Literature DB >> 22781331

MRI measurement of angiogenesis and the therapeutic effect of acute marrow stromal cell administration on traumatic brain injury.

Lian Li1, Michael Chopp, Guang Liang Ding, Chang Sheng Qu, Qing Jiang Li, Mei Lu, Shiyang Wang, Siamak P Nejad-Davarani, Asim Mahmood, Quan Jiang.   

Abstract

Using magnetic resonance imaging (MRI), the present study was undertaken to investigate the therapeutic effect of acute administration of human bone marrow stromal cells (hMSCs) on traumatic brain injury (TBI) and to measure the temporal profile of angiogenesis after the injury with or without cell intervention. Male Wistar rats (300 to 350 g, n=18) subjected to controlled cortical impact TBI were intravenously injected with 1 mL of saline (n=9) or hMSCs in suspension (n=9, 3 × 10(6) hMSCs) 6 hours after TBI. In-vivo MRI acquisitions of T2-weighted imaging, cerebral blood flow (CBF), three-dimensional (3D) gradient echo imaging, and blood-to-brain transfer constant (Ki) of contrast agent were performed on all animals 2 days after injury and weekly for 6 weeks. Sensorimotor function and spatial learning were evaluated. Volumetric changes in the trauma-induced brain lesion and the lateral ventricles were tracked and quantified using T2 maps, and hemodynamic alteration and blood-brain barrier permeability were monitored by CBF and Ki, respectively. Our data show that transplantation of hMSCs 6 hours after TBI leads to reduced cerebral atrophy, early and enhanced cerebral tissue perfusion and improved functional outcome compared with controls. The hMSC treatment increases angiogenesis in the injured brain, which may promote neurologic recovery after TBI.

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Year:  2012        PMID: 22781331      PMCID: PMC3493994          DOI: 10.1038/jcbfm.2012.106

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.200


  40 in total

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Review 5.  Neurogenesis, angiogenesis, and MRI indices of functional recovery from stroke.

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6.  Ischemic cerebral tissue response to subventricular zone cell transplantation measured by iterative self-organizing data analysis technique algorithm.

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Journal:  J Cereb Blood Flow Metab       Date:  2006-03-01       Impact factor: 6.200

7.  Intracerebral xenografts of mouse bone marrow cells in adult rats facilitate restoration of cerebral blood flow and blood-brain barrier.

Authors:  Cesario V Borlongan; Jeffrey G Lind; Ora Dillon-Carter; Guolong Yu; Martin Hadman; Charles Cheng; James Carroll; David C Hess
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8.  Dynamic tracking of acute ischemic tissue fates using improved unsupervised ISODATA analysis of high-resolution quantitative perfusion and diffusion data.

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9.  Neovascularization following traumatic brain injury: possible evidence for both angiogenesis and vasculogenesis.

Authors:  Randy Morgan; Christian W Kreipke; George Roberts; Mihir Bagchi; José A Rafols
Journal:  Neurol Res       Date:  2007-06       Impact factor: 2.448

10.  Correlation between angiogenesis and basic fibroblast growth factor expression in experimental brain infarct.

Authors:  H H Chen; C H Chien; H M Liu
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  13 in total

1.  Treatment of traumatic brain injury in rats with N-acetyl-seryl-aspartyl-lysyl-proline.

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2.  Apolipoprotein E Mimetic Peptide Increases Cerebral Glucose Uptake by Reducing Blood-Brain Barrier Disruption after Controlled Cortical Impact in Mice: An 18F-Fluorodeoxyglucose PET/CT Study.

Authors:  Xinghu Qin; Hong You; Fang Cao; Yue Wu; Jianhua Peng; Jinwei Pang; Hong Xu; Yue Chen; Ligang Chen; Michael P Vitek; Fengqiao Li; Xiaochuan Sun; Yong Jiang
Journal:  J Neurotrauma       Date:  2016-09-27       Impact factor: 5.269

3.  Systemic administration of cell-free exosomes generated by human bone marrow derived mesenchymal stem cells cultured under 2D and 3D conditions improves functional recovery in rats after traumatic brain injury.

Authors:  Yanlu Zhang; Michael Chopp; Zheng Gang Zhang; Mark Katakowski; Hongqi Xin; Changsheng Qu; Meser Ali; Asim Mahmood; Ye Xiong
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4.  Effect of exosomes derived from multipluripotent mesenchymal stromal cells on functional recovery and neurovascular plasticity in rats after traumatic brain injury.

Authors:  Yanlu Zhang; Michael Chopp; Yuling Meng; Mark Katakowski; Hongqi Xin; Asim Mahmood; Ye Xiong
Journal:  J Neurosurg       Date:  2015-01-16       Impact factor: 5.115

5.  Diffuse white matter response in trauma-injured brain to bone marrow stromal cell treatment detected by diffusional kurtosis imaging.

Authors:  Lian Li; Michael Chopp; Guangliang Ding; Esmaeil Davoodi-Bojd; Qingjiang Li; Asim Mahmood; Ye Xiong; Quan Jiang
Journal:  Brain Res       Date:  2019-04-19       Impact factor: 3.252

Review 6.  Animal models of traumatic brain injury.

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Journal:  Nat Rev Neurosci       Date:  2013-02       Impact factor: 34.870

7.  Diffusion-Derived Magnetic Resonance Imaging Measures of Longitudinal Microstructural Remodeling Induced by Marrow Stromal Cell Therapy after Traumatic Brain Injury.

Authors:  Lian Li; Michael Chopp; Guangliang Ding; Changsheng Qu; Siamak P Nejad-Davarani; Esmaeil Davoodi-Bojd; Qingjiang Li; Asim Mahmood; Quan Jiang
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8.  Chronic global analysis of vascular permeability and cerebral blood flow after bone marrow stromal cell treatment of traumatic brain injury in the rat: A long-term MRI study.

Authors:  Lian Li; Michael Chopp; Guangliang Ding; Qingjiang Li; Asim Mahmood; Quan Jiang
Journal:  Brain Res       Date:  2017-09-09       Impact factor: 3.252

Review 9.  Systematic review and meta-analysis of efficacy of mesenchymal stem cells on locomotor recovery in animal models of traumatic brain injury.

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10.  MRI of neuronal recovery after low-dose methamphetamine treatment of traumatic brain injury in rats.

Authors:  Guang Liang Ding; Michael Chopp; David J Poulsen; Lian Li; Changsheng Qu; Qingjiang Li; Siamak P Nejad-Davarani; John S Budaj; Hongtao Wu; Asim Mahmood; Quan Jiang
Journal:  PLoS One       Date:  2013-04-18       Impact factor: 3.240
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