CFC-040 3 oz
Weruva is a luxurious natural food inspired by and named after 3 rescued cats, Webster, Rudi and Vanessa. The food is made with the best ingredients from around the world. Weruva produces the pet food in a state of the art human food facility in Thailand, using the precise quality raw materials that are used to produce the human food. They also utilize the same production processes as that of the human side, including a system of quality control that exceeds the standards demanded by international markets. The end result - Weruva pet food is not only human grade and safe for pets, it is fit and safe for people just the same.
The factory is inspected by international government agencies and third party auditors, under the scrutiny of human consumption standards, to ensure that it abides by Good Manufacturing Practices (GMP) regulations. It also has certificates of accreditation by the International Organization For Standardization (ISO), HALAL and Orthodox Kosher. The factory is FDA approved and USDA registered.
All raw materials are tested for pathogens and contaminants, including an antibiotic, heavy metal and pesticide analysis (no raw materials are imported from China). Upon passing inspection, the food is then produced according to an internal Specific Quality Control Procedure HACCP system.
Ingredients:
Chicken Broth, Chicken (Boneless, Skinless Breast), Pumpkin, Carrot, Pea, Potato Starch, Sunflower Seed Oil, Calcium Lactate, Tricalcium Phosphate, Xanthan Gum, Choline Chloride, Taurine, Zinc Sulfate, Vitamin E Supplement, Nicotinic Acid (Vitamin B3), Ferrous Sulfate, Thiamine Mononitrate (Vitamin B1), Calcium Pantothenate, Copper Sulfate, Riboflavin Supplement (Vitamin B2), Pyridoxine Hydrochloride (Vitamin B6), Vitamin A Supplement, Manganese Sulfate, Vitamin D3 Supplement, Folic Acid, Potassium Iodide, Sodium Selenite, Biotin, Vitamin B12 Supplement
Caloric Content
3.0 oz 53 kcal
Guaranteed Analysis
Crude Protein (min) 8%
Crude Fat (min) 1.2%
Crude Fiber (max) 0.5%
Moisture (max) 87.5%
Taurine (min) 0.05