Łukasz Czyż scite author profile

Łukasz Czyż

5Publications

14Citation Statements Received

308Citation Statements Given

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Diffusion-tensor magnetic resonance imaging of the human heart in health and in acute myocardial infarction using diffusion-weighted echo-planar imaging technique with spin-echo signals

Mazur¹,

Urbańczyk‐Zawadzka²,

Czyż³

et al. 2022

pwki

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Introduction: Originally thought unsuitable due to proneness to myocardial motion and susceptibility artefacts, spin-echo echo planar imaging (SE-EPI) has gained attention for the cardiac diffusion-weighted imaging (DWI) and diffusion tensor imaging (DTI) offering higher SNR and lower achievable echo time (TE).Aim: The application of DTI for patients with acute myocardial infarction (AMI) using our methodology developed on the basis of the SE-EPI sequence.Material and methods: Twelve patients with AMI and six healthy controls were enrolled in the preliminary DTI study within the CIRCULATE STRATEGMED 2 project. Our method relied on a pilot ECG-triggered DTI examination, based on which the initial evaluation was possible and allowed proper manipulation of TE (64/47 ms for patients/control), repetition time (TR) and ECG trigger delay in the consecutive DTI.Results: The study demonstrated that by using our algorithm it was possible to obtain DWI images showing infarct zones identified on T1-weighted images with late gadolinium-enhancement (LGE) with division into subtle and severe damage. Quantitative DTI showed increased mean diffusivity (MD) and decreased fractional anisotropy (FA) in the infarct compared to remote tissue. The application of B-matrix spatial distribution (BSD) calibration allowed the improvement of FA.Conclusions: Our algorithm is suitable for qualitative assessment of infarction zones with different severity. The analysis of the quantitative DTI showed that despite the lack of motion compensation blocks in the applied SE-EPI sequence, it was possible to approach the diffusion tensor parameter values reported for the myocardium.

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Trans-endocardial delivery of progenitor cells to compromised myocardium using the “needle technique”and risk of myocardial injury

Drabik¹,

Mazurek²,

Dzieciuch-Rojek³

et al. 2022

pwki

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Introduction:Recent studies indicate that the therapeutic effects of endocardial cell transplantation in chronic heart failure (iCHF) may be lost with an increasing number of injections.Aim: To evaluate global and regional contractility and diastolic function of the left ventricle of patients with advanced iCHF who received endomyocardial cardiopoietic mesenchymal stem cells (MCSs) or sham procedures.Material and methods: The study included patients (mean age: 60.8 ±7.1 years) with iCHF (left ventricular ejection fraction (LVEF) < 35%) and a history of hospitalization for heart failure within 12 months before the screening despite optimal medical therapy. The patients underwent transmyocardial MCS transplantation (n = 5) or a sham procedure (n = 5). The wall motion score index (WMSI), LVEF, transmitral E-velocity, E-wave deceleration time, E/A-ratio, and E/e′-mean were measured with two-dimensional echocardiography on days 1 and 30.Results: A total of 170 segments were analyzed, including 48 targeted segments where 92 injections of 0.5 ml of MCS were performed. In the MSC group, a decrease in regional contractility was observed in 30.6% and 18.9% of the segments on days 1 and 30, respectively. This was accompanied by an increase in WMSI by 0.32 ±0.06 and 0.19 ±0.18 (day 1, p = 0.02, day 30, p = 0.03) and a non-significant reduction in LVEF on day 1 (3.15 ±1.23%, p = 0.065).Conclusions: We did not observe differences in the parameters of diastolic function during the follow-up in both groups.

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Single-photon emission computed tomography as a fundamental tool in evaluation of myocardial reparation and regeneration therapies

Tekieli¹,

Szot²,

Kwiecień³

et al. 2022

pwki

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Despite unquestionable progress in interventional and pharmacologic therapies of ischemic heart disease, the number of patients with chronic ischemic heart failure is increasing and the prognosis remains poor. Repair/restoration of functional myocardium through progenitor cell-mediated (PCs) healing and renovation of injured myocardium is one of the pivotal directions in biomedical research. PCs release numerous pro-angiogenic and anti-apoptotic factors. Moreover, they have self-renewal capability and may differentiate into specialized cells that include endothelial cells and cardiomyocytes. Uptake and homing of PCs in the zone(s) of ischaemic injury (i.e., their effective transplantation to the target zone) is an essential pre-requisite for any potential therapeutic effect; thus effective cell tracking is fundamental in pre-clinical and early clinical studies. Another crucial requirement in rigorous research is quantification of the infarct zone, including the amount of non-perfused and hypo-perfused myocardium. Quantitative and reproducible evaluation of global and regional myocardial contractility and left ventricular remodeling is particularly relevant in clinical studies. Using SPECT, our earlier work has addressed several critical questions in cardiac regenerative medicine including optimizing transcoronary cell delivery, determination of the zone(s) of myocardial cell uptake, and late functional improvement in relation to the magnitude of cell uptake. Here, we review the role of single-photon emission computed tomography (SPECT), a technique that offers high-sensitivity, quantitative cell tracking on top of its ability to evaluate myocardial perfusion and function on both cross-sectional and longitudinal bases. SPECT, with its direct relevance to routine clinical practice, is a fundamental tool in evaluation of myocardial reparation and regeneration therapies.

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Objective, observer-independent evaluation of myocardial perfusion and function: the role of SPECT

Szot¹,

Kwiecień²,

Tekieli³

et al. 2022

pwki

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The number of patients with coronary artery disease and ischaemic heart failure -and those with terminal heart failure -is increasing despite improvements in medical and interventional therapies of ischaemic heart disease -and, over the next decades, it is projected to continue to increase further. Observer-independent, reproducible imaging techniques play a fundamental role in objective evaluation of both conventional (such as surgical or percutaneous) myocardial revascularization and novel therapeutic approaches to reduce myocardial ischaemia, improve contractility and prevent adverse myocardial remodelling. To be applicable to clinical practice, the clinical study design and data should best be rooted in everyday clinical practice. Accurate and reproducible assessment of left ventricular ejection fraction, left ventricular volumes, myocardial perfusion and function is one of the most important objectives of cardiac imaging. Current techniques used both in clinical studies and in everyday clinical practice include 2-and 3-dimensional echocardiography, magnetic resonance imaging, single-photon emission computed tomography and positron emission tomography; each of these has its strengths and limitations. We review present evidence on the role of single-photon emission computed tomography as a technique that may offer, through being observer-independent, the most objective evaluation of evolution of left ventricular perfusion, volumes and ejection fraction.

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Multi-modality imaging in the CIRCULATE-AMI pilot study cohort: a framework for an imaging-based randomized controlled trial of Wharton jelly mesenchymal stem cell use to stimulate myocardial repair/regeneration

Drabik¹,

Mazurek²,

Czyż³

et al. 2022

pwki

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Łukasz Czyż

Diffusion-tensor magnetic resonance imaging of the human heart in health and in acute myocardial infarction using diffusion-weighted echo-planar imaging technique with spin-echo signals

Trans-endocardial delivery of progenitor cells to compromised myocardium using the “needle technique”and risk of myocardial injury

Single-photon emission computed tomography as a fundamental tool in evaluation of myocardial reparation and regeneration therapies

Objective, observer-independent evaluation of myocardial perfusion and function: the role of SPECT

Multi-modality imaging in the CIRCULATE-AMI pilot study cohort: a framework for an imaging-based randomized controlled trial of Wharton jelly mesenchymal stem cell use to stimulate myocardial repair/regeneration

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