A multi-chromophore virus particle is constructed by covalent binding of chromophores and provides super-radiant behavior. A virus-enabled targeted vector is provided for imaging with qualitatively different optical emission properties from state-of-the-art agents. Bright emission is obtained through quantum coherence, which in turn is facilitated by the symmetry of the virus shell. In an exemplary embodiment the targeted vector is used in laser-guided surgery, specifically for the treatment of in brain cancer.

A pepino mosaic virus (PepMV) carrier comprising a PepMV particle that has been modified to carry an imaging agent or anticancer agent is described. The PepMV carrier can be used in a method of targeting cancer cells and tissue by administering it to a subject. Cancer tissue targeted by the PepMV carrier can be imaged using an imaging agent, or treated using an anticancer agent.

Methods for producing engineered exosomes and other vesicle-like biological targets, including allowing a target vesicle-like structure to react and bind with immunomagnetic particles; capturing the immunomagnetic particle/vesicle complex by applying a magnetic field; further engineering the captured vesicles by surface modifying with additional active moieties or internally loading with active agents; and releasing the engineered vesicle-like structures, such as by photolytically cleaving a linkage between the particle and engineered vesicle-like structures, thereby releasing intact vesicle-like structures which can act as delivery vehicles for therapeutic treatments.

Disclosed are methods, compositions of matter, and protocols useful for the detection of altered cells in a patient. Immune cells capable of clonal expansion are engineered to produce a soluble signal upon activation and/or clonal expansion. The cells may possess a suicide gene, inducible upon administration pharmacological or light/radiation activatable, so as to eliminate the cells from body when desired. In another embodiment, immune cells produce a localized marker, the marker being visible with imaging technology. In other embodiments cells capable of non-clonal expansion are utilized. The disclosure provides means of utilizing the immunosurveillance properties of immune cells to diagnose and localize diseases associated with alteration of host cells.

The present invention is directed to a system and method for enhancing in situ visualization of a target site within a patient during a medical procedure using fluorescence. As such, the system includes a plurality of fluorescent molecules configured to selectively target and bind to one or more locations at the target site within the patient and a delivery mechanism for delivering the fluorescent molecules into the patient. In addition, the system includes a detection device configured to generate a detectable signal containing information relating to the target site and send the detectable signal to an imaging system for viewing by a user, such as a physician. Thus, the fluorescent molecules enhance in situ visualization of the target site when viewed through the skin of the patient.

The present invention relates to a tumor-targeting Salmonella gallinarum strain and the use thereof. The tumor-targeting Salmonella gallinarum strain has excellent tumor proliferation inhibitory activity and enables tumor-specific targeting, and thus can be utilized for treatment and imaging of tumors without any side effects.

The disclosure provides NIR-II imaging probes and methods of using the NIR-II imaging probes for dynamic in vivo tracking of cells, such as stem cells, or other substances. NIR-II imaging probes can include a biocompatible NIR-II dye molecule coupled to an organic, biocompatible protein carrier complex, including a carrier protein coupled to a cell-penetrating peptide.

The present invention provides method for monitoring physiological status of an organ in a subject by monitoring morphological changes over time in transplanted tissue on an eye of the subject.

Disclosed herein are methods of detecting tumors, monitoring cancer therapy, and selectively inhibiting the proliferation and/or killing of cancer cells utilizing a papilloma pseudovirus or a papilloma virus-like particle (VLP).

An apparatus and methods for distinguishing outgrowth of cells from surrounding biological material are disclosed. In some embodiments, the method may include delivering a marker to cellular material originating from a donor tissue site, followed by transplanting the cellular material from the donor tissue site to a recipient tissue site. One or more locations of the transplanted cellular material at the recipient site may be identified by locating a distribution of the marker at the recipient tissue site.