Abstract: Intravenous ferumoxytol is used to effectively label mesenchymal stem cells (MSCs) in vivo and is used for in vivo tracking of stem cell transplants with magnetic resonance (MR) imaging. The method eliminates risk of contamination and biologic alteration of MSCs associated with ex-vivo-labeling procedures.

Abstract: A matrix metalloprotease (MMP) activatable conjugate is provided to inhibit glioblastoma (GBM) proliferation through glioma tumor cell and glioma stem cell differentiation. The conjugate is structurally characterized by having dichloroacetate (DCA), as a therapeutic drug, linked, via a MMP cleavable peptide, to a nanoparticle suitable for magnetic resonance imaging (MRI) such as a superparamagnetic iron oxide (SIPO) or an ultra superparamagnetic iron oxide (uSIPO).

Abstract: A treatment method is provided in which glioblastoma is targeted by administering to a subject in an effective amount theranostic cross-linked iron oxide nanoparticles (CLIO) which are conjugated to a vascular disrupting agent (ICT) and secured with a matrix-metalloproteinase cleavable peptide.

Abstract: The present inventors have harnessed the targeting of nanoparticles to tumor sites, combined with the tumor site specific elevated MMP-14 activity within one conjugate to simultaneously deliver a vascular disrupting agent (VDA) and a MRI contrast agent to a tumor site. The MMP activatable conjugate of the present invention provides both therapeutic and diagnostic functions—and is referred to as a “theranostic”. The theranostic conjugate of the present invention achieves the benefits of tumor site specificity, VDA delivery and MRI contrast agent delivery in a single theranostic conjugate. Consequently, the present invention provides a cancer “theranostic” which improves therapeutic efficacy while simultaneously reducing dose-limiting systemic toxicities and provides a tool for rapidly and non-invasively identifying tumor location, monitoring drug delivery and pharmacodynamics.

Abstract: A ferumoxytol-based dual-modality imaging probe for long-term stem cell tracking through MRI and early diagnosis of cell apoptosis through simultaneous fluorescence imaging is provided. Specifically, a ferumoxytol-based dual-modality imaging probe is provided with enhanced T2* relaxivity for tracking stem cells through magnetic resonance imaging and detecting apoptotic stem cells through fluorescence imaging.

Abstract: A ferumoxytol-based dual-modality imaging probe for long-term stem cell tracking through MRI and early diagnosis of cell apoptosis through simultaneous fluorescence imaging is provided. Specifically, a ferumoxytol-based dual-modality imaging probe is provided with enhanced T2* relaxivity for tracking stem cells through magnetic resonance imaging and detecting apoptotic stem cells through fluorescence imaging.

Abstract: Intravenous ferumoxytol is used to effectively label mesenchymal stem cells (MSCs) in vivo and is used for in vivo tracking of stem cell transplants with magnetic resonance (MR) imaging. The method eliminates risk of contamination and biologic alteration of MSCs associated with ex-vivo-labeling procedures.

Abstract: An immuno-therapy for treatment of a tumor is provided. An effective dose of a composition containing a low dose of superparamagnetic iron oxide nanoparticle is administered to a tumor. Once the composition has been administered, it is recommended to avoid any means that would cause direct cytotoxic effects to the cancer cells and to normal/healthy tissue. The combination of composition-administered cancer cells with the avoidance of direct cytotoxic effects has been shown to be successful to inhibit the growth of the cancer cells or result in aptosis of the cancer cells. Additional dose(s) can be administered when it is determined that: (i) the tumor starts to grow and/or (ii) the remaining composition falls below a threshold. The immuno-therapy method is a safe, clinically applicable, ready-to-use theranostic approach for cancer patients who are unable to start chemoradiotherapy in a timely manner, i.e. an effective interim or adjunctive treatment for patients.

Abstract: Intravenous ferumoxytol is used to effectively label mesenchymal stem cells (MSCs) in vivo and is used for in vivo tracking of stem cell transplants with magnetic resonance (MR) imaging. The method eliminates risk of contamination and biologic alteration of MSCs associated with ex-vivo-labeling procedures.

Abstract: The present inventors have harnessed the targeting of nanoparticles to tumour sites, combined with the tumour site specific elevated MMP-14 activity within one conjugate to simultaneously deliver a vascular disrupting agent (VDA) and a MRI contrast agent to a tumour site. The MMP activatable conjugate of the present invention provides both therapeutic and diagnostic functions—and is referred to as a “theranostic”. The theranostic conjugate of the present invention achieves the benefits of tumour site specificity, VDA delivery and MRI contrast agent delivery in a single theranostic conjugate. Consequently, the present invention provides a cancer “theranostic” which improves therapeutic efficacy whilst simultaneously reducing dose-limiting systemic toxicities and provides a tool for rapidly and non-invasively identifying tumour location, monitoring drug delivery and pharmacodynamics.

Abstract: Intravenous ferumoxytol is used to effectively label mesenchymal stem cells (MSCs) in vivo and is used for in vivo tracking of stem cell transplants with magnetic resonance (MR) imaging. The method eliminates risk of contamination and biologic alteration of MSCs associated with ex-vivo-labeling procedures.

Abstract: An immuno-therapy for treatment of a tumor is provided. An effective dose of a composition containing a low dose of superparamagnetic iron oxide nanoparticle is administered to a tumor. Once the composition has been administered, it is recommended to avoid any means that would cause direct cytotoxic effects to the cancer cells and to normal/healthy tissue. The combination of composition-administered cancer cells with the avoidance of direct cytotoxic effects has been shown to be successful to inhibit the growth of the cancer cells or result in aptosis of the cancer cells. Additional dose(s) can be administered when it is determined that: (i) the tumor starts to grow and/or (ii) the remaining composition falls below a threshold. The immuno-therapy method is a safe, clinically applicable, ready-to-use theranostic approach for cancer patients who are unable to start chemoradiotherapy in a timely manner, i.e. an effective interim or adjunctive treatment for patients.

Abstract: The endothelial integrity of microvessels is disturbed in malignant tumors. We invented a method wherein we used MRI to define tumor microvascular permeabilities and correlated these permeabilities with histologic grade in tumors. Using macromolecular MRI contrast medium, we discovered tumor microvascular permeability values were significantly lower in benign tumors than in carcinomas. In addition, we found that the microvascular permeability values demonstrated a strong correlation with the histologic grade of carcinomas as determined by the Scarff-Bloom-Richardson grading system.