Objectives This study was conducted to evaluate the association of geographic distance with robotic telestenting performance by comparing performance measures in transcontinental and regional pre‐clinical models of telestenting. Background Robotic telestenting, in which percutaneous coronary intervention (PCI) is performed on a remotely located patient, might improve PCI access, but has not been attempted over vast distances likely required to reach many underserved regions. Methods Telestenting performance was compared in regional (Boston to New York [206 miles]) and transcontinental (Boston to San Francisco [3,085 miles]) ex vivo models of telestenting, wherein a physician in Boston attempted robotic PCI on endovascular simulators in New York and San Francisco, respectively. PCI was attempted over both wired and fifth generation (5G)‐wireless networks. Outcome measures included procedural success, procedural time, and perceived latency. Results Procedural success was achieved in 20 consecutive target lesions in the regional model and in 16 consecutive target lesions in the transcontinental model. The transcontinental model had a greater latency than the regional model over both wired (121.5 ± 2.4 ms vs. 67.8 ± 0.9 ms; p < .001) and 5G‐wireless networks (162.5 ± 1.1 ms vs. 86.6 ± 0.6 ms; p < .001), but perceived latencies were graded “imperceptible” in all cases in both models. Transcontinental and regional models did not have significantly different procedural times over wired (4.1 ± 1.9 min vs. 9.0 ± 7.1 min; p = .051) or 5G‐wireless (3.0 ± 0.6 vs. 6.3 ± 1.2; p = .36) networks. Conclusions Transcontinental robotic manipulation of coronary devices is now possible and was not associated with adverse performance compared to robotic telestenting conducted regionally.
Background Robotic‐assisted endovascular surgery enables us to perform interventions from long distances. This study evaluates the workflow and telecommunication requirements of telerobotic peripheral vascular interventions. Methods Ten superficial femoral artery cases were performed by the operator being 44 miles away from the interventional suite, with an endovascular robotic system, on a high‐fidelity endovascular simulator. Procedural success, technical success, fluoroscopy time, residual stenosis, contrast dose and network delay were registered. Communication success was assessed after each procedure on a scale from 1 (unacceptable) to 5 (ideal). Results Procedural success and technical success were 100% and 80%, respectively. The mean residual stenosis, fluoroscopy time and contrast dose were 1.7 ± 5.25%, 6.5 ± 1.8 min and 58.8 ± 14.8 ml. The mean network latency was 38.9 ± 3.5 ms. Median communication success scores were 4.5 (min: 4, max: 5) reported by both the operator and the bedside technician on a scale of 1 (unacceptable) to 5 (ideal). Conclusion With a stable network connection and good communication protocol, a high success rate was achieved for remote robotic‐assisted peripheral vascular intervention in an ex vivo model.
Remote robotic-assisted endovascular interventions require real-time control of the robotic system to conduct precise device navigation. The delay (latency) between the input command and the catheter response can be affected by factors such as network speed and distance. This study evaluated the effect of network latency on robotic-assisted endovascular navigation in three vascular beds using in-vivo experimental model. Three operators performed femoral, carotid, and coronary endovascular robotic navigation blinded from the hybrid room with the prototype remote-enabled CorPath GRX system in a porcine model. Navigation was performed to different targets with randomly assigned network latencies from 0 to 1000 ms. Outcome measurements included navigation success, navigation time, perceived lag (1 = imperceptible, 5 = too long), and procedural impact scored by the operators (1 = no impact, 5 = unacceptable). Robotic-assisted remote endovascular navigation was successful in all 65 cases (9 femoral, 38 external carotid, 18 coronary). Guidewire times were not significantly different across the simulated network latency times. Compared to 0 ms added latency, both the procedural impact and perceived lag scores were significantly higher when the added latency was 400 ms or greater (< 0.01). Remote endovascular intervention was feasible in all studied anatomic regions. Network latency of 400 ms or above is perceptible, although acceptable to operators, which suggests that remote robotic-assisted femoral, carotid or coronary arterial interventions should be performed with network latency below 400 ms to provide seamless remote device control.
to undergo major amputation. However, data available on the scope of this issue in the contemporary era of peripheral arterial disease management is scarce. Thus, the aim of this study was to determine whether racial disparities in lower extremity amputation continue to exist and whether differences in attempts at limb salvage contribute to this disparity.Methods: Data were obtained from the Vascular Quality Initiative database on all patients who underwent major amputation for critical limb ischemia between 2012 and 2019. End points included limb salvage revascularization, above-knee amputation, and preoperative length of stay. Logistic regression models were used to assess the impact of race on the main end points.Results: Of 6077 amputees, 2464 (40.6%) were black. Compared to white patients, black patients were younger (mean age, 66 6 12 years vs 67 6 12 years; P < .001) and more likely to be female (42% vs 33.2%; P < .001). Rates of diabetes and hypertension were higher among black patients, whereas white patients were more likely to have coronary artery disease and chronic kidney disease (Table I). Black amputees were significantly less likely to have undergone limb salvage revascularization procedures (51.7% vs 59.7%; P < .001). Preoperative length of stay (mean days, 9 6 102 vs 5.7 6 22; P ¼ .06) and above-knee amputations (46.7% vs 41.6%; P < .001) were higher among black patients. After adjusting for potential confounders, black race was associated with a 34% increase in above-knee amputations (adjusted odds ratio, 1.34; 95% confidence interval, 1.2-1.5; P < .001) and a 23% decrease in attempted limb salvage procedures (adjusted odds ratio, 0.77; 95% confidence interval, 0.68-0.87; P < .001) (Table II).Conclusions: Black patients are less likely to undergo limb salvage revascularization before amputation and more likely to undergo higher level of amputation compared to white patients. Further studies are warranted to determine potentially correctable underlying factors for these disparities.
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