Background: Approximately 20% of patients suffering a ST segment elevated acute myocardial infarction (AMI) have progressive peri-infarct zone myocardial cell death causing ventricular remodeling and poor cardiac outcomes in spite of standard medical care. Neo-angiogenesis has been proposed as a natural, albeit insufficient response to mitigate ventricular remodeling resulting from an AMI. Stromal derived growth factor-1 (SDF-1), the ligand for the CXCR4 receptor, is expressed by bone marrow derived CD34+ cells and is produced in increased quantities in the peri-infarct zone. CD34+CXCR4+ cells are the cells naturally mobilized from bone marrow following an AMI to induce neo-angiogenesis. Thus we conducted a series of pre-clinical studies to develop a pharmaceutical grade bone marrow derived cell therapy product with neo-angiogenic potential for direct intra-coronary artery infusion in patients following an AMI.

Methods: Bone marrow samples were obtained from healthy volunteer donors using a mini-bone marrow harvest technique (MMH). Bone marrow was stored at 4°C for up to 24 hours then processed using Isolex (Baxter, Ill) selection to acquire CD34+ cells, formulated into a delivery apparatus and stored again at 4°C for up to an additional 48 hours in a shipping container. Following storage the cell therapy product was assessed for cell recovery, viability, sterility, CXCR-4 mobility in an SDF-1 gradient, and CFU growth before and after perfusion through the internal port of an intra-coronary artery balloon dilatation catheter.

Results :13 donors (11F and 2M), with a median age of 43 years (mean 43; range 21 – 61 years) yielded a median % CD34+ cells of total nucleated cells of 1.45% (mean 1.38%; range 0.92 – 1.71%) with a higher % in males vs. females (1.67 vs.1.33%) and older (≥ 45years) vs. younger (1.49 vs.1.26%) donors. CD34+ cell viability (median 96%; range 91–98%), % CD34+ mobility in an SDF-1 gradient (11.8; 4.5–34%), CFU growth (20; 14–54) and sterility were all maintained for up to 72 hours from MMH (table). Passage of the CD34+ cells through a balloon catheter did not adversely affect any of these parameters including % mobility (at 72 hours n=3; Pre% 34, 6, 18: Post 34, 18, 23). Multiple passages (n=3) through balloon dilatation catheters did not result in significant CD34+ cell loss (median recovery 99%; range 97–111%) or loss of viability (95%; range 92–98%).

Conclusion: Bone marrow derived CD34+ cells selected using the Isolex device and formulated for shipping and administration maintain for up to 72 hours a high viability, mobility in an in vitro SDF-1 gradient, CFU potential and remain sterile despite multiple passages through a balloon dilatation catheter without significant cell loss. This formulation (AMR-001) provides a pharmaceutical grade cell therapy for clinical evaluation in AMI.

Median (n>3)

Hours from MMH36 hours60 hours72 hours
Selected CD34+ cell viability % (range) 96 (95–98) 96 (91–97) 97 (91–97) 
Selected CD34+ mobility % 19 (11–20) 6.2 (4.5–8.8) 18 (5.7–34) 
CD34+ CFU (colonies) 21 (13–54) 15 (14–28) 27 (14–37) 
Hours from MMH36 hours60 hours72 hours
Selected CD34+ cell viability % (range) 96 (95–98) 96 (91–97) 97 (91–97) 
Selected CD34+ mobility % 19 (11–20) 6.2 (4.5–8.8) 18 (5.7–34) 
CD34+ CFU (colonies) 21 (13–54) 15 (14–28) 27 (14–37) 

Author notes

Disclosure:Employment: Dr Preti, Pecora and Chan are employed by Progenitor Cell Therapy. Dr Moss and Pecora are employed by Amorcyte Consultancy: Dr Waller, Quyyumi and Vaughan are scientific advisors to Amorcyte. Ownership Interests: Dr Pecora and Preti are equity shareholders in Amorcyte and Progenitor Cell Therapy. Research Funding: Dr Waller, Quyyumi and Vaughan receive funding from Amorcyte. Membership Information: Dr Preti and Pecora are members of the Board of Directors of Progenitor Cell Therapy, Dr Pecora is a board Member of Amorcye.

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