文摘
Although several preclinical studies have shown that bone marrow cell (BMC) transplantation promotes cardiac recovery after myocardial infarction, clinical trials with unfractionated bone marrow have shown variable improvements in cardiac function.p>
Methods
<p id="sp0035">To determine whether in a population of post–myocardial infarction patients, functional recovery after BM transplant is associated with specific BMC subpopulation, we examined the association between BMCs with left ventricular (LV) function in the LateTIME-CCTRN trial.p>Results
<p id="sp0040">In this population, we found that older individuals had higher numbers of BM CD133p>+p> and CD3p>+p> cells. Bone marrow from individuals with high body mass index had lower CD45p>dimp>/CD11bp>dimp> levels, whereas those with hypertension and higher C-reactive protein levels had higher numbers of CD133p>+p> cells. Smoking was associated with higher levels of CD133p>+p>/CD34p>+p>/VEGFR2p>+p> cells and lower levels of CD3p>+p> cells. Adjusted multivariate analysis indicated that CD11bp>dimp> cells were negatively associated with changes in LV ejection fraction and wall motion in both the infarct and border zones. Change in LV ejection fraction was positively associated with CD133p>+p>, CD34p>+p>, and CD45p>+p>/CXCR4p>dimp> cells as well as faster BMC growth rates in endothelial colony forming assays.p>Conclusions
<p id="sp0045">In the LateTIME population, BM composition varied with patient characteristics and treatment. Irrespective of cell therapy, recovery of LV function was greater in patients with greater BM abundance of CD133p>+p> and CD34p>+p> cells and worse in those with higher levels of CD11bp>dimp> cells. Bone marrow phenotype might predict clinical response before BMC therapy and administration of selected BM constituents could potentially improve outcomes of other future clinical trials.