Royal Canin Satiety Weight Management Dog 6kg
Satiety Support Weight Management Formulated for weight loss in dogs, Satiety Support Weight Management dry formula is design to help reduce hunger. Satiety Support enables your dog to receive a 32% larger portion than your average high-fibre weight loss diet. This is achieved through a combination of high protein and a special blend of fibres.
Recommended for (indications):
- Being overweight
- Diabetes mellitus (both normal and overweight dogs)
- Hyperlipidaemia associated with obesity
- Weight Management
Not recommended for (contraindications):
- Pregnancy, lactation and growth
- Chronic disease requiring an increased energy intake
Prior to prescribing, individual target weight should be determined. The energy allowance (kcal) per kg target body weight is based on the dog’s body condition score (BCS) however this is only an initial indication. The amount of food necessary to induce weight loss can vary between individual dogs. This is why close monitoring by your veterinarian is required to regularly update the food quanitity ration and ensure continued weight loss. It is recommended that a veterinarian’s opinion be sought before use or before extending the period of use. .
|Health Condition||Weight Management|
|Ingredients||vegetable fibres, dehydrated poultry protein, wheat gluten*, tapioca, maize gluten, hydrolysed animal proteins, maize, wheat, animal fats, beet pulp, fish oil, minerals, fructo-oligo-saccharides, soya oil, psyllium husks and seeds, hydrolysed crustaceans (source of glucosamine), marigold extract (source of lutein), hydrolysed cartilage (source of chondroitin). ADDITIVES (per kg): Nutritional additives: Vitamin A: 20000 IU, Vitamin D3: 1000 IU, E1 (Iron): 44 mg, E2 (Iodine): 4.4 mg, E4 (Copper): 5 mg, E5 (Manganese): 57 mg, E6 (Zinc): 171 mg, E8 (Selenium): 0.08 mg - Preservatives - Antioxidants. ANALYTICAL CONSTITUENTS: Protein: 30% - Fat content: 9.5% - Crude ash: 5.3% - Crude fibres: 16.6% - Metabolisable energy: 2692 kcal/kg. *L.I.P.: protein selected for its very high assimilation.|