Abstract: Methods and products are provided for determining if a subject having a tumor is at risk of metastasis of the tumor. Specifically, the methods comprise detecting phosphorylated cofilin, and both phosphorylated and non-phosphorylated cofilin; quantifying the phosphorylated cofilin, and the total of phosphorylated and nonphosphorylated cofilin; and determining if a subject having the tumor is likely to experience metastasis of the tumor, based on the ratio of the amount of detected phosphorylated cofilin:total amount of phosphorylated and non-phosphorylated cofilin detected. Further disclosed are the types of tumor metastases that can be determined using the methods provided.

Abstract: Methods are provided for measuring the activity of TMEM sites in a tumor comprising measuring a transient increase in permeability of blood vessels at TMEM sites that allows tumor cells to enter the blood vessels, wherein permeability is measured using a modality selected from the group consisting of MRI, PET, CT, and SPECT, and wherein a transient increase in permeability indicates that a TMEM site is active. The method can include, for example, obtaining a MenaINV score assessed by fine needle aspiration in the same tissue. The present invention can be used as both a prognostic for dissemination and a predictive end point for identification and validation of dissemination inhibitors/anti-metastasis drugs.

Abstract: Methods and products are provided for determining if a subject having a tumor is at risk of metastasis of the tumor. Specifically, the methods comprise detecting phosphorylated cofilin, and both phosphorylated and non-phosphorylated cofilin; quantifying the phosphorylated cofilin, and the total of phosphorylated and nonphosphorylated cofilin; and determining if a subject having the tumor is likely to experience metastasis of the tumor, based on the ratio of the amount of detected phosphorylated cofilin:total amount of phosphorylated and non-phosphorylated cofilin detected. Further disclosed are the types of tumor metastases that can be determined using the methods provided.

Abstract: A microfluidic intravital window includes an intravital imaging window adapted for implantation adjacent target tissue of a live animal, and a microfluidic fluid source and delivery system physically integrated into the window for controlled delivery of fluids to target tissue via the window. The microfluidic fluid source and delivery system is self-contained and completely located within the intravital imaging window, and includes at least one preloaded fluid reservoir, at least one fluid port in fluidic communication with both the at least one preloaded fluid reservoir and the target tissue, and at least one light activated fluid flow control device situated between the at least one preloaded fluid reservoir and at least one fluid port, to facilitate simultaneous in vivo viewing and remotely controlled fluid delivery to the target tissue.

Abstract: A microfluidic intravital window includes an intravital imaging window adapted for implantation adjacent target tissue of a live animal, and a microfluidic fluid source and delivery system physically integrated into the window for controlled delivery of fluids to target tissue via the window. The microfluidic fluid source and delivery system is self-contained and completely located within the intravital imaging window, and includes at least one preloaded fluid reservoir, at least one fluid port in fluidic communication with both the at least one preloaded fluid reservoir and the target tissue, and at least one light activated fluid flow control device situated between the at least one preloaded fluid reservoir and at least one fluid port, to facilitate simultaneous in vivo viewing and remotely controlled fluid delivery to the target tissue.

Abstract: Methods and products are provided for determining if a subject having a tumor is (i) at risk of metastasis of the tumor, or (ii) at risk of recurrence of the tumor after treatment of the tumor. Methods of treatment of cancer, tumors and metastasis are also provided.

Abstract: Methods and products are provided for determining if a subject having a tumor is at risk of metastasis of the tumor. Specifically, the methods comprise detecting phosphorylated cofilin, and both phosphorylated and non-phosphorylated cofilin; quantifying the phosphorylated cofilin, and the total of phosphorylated and nonphosphorylated cofilin; and determining if a subject having the tumor is likely to experience metastasis of the tumor, based on the ratio of the amount of detected phosphorylated cofilin: total amount of phosphorylated and non-phosphorylated cofilin detected. Further disclosed are the types of tumor metastases that can be determined using the methods provided.

Abstract: Methods and products are provided for determining if a subject having a tumor is (i) at risk of metastasis of the tumor, or (ii) at risk of recurrence of the tumor after treatment of the tumor. Methods of treatment of cancer, tumors and metastasis are also provided.

Abstract: The present invention relates to methods of determining agents that inhibit Mena+ or MenaINV/+, and uses of agents that bind to and/or inhibit Mena+ or MenaINV/+ for diagnosis and treatment of metastatic tumors.

Abstract: The present invention is directed to methods for evaluating the efficacy of a cancer treatment for (i) inhibiting metastasis in a subject, (ii) inhibiting local cancer cell movement, and (iii) inhibiting cancer cell proliferation. The present invention is further directed to methods for monitoring cell motility in a subject. The present invention is also directed to kits for performing any of the above methods.