The article aims to introduce the e-veterinary clinic as a breakthrough in virtual veterinary health care and an effective modern technology of animal-attached sensors used by veterinarians, farm owners and pet owners at home to monitor animal health remotely around the clock at a lower cost. The e-clinic could be within a traditional clinic or an independent entity based on artificial
... [Show full abstract] intelligence, machine learning, 4G communication technology and IoT. The smart e-clinic may take the form of a small laboratory installed on a smartphone to receive the sample from the animal and prepare it for detection and early warning against several diseases at the same time. It can also provide various veterinary medical services remotely, follow-up animals, write reports, store a huge amount of data in giant databases and process them for use on the Internet. One of the most important advantages is the expansion of the veterinary service as distinguished by allowing for virtual visits from anywhere, which saves time for veterinarians and animal owners, and helps to make work from home available to veterinarians. The article also refers to the role of the Central Veterinary Laboratory as a governmental research body in digitalizing animal health, which includes sensor 4.0 production to act as the nucleus of a smart veterinary clinic and meet the challenges of achieving this national goal with the help of the relevant state agencies.