Changes in Von Willebrand factor profile predicts clinical outcomes in patients on mechanical circulatory support.

BACKGROUND: The associations between mechanical circulatory support (MCS), acquired von Willebrand syndrome (AvWS), and clinical outcome are incompletely understood. METHODS: In 128 heart failure patients with pulsatile MCS implants (65 total artificial heart or biventricular assist device implants, 63 left ventricular assist device [LVAD] implants) and 76 patients with continuous flow LVAD implants, we analyzed the von Willebrand factor (vWF) profile before (≤24 h) and 17.5 (standard deviation: 5.1) days after device implant. We determined vWF concentrations, vWF activity, and vWF collagen binding capacity and calculated ratios of vWF activity/binding capacity with vWF concentration. The relation of the vWF profile with clinical outcomes such as stroke, gastrointestinal bleeding, and survival was also evaluated. Events were assessed up to 1 year of device implant. RESULTS: All entities of vWF were already significantly elevated preoperatively and remained high after MCS implantation. The ratios of vWF activity/concentration (vWF:RCo/Ag) and collagen binding capacity/concentration (vWF:CBA/Ag) were significantly reduced preoperatively and remained low postoperatively, indicating AvWS. The preoperative alterations in the vWF profile were already present in patients without intra-aortic balloon pump and/or extracorporeal circulatory membrane oxygenation implants. The vWF profile was unrelated to postoperative stroke. However, a higher postoperative ratio of vWF:CBA/Ag was independently associated with increased gastrointestinal bleeding. In addition, a postoperative increase in vWF concentrations and activity were independent predictors of increased 1-year mortality. CONCLUSIONS: Our data indicate that AvWS is present in heart failure patients before device implantation, and is independently associated with clinical outcomes, especially with 1-year mortality.

Prevalent platelet dysfunction in patients with aortic valve disease.

BACKGROUND AND AIM OF THE STUDY: In patients with heart valve disease, the valve leaflets display a gapped, rough endothelial lining often covered with calcified areas. As a consequence, blood flow is disturbed and a stimulation of components of the hemostasis system is assumed. The possible mechanisms of this process are, however, unclear at present. METHODS: Platelet function was studied in 660 patients considered for isolated coronary artery bypass graft (CABG) surgery, and in 421 patients considered for single aortic valve replacement (AVR). Platelet function was monitored preoperatively using the platelet function analyzer device (PFA-100). The test results were reported as closure time of the membrane hole at the end of a capillary tube. The von Willebrand factor antigen, and its collagen-binding activity, were also determined among subgroups of 40 AVR and 50 CABG candidates. RESULTS: Platelet dysfunction was displayed by only 22% of CAD patients, but by 83% of AVR candidates. The mean PFA closure time in AVR patients was considerably higher than in CAD patients (231 +/- 59 s versus 153 +/- 60 s, respectively; p < 0.01). The mean platelet volume, platelet distribution width and von Willebrand factor collagen binding and antigen levels did not differ between the patient groups. CONCLUSION: It is assumed that, due to disturbed flow and shear exposition, following an initial activation, the platelets are partially degranulated, shed microparticles, and might become involved in the pathogenesis of microvascular dysfunction and thrombotic events in patients with aortic valve disease.

Good manufacturing practice-compliant expansion of marrow-derived stem and progenitor cells for cell therapy.

Ex vivo expansion is being used to increase the number of stem and progenitor cells for autologous cell therapy. Initiation of pivotal clinical trials testing the efficacy of these cells for tissue repair has been hampered by the challenge of assuring safe and high-quality cell production. A strategy is described here for clinical-scale expansion of bone marrow (BM)-derived stem cells within a mixed cell population in a completely closed process from cell collection through postculture processing using sterile connectable devices. Human BM mononuclear cells (BMMNC) were isolated, cultured for 12 days, and washed postharvest using either standard open procedures in laminar flow hoods or using automated closed systems. Conditions for these studies were similar to long-term BM cultures in which hematopoietic and stromal components are cultured together. Expansion of marrow-derived stem and progenitor cells was then assessed. Cell yield, number of colony forming units (CFU), phenotype, stability, and multilineage differentiation capacity were compared from the single pass perfusion bioreactor and standard flask cultures. Purification of BMMNC using a closed Ficoll gradient process led to depletion of 98% erythrocytes and 87% granulocytes, compared to 100% and 70%, respectively, for manual processing. After closed system culture, mesenchymal progenitors, measured as CD105+CD166+CD14-CD45- and fibroblastic CFU, expanded 317- and 364-fold, respectively, while CD34+ hematopoietic progenitors were depleted 10-fold compared to starting BMMNC. Cultured cells exhibited multilineage differentiation by displaying adipogenic, osteogenic, and endothelial characteristics in vitro. No significant difference was observed between manual and bioreactor cultures. Automated culture and washing of the cell product resulted in 181 x 10(6) total cells that were viable and contained fibroblastic CFU for at least 24 h of storage. A combination of closed, automated technologies enabled production of good manufacturing practice (GMP)-compliant cell therapeutics, ready for use within a clinical setting, with minimal risk of microbial contamination.

Heparin-induced thrombocytopenia in patients receiving mechanical circulatory support.

OBJECTIVES: Patients receiving mechanical circulatory support are at risk for the development of heparin-induced thrombocytopenia due to the prolonged postoperative use of heparin. We evaluated their antibody status and outcome. METHODS: Between 2003 and 2004, 115 patients received mechanical circulatory support for more than 5 days. Blood samples from postoperative day 7 were retrospectively analyzed for anti-platelet factor 4/heparin antibodies and heparin-induced platelet activation. RESULTS: Overall, 12 (10.6%) patients had heparin-induced thrombocytopenia as defined by in vitro platelet activation, 28 (24.8%) had nonactivating antibodies, and 73 (64.6%) were classified as negative for antibodies. Patients positive for heparin-induced thrombocytopenia had the highest levels of anti-platelet factor 4/heparin immunoglobulin G antibodies. Freedom from thromboembolism was 33%, 33%, and 16% at 1, 3, and 6 months for positive patients, 77%, 68%, and 55% for negative patients (P < .001), and 70%, 53%, and 53% for patients with nonactivating antibodies (P = .068), respectively. The relative risk for thromboembolism in antibody positive patients peaked in the first month of support (odds ratio 7.46, P = .002). Independent risk factors for thromboembolic events included higher anti-platelet factor 4/heparin antibody titers, female gender, and higher fibrinogen levels. CONCLUSION: Heparin-induced thrombocytopenia was more prevalent in patients receiving mechanical circulatory support than in other cardiac patients. Frequent antibody screening is recommended due to the increased risk of thromboembolism. Heparin alternatives should be subjected to clinical trials in these high-risk patients.