The present disclosure relates to Vitamin E derivatives as multi-scale imaging agents. In particular, the present disclosure relates to isotopically labeled Vitamin E derivatives, and their use as multi-scale imaging agents.

A liposomal composition (“ADx-001”) is provided, ADx-001 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand. The macrocyclic gadolinium-based imaging agent may be conjugated to a fourth phospholipid.

A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I:

##STR00001##

wherein X is —CH.sub.2—, —CH.sub.2—CH.sub.2—, —CHO—, or —O—CO—; Y is —CH—CH═CH— or

##STR00002##

A and B are independently selected from C and N; R.sub.1, R.sub.2, R.sub.3, and R.sub.4 are independently selected from —H, halogen, —OH, and —CH.sub.3; and R.sub.5, R.sub.6, and R.sub.7 are independently selected from —H, halogen, —OH, —OCH.sub.3, —NO.sub.2, —N(CH.sub.3).sub.2, C.sub.1-C.sub.6 alkyl, or a substituted or unsubstituted C.sub.4-C.sub.6 aryl group, except that when A and/or B is N the adjacent R.sub.5 and/or R.sub.7 is —H, or a pharmaceutically acceptable salt thereof.

A liposomal composition (“ADx-003”) is provided, ADx-003 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand, the targeting ligand being represented by Formula I:

##STR00001##

wherein X is —CH.sub.2—, —CH.sub.2—CH.sub.2—, —CHO—, or —O—CO—; Y is —CH—CH═CH— or

##STR00002##

A and B are independently selected from C and N; R.sub.1, R.sub.2, R.sub.3, and R.sub.4 are independently selected from —H, halogen, —OH, and —CH.sub.3; and R.sub.5, R.sub.6, and R.sub.7 are independently selected from —H, halogen, —OH, —OCH.sub.3, —NO.sub.2, —N(CH.sub.3).sub.2, C.sub.1-C.sub.6 alkyl, or a substituted or unsubstituted C.sub.4-C.sub.6 aryl group, except that when A and/or B is N the adjacent R.sub.5 and/or R.sub.7 is —H, or a pharmaceutically acceptable salt thereof.

Disclosed herein is a composition comprising a plurality of liposomes having an average diameter of less than 400 nanometers, wherein the plurality of liposomes comprise: a first lipid or phospholipid; a second lipid or phospholipid which is derivatized with a polymer; and a sterically bulky excipient capable of stabilizing the liposomes; a third lipid or phospholipid derivatized with a polymer terminated with an integrin targeting component; DSPE or a fourth lipid or phospholipid derivatized with a group binding a contrast enhancing agent wherein the plurality of liposomes optionally encapsulates a payload component consisting of one or more bioactive agents.

A liposomal composition (“ADx-001”) is provided, ADx-001 comprising a first phospholipid; a sterically bulky excipient that is capable of stabilizing the liposomal composition; a second phospholipid that is derivatized with a first polymer; a macrocyclic gadolinium-based imaging agent; and a third phospholipid that is derivatized with a second polymer, the second polymer being conjugated to a targeting ligand. The macrocyclic gadolinium-based imaging agent may be conjugated to a fourth phospholipid.

Methods and compositions for detecting tau pathology are described. The compositions for detecting tau pathology comprise a targeting ligand that specifically binds to a cell surface marker of tau pathology, wherein the targeting ligand is linked to a liposome that includes an imaging agent. The compositions can be used in a method for imaging tau pathology in a subject that comprises administering to the subject an effective amount of the composition to a subject and imaging at least a portion of the subject to determine if that portion of the subject exhibits tau pathology. The compositions can also be used to detect tau pathology in biological samples obtained from a subject.

Provided herein is a liposome comprising ribonucleic acid (RNA) molecules, a lipid mixture comprising DOTAP and cholesterol, and iron oxide nanoparticles (IONPs). Also provided herein is a liposome comprising ribonucleic acid (RNA) molecules and a lipid mixture comprising DOTAP and cholesterol, wherein the DOTAP and cholesterol are present in the lipid mixture at a DOTAP:cholesterol ratio of about 3:1 by mass. Related cells comprising the liposome, populations of cells, and compositions are also provided. Methods of making a liposome and methods of using the liposome are further provided.

The present disclosure provides a pH and oxygen dual-sensitive magnetic resonance imaging contrast agent and a preparation method thereof, which is a dual-modal nanoparticle contrast agent with .sup.19F signal and CEST dual signal (.sup.19F-CEST), a CEST contrast agent that is dual-sensitive to pH and oxygen. The preparation method comprises: mixing a variety of phospholipid surfactants and cholesterol well to obtain a blend of phospholipid surfactants, which is dissolved in chloroform or a mixed solvent of chloroform and methanol, evaporated to dryness with a rotary evaporator and dried overnight in a vacuum oven at 40 C. after adding rhodamine, finally, it is dispersed in water containing glycerin by mechanical dispersion or ultrasonic vibration to obtain a lipid modifier; mixing perfluorocarbon, the lipid modifier obtained in step (1), glycerin, and water and ultrasonically mixing well with a probe, and extruding with an extruder to prepare a perfluorocarbon nanoemulsion.

A liposomal nanocarrier delivery system for targeting an active CD44 molecule, preparation method therefor, and uses thereof. The surface of the liposome is partially modified by a targeting ligand, wherein the targeting ligand is a ligand that can be specifically combined with the active CD44 molecule. The liposomal nanocarrier delivery system can be used for diagnosing, preventing, and treating vulnerable plaque or diseases related to vulnerable plaque.