Quantification of Non-Specific Binding of Magnetic Micro- and Nanoparticles Using Cell Tracking Velocimetry: Implication for Magnetic Cell Separation and Detection

J.J. Chalmers; Y. Xiong; X. Jin; M. Shao; X. Tong; S. Farag; M. Zborowski

首页> 外文期刊>Biotechnology and Bioengineering >Quantification of Non-Specific Binding of Magnetic Micro- and Nanoparticles Using Cell Tracking Velocimetry: Implication for Magnetic Cell Separation and Detection

【24h】

Quantification of Non-Specific Binding of Magnetic Micro- and Nanoparticles Using Cell Tracking Velocimetry: Implication for Magnetic Cell Separation and Detection

机译：定量使用细胞跟踪测速法的磁性微粒和纳米粒子的非特异性结合：对磁性细胞分离和检测的意义。

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

The maturation of magnetic cell separation technology places increasing demands on magnetic cell separation performance. While a number of factors can cause sub-optimal performance, one of the major challenges can be non-specific binding of magnetic nano- or microparticles to non-targeted cells. Depending on the type of separation, this non-specific binding can have a negative effect on the final purity, the recovery of the targeted cells, or both. In this work, we quantitatively demonstrate that nonspecific binding of magnetic nanoparticles can impart a magnetization to cells such that these cells can be retained in a separation column and thus negatively impact the purity of the final product and the recovery of the desired cells. Through experimental data and theoretical arguments, we demonstrate that the number of MACS magnetic particles needed to impart a magnetization that is sufficient to cause non-targeted cells to be retained in the column to be on the order of 500–1,000 nanoparticles. This number of nonspecifically bound particles was demonstrated experimentally with an instrument, cell tracking velocimeter, CTV, and it is demonstrated that the sensitivity of the CTV instrument for Fe atoms contained in magnetic nanoparticles on the order of 11015 g/mL of Fe.

机译：磁性细胞分离技术的成熟对磁性细胞分离性能提出了越来越高的要求。尽管许多因素会导致性能欠佳，但主要挑战之一可能是磁性纳米粒子或微粒与非靶向细胞的非特异性结合。根据分离的类型，这种非特异性结合可能对最终纯度，靶细胞的回收率或两者均产生负面影响。在这项工作中，我们定量地证明了磁性纳米颗粒的非特异性结合可以赋予细胞磁化作用，使得这些细胞可以保留在分离柱中，从而对最终产品的纯度和所需细胞的回收率产生负面影响。通过实验数据和理论论证，我们证明了赋予磁化强度所需的MACS磁性颗粒数量足以使非靶向细胞保留在色谱柱中，数量约为500-1,000个纳米颗粒。使用仪器，细胞跟踪测速仪CTV通过实验证明了这种非特异性结合的粒子数量，并且证明了CTV仪器对于磁性纳米粒子中所含Fe原子的敏感性约为11015 g / mL Fe。

著录项

来源
《Biotechnology and Bioengineering》 |2010年第6期|共16页
作者
J.J. Chalmers; Y. Xiong; X. Jin; M. Shao; X. Tong; S. Farag; M. Zborowski;
展开▼
作者单位

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类生物工程学（生物技术）;
关键词
magnetic cell separation; magnetic nanoparticles; MACS; magnetophoretic mobility; non-specific binding; nanoparticle uptake;

机译：磁性细胞分离磁性纳米颗粒MACS磁致动性非特异性结合纳米颗粒吸收;

相似文献

外文文献
中文文献
专利

1. Quantification of Non-Specific Binding of Magnetic Micro- and Nanoparticles Using Cell Tracking Velocimetry: Implication for Magnetic Cell Separation and Detection [J] . J.J. Chalmers, Y. Xiong, X. Jin, Biotechnology and Bioengineering . 2010,第6期

机译：定量使用细胞跟踪测速法的磁性微粒和纳米粒子的非特异性结合：对磁性细胞分离和检测的意义。
2. Cell Tracking Velocimetry as a tool for defining saturation binding of magnetically conjugated antibodies [J] . Leigh DR, Steinert S, Moore LR, Cytometry, Part A: the journal of the International Society for Analytical Cytology . 2005,第2期

机译：细胞跟踪测速法作为定义磁性偶联抗体饱和结合的工具
3. Magnetic Resonance Cell-Tracking Studies:Spectrophotometry-Based Method for the Quantification of Cellular Iron Content after Loading with Superparamagnetic Iron Oxide Nanoparticles [J] . Ingrid Boehm Molecular imaging . 2011,第4期

机译：磁共振细胞跟踪研究：基于分光光度法的超顺磁性氧化铁纳米粒子加载后细胞铁含量的定量方法
4. Electrical detection of specific versus non-specific binding events in breast cancer cells [C] . Benjamin C. King, Michael Clark, Thomas Burkhead, Biosensing and nanomedicine V. . 2012

机译：电检测乳腺癌细胞中特异性和非特异性结合事件
5. Measurements of Cellular Intrinsic Magnetism with Cell Tracking Velocimetry and Separation with Magnetic Deposition Microscopy. [D] . Xue, Wei. 2016

机译：用细胞跟踪测速仪测量细胞内在磁性，并用磁沉积显微镜分离。
6. Quantification of Non-Specific Binding of Magnetic Micro and Nano particles using Cell Tracking Velocimetry: Implication for magnetic cell separation and detection [O] . J.J. Chalmers, Y. Xiong, X. Jin, -1

机译：非特异性的结合定量用磁性微纳米颗粒的细胞跟踪测速：蕴涵对于磁性细胞分离和检测
7. MODERATED EPOSTERS1385Longitudinal strain assessment in dilated cardiomyopathy patients using a novel accelerated DENSE sequence1407Simultaneous T1 and T2 cardiac quantification with CABIRIA: initial clinical experience1423Head-to-head comparison of acceleration algorithms in 4-dimensional flow CMR1502Left ventricular function and size evaluated by hybrid cardiac positron emission tomography-magnetic resonance: Intraindividual comparison of left ventricular ejection fraction and ventricular volumes derived by two modalities1510Left Atrium assessed by Cardiovascular Magnetic Resonance at 1.5 and 3 Tesla – age and gender effects1514Comparison of Free Breathing Cardiac MRI Radial technique to the Standard Multi breath-hold cine SSFP CMR technique for the assessment of LV Volumes and Function1536Self-navigated free-breathing isotropic 3D whole heart phase sensitive inversion recovery magnetic resonance without navigator for detection of myocardial infarction1547Assessment of Right Ventricular Strain Using Myocardial Deformation Recovery Semi Automated Technique: Initial Experience and Normal Values1586Tissue tracking myocardial deformation analysis and prediction of left ventricular remodeling in acute myocardial infarction1589Investigating strategies for optimal 31P MRS clinical cardiac at 3T: Initial Results1620Quantitative Criteria for the Diagnosis of the Congenital Absence of Pericardium by Cardiac Magnetic Resonance1632Widespread tissue injury during acute myocardial infarction: evidence from advanced CMR relaxometry1322Computed tomography coronary angiography verSus sTRess cArdiac magneTic rEsonance for the manaGement of sYmptomatic revascularized patients: a cost effectiveness study (STRATEGY study)1339Comparison of low- versus high-dose of gadobutrol for late gadolinium enhancement imaging at 1.5 Tesla: a clinical feasibility study1347Multi-parametric Cardiac Magnetic Resonance for Prediction of Cardiac Complications in Thalassemia Intermedia: a Prospective Multicenter Study1461Prognostic value of Cardiovascular Magnetic Resonance derived indexes of myocardial fibrosis in heart transplant recipients1523The role of CMR in the acute phase of hospitalization: changing paradigms1542Preoperative CMR-based score predict ventricular response after surgical left ventricular reconstruction in ischemic heart failure patients1555Excellent response rate to cardiac resynchronization therapy guided with magnetic resonance imaging1626The ECG as a predictor of arrhythmogenic substrate on Cardiac Magnetic Resonance Imaging in patients undergoing ablation for premature ventricular contractions1649Comparison of T1-mapping at 3.0T CMR and angiographic APPROACH score for area at risk assessment in ST-segment elevation myocardial infarction1340Pathological correlates of left bundle branch disease in patients with non-ischemic cardiomyopathy: a cardiovascular magnetic resonance study1342Myocardial remodelling and fibrosis in nonischaemic dilated cardiomyopathy: insights from cardiovascular magnetic resonance1411The association between fibrosis and contractile dysfunction in hypertrophic cardiomyopathy assessed by cardiovascular magnetic resonance1622Persistent myocardial inflammation due to intramyocardial haemorrhage in reperfused STEMI as a precursor to adverse LV remodelling - insights from multi-parametric mapping1566Semiquantitative analysis of low and high b value DWI for detecting myocardial edema in acute myocarditis1567Value of Cardiac MRI In Detecting Coronary Artery Disease In Newly Diagnosed Systolic Dysfunction1570Usefulness of cardiac magnetic resonance in tuberous sclerosis complex1578Papillary muscles offer further insight into hypertrophied hearts: a cardiovascular magnetic resonance study1627Diagnostic and clinical implications of CMR timing (early versus late) in patients with troponin positive acute coronary syndromes and unobstructed coronary arteries: Table 1. [O] . Upasana Tayal, Alexandros Kallifatidis, P. Garg, 2016

机译：在使用新的扩张型心肌病的患者缓和EPOSTERS1385Longitudinal应变评估加速DENSE sequence1407Simultaneous T1和T2与CABIRIA心脏定量：在4维流动的加速算法初始临床experience1423Head对头比较CMR1502Left心室功能和尺寸由混合心脏正电子发射断层摄影术评价 - 磁性共振：由两个modalities1510Left庭派生左室射血分数和心室体积的个体间的比较，在1.5和3特斯拉评估心血管磁共振 - 免费的年龄和性别effects1514Comparison呼吸心脏MRI径向技术标准的多屏气电影SSFP CMR技术的LV卷和Function1536Self-导航自由呼吸各向同性3D整个心脏相位敏感反转恢复磁共振导航仪没有检测右Ventricu心肌infarction1547Assessment的评估拉尔菌株使用心肌变形恢复半自动技术：初步经验和正常Values1586Tissue跟踪心肌变形分析和预测左室重构急性心肌infarction1589Investigating策略优化31P MRS临床心脏在3T：初始Results1620Quantitative标准的先天缺失的诊断心包心脏磁Resonance1632Widespread组织损伤急性心肌梗死时：证据先进CMR relaxometry1322Computed CT冠状动脉成像与压力心脏磁共振对症的管理吻合血管患者：成本效益研究（战略研究）1339Comparison低与高剂量钆布醇在1.5特斯拉晚钆增强成像的临床可行性，在中间型地贫心脏并发症的预测study1347Multi参数心脏核磁共振的前瞻性德穆尔心血管磁共振的ticenter Study1461Prognostic价值衍生心肌纤维化指标在住院的急性期CMR的心脏移植recipients1523The作用：改变基于CMR-paradigms1542Preoperative比分预测缺血性心脏衰竭patients1555Excellent响应速度外科左心室重建心脏再同步化后心室反应治疗与磁共振imaging1626The ECG导引作为心脏磁共振成像致心律失常性基板的在ST段抬高心肌infarction1340Pathological在风险评估经历在3.0T CMR T1映射的室性早搏contractions1649Comparison和血管造影APPROACH分数区域消融患者的预测左束支传导疾病的患者与非缺血性心肌病相关因素：心血管磁共振study1342Myocardial重塑和纤维化nonischaemic扩张型心肌病：在从在由心血管磁性resonance1622Persistent心肌炎症评估肥厚型心肌病的纤维化和收缩功能障碍之间心血管磁性resonance1411The协会由于心肌内出血景点在再灌注STEMI为先导，以不利的LV重塑 - 从低的多参数mapping1566Semiquantitative分析和高的b值DWI的见解为在心脏MRI检测冠状动脉疾病急性myocarditis1567Value在结节性硬化症complex1578Papillary肌肉初诊收缩期Dysfunction1570Usefulness心脏磁共振检测心肌水肿提供进一步的深入了解肥大心脏：心血管磁共振study1627Diagnostic和CMR定时的临床意义（早期与晚）患者肌钙蛋白阳性的急性冠脉综合征和通畅的冠状动脉：表1。
8. Investigation of the Interaction of Superparamagnetic Nanoparticles and Nonmagnetic Nanoparticles with Cell Membranes [R] . Williams, C. M. 2009

机译：超顺磁纳米粒子与非磁性纳米粒子与细胞膜相互作用的研究

Quantification of Non-Specific Binding of Magnetic Micro- and Nanoparticles Using Cell Tracking Velocimetry: Implication for Magnetic Cell Separation and Detection

摘要

著录项

相似文献

相关主题

期刊订阅