The invention relates to a compound of formula (I), a salt thereof or a composition containing same as an acaricide, a method for reducing or preventing an infestation of an animal by a mite, comprising exposing the mite to a compound of formula (I), to a composition comprising a compound of formula (I), to one or more attractants for bees and a polymer, to a strap adapted for use in apiculture comprising a compound of formula (I) and to a hive comprising a compound of formula (I).

Opioid-free, anesthetic, analgesic, antalgesic, anti-nociceptive, anti-inflammatory, antiemetic formulations, and methods for reducing pain, controlling pain, preventing pain, reducing or eliminating exposure to opioids, decreasing nausea and vomiting, featuring administration of the anesthetic/analgesic formulations. The opioid-free/sparing anesthetic/analgesic formulations comprise a local anesthetic, a cyclooxygenase (COX) inhibitor, and an alpha agonist. The formulations may optionally comprise additional compositions including but not limited to NMDA receptor antagonists, Buprenorphine, Dexketoprofen, Carprofen, an antifibrinolytic, an antibiotic, a steroid, a cyclooxygenase 3 inhibitor, a Transient Receptor Potential Vanilloid (TRPV) receptor agonist or antagonist, a protein kinase inhibitor, a competitive or non-competitive glycine or glutamate agonist, a glutamate or glycine inhibitor or antagonist, a neurokinin-1 receptor antagonist, an alpha agonist, a second alpha agonist, and combinations thereof. The formulations are effective for significantly reducing postoperative nausea and vomiting and enhancing postoperative pain relief as compared to existing prior art anesthetics/analgesics.

Opioid-free, anesthetic, analgesic, antalgesic, anti-nociceptive, anti-inflammatory, antiemetic formulations, and methods for reducing pain, controlling pain, preventing pain, reducing or eliminating exposure to opioids, decreasing nausea and vomiting, featuring administration of the anesthetic/analgesic formulations. The opioid-free/sparing anesthetic/analgesic formulations comprise a local anesthetic, a cyclooxygenase (COX) inhibitor, and an alpha agonist. The formulations may optionally comprise additional compositions including but not limited to NMDA receptor antagonists, Buprenorphine, Dexketoprofen, Carprofen, an antifibrinolytic, an antibiotic, a steroid, a cyclooxygenase 3 inhibitor, a Transient Receptor Potential Vanilloid (TRPV) receptor agonist or antagonist, a protein kinase inhibitor, a competitive or non-competitive glycine or glutamate agonist, a glutamate or glycine inhibitor or antagonist, a neurokinin-1 receptor antagonist, an alpha agonist, a second alpha agonist, and combinations thereof. The formulations are effective for significantly reducing postoperative nausea and vomiting and enhancing postoperative pain relief as compared to existing prior art anesthetics/analgesics.

Bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3 in a companion animal can be improved by adjusting the diet of the animal to increase the amount of a compound which positively or negatively modulates the bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3 or adjusting the diet of the animal to decrease the amount of a compound which positively or negatively modulates the bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3.

Bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3 in a companion animal can be improved by adjusting the diet of the animal to increase the amount of a compound which positively or negatively modulates the bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3 or adjusting the diet of the animal to decrease the amount of a compound which positively or negatively modulates the bone mineral content, 25(OH) vitamin D3, or 1,25(OH).sub.2 vitamin D3.

Anti-viral compounds with low cytotoxicity are identified from screening of products found in Red Sea sponges, including the sponge Stylissa carteri. The identified compounds can be brominated pyrrole-2-aminoimidazole alkaloids and derivatives thereof. Specific examples of identified compounds include oroidin, hymenialdisine, and debromohymenialdisine, as well as derivatives thereof. The compounds also can be useful scaffolds or pharmacores for further chemical modification and derivatization. Selected compounds, particularly oroidin, show selective anti-viral HIV-1 activity coupled with reduced cytotoxicity. The compounds can function as HIV reverse-transcriptase inhibitors, and molecular modeling can be used to confirm inhibition.

Anti-viral compounds with low cytotoxicity are identified from screening of products found in Red Sea sponges, including the sponge Stylissa carteri. The identified compounds can be brominated pyrrole-2-aminoimidazole alkaloids and derivatives thereof. Specific examples of identified compounds include oroidin, hymenialdisine, and debromohymenialdisine, as well as derivatives thereof. The compounds also can be useful scaffolds or pharmacores for further chemical modification and derivatization. Selected compounds, particularly oroidin, show selective anti-viral HIV-1 activity coupled with reduced cytotoxicity. The compounds can function as HIV reverse-transcriptase inhibitors, and molecular modeling can be used to confirm inhibition.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.

It is proposed that dissipation of relative benefit during long-term treatment is due to long-term tolerance to stimulant medications. To improve adherence and persistence of medication use, it is advantageous to develop medications that are not undermined by long-term tolerance. Disclosed herein in certain implementations are formulations and methods relating to an alternative formulation of medication for the treatment of ADHD based on two principles: (a) retaining the initial immediate-release component of controlled-release formulations that targets a neural mechanism, which elicits acute tolerance, and (b) replacing the subsequent sustained-release component with a medication that maintains the initial benefit by targeting a different neural mechanism does not elicit tolerance, thus allowing more time for acute tolerance elicited by the initial bolus dose of stimulant medication to dissipate completely each day and avoid carry-over and accumulation that results in long-term tolerance.