AU2001268321A1

AU2001268321A1 - Diet which induces ketosis in a canine or feline

Info

Publication number: AU2001268321A1
Application number: AU2001268321A
Authority: AU
Inventors: Dennis Edward Jewell; Claudia Ann Kirk; Phillip William Toll; Steven Curtis Zicker
Original assignee: Hills Pet Nutrition Inc
Current assignee: Hills Pet Nutrition Inc
Priority date: 2000-06-13
Filing date: 2001-06-11
Publication date: 2002-03-14
Anticipated expiration: 2021-06-11

Description

COMPOSITION AND METHOD

Background Of The Invention

Diet has been used in an attempt to manage conditions in man for many years. Obesity is often times directly related to the total and type of caloric intake for man over a given period of time. Diabetes first line of control is usually an attempt at management through diet. Similarly an attempt to limit high cholesterol values, hypertension, and urinary stone formation is frequently attempted by diet. In man, it has additionally been observed that a diet, which brings about a state of ketosis, that is increased ketone bodies, has met with some success in controlling the seizures associated with epilepsy.

In lower mammals, such as dogs, experiments to create a state of ketosis through the use of starvation has met with only limited attainment, JJ. de Bruijne, International Journal of Obesity ( 1979) 3, 239-247, see a further study on prolonged fasting in dogs by ]. ^']. de Bruijne, Metabolism (1981 ) Vol. 30, no. 2, 190-194. No ketotic state has been reported to have been achieved for a dog through use of a designed diet that uses a relatively high fat level combined with a relatively low carbohydrate level. The same lack of information concerning felines and lack of attainment of ketosis through use of diet, complete in all nutrients, is also present.

It has now been discovered that a state of ketosis can be achieved in lower mammals through the use of diet, in general a diet that is relatively high in fat and relatively low in carbohydrates. This alteration of metabolism, ketosis, can be useful in the management of various medical or behavioral conditions including but not limited to seizures, more specifically those related to idiopathic epilepsy; body weight regulation; behavior problems; muscle metabolism; carbohydrate intolerance; disorders of insulin secretion or insulin deficiency; muscle fatigue; suboptimal exercise tolerance and a combination of any of these conditions. In addition, alterations in metabolism and ketosis can enhance exercise performance.

Summary Of The Invention

In accordance there is a diet capable of inducing a state of ketosis in a dog or cat when fed the said diet on a regular basis, said diet comprising:

DOG

Carbohydrate measured as nitrogen free extract of about Zero to about 20wt% of the diet, protein of from about 25% to about 70wt% of the diet, and fat of from about 20wt% to about 70wt% of the diet all on a dry matter basis.

CAT

Carbohydrate as measured as nitrogen free extract of about zero to about 20wt% of the diet, protein of from about 25 to about 70wt% of the diet, and fat of from about 20 to about 70wt% of the diet, all on a dry matter basis.

A further aspect of the invention is a method of inducing a ketotic state in a dog or cat which comprises feeding the dog or cat a diet which is relatively high in fat and relatively low in carbohydrate.

A still further aspect of the invention is a method for managing a medical or behavioral condition selected from the group consisting of seizures (related to idiopathlc epilepsy), body weight regulation, behavior problems, muscle metabolism, carbohydrate intolerance, disorders of insulin secretion or deficiency, muscle fatigue and suboptimal exercise tolerance; enhanced exercise performance; and, a combination of any of these conditions in a dog or cat in need of such management which comprises feeding the dog or cat a diet which induces ketosis.

Detailed Description Of The Invention

A diet that induces a ketotic state in dogs and cats has been found to be high in fats and low in carbohydrates. By a "ketotic state" is meant alteration of the mammal's metabolism so as to increase the quantity of ketone bodies to levels significantly above the norm achieved with standard diets. Example (s) of these ketone body markers include beta-hydroxybutyrate, acetoacetate, and acetone.

Such a ketotic state inducing diet provides a nutritious maintenance diet to a dog or a cat with the benefit of altering the metabolism of the animal to attain the production of higher quantities of ketone bodies. The quantities of the significant components for the dog diet, all measured as wt.% of the diet and on a dry matter basis are about 0 to about 20wt% of carbohydrates as nitrogen free extract, preferably 0 to about 10wt%; about 25 to about 70wt% of protein, preferably about 25 to about 40wt%; and about 25 to about 70wt% of fat, preferably about 30 to about 60wt%.

The quantities of the significant components for the cat diet, all measured as wt% of the diet and on a dry matter basis are about 0 to about 20wt% of carbohydrates as nitrogen free extract, preferably 0 to about 10wt%; about 25 to about 70wt% of protein, preferably about 30 to about 60wt%; and about 20 to about 70wt% of fat, preferably about 30 to about 60wt%. Additionally, each diet will contain sufficient minerals and vitamins to avoid nutritional deficiencies. The diet-induced state of ketosis can be useful in the treatment of certain conditions, which are affected by this altered metabolism. Examples of such conditions include but are not limited to seizures, for example, seizures accompanying idiopathic epilepsy particularly in dogs; weight regulation such as weight loss, gain, or maintenance; behavior problems, for example aggression, obsessive-compulsive disorder, and separation anxiety; muscle metabolism causing weakness or fatigue; carbohydrate intolerance (high or low blood sugar) for example, manifested by disorders of insulin secretion or insulin deficiency such as type II diabetes, exercise ability as shown by increased performance; and suboptimal exercise tolerance, for example myopathies and fatigue.

Below are examples of the invention. These examples are intended to illustrate the broad concept of the invention and not unduly limit it.

EXAMPLE 1

Twelve dogs were tested in a crossover design experiment.

AH dogs were fed a standard maintenance canine diet for 2 weeks prior to the experimental period. At the start of the experiment, all dogs were held off of food for 24-48 hours to induce ketosis. Following this food deprivation period the animals were split into two groups with one being fed standard dog food and the other fed the nutritionally complete experimental ketogenic diet. AH foods were fed at approximately 75-85% of maintenance requirement of calories as determined in the prefeeding period. The experimental diet was introduced over a 3-day period as follows: Day 1 = 1/3 experimental: 2/3 standard Day 2 = 2/3 experimental: 1 /3 standard Day 3 = 100% experimental diet

Diet intervention was maintained for 2 weeks. A one-week washout period was allowed and the animals were crossed over and repeated in the above testing methodology. Response to diet was assessed by measurement of serum ketone bodies at pretest, post food deprivation period, and end of food intervention periods. Statistical analysis of the response showed that feeding the experimental diet significantly increased (P<0.05) the level of ketone bodies in the blood of dogs compared to controls.

One composition of the new diet comprises fat, protein, supplemental minerals and vitamins, without any digestible carbohydrates. A small amount of fiber is added to maintain stool consistency. The diet is formulated to meet the AAFCO recommendations for all nutrients. A standard pet food diet would consist of the above constituents but also include 30-60% digestible carbohydrates in addition to fat, protein, minerals and vitamins in AAFCO recommended levels.

The composition components of the ketogenic diet and the ordinary canine diet utilized in the experiment are below:

Both diets were fed in an amount estimated to be 0.75X daily energy requirement during the treatment periods. Data were analyzed in a completely randomized crossover design with the fast period as a covariant for the response variable. Covariant analysis revealed that beta-hydroxybutyrate was significantly higher for the ketogenic diet (KD) in the response period compared to standard canine diet (CD) (0.63 mg/dl vs. 0.18 mg/dl). No adverse effects on BUN, creatinine, glucose or other parameters were noted.

In conclusion, it is possible to increase ketone body production in healthy dogs by means of dietary manipulation. EXAMPLE 2

Materials And Methods

32 obese, adult, cats were tested in a repeated measures design to assess the effect of diet on ketone body production (ketosis) and weight loss.

Prior to the experiment the cats were blocked randomly into two groups based on body condition score and sex. All cats were fed a standard feline maintenance food for 2 weeks prior to the first experimental period. At the start of the first period one group was fed a standard weight reducing diet (Hill's^® Prescription Diet^® Feline w/d^®) and the other group was fed a nutritionally complete ketogenic diet. Both diet types were of the canned type in this dietary trial. All foods were fed ad libitum for period 1 and were then subsequently restricted to 80% of ad libitum intake, as measured in period 1 , for period 2 (limit-fed period).

Diet intervention was maintained for 4 weeks of period 1 as ad libitum fed. This was immediately followed by 4 weeks of the limit fed treatment for period 2.

Blood for various analytes was collected at the start and every 2 weeks after the start of the study until the end of period 2. Dual energy x-ray absorptiometry was performed at the beginning and end of each feeding method period.

Results

Beta-hydroxybutyrate

Cats fed the ketogenic diet had a significantly higher amount of ketosis during both the ad libitum (P< 0.001 ) and feed restricted periods (P< 0.0001 ) compared to the cats on a feline maintenance diet during the prefeeding period. In addition, the cats fed ketogenic diet had significantly higher amounts of ketosis compared to the standard weight-reduction diet during both periods as well (P<0.02). The standard weight-reduction diet did achieve a significant degree of ketosis in the limit-fed period but not during the ad libitum-fed period (P=0.15) as compared to prefeeding values.

Body Mass

Cats fed either diet during either period achieved a significant amount of weight loss compared to the prefeeding period. There was no significant difference between diets during the ad libitum feeding period but the ketogenic diet produced a significantly greater weight loss during the limit fed period (P<0.04).

Blood Glucose

Cats fed the ketogenic diet had a significantly decreased concentration of glucose during period 1 compared to the prefeeding concentration. The concentration observed at the end of period 1 was within the normal range for cats but significantly decreased compared to prefeeding values as stated earlier. When diet effects were compared at the end of period 1 and period 2 there was no significant difference measured between diets.

Conclusions

Feeding a high fat, low carbohydrate diet to cats resulted in attainment of a ketotic state, weight loss, and normalization of blood glucose concentrations in obese, adult cats. The ketogenic diet demonstrated comparable improvement in glucose regulation to that previously reported for the weight-loss diet. The ketosis attained was significantly greater than when similar cats were placed on a standard weight reduction diet. In addition, the weight loss attained was similar to that in cats fed a standard weight control diet formulated for cats. No adverse effects of diet were noted in this experimental design. The ketogenic diet demonstrated comparable improvement in glucose regulation in comparison to the results previously reported from use of the standard weight loss diet.

Claims

ClaimsWhat is claimed is:

1. A diet which induces a state of ketosis in a canine or feline which comprises an edible composition relatively high in fats and relatively low in carbohydrates.

2. The diet of claim 1 which induces a state of ketosis in a canine.

3. The diet of claim 1 which induces a state of ketosis in a feline.

4. The diet of claim 2 which comprises carbohydrate measured as nitrogen free extract of about 0 to about 20wt% of the diet, protein of from 25 about to about 70wt% of the diet, and fat of from about 20wt% to about 70wt% of the diet on a dry matter basis.

5. The diet of claim 4 wherein carbohydrate is from about 0 to about 10wt%, protein of from about 25 to about 40wt%, and fat of from about 30 to about 60wt% of the diet on a dry matter basis.

6. The diet of claim 3 which comprises carbohydrate, measured as nitrogen free extract, of from about 0 to about 20wt% of the diet, protein of from about 25 to about 70wt% of the diet, and fat of from about 20 to about 70wt% of the diet on a dry matter basis.

7. The diet of claim 6 which comprises about 0 to about 10wt% of carbohydrate, about 30 to about 60wt% of protein, and about 30 to about 60wt% of fat of the diet on a dry matter basis.

8. A method for inducing a state of ketosis in a canine or feline which comprises feeding to said canine or feline on a regular basis the diet of claim 1.

9. The method of claim 8 wherein the state of ketosis is induced in a canine.

10. The method of claim 8 wherein the state of ketosis is induced in a feline.

1 1. A method for managing a medical condition or behavior condition selected from the group consisting of seizures, body weight problems, behavior problems, muscle metabolism, carbohydrate intolerance, disorders of insulin secretion or deficiency, muscle fatigue and suboptimal exercise tolerance, enhanced exercise performance, and a combination of these conditions in a canine or feline in need of such management which comprises feeding the canine or feline a ketosis inducing diet of claim 1.

12. The method of claim 1 1 wherein the diet is fed to a canine.

13. The method of claim 12 wherein the managed condition is seizures.

14. The method of claim 1 1 wherein the diet is fed to a feline.