Visualisation of cerebrospinal fluid flow patterns in albino Xenopus larvae in vivo
Autor: | Takeshi Adachi, Susumu Izumi, Ryuji Toyoizumi, Kazue Mogi |
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Rok vydání: | 2012 |
Předmět: |
Biology
Fourth ventricle lcsh:RC346-429 Brain ventricle Visualisation Xenopus laevis Cellular and Molecular Neuroscience Lateral ventricles Cerebrospinal fluid Qdot nanocrystals Developmental Neuroscience medicine lcsh:Neurology. Diseases of the nervous system Brain Ventricle Third ventricle Albino larva Research CSF flow General Medicine Anatomy Polystyrene beads Left-right asymmetry medicine.anatomical_structure Neurology Ventricle Cerebral aqueduct Cerebral ventricle Dorso-ventral asymmetry |
Zdroj: | Fluids and Barriers of the CNS Fluids and Barriers of the CNS, Vol 9, Iss 1, p 9 (2012) |
ISSN: | 2045-8118 |
DOI: | 10.1186/2045-8118-9-9 |
Popis: | Background It has long been known that cerebrospinal fluid (CSF), its composition and flow, play an important part in normal brain development, and ependymal cell ciliary beating as a possible driver of CSF flow has previously been studied in mammalian fetuses in vitro. Lower vertebrate animals are potential models for analysis of CSF flow during development because they are oviparous. Albino Xenopus laevis larvae are nearly transparent and have a straight, translucent brain that facilitates the observation of fluid flow within the ventricles. The aim of these experiments was to study CSF flow and circulation in vivo in the developing brain of living embryos, larvae and tadpoles of Xenopus laevis using a microinjection technique. Methods The development of Xenopus larval brain ventricles and the patterns of CSF flow were visualised after injection of quantum dot nanocrystals and polystyrene beads (3.1 or 5.8 μm in diameter) into the fourth cerebral ventricle at embryonic/larval stages 30-53. Results The fluorescent nanocrystals showed the normal development of the cerebral ventricles from embryonic/larval stages 38 to 53. The polystyrene beads injected into stage 47-49 larvae revealed three CSF flow patterns, left-handed, right-handed and non-biased, in movement of the beads into the third ventricle from the cerebral aqueduct (aqueduct of Sylvius). In the lateral ventricles, anterior to the third ventricle, CSF flow moved anteriorly along the outer wall of the ventricle to the inner wall and then posteriorly, creating a semicircle. In the cerebral aqueduct, connecting the third and fourth cerebral ventricles, CSF flow moved rostrally in the dorsal region and caudally in the ventral region. Also in the fourth ventricle, clear dorso-ventral differences in fluid flow pattern were observed. Conclusions This is the first visualisation of the orchestrated CSF flow pattern in developing vertebrates using a live animal imaging approach. CSF flow in Xenopus albino larvae showed a largely consistent pattern, with the exception of individual differences in left-right asymmetrical flow in the third ventricle. |
Databáze: | OpenAIRE |
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