This is a article I figured I would post for consideration. It sounds like accurate information but I can't remember where I found it. I found it very informative.




Working dogs are truly premier canine athletes. As such, one should pay close attention to meeting their energy needs. There are 3 sources of energy… fats, carbohydrates and proteins. Understanding how the working dog utilizes energy and how best to balance these energy stores can result in a more responsive partner that is less prone to physical injury.

Fats are the most energy dense of all the sources providing 70-90% of the energy needed for muscle contraction (primarily fueling slow twitch fibers). In the working dog, 50-65% of total energy in a diet should come from fats. (This translates to 25-32.5% fat on a dry matter basis.) When fed a high fat diet, the working dog will develop pathways that promote aerobic oxidation of free fatty acids (fat adaptation). In addition, adding an anti-oxidant such as Vitamin E and the amino acid l-carnitine can improve the muscle’s use of fat. Aerobic oxidation of free fatty acids leads to less lactic acid build up in the muscle and better endurance.

Carbohydrates are stored in muscle as glycogen. Muscle uses glycogen during the initial moments of activity and for bursts of speed and power (primarily fueling fast twitch fibers). Glycogen stores are relatively small and can be rapidly depleted leading to muscle weakness and fatigue. However, diets high in carbohydrates can lead to deconditioning (poor endurance, obesity, muscle injury). For a working dog, carbohydrates should be limited to 10-15% of the total energy in the diet. To improve the working dog’s use of carbohydrates, one should focus on replenishing glycogen stores and slowing glycogen depletion.

Replenishing glycogen stores is accomplished by providing a “good carbohydrate” at an appropriate time. Muscle cells have GLUT4 pathways that are active during exercise and for up to 30 minutes after exercise. These pathways allow for the uptake of carbohydrate into the muscle without the release of insulin. Simple sugars (glucose, dextrose, fructose, corn syrup) cause an insulin release that leads to subsequent hypoglycemia (low blood sugar). Complex starches (bread, rice, grains) take too long to be digested and absorbed. Both cause fluid imbalances that can contribute to diarrhea and dehydration. Maltodextrin is a small complex carbohydrate and is the ideal carbohydrate for this purpose. Maltodextrin is rapidly absorbed without an insulin release or fluid imbalance and is readily utilized by the GLUT4 pathway. When a maltodextrin supplement is given within 30 minutes of exercise, up to 85% of pre-exercise glycogen levels are restored. Without this targeted approach, only 40% of pre-exercise levels are restored.

Slowing depletion of glycogen stores is accomplished in two ways. First, when enough fat is fed, slow twitch fibers will use free fatty acids as their energy source (fat adaptation) sparing glycogen for use by fast twitch fibers. Second, supplementing prior to activity with a “good carbohydrate” such as maltodextrin will give the working dog a little carbohydrate “to burn” before starting on the glycogen stores. It is very important to avoid simple sugars and starches to avoid insulin spikes and fluid imbalances.

Proteins are the building blocks of muscle and should not be a major source of energy. Animal source proteins (chicken, beef, lamb, egg, etc.) are preferred and often offer increased digestibility with a good amino acid balance. Diets low in protein have been associated with increased injuries. A working dog diet should have a minimum 26% protein. For hard working dogs, diets containing 30-40% protein are even better. The goal is to spare the use of protein as an energy source so it can be used to build muscle mass and repair muscle damage.

In summary, working dogs should be fed a diet high in fat to optimize energy availability and high in protein to protect against injury. Carbohydrates should be supplemented at appropriate times to improve their storage. Remember, feed for energy and you will have energetic dogs.





Cross post from another board, lets see what everyone says this one versus the one posted. Please share your ideas.

You have 30min post workout to give your charge the power
shake he-she needs. Whey Isolate(not blend), Creatine, L
Glutamine and 1000mg of Ester C.
Post-workout your dog's body is a literal sponge. In a highly
catabolic state it will soak up anything you give it!
Simple Carbohydrates:

During the post-workout phase of training your dog's body is
in a hypoglycemic stage. Blood-sugar and insulin levels have
drastically dropped. Immediately following exercise natural GH
concentrations struggle to increase as insulin levels try to
rebound from its current highly catabolic state.

A simple carbohydrate supplement combined with the
post-workout window of opportunity will give immediate rise to
blood glucose levels and cause a state of hyperglycemia. This
will force a increase in the production of insulin!

The newly increased quantity of insulin in the blood will drive
much needed glucose (and amino acids) through the receptor
sites in the muscle cell at an insane rate.

These elevated stages of blood glucose will begin causing
further secretions of Growth Hormone, the key hormone
responsible for producing Insulin Growth factor.

Why simple carbohydrates? Increased absorption rates, and
an abruptly induced insulin burst. The faster you can get
glucose into your dog's bloodstream and muscles, the less
protein destroyed and the more glycogen stored.

This is when you want to stay clear of complex carbs.
Complex and fibrous carbs simply take way too long to digest
and will not give optimal insulin release to offset muscle
catabolism.

You also want to stay far away from any fat and fructose
sources post-workout. Fructose will not replenish muscle
glycogen but rather will replenish liver glycogen. Fat severely
delays digestion because it metabolically requires so many
more processes to break down.

Another vital key to post-workout nutrition is insulin sensitivity.
Creating stronger insulin sensitivity is the primary way to get
the most out of your dog's post-workout simple carbohydrate

Only certain types of simple carbohydrates will replenish
muscle glycogen. These are carbohydrates in the form of
glucose/dextrose.

The basis of our simple carbohydrates (post-workout) should
come from sources that register high on the glycemic index.
Dextrose or Maltodextrin are the two sources of simple carbs
to give your charge post-exercise.

Protein:

Protein intake in combination with simple carbohydrates,
post-workout, are the key ingredients to achieving a state of
anabolism and offsetting their bodies’ process converting
muscle tissue for energy expenditure.

Fast absorption via digestion, is of paramount importance at
this stage. So a liquid or powdered form of protein derived
from hydrolyzed whey is the best logical supplement. Whey in
powder or liquid form takes an average of 20 minutes to
absorb, making this form of protein number one in the race for
assimilation.

Eating a slower burning form of protein like chicken or beef
post-workout is missing the mark completely. It is impossible
to take advantage of the post-workout window with a protein
food source that will take 2 hours to hit your charge's
bloodstream.

Water

Re-hydration post-workout is crucial. Thermoregulatory
processes need to be put in check as well. Water is
responsible for storing carbohydrates and will also help to
further speed up the digestion process of the carbohydrates
and protein.

Creatine, Glutamine, and Vitamin C.

Creatine:

Creatine works by increasing the muscles' ability to generate
peak torque during training. It does this through increasing
anaerobic ATP production. Simply put, creatine will enable
your canine to train harder and longer.

Stimulating insulin release will greatly enhance the transport
and uptake of creatine into the muscle tissue where it is used
to support the reproduction of ATP (energy) and enhance cell
volume.

L-Glutamine:

L-glutamine is an absolutely essential amino acid that
possesses anti-catabolic qualities. It is also the primary fuel
source of immune cells and intestinal cells.

Under periods of stress like really intense workouts, glutamine
becomes critical because your dog's body may not be able to
make enough of it. If enough glutamine is not supplied by the
diet, then the loss of muscle tissue will provide the supply.

Intense exercise also places a high demand for glutamine in a
athlete's healthy body, canine or human, making post-workout
an ideal opportunity for consumption.

L-Glutamine plays an important role in:

1. Protein metabolism

2. Cell Volumizing

3. Increased Strength and Endurance

4. Tissue Repair

5. Higher Growth Hormone output

6. Anti-catabolism/Decreased chance of overtraining

7. Immune system enhancer


Back to Basics.
This is why the cool down and long massage kneading the canine's muscles towards the heart are SO VERY important PWO (Post Work Out).
Also remember you only have a 30min window to give the Post Workout nutrients.
VERY IMPORTANT, remember that only dextrose-Malto will replenish muscle glycogen. Fructose will only replenish liver glycogen.
If the product you are using for your canine's PWO nutrients is transported by fructose, you are short changing your canine athlete.
There are many products out there that claim to be lactic acid buffers. Some even believe in Creatine.
Glucoronolactone....found in Red Bull and the new di-creatine products. also, the soreness human and canine athletes get the next day after a workout is not lactic acid, its ammonia. Lactic acid is water soluble and only exists in You or your Canine's muscles while the human or canine athlete is actually working out. ammonia is alot harder to get rid of but lots of water usually helps. HYDRATION!
lactic acid build up occurs when glycolosis produces pyruvic acid quicker than it can be used by the mitochandria, the pyruvic acid then converts to lactic acid. One theory is that the lactic acid causes ph shifts that alter enzymes functions in the muscle causing fatigue. It may be true that lactic acid may be part of causing muscle to fatigue.. Not to go into detail, you will never solve the lactic acid burning feeling or fatigue from any product or ph buffer that has been tried by many marathon runners with no help, and thats because in science they are not totally sure on what the fatigue and pain is exactly caused from yet...

Dont Miss the 30min Window