-Barriuso, Manuel Vidal-Sanz, María Paz Villegas-Pérez
16. Why microglia kill neurons after neural disorders? The friendly fire hypothesis
Walace Gomes-Leal
17. The neuro-glial coagulonome: the thrombin receptor and coagulation pathways as major players in neurological diseases
Shany G Gofrit, Efrat Shavit-Stein
18. G protein-coupled estrogen receptor 1 (GPER) activation triggers different signaling pathways on neurons and astrocytes
Cláudio Roque, Graça Baltazar
19. Exercise, microglia, and beyond – workout to communicate with microglia
Megumi Andoh, Ryuta Koyama
https://t.cn/A6LkjVCo
1. Microglial cathepsin B as a key driver of inflammatory brain diseases and brain aging
Hiroshi Nakanishi
2. The plasticity of plasticity: lesson from remote microglia induced by focal central nervous system injury
Maria Teresa Viscomi
3. Genetic targeting of astrocytes to combat neurodegenerative disease
Rachel Kéry, Allen P. F. Chen, Gregory W. Kirschen
4. Regional brain susceptibility to neurodegeneration: what is the role of glial cells?
Andrea Beatriz Cragnolini, Giorgia Lampitella, Assunta Virtuoso, Immacolata Viscovo, Fivos Panetsos, Michele Papa, Giovanni Cirillo
5. Adult neurogenesis from reprogrammed astrocytes
Brian B. Griffiths, Anvee Bhutani, Creed M. Stary
6. Astrocytic modulation of potassium under seizures
Fushun Wang, Xiaoming Qi, Jun Zhang, Jason H. Huang
7. Exosome-mediated crosstalk between microglia and neural stem cells in the repair of brain injury
Bo-Ru Hou, Cheng Jiang, Ze-Ning Wang, Hai-Jun Ren
8. Human endogenous retroviruses: ammunition for myeloid cells in neurodegenerative diseases?
Joel Gruchot, David Kremer, Patrick Küry
9. Targeting the P2X7 receptor in microglial cells to prevent brain inflammation
Lin-Hua Jiang, Sébastien Roger
10. Rifampicin quinone pretreatment improves neuronal survival by modulating microglia inflammation induced by α-synuclein
Leonardo Acuña, Natalia S. Corbalán, Rita Raisman-Vozari
11. Green tea catechins inhibit microglial activation which prevents the development of neurological disorders
Tahereh Farkhondeh, Ali Mohammad Pourbagher-Shahri, Milad Ashrafizadeh, Silvia Llorens Folgado, Ali Rajabpour-Sanati, Mohammad Reza Khazdair, Saeed Samarghandian
12. Limited therapeutic potential of astrocyte elevated gene-1 transduction in an animal model of Parkinson’s disease
Eunju Leem, Sang Ryong Kim
13. Astrocyte syncytium: a functional reticular system in the brain
Conrad M Kiyoshi, Min Zhou
14. Magnetofection as a new tool to study microglia biology
Jose Luis Venero, Miguel Angel Burguillos
15. Role of microglial cells in photoreceptor degeneration
Johnny Di Pierdomenico, Diego García-Ayuso, Marta Agudo-Barriuso, Manuel Vidal-Sanz, María Paz Villegas-Pérez
16. Why microglia kill neurons after neural disorders? The friendly fire hypothesis
Walace Gomes-Leal
17. The neuro-glial coagulonome: the thrombin receptor and coagulation pathways as major players in neurological diseases
Shany G Gofrit, Efrat Shavit-Stein
18. G protein-coupled estrogen receptor 1 (GPER) activation triggers different signaling pathways on neurons and astrocytes
Cláudio Roque, Graça Baltazar
19. Exercise, microglia, and beyond – workout to communicate with microglia
Megumi Andoh, Ryuta Koyama
https://t.cn/A6LkjVCo
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