Cell Separation System for Fully Automated Clinical Scale Separation of CD133+ Cells From Bone Marrow Aspirates.

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 1188-1188
Author(s):  
Mike Essl ◽  
Juliane Stuth ◽  
Volker Huppert ◽  
Dirk Balshüsemann ◽  
Petra Bauer ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Cell Separation ◽  
Left Ventricular ◽  
Separation Process ◽  
Bone Marrow Sample ◽  
Clinical Scale ◽  
Nacl Solution ◽  
Separation System ◽  
Autologous Plasma ◽  
Whole Process

Abstract Abstract 1188 An increasing number of clinical trials are enrolling patients in studies designed to examine the safety and efficacy of autologous stem cells for cardiac repair. Recent reports suggest that patients receiving CD133+ bone marrow cells after myocardial infarction, or as a treatment for ischemic cardiomyopathy, may benefit from an increase in global left ventricular function. Today the clinical scale enrichment of CD133+ cells has to be performed as a complex procedure involving numerous manual handling steps as well as a semi-automated magnetic separation process. We have developed a fully automated clinical scale process to purify CD133+ cells out of human bone marrow aspirates. The whole process was performed in a closed system, containing appropriate adaptors and tubing material, suitable for sterile connection of the bone marrow sample and required solutions, respectively. For the whole separation process, the total processing time was reduced from about 4.5 h (previous process) to 2.5 h. In this context, erythrocyte reduction, generation of autologous plasma, labeling time as well as the conditions for immunomagnetic separation of the CD133+ cells and the automatic monitoring of the whole process by a newly developed camera were optimized. To determine the reproducibility and stability of the process, CD133+ cells were separated from bone marrow aspirates with an initial volume of about 60 mL (n=10). The intitial frequency of CD133+ cells amounted to 0.34% (range: 0.11% to 0.66%) and the number of isolated CD133+ cells was 7.9×105 (range: 3.7×105 to 1.9×106). The yield was 47% (range: 23.9% to 50.9%) and the average viability of the separated CD133+ cells achieved 90% (range: 69.9% to 96.9%). The separation process typically achieved a >3.0 log depletion of CD133 negative cells, i.e. 99.9% of CD133 negative cells were removed. The log depletion of different cell types were: 4.0 for CD3+ cells (i.e. 99.99% removal), 3.1 for CD19+ cells, 3.4 for CD56+ cells, 3.2 for CD14+ cells, and 3.7 for CD15+ cells (n=3, respectively). After separation the CD133+ cells were automatically resuspended in 6 mL of clinical grade isotonic NaCl solution. For storage or transport of the cells, the NaCl solution could be automatically supplemented with 10% autologous plasma, generated out of the bone marrow sample during the separation process. The described cell separation system provides a safe and easy way to purify CD133+ cells from bone marrow aspirates within 2.5 h without any intermediate manual steps. The cell preparation in a closed sterile system facilitates a fast and robust enrichment of CD133+ cells. After separation the CD133+ cells are available in small volume and can be formulated for further use e.g. according to requirements for use in regenerative medicine. Disclosures: Essl: Miltenyi Biotec GmbH: Employment. Stuth:Miltenyi Biotec GmbH: Employment. Huppert:Miltenyi Biotec GmbH: Employment. Balshüsemann:Miltenyi Biotec GmbH: Employment. Bauer:Miltenyi Biotec GmbH: Employment. Miltenyi:Miltenyi Biotec GmbH: Employment.

Bone Marrow Stem Cells Infusion in Treatment of Patients with Acute Myocardial Infarction.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 1682-1682
Author(s):  
Lidia Gil ◽  
Anna Czyz ◽  
Krzysztof Sawinski ◽  
Maria Kozlowska-Skrzypczak ◽  
Mieczyslaw Komarnicki ◽  
...  
Keyword(s):  
Myocardial Infarction ◽  
Acute Myocardial Infarction ◽  
Stem Cells ◽  
Bone Marrow ◽  
Left Ventricular Function ◽  
Ventricular Function ◽  
Left Ventricular ◽  
Control Group ◽  
Acute Pulmonary Oedema ◽  
Autologous Plasma

Abstract Experimental and clinical data show that bone marrow-derived stem cells (BMSC) can contribute to myocardial regeneration after ischemic injury. We present results of intracoronary infusion of autologous BMSCs in treatment of patients (pts) with acute myocardial infarction (MI). 36 pts with first, anterior wall MI, successfully treated with percutaneous coronary angioplasty were enrolled into the study. 24 pts, aged 50.1±9.05 yrs received intracoronary BMSC infusion 4 to 7 days after MI. Control group consisted of 12 pts, aged 51.6±8.7 yrs. In BMSC group BM in total volume 80 (50–150) ml was collected from iliac crest to buffered saline with heparine. After isolation and 18–24 hrs cultivation BMSCs were resuspended in autologous plasma in final volume 12.25±2.05 ml. The mean number of MNC, CD34+, CD133+/CD45+ and CD133+/CD45− cells were respectively: 0.41±0.18x10e9, 3.89±1.45x10e6, 0.96±0.6x10e6, 0.15±0.1x10e6. Transplanted material was divided into 3–5 portion and injected directly to infarcted area (Strauer method). Left ventricular function was evaluated by echocardiography (contactility index, CI), Tc-99 MIBI SPECT (perfusion index, PI) at rest (R) and with dipiridamol (D) and radionuclide ventriculography (ejection fraction, EF) at baseline and after 3, 6, 12 months (mo). CI and PI were assessed in left ventricle and infarct related artery (IRA) area. Control coronary angiography was performed after 6 mo. No adverse effects of BM aspiration in early MI were observed. One pts revealed chills and fever and 1 acute pulmonary oedema after cell infusion. Control angiography revealed restenosis in 3 pts from BMSC and 2 from control group. Results of cardiac test are presented in table. Conclusions: Intracoronary autologous BMNCs transplantation is safe and feasible. Improvement of left ventricular function was observed in BMSC group, mainly concerning perfusion. No accelerated atherosclerosis was seen after intracoronary BMSC administration. Results of cardiac tests BMSC group Control group p CI/CI-IRA 7 day 1.62±0.19/2.3±0.36 1.6±0.24/2.21±0.41 ns CI/CI-IRA 3 mo 1.55±0.2/2.12±0.4 1.65±0.3/2.34±0.64 ns CI/CI-IRA 6 mo 1.5±0.2/2.16±0.37 1.7±0.29/2.46±0.51 0.02 CI/CI-IRA 12 mo 1.55±0.2/2.24±0.44 1.72±0.33/2.48±0.51 ns Pi/PI-IRA-R 10 day 2.45±0.63/2.96±0.88 2.45±0.53/3.04±0.74 ns PI/PI-IRA-R 3 mo 2.25±0.37/2.79±0.61 2.36±0.44/2.88±0.61 ns PI/PI-IRA-R 6 mo 2.19±0.43/2.68±0.67 2.43±0.32/3.02±0.45 0.07 PI/PI-IRA-R 12 mo 2.11±0.33/2.63±0.46 2.36±0.31/2.98±0.46 ns PI/PI-IRA-D 10 day 2.45±0.63/2.96±0.88 2.45±0.53/3.04±0.74 ns PI/PI-IRA-D 3 mo 2.3±0.42/2.87±0.67 2.43±0.4/2.93±0.44 ns PI/PI-IRA-D 6 mo 2.2±0.44/2.58±0.83 2.48±0.43/3.12±0.48 0.06 PI/PI-IRA-D 12 mo 2.16±0.43/2.59±0.6 2.57±0.44/3.35±0.42 0.009 EF 4 day 45.0±7.9 41.6±6.6 ns EF 6 mo 48.2±9.2 42.1±11.4 0.07 EF 12 mo 48.5±4.9 38.9±7.7 0.002

scholarly journals Cell Separation System for Fully Automated Clinical Scale Separation of CD34+ Cells from Leukapheresis Products

2014 ◽  
Vol 20 (2) ◽  
pp. S130
Author(s):  
Mike Essl ◽  
Juliane Stuth ◽  
Kristina Reck ◽  
Volker Huppert ◽  
Nanette von Oppen ◽  
...  
Keyword(s):  
Cell Separation ◽  
Clinical Scale ◽  
Separation System ◽  
Scale Separation ◽  
Cd34 Cells

Principles of Bone Marrow Processing and Progenitor Cell/Mononuclear Cell Concentrate Collection in a Continuous Flow Blood Cell Separation System

1995 ◽  
Vol 4 (4) ◽  
pp. 299-306 ◽  
Author(s):  
JEANE P. HESTER ◽  
GABRIELA RONDÓN ◽  
YANG O. HUH ◽  
M. JO LAUPPE ◽  
RICHARD E. CHAMPLIN ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Blood Cell ◽  
Mononuclear Cell ◽  
Continuous Flow ◽  
Cell Separation ◽  
Progenitor Cell ◽  
Separation System

Development and study of a method for cell separation during white blood cell segmentation on images of bone marrow preparations in information and measurement systems for diagnostics of acute leukemia

2020 ◽  
pp. 68-72
Author(s):  
V.G. Nikitaev ◽  
A.N. Pronichev ◽  
V.V. Dmitrieva ◽  
E.V. Polyakov ◽  
A.D. Samsonova ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Blood Cell ◽  
Acute Leukemia ◽  
White Blood Cell ◽  
Cell Separation ◽  
Large Scale ◽  
Bone Marrow Cells ◽  
Automated Analysis ◽  
Cell Segmentation ◽  
Measurement Systems

The issues of using of information and measurement systems based on processing of digital images of microscopic preparations for solving large-scale tasks of automating the diagnosis of acute leukemia are considered. The high density of leukocyte cells in the preparation (hypercellularity) is a feature of microscopic images of bone marrow preparations. It causes the proximity of cells to eachother and their contact with the formation of conglomerates. Measuring of the characteristics of bone marrow cells in such conditions leads to unacceptable errors (more than 50%). The work is devoted to segmentation of contiguous cells in images of bone marrow preparations. A method of cell separation during white blood cell segmentation on images of bone marrow preparations under conditions of hypercellularity of the preparation has been developed. The peculiarity of the proposed method is the use of an approach to segmentation of cell images based on the watershed method with markers. Key stages of the method: the formation of initial markers and builds the lines of watershed, a threshold binarization, shading inside the outline. The parameters of the separation of contiguous cells are determined. The experiment confirmed the effectiveness of the proposed method. The relative segmentation error was 5 %. The use of the proposed method in information and measurement systems of computer microscopy for automated analysis of bone marrow preparations will help to improve the accuracy of diagnosis of acute leukemia.

Clinical Labeling and Imaging of Transplanted CD133+/CD34+ Stem Cells in Patients with Ischemic Heart Disease

2012 ◽  
Vol 15 (2) ◽  
pp. 116 ◽  
Author(s):  
Ali Ghodsizad ◽  
Viktor Bordel ◽  
Brian Bruckner ◽  
Mathias Loebe ◽  
Gunter Fuerst ◽  
...  
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Cell Separation ◽  
Coronary Artery Bypass Surgery ◽  
Iliac Crest ◽  
Artery Bypass ◽  
Good Manufacturing Practice ◽  
Novel Method ◽  
End Stage Heart Failure ◽  
End Stage

The application of somatic stem cells has been shown to support the recovery of the myocardium in end-stage heart failure. A novel method for the intraoperative isolation and labeling of bone marrow-derived stem cells was established. After induction of general anesthesia, up to 400 mL of bone marrow were harvested from the posterior iliac crest and processed in the operating room under good manufacturing practice conditions by means of the automated cell-selection device Clini-MACS (Miltenyi Biotec). We subsequently injected autologous CD133<sup>+</sup> and CD34<sup>+</sup> stem cells in a predefined pattern around the laser channels in patients undergoing coronary artery bypass surgery and transmyocardial laser procedures. Intraoperative isolation and labeling is an effective cell-separation tool for the future, considering that novel cell markers can be promising new candidates for cell therapy.

The utility of strain imaging in the cardiac surveillance of bone marrow transplant patients

Heart ◽  
2021 ◽  
pp. heartjnl-2021-319359
Author(s):  
Tejas Deshmukh ◽  
Peter Emerson ◽  
Paul Geenty ◽  
Shehane Mahendran ◽  
Luke Stefani ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Global Longitudinal Strain ◽  
Group Versus ◽  
Marrow Transplant ◽  
Cross Sectional Study ◽  
Left Ventricular ◽  
Right Ventricular Free Wall ◽  
Cross Sectional ◽  
Allogenic Bone ◽  
Transplant Patients

ObjectiveTo evaluate the utility of two-dimensional multiplanar speckle tracking strain to assess for cardiotoxicity post allogenic bone marrow transplantation (BMT) for haematological conditions.MethodsCross-sectional study of 120 consecutive patients post-BMT (80 pretreated with anthracyclines (BMT+AC), 40 BMT alone) recruited from a late effects haematology clinic, compared with 80 healthy controls, as part of a long-term cardiotoxicity surveillance study (mean duration from BMT to transthoracic echocardiogram 6±6 years). Left ventricular global longitudinal strain (LV GLS), global circumferential strain (LV GCS) and right ventricular free wall strain (RV FWS) were compared with traditionl parameters of function including LV ejection fraction (LVEF) and RV fractional area change.ResultsLV GLS (−17.7±3.0% vs −20.2±1.9%), LV GCS (−14.7±3.5% vs −20.4±2.1%) and RV FWS (−22.6±4.7% vs −28.0±3.8%) were all significantly (p=0.001) reduced in BMT+AC versus controls, while only LV GCS (−15.9±3.5% vs −20.4±2.1%) and RV FWS (−23.9±3.5% vs −28.0±3.8%) were significantly (p=0.001) reduced in BMT group versus controls. Even in patients with LVEF >53%, ~75% of patients in both BMT groups demonstrated a reduction in GCS.ConclusionMultiplanar strain identifies a greater number of BMT patients with subclinical LV dysfunction rather than by GLS alone, and should be evaluated as part of post-BMT patient surveillence. Reduction in GCS is possibly due to effects of preconditioning, and is not fully explained by AC exposure.

scholarly journals ACE Inhibition Modulates Myeloid Hematopoiesis after Acute Myocardial Infarction and Reduces Cardiac and Vascular Inflammation in Ischemic Heart Failure

Antioxidants ◽  
2021 ◽  
Vol 10 (3) ◽  
pp. 396
Author(s):  
Wolf-Stephan Rudi ◽  
Michael Molitor ◽  
Venkata Garlapati ◽  
Stefanie Finger ◽  
Johannes Wild ◽  
...  
Keyword(s):  
Myocardial Infarction ◽  
Heart Failure ◽  
Bone Marrow ◽  
Left Ventricular Function ◽  
Ventricular Function ◽  
Vascular Inflammation ◽  
Ace Inhibition ◽  
Left Ventricular ◽  
Ischemic Heart ◽  
Ischemic Heart Failure

Aims: Angiotensin-converting-enzyme inhibitors (ACE inhibitors) are a cornerstone of drug therapy after myocardial infarction (MI) and improve left ventricular function and survival. We aimed to elucidate the impact of early treatment with the ACE inhibitor ramipril on the hematopoietic response after MI, as well as on the chronic systemic and vascular inflammation. Methods and Results: In a mouse model of MI, induced by permanent ligation of the left anterior descending artery, immediate initiation of treatment with ramipril (10 mg/k/d via drinking water) reduced cardiac inflammation and the number of circulating inflammatory monocytes, whereas left ventricular function was not altered significantly, respectively. This effect was accompanied by enhanced retention of hematopoietic stem cells, Lin−Sca1−c-Kit+CD34+CD16/32+ granulocyte–macrophage progenitors (GMP) and Lin−Sca1−c-Kit+CD150−CD48− multipotent progenitors (MPP) in the bone marrow, with an upregulation of the niche factors Angiopoetin 1 and Kitl at 7 d post MI. Long-term ACE inhibition for 28 d limited vascular inflammation, particularly the infiltration of Ly6Chigh monocytes/macrophages, and reduced superoxide formation, resulting in improved endothelial function in mice with ischemic heart failure. Conclusion: ACE inhibition modulates the myeloid inflammatory response after MI due to the retention of myeloid precursor cells in their bone marrow reservoir. This results in a reduction in cardiac and vascular inflammation with improvement in survival after MI.

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