The invention relates to the field of medicine and to the chemical and pharmacological industry, and concerns medicaments for the treatment of breast cancer. In particular the invention relates to a use of 3-O-sulfamoyloxy-7β-methyl-D-homo-6-oxaestra-1,3,5 (10),8(9)-tetraen-17a-one as an anti-cancer agent in monotherapy and adjuvant therapy of breast cancer, including the triple negative breast cancer.

The invention relates to the field of medicine and to the chemical and pharmacological industry, and concerns medicaments for the treatment of breast cancer. In particular the invention relates to a use of 3-O-sulfamoyloxy-7β-methyl-D-homo-6-oxaestra-1,3,5 (10),8(9)-tetraen-17a-one as an anti-cancer agent in monotherapy and adjuvant therapy of breast cancer, including the triple negative breast cancer.

Purified and modified Cannabis products and methods for producing the same. The purified Cannabis product comprises substantially no volatile organic compounds while retaining Total Potential cannabinoid content. The modified Cannabis product comprises a purified Cannabis product modified by at least one added volatile unsaturated hydrocarbon. The modified Cannabis product is formed by extracting a volatile organic compound from a Cannabis raw material to form a purified Cannabis product, and then adding the at least one volatile unsaturated hydrocarbon to the purified Cannabis product to form the modified Cannabis product and cause an enhanced user experience during combustion and inhalation of the modified Cannabis product.

The present disclosure provides novel selective phosphatase inhibitor compounds based on illudalic acid. The present disclosure provides a streamlined method of synthesizing illudalic acid and a method for synthesizing phosphatase inhibitor compounds. The method of this invention provides convergent benzannulation of β-keto amides and esters, followed by a one-pot reduction/hydrolysis sequence. The concise synthetic approach provided by this invention enables rapid assembly of illudalog compounds of this invention that are potent protein tyrosine phosphatase receptor-type D (PTPRD) inhibitors.

The invention relates to a light harvesting array or dye comprising an acceptor linked to a donor, wherein at least one of the acceptor or the donor is an oligomeric unit comprising a first optionally substituted rylene linked via a linker group to a second optionally substituted rylene, the first optionally substituted rylene is linked to the acceptor or the donor and the second optionally substituted rylene is capable of energy transfer to at least one of the first optionally substituted rylene, the acceptor or the donor. The invention also relates to compounds which may be used as light harvesting arrays, methods for their manufacture, and devices and materials comprising the light harvesting array or dye, for example, chromophoric materials, light guides, photobioreactors, photoluminescent algae systems, photodetectors, photovoltaic devices and luminescent/fluorescent solar concentrators.

The invention relates to a light harvesting array or dye comprising an acceptor linked to a donor, wherein at least one of the acceptor or the donor is an oligomeric unit comprising a first optionally substituted rylene linked via a linker group to a second optionally substituted rylene, the first optionally substituted rylene is linked to the acceptor or the donor and the second optionally substituted rylene is capable of energy transfer to at least one of the first optionally substituted rylene, the acceptor or the donor. The invention also relates to compounds which may be used as light harvesting arrays, methods for their manufacture, and devices and materials comprising the light harvesting array or dye, for example, chromophoric materials, light guides, photobioreactors, photoluminescent algae systems, photodetectors, photovoltaic devices and luminescent/fluorescent solar concentrators.

Provided herein is a compound of Formula (I-I), or a pharmaceutically acceptable salt thereof, wherein the variables are defined herein. Also provided herein are pharmaceutical compositions comprising a compound of Formula (I-I), and methods of using the compounds, e.g. in the treatment of CNS-related disorders. ##STR00001##

The invention relates to a method for separating natural substance mixtures, in particular those consisting of plant extracts, and for isolating and purifying and obtaining same, by means of sequential centrifugal partition chromatography (sCPC).

The invention relates to a method for separating natural substance mixtures, in particular those consisting of plant extracts, and for isolating and purifying and obtaining same, by means of sequential centrifugal partition chromatography (sCPC).

The present disclosure is directed to methods for the treatment of inflammation or pain, particularly methods using compositions containing a compound of formula (I).