Abstract: A compound includes at least one targeting peptide coupled to a detectable moiety. The targeting peptide binds to EDB-FN or EDA-FN and includes at least one of amino acid sequence selected from the group consisting of SEQ ID NOs: 1-30.

Abstract: A pharmaceutical composition includes a retinylamine derivative having the following formula: where R1 is an amino acid residue, a dipeptide or a tripeptide that is linked to the retinylamine by an amide bond.

Abstract: A nanosized complex includes siRNA and a compound comprising formula (I):

Abstract: A pharmaceutical composition includes a retinylamine derivative having the following formula (I): where R1 is an amino acid residue, a dipeptide or a tripeptide that is linked to the retinylamine by an amide bond.

Abstract: A compound includes at least one targeting peptide coupled to a detectable moiety. The targeting peptide binds to EDB-FN or EDA-FN and includes at least one of amino acid sequence selected from the group consisting of SEQ ID NOs: 1-30.

Abstract: A composition includes a polysaccharide at least one retinoid linked to at least one monosaccharide subunit of the polysaccharide with a covalent linkage. The linkage being degradable by hydrolysis during digestion of the composition to provide controlled, delayed, and/or sustained delivery of the at least one retinoid upon enteral administration of the composition to a subject.

Abstract: A compound comprising formula (I): wherein R1 is an alkylamino group or a group containing at least one aromatic group; R2 and R3 are independently an aliphatic group or hydrophobic group; R4 and R5 are independently H, a substituted or unsubstituted alkyl group, an alkenyl group, an acyl group, or an aromatic group, or includes a polymer, a targeting group, or a detectable moiety, and at least one of R4 and R5 includes a targeting group that targets and/or binds to a retinal or visual protein; a, b, c, and d are independently an integer from 1 to 10; and pharmaceutically acceptable salts thereof.

Abstract: A composition includes a polysaccharide at least one retinoid linked to at least one monosaccharide subunit of the polysaccharide with a covalent linkage. The linkage being degradable by hydrolysis during digestion of the composition to provide controlled, delayed, and/or sustained delivery of the at least one retinoid upon enteral administration of the composition to a subject.

Abstract: A compound includes at least one targeting peptide coupled to a detectable moiety. The targeting peptide binds to EDB-FN or EDA-FN and includes at least one of amino acid sequence selected from the group consisting of SEQ ID NOs: 1-30.

Abstract: A molecular probe includes the following formula: P-L-C wherein P is a EDB-FN targeting peptide, C is a contrast agent; and L is a non-peptide linker that covalently links the peptide to the contrast agent.

Abstract: A compound includes at least one targeting peptide coupled to a detectable moiety. The targeting peptide binds to EDB-FN or EDA-FN and includes at least one of amino acid sequence selected from the group consisting of SEQ ID NOs: 1-30.

Abstract: A pharmaceutical composition includes a retinylamine derivative having the following formula (I): where R1 is an amino acid residue, a dipeptide or a tripeptide that is linked to the retinylamine by an amide bond.

Abstract: Biodegradable computed tomography (CT) contrast agents comprising a polyiodinated aryl contrast agent that is crosslinked by an organic disulfide are described herein. The contrast agents can be used to image a tissue region by administering an effective amount of the biodegradable CT contrast agent to a subject, allowing a sufficient amount of time for the biodegradable CT contrast agent to enter the tissue region, and performing x-ray computed tomography imaging of the tissue region of the subject.

Abstract: A compound comprising formula (I): wherein R1 is an akylamino group or a group containing at least one aromatic group; R2 and R3 are independently an aliphatic group or hydrophobic group; R4 and R5 are independently H, a substituted or unsubstituted akyl group, an akenyl group, an acyl group, an aromatic group, polymer, a targeting group, or a detectable moiety; a, b, c, and d are independently an integer from 1 to 10; and pharmaceutically acceptable salts thereof.

Abstract: Biodegradable computed tomography (CT) contrast agents comprising a polyiodinated aryl contrast agent that is crosslinked by an organic disulfide are described herein. The contrast agents can be used to image a tissue region by administering an effective amount of the biodegradable CT contrast agent to a subject, allowing a sufficient amount of time for the biodegradable CT contrast agent to enter the tissue region, and performing x-ray computed tomography imaging of the tissue region of the subject.

Abstract: Example systems and methods enhance contrast in MRI images. To facilitate imaging of atherosclerotic plaques, arterial and venous, cardiac, and even tumor tissues and fibrosis, a fibrin-fibronectin complex or disease-related fibronectin specific MRI contrast agent (CLPD) has a specific binding affinity for fibronectin.

Abstract: A composition includes a polysaccharide at least one retinoid linked to at least one monosaccharide subunit of the polysaccharide with a covalent linkage. The linkage being degradable by hydrolysis during digestion of the composition to provide controlled, delayed, and/or sustained delivery of the at least one retinoid upon enteral administration of the composition to a subject.

Abstract: Example systems and methods enhance contrast in MRI images. To facilitate imaging of atherosclerotic plaques, arterial and venous, cardiac, and even tumor tissues and fibrosis, a fibrin-fibronectin complex or disease-related fibronectin specific MRI contrast agent (CLPD) has a specific binding affinity for fibronectin.

Abstract: Described herein are peptide targeting imaging agents. The peptides are covalently attached to the imaging agent and have a specific peptide sequence that enables the imaging agent to accumulate specifically in tumor tissues. Additionally, the imaging agents are readily excreted by the subject within a short period of time after administration to the subject. Methods for using the imaging agents are also described herein.

Abstract: Described herein are methods for using macromolecular MRI contrast agents to evaluate the effectiveness of anti-cancer treatments. The methods take advantage of MRI for evaluating more specifically and accurately one or more tumor properties of the tumor in response to a particular treatment. Ultimately, the 5 methods described herein help evaluate the effectiveness of the anti-cancer treatment over time.