Abstract

Remote drug delivery is an essential tool for administering medication to wildlife. However, the conventional method, the dart gun, has limitations in terms of injection distance, posing risks for operators. This study aimed to modify a mini drone equipped with a dart syringe and delivery system for use with large wildlife. A commercial mini drone was modified to release a syringe dart using a vertical gravity-based delivery system. The performance of the drone and delivery system was evaluated based on accuracy to the target and penetration ability through pig skin. The evaluation compared a dart with or without a plastic shell, with tests conducted both indoors and outdoors. The results indicated that the higher the drone’s flight, the more the dart tended to deviate from the target. In outdoor tests, a syringe dart without a shell showed greater accuracy than a dart with a shell. Regarding penetration ability, only a dart without a shell had a 100% success rate at a maximum height of 5 m, with an overall statistical difference (P = 0.01). In conclusion, this study represents the first scientific validation of using mini drones for remote drug injections that could be used in large wildlife medicine.