The present invention relates to a resorbable implant material made of magnesium or magnesium alloy and to a process for the production thereof. A disadvantage of the known resorbable implants is that their resorption has hitherto only been trackable using x-ray or CT examinations. The invention provides a resorbable implant material comprising homogeneously distributed fluorescent nanodiamonds in a matrix of magnesium or a magnesium alloy. Fluorescent nanodiamonds are biologically nonhazardous and provide a stable emission in the near infrared range due to nitrogen-vacancy centers (NV centres). This allows detection of the implant material in the blood plasma of the patient.

The resorbable implant material according to the invention is produced by a process wherein magnesium or a magnesium alloy is melted, nanodiamonds are added to the melt and the melt of magnesium or a magnesium alloy provided with nanodiamonds is subjected to an ultrasound treatment.

The present invention relates to compositions and methods for destroying target cells in a patient using photodynamic therapy. In particular, the present invention provides a photosensitizing agent based on a small molecular weight (<50 kDa) protein or peptide or a small molecule that is conjugated to a phthalocyanine dye, such as IRDye 700DX.

Compositions comprising a therapeutic agent encapsulated by an edible plant-derived microvesicle are provided. Methods of treating an inflammatory disorder and methods of treating a cancer are further provided and include administering an effective amount of a composition comprising a therapeutic agent encapsulated by an edible plant-derived microvesicle to a subject. Further provided are methods of diagnosing a colon cancer that include the steps of administering an edible plant-derived microvesicle incorporating a detectable label to a subject and then determining an amount of the detectable label in an intestine of the subject.

Conjugates are provided containing a graphene quantum dot, a targeting moiety, and an active agent. The conjugates can be used to provide one or more therapeutic, prophylactic, or diagnostic effects to a subject in need thereof. The subject can be a cancer patient and the active agent an anti-cancer agent. The graphene quantum dots can have an average particle size of about 1-20 nm and a monodisperse size distribution. The size distribution can have a span about 1 or less and/or a coefficient of variance of about 0.5 or less. Methods of making the conjugates are provided. The methods can include conjugating the targeting moiety to the GQD using a reactive coupling group. Methods of treating, preventing, and/or diagnosing a disease or disorder in a patient in need thereof by administering the conjugates are provided.

The present invention relates to a resorbable implant material made of magnesium or magnesium alloy and to a process for the production thereof. A disadvantage of the known resorbable implants is that their resorption has hitherto only been trackable using x-ray or CT examinations. The invention provides a resorbable implant material comprising homogeneously distributed fluorescent nanodiamonds in a matrix of magnesium or a magnesium alloy. Fluorescent nanodiamonds are biologically nonhazardous and provide a stable emission in the near infrared range due to nitrogen-vacancy centers (NV centres). This allows detection of the implant material in the blood plasma of the patient. The resorbable implant material according to the invention is produced by a process wherein magnesium or a magnesium alloy is melted, nanodiamonds are added to the melt and the melt of magnesium or a magnesium alloy provided with nanodiamonds is subjected to an ultrasound treatment.

A compound comprising an oligomer formed from a biocompatible multifunctional carboxylic acid comprising a hydroxyl group and at least one carboxylic acid, an polyol (e.g., an aliphatic diol), and a linker. One or more conductive oligomers (e.g., polyanilines) are covalently bonded to the oligomer. The compounds can have various forms (e.g., articles of manufacture, films, scaffolds, and the like). The compounds have various uses. For example, the compounds are used in photoacoustic imaging methods.

A nanoplatform for targeting macrophages is obtained by a click chemistry reaction between albumin conjugated with an aizde (N.sub.3) or cyclooctyne functional group and a transmitter conjugated with an azide (N.sub.3) or cyclooctyne functional group, wherein the transmitter comprises a mannosyl group or a galactosyl group, and when the albumin is conjugated with the azide functional group, the transmitter is conjugated with the cyclooctyne functional group while, when the albumin is conjugated with the cyclooctyne functional group, the transmitter is conjugated with the azide functional group.

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

Microfluidic organ-on-a-chip devices have been developed with the aim to replicate human tissues in vitro. However, there is no option to quantitatively monitor biological processes that take place within the chip, over time. Destructive methods in order to analyze, tissue formation, gene expression, protein secretion etc. require the harvest of the tissue at a certain time point. Described herein are methods and compositions for non-destructive molecular imaging methods and systems in order to quantitatively monitor specific biological processes, over time, within the chip, without the need to harvest.

The present invention relates to a complex for bioimaging, diagnosis, and treatment of cancer cells. The complex of the present invention comprises fluorescent nanoparticles and a manganese salt conjugated to the surface of the fluorescent nanoparticles, and the fluorescence of the fluorescent nanoparticles in the complex is quenched due to the conjugation of the manganese salt.