Disclosed are methods for preparing cannabigerol (CBG) or a CBG analog, embodiments of the method comprising providing a compound (I); combining the compound (I) with geraniol and a solvent to form a reaction mixture; and combining the reaction mixture with an acid catalyst to form a product mixture comprising the CBG or the CBG homolog. The method may further comprise separating the CBG or the CBG analog from the product mixture and may further comprise purifying the CBG or CBG analog. Methods for preparing cannabigerolic acid (CBGA) or a cannabigerolic acid analog are also disclosed. The present disclosure also provides highly purity CBG, CBGA, and analogs thereof.

The present disclosure is directed to novel derivatives of naturally occurring humulones and lupulones, methods of making them, compositions comprising them, and methods for using them.

The present invention relates to a method of preparing chromanes from 2,5-dimethylfuran and substituted alkynes comprising an long chain unsaturated alkyl group as substituent in the alpha position of a substituted phenol followed by oxidation, reduction and acid ring closure. It is particularly advantageous to use 2,5-dimethylfuran as this offers an ecological beneficial synthesis of β-tocopherol.

The present invention relates to a method of preparing chromanes from 2,5-dimethylfuran and substituted alkynes comprising an long chain unsaturated alkyl group as substituent in the alpha position of a substituted phenol followed by oxidation, reduction and acid ring closure. It is particularly advantageous to use 2,5-dimethylfuran as this offers an ecological beneficial synthesis of β-tocopherol.

Described herein are pharmaceutical compositions comprising cannabinoids. In some embodiments, such compositions are useful for the treatment of inflammatory, autoimmune diseases or disorders, cancer, or neurodegenerative diseases. Further provided herein are pharmaceutical compositions comprising combinations of cannabinoids possessing entourage effects.

Methods of treating or suppressing mitochondrial diseases, such as Friedreich's ataxia (FRDA), Leber's Hereditary Optic Neuropathy (LHON), mitochondrial myopathy, encephalopathy, lactacidosis, stroke (MELAS), or Kearns-Sayre Syndrome (KSS) are disclosed, as well as compounds useful in the methods of the invention, such as alpha-tocopherol quinone. Methods and compounds useful in treating other disorders are also disclosed. Energy biomarkers useful in assessing the metabolic state of a subject and the efficacy of treatment are also disclosed. Methods of modulating, normalizing, or enhancing energy biomarkers, as well as compounds useful for such methods, are also disclosed.

Methods of treating or suppressing mitochondrial diseases, such as Friedreich's ataxia (FRDA), Leber's Hereditary Optic Neuropathy (LHON), mitochondrial myopathy, encephalopathy, lactacidosis, stroke (MELAS), or Kearns-Sayre Syndrome (KSS) are disclosed, as well as compounds useful in the methods of the invention, such as alpha-tocopherol quinone. Methods and compounds useful in treating other disorders are also disclosed. Energy biomarkers useful in assessing the metabolic state of a subject and the efficacy of treatment are also disclosed. Methods of modulating, normalizing, or enhancing energy biomarkers, as well as compounds useful for such methods, are also disclosed.

A method of cannabinoid preservation includes separating a cannabinoid ethanol (EtOH) mixture from a cannabis extract through a filtration process; forming a slurry by combining a crystalline compound with the cannabinoid EtOH mixture; heating and agitating the slurry in a pressurized chamber to form a colloidal cannabinoid EtOH mixture; distributing the colloidal cannabinoid EtOH mixture into a tray to form an evenly distributed mixture layer; forming an evaporation vessel for the evenly distributed mixture layer through the attachment of a detachable cover to the tray; positioning and heating the evaporation vessel within a heating chamber; performing a rapid cools process as the evenly distributed mixture layer approaches approaches saturation temperature; repeating the rapid cooling process until crystal formation is detected within the evenly distributed mixture layer; and/or removing the evaporation vessel from the heating chamber upon detection of crystal formation.

A method of cannabinoid preservation includes separating a cannabinoid ethanol (EtOH) mixture from a cannabis extract through a filtration process; forming a slurry by combining a crystalline compound with the cannabinoid EtOH mixture; heating and agitating the slurry in a pressurized chamber to form a colloidal cannabinoid EtOH mixture; distributing the colloidal cannabinoid EtOH mixture into a tray to form an evenly distributed mixture layer; forming an evaporation vessel for the evenly distributed mixture layer through the attachment of a detachable cover to the tray; positioning and heating the evaporation vessel within a heating chamber; performing a rapid cools process as the evenly distributed mixture layer approaches approaches saturation temperature; repeating the rapid cooling process until crystal formation is detected within the evenly distributed mixture layer; and/or removing the evaporation vessel from the heating chamber upon detection of crystal formation.

The present specification discloses methods of purifying one or more cannabinoids from a plant material, purified cannabinoids and pharmaceutical compositions comprising one or more cannabinoids produced by the disclosed method, methods and uses for treating a disease or condition employing such purified cannabinoids and pharmaceutical compositions.