Outcomes of chronic total occlusion (CTO) percutaneous coronary intervention (PCI) have improved because of advancements in equipment and techniques. With global collaboration and knowledge sharing, we have identified 7 common principles that are widely accepted as best practices for CTO-PCI. 1. Ischemic symptom improvement is the primary indication for CTO-PCI. 2. Dual coronary angiography and in-depth and structured review of the angiogram (and, if available, coronary computed tomography angiography) are key for planning and safely performing CTO-PCI. 3. Use of a microcatheter is essential for optimal guidewire manipulation and exchanges. 4. Antegrade wiring, antegrade dissection and reentry, and the retrograde approach are all complementary and necessary crossing strategies. Antegrade wiring is the most common initial technique, whereas retrograde and antegrade dissection and reentry are often required for more complex CTOs. 5. If the initially selected crossing strategy fails, efficient change to an alternative crossing technique increases the likelihood of eventual PCI success, shortens procedure time, and lowers radiation and contrast use. 6. Specific CTO-PCI expertise and volume and the availability of specialized equipment will increase the likelihood of crossing success and facilitate prevention and management of complications, such as perforation. 7. Meticulous attention to lesion preparation and stenting technique, often requiring intracoronary imaging, is required to ensure optimum stent expansion and minimize the risk of short- and long-term adverse events. These principles have been widely adopted by experienced CTO-PCI operators and centers currently achieving high success and acceptable complication rates. Outcomes are less optimal at less experienced centers, highlighting the need for broader adoption of the aforementioned 7 guiding principles along with the development of additional simple and safe CTO crossing and revascularization strategies through ongoing research, education, and training.
Currently, the Impella CP (Abiomed, Danvers, Massachusetts) percutaneous ventricular assist catheter requires implantation through a 14 French sheath. Additional arterial access is commonly obtained to perform therapeutic or diagnostic procedures. Multiple arterial access requires time and results in increased risk for vascular complications. Some patients may have limited arterial access. We describe the Single‐access for Hi‐risk PCI (SHiP) technique to allow for rapid and safer single access utilizing only the Impella access site. After the Impella catheter is placed in the standard fashion, a micropuncture needle is used to pierce the hemostasis valve of the Impella insertion sheath. After dilating the hemostasis valve and exchanging for a 0.035″ wire, up to a 7 French sheath can be inserted for PCI within the 14 French access sheath and alongside the 9 French portion of the Impella catheter. After PCI, the sheath is removed. We report on a case series of 17 patients using this technique. There were no instances of bleeding during the procedure or after removal of the PCI sheath, and no evidence of disruption of the Impella sheath.
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