Abstract: Methods, systems, and apparatus for causing changes to cells or tissue within or adjacent to an eye. The system includes an external RF coil configured to transmit RF signals. The system also includes a wearable device configured to be removably disposed on the eye, the wearable device including a plurality of internal radiofrequency (RF) coils configured to receive the RF signals from the external RF coil and a plurality of stimulating electrodes configured to electromagnetically stimulate a portion of the eye or an area adjacent to the eye, causing changes to cells or tissue within or adjacent to the eye.

Abstract: Bioelectronic lens (E-lens) systems for inducing neuroprotective changes in neurons, in particular the retina. A system may include a stimulating electrode configured to be placed on an eye or skin around the eye. The system may further include a return electrode configured such that voltage distribution is focalized to the eye and induced electric fields to an area of interest on the eye or on the skin around the eye are maximized. The electric fields provide neuroprotection and reinnervation.

Abstract: The present technology provides a method of determining whether a subject with cancer is likely to experience one or more metastases. The method may include determining a methylation level of at least one gene selected from the group consisting of BEND4, CDH4, C1QL3, ERG, GP5, GSC, HTR1B, LMX1B, MCF2L2, PENK, REC8, RUNX3, PAX5, PCDHIO, SP8, SP9, STAC2, ULBP1, UNC13A, VIM, VWC2 in a subject-derived sample and then comparing the subject-derived methylation level determined in step a) with a normal control level obtained from a normal sample. Thereafter, the method may include correlating an increase of said subject-derived methylation level as compared to the normal control level to a diagnosis the subject as likely to experience one or more metastases.

Abstract: There is a need to accurately monitor a cancer patient's risk status after completion of therapy due to residual disease. Herein provided are methods related to detection of cancer and cancer recurrence in a subject using detection of cell-free DNA methylation.

Abstract: The present invention provides a method of diagnosing a breast cancer central nervous system (CNS) metastasis in a subject, comprising determining the expression level of at least one biomarker in a subject-derived brain or breast tissue comparing the subject-derived expression level with a normal control level obtained from normal brain or breast cells; and correlating an increase or decrease of the subject-derived expression level as compared to the normal control level to a diagnosis of a breast cancer CNS metastasis. The present invention also provides a method for the treatment of a breast cancer CNS metastasis in a subject comprising administering to the subject an inhibitor of an overexpressed gene associated with CNS metastasis.

Abstract: Embodiments of the invention provide methods of creating clinical models for different forms of metastatic cancer. The methods may include obtaining samples from subjects with metastatic cancer, determining an allelic status of one or more markers in the samples (e.g., creating a molecular profile of the subject's cancer), and using model organisms with subject-derived xenografts for treatment selection.

Abstract: The present technology provides a method of determining whether a subject with cancer is likely to experience one or more metastases. The method may include determining a methylation level of at least one gene selected from the group consisting of BEND4, CDH4, C1QL3, ERG, GP5, GSC, HTR1B, LMX1B, MCF2L2, PENK, REC8, RUNX3, PAX5, PCDHIO, SP8, SP9, STAC2, ULBP1, UNC13A, VIM, VWC2 in a subject-derived sample and then comparing the subject-derived methylation level determined in step a) with a normal control level obtained from a normal sample. Thereafter, the method may include correlating an increase of said subject-derived methylation level as compared to the normal control level to a diagnosis the subject as likely to experience one or more metastases.

Abstract: The present invention provides a method of diagnosing a breast cancer central nervous system (CNS) metastasis in a subject, comprising determining the expression level of at least one biomarker in a subject-derived brain or breast tissue comparing the subject-derived expression level with a normal control level obtained from normal brain or breast cells; and correlating an increase or decrease of the subject-derived expression level as compared to the normal control level to a diagnosis of a breast cancer CNS metastasis. The present invention also provides a method for the treatment of a breast cancer CNS metastasis in a subject comprising administering to the subject an inhibitor of an overexpressed gene associated with CNS metastasis.

Abstract: Embodiments of the invention provide methods of creating clinical models for different forms of metastatic cancer. The methods may include obtaining samples from subjects with metastatic cancer, determining an allelic status of one or more markers in the samples (e.g., creating a molecular profile of the subject's cancer), and using model organisms with subject-derived xenografts for treatment selection.

Abstract: The present invention provides a method of diagnosing a breast cancer central nervous system (CNS) metastasis in a subject, comprising determining the expression level of at least one biomarker in a subject-derived brain or breast tissue comparing the subject-derived expression level with a normal control level obtained from normal brain or breast cells; and correlating an increase or decrease of the subject-derived expression level as compared to the normal control level to a diagnosis of a breast cancer CNS metastasis. The present invention also provides a method for the treatment of a breast cancer CNS metastasis in a subject comprising administering to the subject an inhibitor of an overexpressed gene associated with CNS metastasis.