Harlan Teklad动物饲料Custom Diet Induced Obesity

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Harlan Teklad动物饲料Custom Diet Induced Obesity

Purified high fat diets used to induce obesity and obesity-related complications such as diabetes and metabolic syndrome typically have 40-60% of energy derived from fat. The diet tables below summarize relevant diet features for several Teklad custom research diets commonly used in rodent models.

Teklad also creates high-fat diets for other species, including pigs, primates, and canines. Contact us to discuss the use of these diets or one that better meets your needs.

Commonly-used diet-induced obesity (DIO) Teklad rodent diets with 55-60% of calories from fat

Diet features TD.06414 stocked TD.93075 dough TD.07011 pellet
Kcal/g 5.1 4.8 4.8
Fat, % Kcal 60 55 55
Fat Sources,% by weight 31% lard
3% soybean oil
27.4% vegetable shortening
1.6% corn oil
27.4% vegetable shortening
1.6% corn oil
Calculated fatty acid profile, % total fat 36% saturated
41% monounsaturated
23% polyunsaturated
24% saturated
61% monounsaturated (cis + trans)
15% polyunsaturated (cis + trans)
24% saturated
61% monounsaturated (cis + trans)
15% polyunsaturated (cis + trans)
Sucrose, % by weight 12.1 9.6 9.6
Notes 60F10S poster data
Compare to D12492
Trans fat Trans fat
Example modifications TD.08500 coconut oil
TD.09766 milk fat
Ingredient matched, low fat control diets* TD.06416 (35% sucrose)
TD.08806 (11% sucrose)
TD.120651 (7% sucrose) TD.120651 (7% sucrose)
References Mouse
Rat
Mouse
Rat
Mouse
Rat

*Control diets can be designed in several ways, depending on what features the researcher wants to modify relative to the high-fat diet. These are just a few examples.

Commonly-used diet-induced obesity (DIO) Teklad rodent diets with 40-45% of calories from fat

Diet features TD.06415 TD.08811 TD.88137 stocked TD.95217
Kcal/g 4.6 4.7 4.5 4.3
Fat, % Kcal 45 45 42 40
Fat sources, % by weight 19.5% lard
3% soybean oil
21% milk fat
2% soybean oil
21% milk fat 10.6% vegetable shortening
4% milk fat
4% soybean oil
Fatty acid profile,% total fat 35% saturated
40% monounsaturated
25% polyunsaturated
61% saturated
30% monounsaturated
9% polyunsaturated
66% saturated
30% monounsaturated
4% polyunsaturated
31% saturated
47% monounsaturated (cis + trans)
22% polyunsaturated (cis + trans)
Sucrose,% by weight 22.8 36.8 34.5 15.8
Notes Compare to D12451 45F30S poster data “Western Diet”Cholesterol added Trans fat
Example modifications TD.110716 milk fat
TD.10670 no dye
TD.130784 lard
TD.120438 no dye
TD.07201 lard
TD.00573 h-coconut oil, no cholesterol
TD.09682 blue dye
TD.07734 green dye
Ingredient matched, low fat control diets* TD.06416 (35% sucrose)
TD.110675 (18% sucrose)
TD.120455 (6% sucrose, resistant starch)
TD.120724 (14% sucrose)
TD.05230 (34% sucrose)
TD.08485 (12% sucrose)
TD.06101 (6% sucrose)
References Mouse
Rat
Mouse
Rat
Mouse
Rat
Mouse
Rat

Diets for diet-induced obesity (DIO)

Diets with 55-60% of calories from fat like TD.06414 and TD.93075 are commonly used for inducing obesity in rodents. While considered extreme compared to typical human fat consumption, these diets are effective in initiating rapid weight gain in most rodents. With higher fat content there is less room for carbohydrate, thus the carbohydrate (particularly sucrose) amount is relatively low compared to other obesity inducing diets. If you are interested in high fat and high carbohydrate, look at diets with 40-45% of calories from fat (often referred to as western diets).

As the fat level increases, pellet quality (durability) is often compromised. Some higher fat formulas are available only in non-pelleted form or require specific carbohydrate, maltodextrin, for pelleting. Depending on the fat and carbohydrate sources used, the non-pelleted form could be dense and crumbly, dough-like, or paste-like. Though a little more challenging to work with, non-pelleted diet is still used by many researchers for diet-induced obesity models as these researchers suspect the softer form may enhance obesity development.

Diets with 40-45% of calories from fat, like TD.95217 , TD.88137 , TD.06415 , and TD.08811 , represent another popular diet pattern for diet-induced obesity work. These diets have double or triple the amount of sucrose found in higher fat diets. High levels of simple carbohydrate like sucrose and fructose may help to promote hypertriglyceridemia, insulin resistance, and fatty liver. Diets with a pattern of high sucrose and high saturated or trans fat are often referred to as “Western Diets” in obesity and cardiovascular fields. Some “Western Diets” have further modifications to the fatty acid profile or even specific vitamin and minerals adjustments to be even more closely matched to a Western Diet pattern. For specific fatty acid modifications, see examples on our fat/lipid adjusted diets page.

Diets for diet-induced diabetes

Many of the same diets used for inducing obesity in rodents can be used to enhance diabetes related phenotypes like insulin resistance and glucose intolerance. However, fasting hyperglycemia characteristic of diabetes (glucose > 200 mg/dL) is uncommon with a diet only approach. Pre-feeding a high fat diet to induce a certain level of obesity and insulin resistance and then giving low-dose streptozotocin (STZ) may be an effective approach if overt hyperglycemia is desired.

Ingredient matched, low-fat DIO control diets

There are many options with different levels and types of fat in addition to different types of carbohydrate ranging from sucrose (highly refined, simple digestion) to corn starch (refined, but more complex) to resistant starch (refined, but not fully digestible). A very basic purified control diet would be AIN-93M (TD.94048 ) or AIN-93G (TD.94045 ). AIN-93 diets have a moderate amount of sucrose at ~10%, and fat is from soybean oil with a healthy fatty acid profile. Additional examples of controls for specific DIO diets can be found in the above tables. Learn more about AIN diet formulas.

Many researchers choose to compare their high fat fed animals to animals fed a natural ingredient, grain-based diet (also referred to as standard diets or chow). These diets differ in the source and level of nutrients as well as in the presence of non-nutritive factors (such as phytates or phytoestrogens). Depending on what your main comparisons are, it may be suitable to have a grain-based diet as your control/reference group. However, making such comparisons limits inferences to dietary patterns versus a specific dietary component.