Background: Data regarding the use of percutaneous coronary intervention with drug-eluting balloons (DEB) versus thin-strut drug-eluting stents (thin-DES) for treating DES in-stent restenosis in everyday clinical practice is scarce. Our goal was to evaluate the efficacy and safety profile of DEB versus thin-DES in DES in-stent restenosis. Methods: Consecutive patients with DES in-stent restenosis who underwent percutaneous coronary intervention between 2008 and 2019 entered the multicenter DEB-DRAGON Registry with a follow-up of 3 years. Patients who received DEB at the index procedure (n=557, 49.9%) were compared with those who received thin-DES (n=560, 50.1%). Results: Analysis of the unmatched cohort revealed lower rates of target lesion revascularization (9.1% versus 13.6%; hazard ratio [HR], 0.58 [95% CI, 0.41–0.83], P =0.003), target vessel revascularization (11.8% versus 16.7%; HR, 0.62 [95% CI, 0.45–0.84], P =0.003) and device-oriented composite end point, defined as a composite of cardiac death, target lesion revascularization, and target vessel myocardial infarction (12.7% versus 16.0%; HR, 0.69 [95% CI, 0.50–0.94], P =0.018) in the thin-DES group compared with the DEB group. The incidence of cardiac death, target vessel-myocardial infarction, and myocardial infarction were similar in both groups. However, after propensity score matching, there were no significant differences in target lesion revascularization (11.2% versus 11.2%; HR, 0.91 [95% CI, 0.55–1.51], P =0.707), target vessel revascularization (13.4% versus 14.2%; HR, 0.86 [95% CI, 0.55–1.36], P =0.523), and device-oriented composite end point (14.2% versus 14.2%; HR, 0.91 [95% CI, 0.58–1.42], P =0.667) between the thin-DES and DEB group, respectively. Conclusions: This analysis of a real-life registry revealed similar long-term outcomes of thin-DES and DEB in DES in-stent restenosis regarding target lesion revascularization, myocardial infarction, cardiac death, and device-oriented composite end point. REGISTRATION: URL: https://www.clinicaltrials.gov ; Unique identifier: NCT04415216.
BackgroundPacemaker (PM) implantation may cause acute emotional distress leading to takotsubo syndrome (TTS). Frailty and cognitive impairment are known to influence outcomes after surgical procedures. It is unclear whether they may also predispose to TTS following PM implantation.MethodsWe identified nine cases (81 ± 6 years) of TTS following PM implantation that took place between 2013 and 2017 in one high volume implantation center. TTS was diagnosed based on typical echocardiographic appearance with resolution over time and (in cases where deemed necessary) normal coronary angiography. The TTS cases were compared with 30 consecutive cases of PM implantation (75 ± 9 years), which were not complicated by TTS (control group). Frailty was assessed using retrospective Risk Analysis Index (RAI‐A). Pacing parameters were analyzed during PM implantation and after 1 month.ResultsCognitive impairment was more prevalent (67% vs 10%, P = .0005), and RAI‐A index was significantly higher in the TTS group compared to the control group (26 ± 13.7 vs 13.1 ± 9.8, P = .008). Perioperative right ventricular threshold was significantly higher in patients with TTS comparing to controls (0.99 ± 0.43 V vs 0.74 ± 0.20 V, P = .04). The magnitude of decrease in right ventricular threshold between implantation and 1 month follow‐up was greater in TTS patients compared to controls (−0.41 ± 0.29 V vs −0.15 ± 0.38 V, P = .049).ConclusionsTTS is a rare complication of PM implantation. Patients with cognitive impairment and frailty are at risk of TTS. Right ventricular pacing threshold is acutely affected by TTS and improves over time.
The paper proposes a two-dimensional model of human stability. The model allows for gaining data on forces and moments of forces being the effect of musculoskeletal interactions of body parts at human joints. The necessary input data are registered with the use of an optoelectronic motion capture system, two force plates, and a dynamometer. The latter measures the magnitude of the external force that is randomly applied to cause a backward fall. Therefore, the position of the participant’s body during the experiment, the external force used to cause the fall, and the ground reaction forces are known. The model proposed has the structure of a closed kinematic chain with one loop and two open subchains and uses the Euler–Newton approach to analyse the motion. In addition to external loads, linear and angular accelerations are also needed. To calculate those, we used a variant of approximation. This consists in carrying out a simultaneous approximation of a given function and its first and second derivatives in the subintervals that shift along the whole data range. The experiments conducted include two activities while maintaining a state of equilibrium and the fall itself. This gives the basis for examining whether the internal forces and moments at human joints differ significantly in both these states. The results and conclusions are discussed in the final part of the paper.
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