Add to ORKGThe process of learning that neurogenesis actually exists has taken almost a century and has progressed slowly so far. In the late 1800s, scientists worldwide, including the prestigious Spanish researcher, Santiago Ramon y Cajal (1913), maintained that neurogenesis was a process restricted to brain development that ceased after birth. This conclusion was the result of studying the histology of the brain with the techniques of the time, such as Nissl and silver impregnation. Most researchers defined neurons as cells that were characterized by the presence of dendritic arborizations. When dendrites were not well developed, cells were thought to be in the process of differentiation, plastic changes, or the result of a histological artifact. © ...
This book describes current information about the three areas mentioned in the title: neuronal migra...
1) Neurogenesis and its early experimental approach 2) Experimental neuroembryology in the forties 3...
The mammalian cerebral cortex is the pinnacle of brain evolution, reaching its maximum complexity in...
The process of learning that neurogenesis actually exists has taken almost a century and has progres...
Until the 1990s, neurologists were practising their profession under the doctrine established in the...
One of the most intriguing dogmas in neurosciences—the empirical lack of brain neuronal regeneration...
The introduction of the staining method of Camillo Golgi in 1873 represented a giant step for neuros...
How a single fertilized cell generates diverse neuronal populations has been a fundamental biologica...
Santiago Ramón y Cajal was still young when he came across the reazione nera, discovered by the Ital...
Santiago Ramon y Cajal’s emergence in the world of science has led to a new era in neuroscience. He ...
The idea that the adult brain retains the capacity to generate new neurons has been proposed several...
BEFORE THE 1960s, adult mammalian neurogenesis was conceptually unimaginable. Despite 45 years of ob...
For decades, the postulation of Cajal and Golgi that no new postnatal neurons were created in the br...
Over the past 20 years, the conception of brain development has radically changed from a fixed and l...
The discovery of neurogenesis and neural stem cells (NSC) in the adult CNS has overturned a long-sta...
This book describes current information about the three areas mentioned in the title: neuronal migra...
1) Neurogenesis and its early experimental approach 2) Experimental neuroembryology in the forties 3...
The mammalian cerebral cortex is the pinnacle of brain evolution, reaching its maximum complexity in...
The process of learning that neurogenesis actually exists has taken almost a century and has progres...
Until the 1990s, neurologists were practising their profession under the doctrine established in the...
One of the most intriguing dogmas in neurosciences—the empirical lack of brain neuronal regeneration...
The introduction of the staining method of Camillo Golgi in 1873 represented a giant step for neuros...
How a single fertilized cell generates diverse neuronal populations has been a fundamental biologica...
Santiago Ramón y Cajal was still young when he came across the reazione nera, discovered by the Ital...
Santiago Ramon y Cajal’s emergence in the world of science has led to a new era in neuroscience. He ...
The idea that the adult brain retains the capacity to generate new neurons has been proposed several...
BEFORE THE 1960s, adult mammalian neurogenesis was conceptually unimaginable. Despite 45 years of ob...
For decades, the postulation of Cajal and Golgi that no new postnatal neurons were created in the br...
Over the past 20 years, the conception of brain development has radically changed from a fixed and l...
The discovery of neurogenesis and neural stem cells (NSC) in the adult CNS has overturned a long-sta...
This book describes current information about the three areas mentioned in the title: neuronal migra...
1) Neurogenesis and its early experimental approach 2) Experimental neuroembryology in the forties 3...
The mammalian cerebral cortex is the pinnacle of brain evolution, reaching its maximum complexity in...