Extracranial outflow of particles solved in cerebrospinal fluid: Fluorescein injection study.
Takuya AkaiToshihisa HattaHiroki ShimadaKeiji MizukiNae KudoTaizo HattaHiroki OtaniPublished in: Congenital anomalies (2017)
Cerebrospinal fluid is thought to be mainly absorbed into arachnoid granules in the subarachnoid space and drained into the sagittal sinus. However, some observations such as late outbreak of arachnoid granules in fetus brain and recent cerebrospinal fluid movements study by magnetic resonance images, conflict with this hypothesis. In this study, we investigated the movement of cerebrospinal fluid in fetuses. Several kinds of fluorescent probes with different molecular weights were injected into the lateral ventricle or subarachnoid space in mouse fetuses at a gestational age of 13 days. The movements of the probes were monitored by live imaging under fluorescent microscope. Following intraventricular injection, the probes dispersed into the 3rd ventricle and aqueduct immediately, but did not move into the 4th ventricle and spinal canal. After injection of low and high molecular weight conjugated probes, both probes dispersed into the brain but only the low molecular weight probe dispersed into the whole body. Following intra-subarachnoid injection, both probes diffused into the spinal canal gradually. Neither probe dispersed into the brain and body. The probe injected into the lateral ventricle moved into the spinal central canal by the fetus head compression, and returned into the aqueduct by its release. We conclude this study as follows: (i) The movement of metabolites in cerebrospinal fluid in the ventricles will be restricted by molecular weight; (ii) Cerebrospinal fluid in the ventricle and in the subarachnoid space move differently; and (iii) Cerebrospinal fluid may not appear to circulate. In the event of high intracranial pressure, the fluid may move into the spinal canal.
Keyphrases
- cerebrospinal fluid
- living cells
- small molecule
- magnetic resonance
- single molecule
- pulmonary artery
- pulmonary hypertension
- fluorescence imaging
- spinal cord
- gestational age
- mitral valve
- quantum dots
- resting state
- fluorescent probe
- ms ms
- coronary artery
- functional connectivity
- ultrasound guided
- multiple sclerosis
- minimally invasive
- congenital heart disease
- pulmonary arterial hypertension
- atrial fibrillation
- optical coherence tomography
- optic nerve