Although use of DHA as an anticancer drug to prevent or treat human cancer in clinical settings has not yet been well established, recent studies
suggest that DHA can be very effective as an adjuvant with other anticancer agents. In this article, we present studies that show the role of DHA in improving anticancer drug efficacy. Several in vitro and animal studies suggest that combining DHA with other anticancer agents often improves efficacy of anticancer drugs and also reduces therapy-associated side effects. Incorporation of Neuronal Signaling inhibitor DHA in cellular membranes improves drug uptake, whereas increased lipid peroxidation is another mechanism for DHA-mediated enhanced efficacy of anticancer drugs. In addition, several intracellular targets including cyclooxygenase-2, nuclear factor kappa B, peroxisome proliferator-activated receptor gamma, mitogen-activated PD-1/PD-L1 inhibitor drugs protein kinase, AKT, and BCL-2/BAX are found to play an important role in DHA-mediated additive or synergistic interaction with anticancer drugs. The data suggest that DHA is a safe, natural compound that can greatly improve the anticancer properties of anticancer drugs. Use of DHA with anticancer treatments provides an avenue to therapeutic improvement that involves less risk or side effects for
patients and reduced regulatory burden for implementation.”
“Stray dogs are a significant problem in large cities. Contraception is an important and useful solution to control the growing population of these dogs. Early-age neutering is an effective technique for canine population control; however, surgical neutering may not be possible in various situations. GnRH-agonist implantation AZD6244 price has been successful for long-term reversible
contraception in dogs. The efficacy of GnRH-agonist implantation on long-term suppression of reproductive performance was observed in male dogs. Eleven 4-month-old dogs were implanted with 4.7, 9.4 mg deslorelin or placebo. Sexual behaviour and testicular size were monitored every 2 months. Ejaculates were collected and evaluated at 8, 12, 15, 18, 24, 30, 32, 34 and 36 months of age. Dogs implanted with placebo were found to be healthy and in normal reproductive status. Most dogs (3/4) implanted with 4.7 mg deslorelin showed male sexual behaviour at age of 34 months old. From this group, two dogs had normal semen quality, while semen could not be collected from the other dog, and after castration, no sperm were obtained following epididymal flushing. One dog implanted 4.7 mg deslorelin and four dogs implanted with 9.4 mg deslorelin remained in the non-pubertal reproductive status at 30-34 months. The delay to puberty was longer in dogs implanted with higher dose of GnRH agonist. Implantation of pre-pubertal dogs with high doses of GnRH agonist will delay the onset of puberty and may be an effective strategy to reduce the number of unwanted breedings.