Simple Techniques for Antegrade Guiding Catheter Engagement after Retrograde CTO Crossing

Interventional treatment of chronic total occlusions (CTOs) is nowadays counting on a wide span of procedural possibilities, and retrograde approaches are becoming more and more frequent as they warrant high success rates at the cost of a slightly higher incidence of donor vessel damage. Retrograde lesion crossing needs to be followed by procedural conversion to an antegrade approach to dilate and stent the lesion, and new techniques are being proposed to address this issue and achieve a safer recanalization of the vessel. In this context, we propose novel and simple techniques to antegrade guiding catheter engagement by the retrograde wire, enhancing the chances for procedural success.

Two Cases of Morel-Lavallée Lesion Which Resulted in a Wide Skin Necrosis from a Small Laceration

Morel-Lavallée lesion (MLL) is a degloving injury in soft tissues caused by shear force accompanying trauma. Even if it is a small lacrimal wound at the initial visit, there is a range of skin necrosis which is not suitable for it. As a cause of the injury, a shearing force was applied over a wide range, and penetrating blood vessel damage to the skin occurred, resulting in skin necrosis. Attention is required.

Blood vessel occlusion by Cryptococcus neoformans is a mechanism for haemorrhagic dissemination of infection

Meningitis caused by infectious pathogens are associated with vessel damage and infarct formation, however the physiological cause is unknown. Cryptococcus neoformans, is a human fungal pathogen and causative agent of cryptococcal meningitis, where vascular events are observed in up to 30% of cases, predominantly in severe infection. Therefore, we aimed to investigate how infection may lead to vessel damage and associated pathogen dissemination using a zebrafish model for in vivo live imaging. We find that cryptococcal cells become trapped within the vasculature (dependent on there size) and proliferate there resulting in vasodilation. Localised cryptococcal growth, originating from a single or small number of cryptococcal cells in the vasculature was associated with sites of dissemination and simultaneously with loss of blood vessel integrity. Using a cell-cell junction tension reporter we identified dissemination from intact blood vessels and where vessel rupture occurred. Finally, we manipulated blood vessel stifness via cell junctions and found increased stiffness resulted in increased dissemination. Therefore, global vascular vasodilation occurs following infection, resulting in increased vessel tension which subsequently increases dissemination events, representing a positive feedback loop. Thus, we identify a mechanism for blood vessel damage during cryptococcal infection that may represent a cause of vascular damage and cortical infarction more generally in infective meningitis.

Evaluation of Novel Stereotactic Cannula for Stem Cell Transplantation against Central Nervous System Disease

Cell therapy for central nervous system (CNS) disorders is beginning to prove its safety and efficiency. Intraparenchymal transplantation can be an option for cell delivery; however, one concern regarding this method is that the transplantation cannula may cause additional brain injuries. These include vessel damage, which results in brain hemorrhage, and clogging of the cannula by brain debris and/or cell clusters, which requires replacement of the cannula or forced injection causing jet flow of the cell suspension. We compared cannulas for cell delivery used in clinical trials, the Pittsburg and Mizuho cannulas, to a newly designed one, MK01, to assess their usability. MK01 has a spherical-shaped tip with a fan-like open orifice on the side of the cannula, which prevents vessel damage, clogging of brain debris, and jet flow phenomenon. We compared the extent of rat cervical and abdominal arterial damage with the cannula, the amount of debris in the cannula, the force needed to cause jet flow, and cell viability. While the viability of cells passed through the cannulas was almost the same among cannulas (approximately 95%), the Pittsburg cannula caused cervical arterial injury and subsequent hemorrhage, as it required a significantly smaller force to penetrate the arterial wall. Moreover, the Pittsburg cannula, but not the Mizuho and MK01 cannulas, showed high frequency of brain debris in the needle tip (approximately 80%) after brain puncture. While jet flow of the injection liquid was observed even when using smaller forces in the Pittsburg and Mizuho cannulas, MK01 constantly showed low jet flow occurrence. Thus, MK01 seems to be safer than the previously reported cannulas, although further investigation is necessary to validate its safety for clinical use.

Chronic gastric ulcer disease complicating selective internal radiation therapy (SIRT) in a patient with cholangiocellular carcinoma

Selective internal radiation therapy (SIRT) is a therapeutic option for primary and metastatic liver tumors. Microspheres containing Yttrium 90, a beta-emitting radionuclide, are administered into the hepatic artery allowing selective internal radiation of a liver tumor. SIRT-related complications may appear due to migration of the radiation microspheres to organs distant from the tumor site. In order to prevent these complications, unintended non target embolization of Yttrium microspheres has to be avoided. However, data from external-beam radiation therapy (EBRT) suggests that the stomach/small bowel may actually be less radiosensitive than the liver. Gastric ulcers, a well-known SIRT-related complication, may therefore not only be caused by local radiation but also by unusual accumulation of microspheres in the submucosa and small vessel damage. We herein report a more than two- year-long persisting, highly symptomatic, non-neoplastic ulceration of the gastric antrum leading to pyloric stenosis caused by SIRT therapy with Yttrium 90 microspheres for the treatment of intrahepatic cholangiocellular carcinoma. The chronic courses of the ulcer disease together with the specific histological features highlight the pivotal role of radiation-induced small vessel damage in SIRT-induced adverse events.