Advances in using MRI probes and sensors for <i>in vivo</i> cell tracking as applied to regenerative medicine

Srivastava, Amit K.; Kadayakkara, Deepak K.; Bar‐Shir, Amnon; Gilad, Assaf A.; McMahon, Michael T.; Bulte, Jeff W.M.

doi:10.1242/dmm.018499

Cited by 81 publications

(66 citation statements)

References 180 publications

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“…Recent developments have also included reporter genes causing accumulation of MRI-detectable compounds 49 , proteins interacting with hyperpolarized molecules 50, 51 , channels that alter the diffusion of water across cell membranes 52, 53 and vasodilators altering hemodynamic signals 54 . Several of these reporter genes are covered in detail in previous review articles 55–57 . Nuclear imaging reporter genes, some of which have already been tested in the clinic 58 , typically lead to cellular accumulation of radiolabeled nucleotides for imaging with positron emission tomography or single photon emission computed tomography 59 .…”

Section: Main Textmentioning

confidence: 99%

Molecular Imaging in Synthetic Biology, and Synthetic Biology in Molecular Imaging

Gilad

Shapiro

2017

Mol Imaging Biol

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Biomedical synthetic biology is an emerging field in which cells are engineered at the genetic level to carry out novel functions with relevance to biomedical and industrial applications. This approach promises new treatments, imaging tools and diagnostics for diseases ranging from gastrointestinal inflammatory syndromes to cancer, diabetes and neurodegeneration. As these cellular technologies undergo pre-clinical and clinical development, it is becoming essential to monitor their location and function in vivo, necessitating appropriate molecular imaging strategies, and therefore we have created an Interest Group within the World Molecular Imaging Society focusing on synthetic biology and reporter gene technologies. Here, we highlight recent advances in biomedical synthetic biology, including bacterial therapy, immunotherapy and regenerative medicine. We then discuss emerging molecular imaging approaches to facilitate in vivo applications, focusing on reporter genes for noninvasive modalities such as magnetic resonance, ultrasound, photoacoustic imaging, bioluminescence and radionuclear imaging. Because reporter genes can be incorporated directly into engineered genetic circuits, they are particularly well suited to imaging synthetic biological constructs, and developing them provides opportunities for creative molecular and genetic engineering.

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Section: Main Textmentioning

confidence: 99%

Molecular Imaging in Synthetic Biology, and Synthetic Biology in Molecular Imaging

Gilad

Shapiro

2017

Mol Imaging Biol

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“…Las imágenes de resonancia magnética (IRM) son una técnica no invasiva que permite la visualización de estructuras internas del cuerpo [6] .…”

Section: Imágenes De Resonancia Magnéticaunclassified

Discrete tortuosity as a morphometric measure in brain tumors

Montiel

Bermejo

2017

Rev. Mex. Ing. Biomed.

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RESUMENLos tumores cerebrales pueden presentar cambios morfológicos dependiendo de su grado de malignidad. El objetivo de este trabajo es poder detectar y cuantificar estos cambios morfológicos a partir imágenes de resonancia magnética, ya que puede representar una ventaja importante para el diagnóstico no invasivo de los pacientes. Una forma de identificar dichos cambios morfológicos es a través de la medición de su tortuosidad. La tortuosidad discreta es un descriptor que caracteriza curvas bidimensionales, como el contorno de una región. En este trabajo se propone una variante para calcular la tortuosidad de superficies volumétricas. Esta técnica se basa en el uso del có-digo cadena de cambios de pendientes del contorno superficial de un volumen y la denominamos como tortuosidad discreta tridimensional. Este descriptor se utiliza como un índice morfométrico para estudiar la tortuosidad de tumores cerebrales. Para ello se analizan imágenes de resonancia magnética de 20 pacientes con presencia de gliomas de bajo y alto grado de malignidad, considerando cuatro regiones de interés: edema, tumor entero, región activa y necrosis. Como resultado, se muestran los distintos grados de tortuosidad de las diversas regiones, encontrándose solo en algunas de ellas diferencias significativas. Cabe señalar que una desventaja que se tiene presente, es la dependencia de la medición a la utilización de un método robusto de segmentación de las regiones, sin embargo la propuesta de la tortuosidad discreta para superficies volumétricas es satisfactoria.

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“…Several excellent reviews have been written on these classes of MRI reporters. [190] Given the sensitivity gains of HP 129 Xe MRI and in particular HyperCEST, there is a strong incentive to develop genetically encoded MRI reporters acting on xenon. However, this prospect is challenging due to the weak interaction of xenon with most proteins.…”

Section: Mri Contrast Agentsmentioning

confidence: 99%

NMR Hyperpolarization Techniques of Gases

Barskiy

Coffey

Nikolaou

et al. 2016

Chemistry A European J

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Nuclear spin polarization can be significantly increased through the process of hyperpolarization, leading to an increase in the sensitivity of nuclear magnetic resonance (NMR) experiments by 4-8 orders of magnitude. Hyperpolarized gases, unlike liquids and solids, can be more readily separated and purified from the compounds used to mediate the hyperpolarization processes. These pure hyperpolarized gases enabled many novel MRI applications including the visualization of void spaces, imaging of lung function, and remote detection. Additionally, hyperpolarized gases can be dissolved in liquids and can be used as sensitive molecular probes and reporters. This mini-review covers the fundamentals of the preparation of hyperpolarized gases and focuses on selected applications of interest to biomedicine and materials science.

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Advances in using MRI probes and sensors for in vivo cell tracking as applied to regenerative medicine

Cited by 81 publications

References 180 publications

Molecular Imaging in Synthetic Biology, and Synthetic Biology in Molecular Imaging

Molecular Imaging in Synthetic Biology, and Synthetic Biology in Molecular Imaging

Discrete tortuosity as a morphometric measure in brain tumors

NMR Hyperpolarization Techniques of Gases

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