Elastic Material Damage of Rotational Atherectomy and Orbital Atherectomy: An in Vitro Assessment

PurposeRotational atherectomy (RA) and orbital atherectomy (OA) are effective procedures for severe calcified coronary artery disease. Nonetheless, vessel perforation remains an adverse complication of these procedures. This study aimed to evaluate factors affecting elastic material damage caused by RA and OA.MethodsAn in vitro assessment was conducted in which the damage to the rubber latex, an elastic material, after RA was evaluated under various conditions, including burr rotational speed (100,000–220,000 rotations per minute), approaching curve, burr size (1.25 mm, 1.75 mm, and 2.0 mm), and fluid viscosity (water and low-molecular weight dextran). Similarly, the rubber latex damage after OA was evaluated in the same experimental system under various conditions, including crown rotational speed, approaching curve, and fluid viscosity.ResultsIn RA, the rubber latex was damaged at lower rotational speeds (p = 0.003), tighter approaching curves (p < 0.0001), and lower fluid viscosity (p = 0.03). In OA, the rubber latex was generally severely damaged.ConclusionA higher rotational speed, coaxial approach for the wall, and higher viscosity contributed to lesser elastic material damage in RA. The safety mechanism for elastic material in OA proved less effective.

Successful rotational atherectomy of left main stem with double kiss crush stenting using double guiding catheter: a case report

Background Coronary artery bypass grafting (CABG) is the preferred revascularization procedure for patients with multivessel disease, and those with complex left main disease, as it is associated with a survival advantage in this group of patients. Sometimes however surgical management is not the treatment of choice due to many factors including; ongoing chest pain, hemodynamic instability or patient preference. In these situations, PCI offers an alternative revascularization strategy. In this case study, we present a successful PCI with rotational atherectomy (RA) for distal LMS, LAD and CX using a double guide catheter technique in a patient with severe calcific disease. Case Summery A 63-year-old female was diagnosed with a non-ST elevation myocardial infarction (NSTEMI). Coronary angiography showed significant distal left main stem disease with a severe proximal/ostial calcified lesion of the LAD and a possible thrombotic lesion at the ostium of the CX. She had ongoing hemodynamic instability with chest pain however could not be offered immediate surgical revascularization. We therefore elected to proceed to complex bifurcation LMS coronary intervention using RA under IVUS guidance achieving an excellent final result with TIMI III flow. Discussion This case demonstrates that rotational atherectomy (RA) using the double catheter technique (also known as Ping-Pong) can be safely performed with minimal complication rates and with very favorable angiographic and IVUS results. The clinical outcome was excellent with early discharge.

272 Combined rotational atherectomy and intravascular lithotripsy for heavy calcified coronary artery

Aims Percutaneous coronary intervention (PCI) of heavily calcified coronary lesions still represents a challenge for interventional cardiologists, with higher risk of immediate complications, late failure due to stent underexpansion or malapposition and consequent poor clinical outcome. Rotational atherectomy (RA) is a well-known calcium debulking modality. However, when coronary plaques present a significant amount of circumferential deep calcium, RA alone may not be able to achieve adequate lesion preparation. The combined use of intravascular lithotripsy (IVL) and RA, a technique called ‘Rotatripsy’, can be an effective approach in order to enable optimal stent implantation. We present a case of a calcific right coronary artery (RCA) PCI successfully treated by ‘Rotatripsy’ technique. Methods and results A 78-years-old man presented to our emergency department complaining of acute chest pain and dyspnoea. The electrocardiogram revealed ST-segment elevation in aVR and a diffuse ST-segment depression. Transthoracic echocardiography showed left ventricular anterior, septal, and apical walls akinesia. An urgent coronary angiography showed a critical distal left main (LM) stenosis involving the left anterior descending (LAD) artery ostium and a heavy calcified dominant RCA with two tandem sub-occlusive stenosis in the mid segment (Figure 1A). An immediate PCI with two drug eluting stents (DES) in the LM and LAD was performed. The patient was scheduled two days later for RCA PCI. RCA was engaged via left radial approach with a 6-Fr AL1 guiding catheter and the lesions were crossed with a Sion Blue wire. Using a Finecross MG microcatheter, an extra-support Rotawire was placed distally in the RCA. However, after multiple rotablation with 1.5 mm burr (Figure 1B), the mid segment lesion (Figure 1C) was still undilatable with a 3.5 mm non-compliant balloon (NCB) at 22 atm showing a partial dog bone effect (Figure 1D). We decided to attempt adjunctive IVL for calcium debulking. Using a Finecross MG and the trapping technique, a Gran Slam wire was placed distally; a 4.0 mm IVL balloon was delivered at the undilatable lesion and 80 pulses were applied (Figure 1E). Once the IVL treatment was completed (Figure 1F), a 4.0 mm NCB was inflated to 20 atm to further dilate the segment with an optimal expansion (Figure 1G). Finally, a DES Synergy 4.0 × 48 mm was implanted (Figure 1H) and it was post-dilated with a 4.5 mm NCB inflated to 22 atm (Figure 1I) with a perfect angiographic result (Figure 1J). Conclusions Coronary calcifications can lead to stent underexpansion, which is related to a higher rate of future complications, such as restenosis or thrombosis. If conventional lesion dilatations are not effective, alternative techniques should be considered (cutting balloon, scoring balloon, RA, orbital atherectomy, IVL). In case of circumferential deep calcium plaques, RA may not be able to achieve an adequate lesion preparation. RA allows the treatment of intimal calcium and permits to cross balloons or stents through severe lesions. However, when adequate expansion of the balloons is not achieved after RA, Shockwave IVL, that is not usually able to cross critical stenosis due to its bulky profile, represents an optimal complementary device, in order to fracture deep calcium and facilitate stent delivery and optimal expansion. In this case, we have successfully used the hybrid approach called ‘Rotatripsy’, which combines RA and IVL, in order to avoid more aggressive RA, which would have required the use of 7-Fr guiding catheter setting and may have increased the risk of complications.

662 Physiological and angiographic outcomes of PCI in calcified lesions after rotational atherectomy or intravascular lithotripsy

Aims Percutaneous coronary interventions (PCI) in calcified coronary artery lesions are associated with impaired stent expansion, higher rate of periprocedural complications and cardiac mortality. Lesion preparation using calcium modifying techniques such as Rotational Atherectomy (RA) or Intravascular Lithotripsy (IVL) has been advocated. Studies comparing these technologies are lacking. We aimed to compare the in-stent pressure gradient, evaluated by virtual fractional flow-reserve, in calcific lesions treated using either RA or IVL. Methods and results Patients undergoing either RA- or IVL-assisted PCI from two European centres were included. Propensity score matching (1:2) was performed to control for potential bias. Primary outcome was post-PCI in-stent pressure gradient calculated by virtual fractional flow reserve (vFFRgrad). Secondary outcomes included the proportion of patients with complete functional revascularization defined as of distal vFFR post PCI (vFFRpost) ≥0.90. From a cohort of 210 patients, 105 matched patients (70 RA and 35 IVL) were included. Pre-PCI vFFR did not differ between groups (0.65 ± 0.13 RA and 0.67 ± 0.11 IVL). After PCI, in-stent pressure gradients was significantly lower in the IVL group (0.032 ± 0.026 vs. 0.043 ± 0.026 in the RA group, P = 0.024). The proportion of vessels with functional complete revascularization was similar between the two groups (32.9% vs. 37.1% in the RA and IVL group, respectively; P = 0.669). Conclusions Calcific lesions preparation with IVL is effective and resulted in improved in-stent pressure gradient compared to RA. Approximately one third of the patients undergoing PCI for a severely calcified lesion achieved functional revascularization with no difference between rotational RA and IVL. 662 FigureIn stent gradients after RA and IVL. (A) Box plot depicting the distribution of the in-stent pressure gradient vFFRgrad between the two groups. (B) Cumulative frequency distribution curves demonstrating lower vFFRgrad after intravascular lithotripsy compared to rotational atherectomy. RA, rotational atherectomy; IVL, intravascular lithotripsy; vFFRgrad, in-stent pressure gradient.