The first clinical trial of adipose (fat) tissue-derived stem and regenerative cells (ADRCs) for the treatment of no-option chronic heart disease patients showed that the procedure was safe and feasible. It also demonstrated a statistically significant improvement in maximum oxygen consumption (MVO2) and patients' aerobic capacity measured as metabolic equivalents (METS) and reduced the extent of infarct size in the left ventricle. Stem and regenerative cells were prepared and made available at the point-of-care using the Celution System, the proprietary cell processing device developed by trial sponsor Cytori Therapeutics.
The study, referred to as the Precise trial, is a multi-center 27 patient, double-blind, placebo-controlled, dose-escalation European study in patients with chronic myocardial ischemia, a severe form of heart disease.
Highlights of the study's six-month outcomes are – liposuction and cell injection were safe in these severely compromised patients, with no serious adverse events (arrhythmia or major adverse cardiac events). MVO2 showed a statistically significant improvement from baseline to six-months in the cell treated group as compared to placebo. MVO2 is a clinically relevant prognostic factor in heart disease and is commonly used as a contributing measure to stratify patients for heart transplant. The results showed absolute increase (improvement) in MVO2 by 0.6 mL/kg/min in the treated group versus 2.8 mL/kg/min decrease (worsening) in the placebo group from baseline to six-months, based on matched-pair analysis. This difference was statistically significant (p < 0.05). This analysis excludes two patients whose follow up MVO2 results were not available.
For the entire cohort of patients, mean MVO2 improved from 16.6 mL/kg/min at baseline to 17.2 mL/kg/min at six-months in cell-treated patients, and worsened from 19.0 mL/kg/min to 15.5 mL/kg/min in the placebo group. METS (metabolic equivalent), a measure of the patient's aerobic capacity, improved by 0.2 points from baseline to six-months in the cell treated group compared to a decrease of 0.8 points from baseline to follow up in the placebo group based on matched-pair analysis; the difference was statistically significant (p < 0.05). The per cent of left ventricle infarcted, the portion of the heart not receiving blood to support pumping, decreased (improved) by 3.0 per cent in the cell treated group compared to an increase (worsening) of 5.2 per cent in the placebo group, an absolute difference of 8.2 per cent. Improvements in New York Heart Association Functional Class, which classifies the severity of heart disease on a scale of one to four, were observed in 63 per cent of patients treated with cells as compared to observed in 33 per cent of patients in the placebo group
Primary six-month outcomes from the study were presented today, at the seventhInternational Symposium on Stem Cell Therapy & Cardiovascular Innovation in Madrid, Spain. The study was led by Principal Investigator of the Study Francisco Fernández-Avilés professor of Medicine and chief of Department of Cardiology at Hospital Universitario Gregorio Marañón (Madrid) with the collaboration of co-principal investigator Emerson C Perin director, Clinical Research for Cardiovascular Medicine, and Medical Director, Stem Cell Center, Texas Heart Institute. Patrick W Serruys, professor of Interventional Cardiology at the Thoraxcentre, Erasmus University Hospital participated as co-investigator in this trial.
"ADRCs have emerged as a promising cell-based therapy for heart disease," said Dr Aviles. "They possess two distinct advantages compared to cells from alternative sources. First, a high number of cells can be quickly accessed and prepared for reinjection using Celution. Second, they yield a mixed population of cells rich in several growth factors and cytokines, believed to impart several repair mechanisms. The results of the Precise trial are really encouraging and fully consistent with preclinical evidence that ADRCs improve perfusion and performance of chronic ischemic heart failure by producing new vessels."
"We showed the Celution-based procedure is safe and feasible in severely compromised patients and improved various measures, which are suggestive of efficacy," said Dr Perin. "MVO2 in particular is one of the most widely accepted predictors of clinical outcomes, including mortality and the requirement for a heart transplant. We are excited to report statistically significant improvement in MVO2 and its corollary METS in this study, which is highly suggestive of the power of these adipose-derived stem and regenerative cells."
"Cytori is extremely appreciative to the patients who participated as well as to the investigators and hospital staff," added Marc H Hedrick, president of Cytori. "As additional data are compiled from PRECISE, we will incorporate the findings into the design and protocol of a planned chronic heart disease pivotal study to be funded by Cytori or a partner."
As part of the procedure, a small amount of fat tissue was removed from each patient's abdomen. Using the proprietary Celution System, stem and regenerative cells were quickly separated from each patient's fat tissue and concentrated at the point-of-care while the patients were prepared for catheterization and injection. Immediately thereafter, using the Noga System, made by Biologic Delivery Systems Group, a J&J company, a three dimensional image was created to guide the injection of cells into the injured (ischemic) regions of the heart. This six-month analysis was performed by combining the outcomes of all of the cell treated patients in the study. Further evaluation is being performed on all patients at 12 and 18 months as well as by comparing high and low cell dose cohorts.
Cytori is a leader in providing patients and physicians around the world with medical technologies that harness the potential of adult regenerative cells from adipose tissue.