Effect of Progenitor Cells on Myocardial Perfusion and Metabolism in Patients After Recanalization of a Chronically Occluded Coronary Artery

Kendziorra, Kai; Barthel, Henryk; Erbs, Sandra; Emmrich, Frank; Hambrecht, Rainer; Schuler, Gerhard; Sabri, Osama; Kluge, Regine

doi:10.2967/jnumed.107.046706

Cited by 13 publications

(11 citation statements)

References 29 publications

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“…Hence, it is important to quantify engraftment in vivo and examine the influence of cell number on functional benefit and cardiac electrophysiology. PET and SPECT imaging have the potential to play a major role in pre-clinical and clinical studies of stem cell therapies because they provide information on myocardial viability, ejection fraction, infarct size, coronary flow reserve, and myocardial perfusion (which are important endpoints following stem cell transplantation) [1][2][3]6,7,9,[12][13][14]16,19,[21][22][23][24][27][28][29][35][36][37][38][39][40][41][42][43] in addition to permitting quantification of stem cell engraftment.…”

Section: Introductionmentioning

confidence: 99%

SPECT and PET to optimize cardiac stem cell therapy

Chan

Abraham

2012

Journal of Nuclear Cardiology

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Section: Introductionmentioning

confidence: 99%

SPECT and PET to optimize cardiac stem cell therapy

Chan

Abraham

2012

Journal of Nuclear Cardiology

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“…Consistent with this notion, in the TOPCARE-CHD trial, BMMNC therapy but not CPC therapy was able to improve outcome variables in patients with chronic IHD (7). In contrast, in the study by Erbs et al (24,45), CPC injection was effective in improving both global and regional wall motion in patients with chronic total occlusion. Importantly, compared with the TOPCARE-CHD study (7), Erbs et al (24) injected nearly threefold greater number of CPCs (22 AE 11 vs. 69 AE 14 million) within a shorter time window following MI (77 AE 76 vs. 7.5 AE 2.9 months).…”

Section: Tailoring Cell Therapy For Specific Patient Populationsmentioning

confidence: 77%

“…In contrast, in an earlier RCT by Erbs et al (24), intracoronary CPC injection in patients with IHD and chronic total occlusion of coronary artery reduced infarct size, improved regional wall motion and global LVEF, decreased the number of hibernating myocardial segments, and increased coronary flow reserve. These results (24) suggest that the benefits of late reperfusion may be enhanced by concomitant CPC therapy, which improves myocardial perfusion=metabolism mismatch in these patients (45). However, the role of myocardial milieu (acutely infarcted versus remodeled myocardium) as a determinant of outcomes following CPC transplantation needs to be examined in future clinical trials.…”

Section: Mobilized Progenitor Cellsmentioning

confidence: 94%

Cardiac Repair with Adult Bone Marrow-Derived Cells: The Clinical Evidence

Dawn

Abdel‐Latif

Sanganalmath

et al. 2009

Antioxidants & Redox Signaling

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On the basis of strong evidence from animal studies, numerous clinical trials of cardiac repair with adult bone marrow-derived cells (BMC) have been completed. These relatively smaller studies employed different BMC types with highly variable numbers, routes, and timings of transplantation, and included patients with acute myocardial infarction (MI), chronic ischemic heart disease (IHD), as well as ischemic cardiomyopathy. Although the outcomes have been predictably disparate, analysis of pooled data indicates that BMC therapy in patients with acute MI and chronic IHD results in modest improvements in left ventricular function and infarct scar size without any increase in untoward effects. However, the precise mechanisms underlying these benefits remain to be ascertained, and the specific advantages of one BMC type over another remain to be determined. The long-term benefit and safety issues with different BMC types are currently being evaluated critically in larger randomized controlled trials with a view to applying this novel therapeutic strategy to broader patient populations. The purpose of this review is to summarize the available clinical evidence regarding the efficacy and safety of therapeutic cardiac repair with different types of adult BMCs, and to discuss the key variables that need optimization to further enhance the benefits of BMC therapy.

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“…As an example of this cell-specific efficacy, BMMNCs but not CPCs were able to improve outcomes in patients with chronic cardiomyopathy in the TOPCARE-CHD trial [30]. However, CPC injection improved global LV function and regional wall motion in patients with chronic total occlusion in the study by Erbs et al [65, 90]. Importantly, Erbs et al injected larger number of CPCs (69 ± 14 million vs. 22 ± 11 million) at a shorter time interval after MI (7.5 ± 2.9 months vs. 77 ± 76 months) compared with the TOPCARE-CHD study [30], [65].…”

Section: Methodological Considerationsmentioning

confidence: 99%

Clinical Trials of Cardiac Repair with Adult Bone Marrow- Derived Cells

Jeevanantham

Afzal

Zuba‐Surma

et al. 2013

Methods in Molecular Biology

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The past decade has witnessed a marked increase in the number of clinical trials of cardiac repair with adult bone marrow cells (BMCs). These trials included patients with acute myocardial infarction (MI) as well as chronic ischemic heart disease (IHD) and utilized different types of BMCs with variable numbers, routes of administration, and timings after MI. Given these differences in methods, the outcomes from these trials have been often disparate and controversial. However, analysis of pooled data suggests that BMC injection enhances left ventricular function, reduces infarct scar size, and improves remodeling in patients with acute MI as well as chronic IHD. BMC therapy also improves clinical outcomes during follow-up without any increase in adverse effects. Although the underlying mechanisms of heart repair are difficult to elucidate in human studies, valuable insights may be gleaned from subgroup analysis of key variables. This information may be utilized to design future randomized controlled trials to carefully determine the long-term safety and benefits of BMC therapy.

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Effect of Progenitor Cells on Myocardial Perfusion and Metabolism in Patients After Recanalization of a Chronically Occluded Coronary Artery

Cited by 13 publications

References 29 publications

SPECT and PET to optimize cardiac stem cell therapy

SPECT and PET to optimize cardiac stem cell therapy

Cardiac Repair with Adult Bone Marrow-Derived Cells: The Clinical Evidence

Clinical Trials of Cardiac Repair with Adult Bone Marrow- Derived Cells

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