•This study provides insight on the impact of Heartmate 3 (HM3) speed settings on the volumes and shape of both ventricles.•Most of the patients supported with HM3 had normal hemodynamics in a speed ...range of 5200–5600 rpm with significant improvement in LV size and shape.•However, favorable LV changes are followed by increase in RV size and change in geometry.
The Heartmate 3 (HM3) is a Conformiteé Européenne mark–approved left ventricular (LV) assist device (LVAD) with fully magnetically levitated rotor and features consisting of a wide range operational speeds, wide flow paths, and artificial pulse. We performed a hemodynamic-echocardiographic speed optimization evaluation in HM3-implanted patients to achieve optimal LV- and right ventricular (RV) shape.
Sixteen HM3 patients underwent pump speed ramp tests with right heart catheterization. Three-dimensional echocardiographic (3DE) LV and RV datasets (Philips) were acquired, and volumetric (Tomtec) and shape (custom software) analyses were performed (LV: sphericity, conicity; RV: septal and free-wall curvatures). Data were recorded at up to 13 speed settings. Speed changes were in 100-rpm steps, starting at 4600 rpm and ramping up to 6200 rpm. 3DE was feasible in 50% of the patients. Mean original speed was 5306 ± 148 rpm. LV end-diastolic (ED) diameter (−0.15 ± 0.09 cm/100 rpm) and volumes (ED: 269 ± 109 mL to 175 ± 90 mL; end-systolic ES: 234 ± 111 mL to 146 ± 81 mL) progressively decreased as the shape became less spherical and more conical; RV volumes initially remained stable, but at higher speeds increased (ED: from 148 ± 64 mL to 181 ± 92 mL; ES: 113 ± 63 mL to 130 ± 69 mL). On average, the RV septum became less convex (bulging toward the LV) at the highest speeds.
LV and RV shape changes were noted in HM3-supported patients. Although a LV volumetric decrease and shape improvement was consistently noted, RV volumes grew in response to increase in speed above a certain point. A next concern would be whether understanding of morphologic and function changes in LV and RV during LVAD speed change assessed with the use of 3DE helps to optimize LVAD speed settings and improve clinical outcomes.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
CRP is an established inflammatory biomarker with prognostic value in patients with chronic heart failure, yet its role in continuous-flow left ventricular assist device (LVAD) patients is largely ...unknown. 5,183 patients from the INTERMACS registry who underwent durable LVAD between 2008 and 2017 and had preimplant CRP levels were included. The sample was stratified into two groups based on preimplant CRP levels: CRP of 0-10 mg/L (low) and >10 mg/L (high). Kaplan-Meier survival estimates were used to assess outcomes at 2 years after LVAD implantation, with log-rank testing used to compare groups. Cox proportional hazard models were used for multivariable adjustment. Patients with high preimplant CRP were younger, more likely to be INTERMACS class I, and had a higher need for temporary mechanical circulatory support before LVAD implant compared to those with lower CRP levels (all P < 0.001). The high CRP group had higher WBC counts and BNP levels (all P < 0.001). After adjustment, higher CRP (>10 mg/L) was associated with greater risk of mortality, RV failure, and stroke postimplant (P < 0.001). In addition, elevated postimplant CRP level at 3 months was associated with increased mortality and stroke on LVAD support (P < 0.001). CRP is a predictor of death and complications on LVAD support. Future studies are necessary to explore the mechanisms underlying this finding and the potential role of antiinflammatory therapies in this population.
Preoperatively elevated pulmonary vascular resistance (PVR) is a contraindication to heart transplantation (HT). Transpulmonary pressure gradient (TPG) is one of the main variables used in PVR ...determination (ie, PVR = TPG/cardiac output). Unlike PVR, which is subject to the shortcoming of cardiac output estimation, TPG is directly measured. We aimed to evaluate the relationship of TPG obtained before left ventricular assist device (LVAD) implantation on post-HT survival.
A total of 490 patients were implanted with Heartmate II LVADs in the multicenter Heartmate II Bridge-to-Transplantation clinical trial, and 416/490 had pre-LVAD TPG data available. Outcomes during LVAD support and after HT stratified by both PVR and TPG were studied. The median pre-LVAD TPG was 10 mm Hg. Baseline demographic and clinical characteristics were similar for patients with and without TPG >10 mm Hg. Outcomes during LVAD support (ie, recovery to LVAD explantation, HT, or ongoing device support) for patients below and above the median TPG were similar. However, post-HT 1-year survival rate was significantly higher for patients with TPG ≤10 mm Hg compared with those with TPG >10 mm Hg (91% vs 80%; P = .016). Analysis based on the median PVR of 2.68 Wood units did not stratify post-HTx 1-year survival rates between the groups (89% vs 83%; P = .25).
Elevated TPG, rather than high PVR, before LVAD implantation was associated with increased mortality following HT. Pre-LVAD TPG may be useful to identify a cohort that requires close follow-up with serial hemodynamic monitoring before HT.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Despite significant improvements in pharmacotherapy as well as coronary and electrophysiological interventions, prognosis of advanced heart failure remains poor with 1-year mortality rates as high as ...25-50%. While heart transplantation remains the gold standard in the treatment of advanced heart failure, donor availability is limited, which makes it a viable option for only a minority of eligible patients. The advent of continuous-flow left ventricular assist devices (CF-LVAD) has revolutionized the treatment of advanced heart failure, and now plays a pivotal role in improving survival and quality of life of these patients. Over the past two decades, there have been significant improvements in device design and management strategies, which have led to the rapid expansion of its use for long-term support. This review examine the evolution of LVAD technology with particular attention to recent advances and ongoing challenges of device therapy.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Hematoma expansion (HE) is associated with poor outcome in patients with intracerebral hemorrhage (ICH), but the impact on patients with an left ventricular assist device (LVAD) is unknown. We aimed ...to define the occurrence of HE in the LVAD population and to determine the association between HE and mortality.
We performed a retrospective cohort study of LVAD patients and intentionally matched anticoagulated controls without LVAD admitted to Columbia University Irving Medical Center with ICH between 2008 and 2019. We compared HE occurrence between patients with an LVAD and those without an LVAD using regression modeling, adjusting for factors known to influence HE. We evaluated pump thrombosis following anticoagulation reversal. We examined the association between HE and hospital mortality using Poisson regression modeling adjusting for factors associated with poor outcome.
Among 605 patients with an LVAD, we identified 28 patients with ICH meeting the study’s inclusion criteria. Our LVAD ICH cohort was predominantly male (71%), with a mean age of 56 ± 10 years. The median baseline hematoma size was 20.1 mL3 (interquartile range IQR, 8.6–46.9 mL3), and the median ICH score was 1 (IQR, 1–2). There was no significant difference in occurrence of HE in LVAD patients and matched non-LVAD patients (adjusted odds ratio OR, 1.3; 95% confidence interval CI, 0.4–4.2). There was an association between HE and in-hospital mortality in LVAD patients (adjusted OR, 4.8; 95% CI, 1.4–6.2).
HE occurrence appears to be similar in LVAD and non-LVAD patients. HE has a significant impact on LVAD ICH mortality, underscoring the importance of adequate coagulopathy reversal and blood pressure management in these patients.
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GEOZS, IJS, IMTLJ, KILJ, KISLJ, NLZOH, NUK, OILJ, PNG, SAZU, SBCE, SBJE, UILJ, UL, UM, UPCLJ, UPUK, ZAGLJ, ZRSKP
Management of hemolysis in the setting of suspected device thrombosis in continuous-flow left ventricular assist device patients varies widely, ranging from watchful waiting with intensified ...antithrombotic therapy to early surgical device exchange. The aim of this study was to compare the outcomes of hemolysis events treated with surgical interventions versus medical management alone.
A retrospective review of Heartmate II continuous-flow left ventricular assist device patients at 2 centers from January 2009 to September 2014 was completed. Patients were categorized as surgical management if hemolysis refractory to intensification of standard antithrombotic therapy was treated surgically. The primary end point was the first occurrence of cerebrovascular accident (CVA) or death. Sixty-four hemolysis events occurred in 49/367 patients implanted with Heartmate II continuous-flow left ventricular assist devices. Of 49 primary hemolysis events, 24 were treated with surgical interventions. After surgical treatment, 1 patient died and 2 experienced CVAs, as compared with 3 deaths and 9 CVAs in the 25 patients who remained on intensified antithrombotic therapy alone. The 1-year freedom from CVA or death was 87.5% and 49.5% in the surgical and medical cohorts, respectively (P=0.027). Resolution of a primary hemolysis event without CVA or death occurred in 21/24 patients treated with surgical interventions and in 13/25 who remained on medical therapy alone. A similar association between treatment and outcome was noted in the 15 recurrent hemolysis events.
Hemolysis refractory to intensification of antithrombotic therapy identifies continuous-flow left ventricular assist device patients at major risk for CVA and death. Early device exchange should be considered to minimize these risks.