Fast forward to a discussion with a dog food rep recently and I asked her if she had heard about the possible aggression link. She said she had some info she could send me. Well it arrived today so I am going to type out the part of the report that deals with the protein level question. This is the closest I have come to the information I was looking for. It is long because I am including the whole section because there is other info included that I found relevant to dog training as well. The references are listed in the article and included at the end of the article. I highlighted a couple tidbits I found interesting.
This is an excerpt from "Dietary effects on canine and feline behavior" by Katherine A. Houpt, VMD, PhD and Steven Zicker, DVM, PhD. (Taken from The Veterinary Clinics Small Animal Practice book 2003)
Effect on canine aggression:
An interesting effect of food on behavior is the motivation of dogs for different foods. A hierarchy can be constructed based on the frequency with which dogs display aggression over a particular food. Most dogs aggressively defend rawhides. Next in attraction is any human food, bones, and toys. A few dogs guard their ordinary ration of food, and fewer still protect their water dish. (Fig. 1) From the blog author: Figure 1 is a bar graph showing the percentage of dogs that guard, to the resources listed with the highest bar at Rawhide, table, bone, toy, biscuit, dog food, and water in descending order. Table equaled human food.
A standard instruction to owners of aggressive dogs is to obtain dominance over the dogs by eating before the dog is fed. Forcing the dog to wait to be fed results in more food begging and general unruliness at dinnertime. Furthermore, it seems highly unlikely that the dogs equate the people seated at the table eating salad with a fork and drinking wine from a glass with a pack of dogs vying for a bite from a carcass. In fact, Jagoe and Serpell [14] found that dogs that were fed after their owners were more likely to be aggressive to strangers.
There have been two studies directly testing the hypothesis that higher protein diets lead to aggression. The first compared scores for two types of aggression and hyperactivity. The types of aggression were territorial and dominance. Owners scored the dogs on a 10-point scale, where 0 was no aggression and 10 was uncontrollable aggression when strangers entered the house (territorial) or when the dog bit, lunged at, or chased family members, becoming worse with disciplined (dominance) in many circumstances.
The diets were 10%, 25%, and 32% protein, which corresponds to 2, 3, or 4 g of protein per kilogram of body weight, and were fed for 2 weeks. Fat was substituted for protein in the lower protein diets. There was no significant effect on dominance aggression and a trend toward decreased aggression when the dogs were fed the higher protein diet. Aggression toward strangers was significantly greater when the dogs were fed the higher protein diet. Within that group were dogs that were offensively aggressive and dogs that were defensively (or fearful) aggressive. The fearful dogs improved most when fed the lower protein diets. Control dogs were scored for the same behavior and showed no change in score with diet. [15]
(Sidebar by blog author: True dominance aggression tends to be directed towards the owners and NOT people outside of the home. This is one clue that helps us diagnose it as such. True dominance aggression is also the more rarely seen of all the types of canine aggression.)
In the second study, there were four diets, high (30%) and low (18%) protein with or without 1.45 g of tryptophan per kilogram of diet added to the basal diet of 0.15% tryptophan per kilogram. The significant effects were that dominant aggressive dogs fed high-protein diets without tryptophan were more aggressive than those fed the other three diets and that dogs fed the low-protein diet plus the tryptophan were less territorially aggressive. There were no dietary effects on fearfulness, hyperactivity, or excitability [16]. Diets formulated for dogs with renal disease and some commercial diets for normal dogs are lower in protein than the low-protein diets tested and may be more effective. On the basis of the Dodman et al [15] and DaNapoli et al [16] studies, lower (18%) protein diets should be recommended for aggressive dogs. This is in contrast to earlier suggestions that high-protein diets might improve behavior [17].
The reason why low-protein diets and tryptophan may reduce aggression is that tryptophan is the precursor of serotonin; it is converted by tryptophan hydroxylase to 5-hydroxytryptophan, which in turn, is converted to 5-hydroxytryptamine or serotonin. Serotonin is a neurotransmitter associated with feelings of well-being and satiety. Tryptophan is found in low concentration (<1%) in most protein sources. It must compete with other large neutral amino acids for a common blood-brain barrier transporter mechanism. Increasing dietary tryptophan increases brain serotonin. The lower the protein level the diet, the higher is the ratio of tryptophan to large neutral amino acids and tryptophan transport to the brain. Tryptophan has been shown to decrease aggression in chickens [18] and primates [19]. Care must be taken when adding amino acids to a diet however, because an imbalance in amino acids and consequent anorexia could result [20].
[14] Jagoe J, Serpell J. Owner characteristics and interactions and the prevalence of canine behavior problems. Appl Anim Behav Sci 1996; 47:31-42.
[15] Dodman NH, Reisner I, Shuster L, et al. Effect of dietary protein content on behavior in dogs. JAVMA 2000; 217:376-9
[16] DeNapoli JS, Dodman NH, Shuster L, et al. Effect of dietary protein content and tryptophan supplementation on dominance aggression, territorial aggression, and hyperactivity in dogs, JAVMA 2000; 217:504-508.
[17] Campbell WE, Behavior problems in dogs. Santa Barbara (CA): American Veterinary Publications; 1975
[18] Shea MM, Douglass LW, Mench JA. The interaction of dominance status and supplemental tryptophan on aggression in Gallus domesticus males, Pharmacol Biochem Behav 1991; 38:587-91
[19] Mehlman PT, Higley JD, Faucher I, et al. Low CSF 5-HIAA concentrations and severe aggression and impaired impulse control in nonhuman primates. Am J Psychiatry 1994; 151:1485-91
[20] Gietzen DW, Duke CM, Hammer VA. Amino acid imbalance, a nutritional model: serotonin & mediation of aversive responses. Physiol Behav 1991;49:981-5.
Now I know there is some discussion on the TYPE of protein being important. These tests were done with dogs using a kibble based diet. I know raw feeders do not typically find this a concern because of the difference in how the protein is digested and processed. If anyone has more recent studies to refer to I would love to hear about them.
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