Add to ORKGPurposeA bottleneck in developing cell therapies for cancer is assaying cell biodistribution, persistence, and survival in vivo. Ex vivo cell labeling using perfluorocarbon (PFC) nanoemulsions, paired with 19 F MRI detection, is a non-invasive approach for cell product detection in vivo. Lymphocytes are small and weakly phagocytic limiting PFC labeling levels and MRI sensitivity. To boost labeling, we designed PFC nanoemulsion imaging probes displaying a cell-penetrating peptide, namely the transactivating transcription sequence (TAT) of the human immunodeficiency virus. We report optimized synthesis schemes for preparing TAT co-surfactant to complement the common surfactants used in PFC nanoemulsion preparations.MethodsWe performed ex vivo...
Fluorine-19 magnetic resonance imaging ((19)F MRI) probes enable quantitative in vivo detection...
International audienceIncreasing intracellular drug concentration using nanocarriers can be a potent...
PurposeWe aim to develop perfluorocarbon-based nanoemulsions with improved sensitivity for detection...
As the epidemic of cancer continues to grow, so have new treatment plans to incorporate the latest f...
This report describes novel perfluorocarbon (PFC) nanoemulsions designed to improve ex vivo cell lab...
Abstract Over the past two decades, immune cell therapy has emerged as a potent treatment for multip...
Cancer is responsible for over 8 million deaths annually and the number of new cases is expected to ...
BackgroundAdoptive transfer of T cells is a burgeoning cancer therapeutic approach. However, the fat...
We describe an in vivo imaging probe platform that is readily modifiable to accommodate binding of d...
Nanomaterials have been used in the treatment of cancer to increase the solubility of insoluble payl...
Monitoring cell trafficking in vivo noninvasively is critical to improving cellular therapeutics, dr...
AIM: In vivo imaging using (19)F MRI is advantageous, due to its ability to quantify cell numbers, ...
<p>We report the synthesis and formulation of unique perfluorocarbon (PFC) nanoemulsions enabling in...
Herein, we maximize the labeling efficiency of cardiac progenitor cells (CPCs) using perfluorocarbon...
In vivo molecular imaging with targeted MRI contrast agents will require sensitive methods to quanti...
Fluorine-19 magnetic resonance imaging ((19)F MRI) probes enable quantitative in vivo detection...
International audienceIncreasing intracellular drug concentration using nanocarriers can be a potent...
PurposeWe aim to develop perfluorocarbon-based nanoemulsions with improved sensitivity for detection...
As the epidemic of cancer continues to grow, so have new treatment plans to incorporate the latest f...
This report describes novel perfluorocarbon (PFC) nanoemulsions designed to improve ex vivo cell lab...
Abstract Over the past two decades, immune cell therapy has emerged as a potent treatment for multip...
Cancer is responsible for over 8 million deaths annually and the number of new cases is expected to ...
BackgroundAdoptive transfer of T cells is a burgeoning cancer therapeutic approach. However, the fat...
We describe an in vivo imaging probe platform that is readily modifiable to accommodate binding of d...
Nanomaterials have been used in the treatment of cancer to increase the solubility of insoluble payl...
Monitoring cell trafficking in vivo noninvasively is critical to improving cellular therapeutics, dr...
AIM: In vivo imaging using (19)F MRI is advantageous, due to its ability to quantify cell numbers, ...
<p>We report the synthesis and formulation of unique perfluorocarbon (PFC) nanoemulsions enabling in...
Herein, we maximize the labeling efficiency of cardiac progenitor cells (CPCs) using perfluorocarbon...
In vivo molecular imaging with targeted MRI contrast agents will require sensitive methods to quanti...
Fluorine-19 magnetic resonance imaging ((19)F MRI) probes enable quantitative in vivo detection...
International audienceIncreasing intracellular drug concentration using nanocarriers can be a potent...
PurposeWe aim to develop perfluorocarbon-based nanoemulsions with improved sensitivity for detection...