Endoscopic view of the intrahepatic biliary ducts by direct per-oral cholangioscopy in a patient with a choledochal cyst.

Sixty year old female with hypertension and crampy abdominal pain episodes. Admitted to hospital (September-2020) by obstructive jaundice. MRCP: biliary dilation due to Todani Ic (fusiform) choledocal cyst (CC), distal sludge. ERCP: normal mucosa prominent papilla; biliary dilation compatible with CC; choledocholithiasis; 8-mm CHD filling defect. Sphincterotomy, removal of stones/sludge, brush-cytology of the filling defect (pathology: atypias). US: dilation resolution (CBD: 6.5 mm).

Intranasal Administration of Undifferentiated Oligodendrocyte Lineage Cells as a Potential Approach to Deliver Oligodendrocyte Precursor Cells into Brain.

Oligodendrocyte precursor cell (OPC) migration is a mechanism involved in remyelination; these cells migrate from niches in the adult CNS. However, age and disease reduce the pool of OPCs; as a result, the remyelination capacity of the CNS decreases over time. Several experimental studies have introduced OPCs to the brain via direct injection or intrathecal administration. In this study, we used the nose-to brain pathway to deliver oligodendrocyte lineage cells (human oligodendroglioma (HOG) cells), which behave similarly to OPCs in vitro. To this end, we administered GFP-labelled HOG cells intranasally to experimental animals, which were subsequently euthanised at 30 or 60 days. Our results show that the intranasal route is a viable route to the CNS and that HOG cells administered intranasally migrate preferentially to niches of OPCs (clusters created during embryonic development and adult life). Our study provides evidence, albeit limited, that HOG cells either form clusters or adhere to clusters of OPCs in the brains of experimental animals.