Canines
Insulin therapy, blood transfusions, intravenous medication and anesthesiology are some of the major medical advances made possible by using dogs in laboratory research.
Because their physiology is similar to humans -- small stomach, short digestive tract and similar organ structures -- dogs of many breeds are invaluable research models. Today, they are commonly used in radiation studies, experimental surgery, and physiological studies.
For long-term laboratory experimentation, the small, docile Beagle is the most popular breed. Beagles adapt well to cage life and are uniform in size, temper and response. They require small amounts of foods, bark little, and are good breeders.
The Greyhound is a common choice for surgical experimentation because of its large, well-defined muscles and nerves and large chest cavity. Two other breeds often used in lab research are the Dalmatian, for its human-like excretory functions, and the German Shepherd, for its good bone and joint configurations.
The dogs should be registered, or at least purebred, regardless of the breed chosen. Research dogs are generally obtained from breeding farms, welfare kennels, and commercial dealers. Usually "pound dogs" are used only for short-term acute testing. Using purebred dogs for long-term testing allows the researcher to take advantage of their uniform anatomy and physiology to get more consistent and reliable results.
Laboratory dogs are more contented if they can share a cage with a companion. When a dog has to be separated from canine companionship, it should get extra attention from its handler. An ideal cage has self-operating doors that lead to an exercise runway. If this isn't possible, the dogs should be exercised twice a day in a communal runway, or outdoors on a leash.
Every new arrival to the lab should be quarantined for a suitable time, examined by a veterinarian, bathed, and thoroughly dried and dusted with insect powder if necessary. New dogs will naturally be fearful of the surroundings. The fear can be overcome if the animal is handled in a calm, gentle manner.
As far back as the 17th century, researchers have recognized the many advantaged of using dogs in the laboratory. But today, with primates becoming more difficult to obtain, dogs are growing in importance to medical research. Their. Their breeding capacity, temperament and loyalty to their caretakers internal systems, organs, and muscles are so similar to humans that laboratory dogs are irreplaceable are additional reasons for their popularity in the laboratory.
Hundreds of custom diets have been formulated for canines; we can repeat or modify any existing diet or create new formulas for your specific research requirements.
A few examples of custom canine diets –
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Commonly known as: |
Description |
Grain-Based = G or Purified = P |
TestDiet¨ Formula # or Product # |
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5739-5 |
Modified Canine LabDiet 5006 with no added NaCl (0.14% sodium) |
G |
5739-5 |
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5739-6 |
Modified Canine LabDiet 5006 with Low Sodium (0.05% sodium) |
G |
5739-6 |
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5K94 |
Low Residue Canine Surgery Mix |
G |
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5C8T |
Canine LabDiet 5006 with Lard, Cholesterol and Sodium Cholate. |
G |
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Number of Adults |
Number
of |
Cage Dimensions* |
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Length |
Width |
Height |
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Breeding/Lactation |
1 pair |
3-4 |
See ILAR guidelines (1985). |
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Growing |
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4-5 |
Larger areas recommended for comfort and ease of cleaning. |
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Experimental |
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Varies |
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Feeding Recommendations |
Daily Feed Usage |
Water Requirement |
Begin Dry Food Consumption |
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25-40 gm/kg body weight |
Ad libitum. Need 2-3 times as |
20-30 days |
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much water as dry food consumed. |
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Environmental Data |
Room Temp. |
Humidity |
Light |
Litter Material |
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16-27 ĄC |
45-55% |
10-12 hrs/day |
Blanket or similar bedding. |
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Avoid
exposure |
Maintain on 1.25 x 2.5 cm wire floor. |
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