A medicament set adapted to regulate multiple receptors simultaneously in patients experiencing diabetic peripheral neuropathy pain, the medicament set comprising: at least three distinct and separate medicaments for treating diabetic peripheral neuropathy pain, the at least three medicaments being a first medicament for treating peripheral neuropathy pain, being formulated for clinical administration as a locally injectable medicament using an injection device, and comprising polylactic glycolic acid (PLGA) micro-particles being loaded with a sodium channel blocker and local anesthetic drug, a second medicament for treating peripheral neuropathy pain, being formulated for clinical administration as a locally injectable medicament using an injection device, and comprising PLGA micro-particles being loaded with a sodium channel blocker and anti-convulsant drug, and a third medicament for treating peripheral neuropathy pain, being formulated for clinical administration as a locally injectable medicament using an injection device, and comprising PLGA micro-particles being loaded with an anti-inflammatory drug.

The embodiments relate to improved skin quality, health and appearance using a new delivery method and certain bioactive compositions and formulations. The system incorporates microneedle delivery technology with unique compositions and formulations. Such development allows for the pursuit of personalized medicine, or treatment delivery that can expand to remote controlled environment, immediate compounding and ultimate personalization with a state of the art longitudinal data predictive analytics. Certain formulations described herein are unique, combinatory and synergistic. Secured by high-tech proprietary system, there are unlimited potentials using AQT technology including but not limited to 3-D printing of a biodegradable micro chips that can be delivered via injection, AQT or any other possible route.

A substantially solid solution is provided, which includes water and optionally one or more additives, wherein about 71% to about 100% of the water by volume is in a solid state. The substantially solid solution may be administered to a subcutaneous fat layer of a subject, in order to reduce or remove adipocytes through freezing. The substantially solid solution may be generated in a mold, or at a point of delivery, and may be administered by any suitable device or administered directly to a treatment site via an incision.

A cryo formulation-based microneedle device for transdermal delivery of bioactive therapeutic agents. The microneedle device includes: one or more microneedle patches each including an array of miniaturized needles, wherein each miniaturized needle defining a base end and a tip; and a substrate to which the base end of the array of miniaturized needles is attached or integrated thereto; wherein the microneedle patch is in a cryo status; wherein each of the one or more microneedle patch is adapted to be applied on a skin surface, in which the miniaturized needles penetrates into skin; wherein the miniaturized needles is further arranged to melt so as to release one or more bioactive therapeutic agents into the skin to achieve a targeted therapeutic effect; and wherein the bioactive therapeutic agents includes protein and/or antigens.

Presented herein, in certain aspects, are cell-free therapeutic composition derived from human amniotic fluid (HAF) and uses thereof for the prevention and treatment of selected diseases and disorders.

Microneedle and microneedle devices including, e.g., silk fibroin-based microneedles tips for sustained dermal delivery of an anti-cancer agent and/or an immunomodulatory agent, as well as methods of manufacturing and using the same are described herein. In other embodiments, compositions and methods for burst-release or sustained-release administration of an anti-cancer agent and/or an immunomodulatory agent to provide an improved immune response to a cancer in a subject are described.

Self-righting articles, such as self-righting capsules for administration to a subject, are generally provided. In some embodiments, the self-righting article may be configured such that the article may orient itself relative to a surface. The self-righting articles described herein may comprise one or more tissue engaging surfaces configured to engage with a surface. In some embodiments, the self-righting article may have a particular shape and/or distribution of density (or mass) which, for example, enables the self-righting behavior of the article. In some embodiments, the self-righting article may comprise a tissue interfacing component and/or a pharmaceutical agent (e.g., for delivery of the active pharmaceutical agent to a location internal of the subject). In some cases, upon contact of the tissue with the tissue engaging surface of the article, the self-righting article may be configured to release one or more tissue interfacing components.

The present disclosure describes a method of delivering a therapeutic agent providing a microneedle array including a plurality of microneedles, the plurality of microneedles including a conductive coating disposed thereon, wherein the conductive coating includes the therapeutic agent and a conducting polymer; implanting the microneedle array in a dura mater of a subject in need thereof, wherein the microneedle array pierces the dura mater; and applying an electrical stimulus to the microneedle array to provide a controlled release of the therapeutic agent from the conductive coating, across the dura mater, to the central nervous system of the subject.

Provided herein are fluid formulations for administration to a suprachoroidal space of an eye of a patient. The fluid formulations may include a pharmaceutical agent, a binding molecule, or a combination thereof. The pharmaceutical agent and the binding molecule may be bonded to each other covalently, non-covalently, or a combination thereof. The pharmaceutical agent may be configured to bond to an ocular tissue. The binding molecule may be configured to bond to an ocular tissue. Methods of administering the fluid formulations, methods of expanding a suprachoroidal space, and methods of reducing the minimum force to separate the sclera and choroid are provided.

Uncultured amniotic cell and protein fraction products derived from amniotic fluid and methods of preparing and using those compositions are provided. According to the methods of the present invention, uncultured amniotic cell and protein products may be derived from a large sample of amniotic fluid to provide a higher concentration of tissue regeneration components. Described are methods for separating uncultured amniotic cells or protein fractions from other components of amniotic fluid and the resulting uncultured amniotic cell and protein products. Furthermore, the present invention includes methods for delivering the uncultured amniotic cell and protein products to the skin and eye, including before, during, or after a treatment procedure.