Jordan Chaisson scite author profile

Jordan Chaisson

3Publications

5Citation Statements Received

66Citation Statements Given

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Baylor College of Medicine, Johns Hopkins Hospital

Publications

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Cardiac Index Declines During Long‐Term Left Ventricular Device Support

Kalathiya¹,

Houston²,

Chaisson³

et al. 2016

Artificial Organs

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To investigate longitudinal trends in valvular and ventricular function with long-term left ventricular assist device (LVAD) therapy, we analyzed hemodynamic and echocardiographic data of patients with at least 2 years of continuous LVAD support. All 130 patients who underwent HeartMate II implantation at our institution between 2005 and 2012 were reviewed. Twenty patients had hemodynamic and echocardiographic evaluations in both the early (0-6 months) and late (2-3 years) postoperative period. Patients on inotropic therapy or temporary mechanical support were excluded. The average times of early and late hemodynamic evaluations were 59 ± 41 days and 889 ± 160 days, respectively. Cardiac index (CI) declined by an average of 0.4 L/min/m (P = 0.04) with concomitant increase in pulmonary capillary wedge pressure (PCWP; P = 0.02). The right atrial pressure to PCWP (RAP:PCWP) ratio decreased during LVAD support suggesting improvement in right ventricular function. While there was an increase in degree of aortic insufficiency (AI) at the late follow-up period (P = 0.008), dichotomization by median decline in CI (-0.4 L/min/m ) indicated no difference in prevalence of AI among the groups. CI declined in patients with HeartMate II after 2 years of continuous support. An increase in preload and afterload was observed in those with the greatest decline in CI.

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Blood Pressure Variation in Medical Residents: From the Measures of Active Residents in Numerous Environments (Marine) Study

Brown

Labaki

Cheng

et al. 2015

Journal of the American College of Cardiology

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Confirming pericardial access by using impedance measurements from a micropuncture needle

John

Post

Burkland

et al. 2020

Pacing Clinical Electrophis

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Background Pericardial access is complicated by two difficulties: confirming when the needle tip is in the pericardial space, and avoiding complications during access, such as inadvertently puncturing other organs. Conventional imaging tools are inadequate for addressing these difficulties, as they lack soft‐tissue markers that could be used as guidance during access. A system that can both confirm access and avoid inadvertent organ injury is needed. Methods A 21G micropuncture needle was modified to include two small electrodes at the needle tip. With continuous bioimpedance monitoring from the electrodes, the needle was used to access the pericardium in porcine models (n = 4). The needle was also visualized in vivo by using an electroanatomical map (n = 2). Bioimpedance data from different tissues were analyzed retrospectively. Results Bioimpedance data collected from the subcutaneous space (992.8 ± 13.1 Ω), anterior mediastinum (972.2 ± 14.2 Ω), pericardial space (323.2 ± 17.1 Ω), mid‐myocardium (349.7 ± 87.6 Ω), right ventricular cavity (235.0 ± 9.7 Ω), lung (1142.0 ± 172.0 Ω), liver (575.0 ± 52.6 Ω), and blood (177.5 ± 1.9 Ω) differed significantly by tissue type (P < .01). Phase data in the frequency domain correlated well with the needle being in the pericardial space. A simple threshold analysis effectively separated lung (threshold = 1120.0 Ω) and blood (threshold = 305.9 Ω) tissues from the other tissue types. Conclusions Continuous bioimpedance monitoring from a modified micropuncture needle during pericardial access can be used to clearly differentiate tissues. Combined with traditional imaging modalities, this system allows for confirming access to the pericardial space while avoiding inadvertent puncture of other organs, creating a safer and more efficient needle‐access procedure.

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Jordan Chaisson

Cardiac Index Declines During Long‐Term Left Ventricular Device Support

Blood Pressure Variation in Medical Residents: From the Measures of Active Residents in Numerous Environments (Marine) Study

Confirming pericardial access by using impedance measurements from a micropuncture needle

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