Department of Animal Sciences, Michigan State University, East Lansing 48824.
Poult Sci. 2014 Apr;93(4):943-52. doi: 10.3382/ps.2013-03604.
Selection for rapid growth in turkeys has resulted in skeletal problems such as femoral fractures. Slowing growth rate has improved bone structure, but the effect on mechanical properties of the bone is unclear. The current study's hypothesis was that slowing the growth of turkeys by reducing energy and CP in the diet would result in increased femur integrity. Commercial turkeys were fed 1 of 3 diets: control with 100% of NRC energy and CP levels, as well as a diet feeding 80 or 60% of NRC energy and CP levels. All other nutrients met or exceeded NRC requirements. Control birds were grown to 20 wk of age, whereas the 80 and 60% NRC birds were sampled when BW matched that of control birds at wk 4, 8, 12, 16, and 20. Both femurs were extracted, with one being measured and ashed and the other twisted to failure to evaluate mechanical properties. Total bone length, diameter, cortical thickness, and cortical density were measured. The total femur length was longer in the 60% NRC birds at 5 and 10 kg of BW compared with control (P < 0.05); this significance was lost by the time birds reached 16 kg of BW. At 5 and 10 kg of BW, ash content was higher in the control birds than in the 60% NRC birds (P < 0.05). At 16 kg of BW, the 60% NRC birds had the highest femur ash (P < 0.05). The mechanical testing parameters were failure torque, shear strength, and shear modulus of the bones. The 60% diet produced the highest failure torque (P < 0.05), at 16 kg of BW and onward. The shear strength was greater (P = 0.01) once the birds reached 5 kg of BW for the 60% diet than other diets. In conclusion, reducing the energy and protein in the diet to 60% of NRC recommendations, thus slowing growth, improved bone strength, as measured by failure torque, and bone quality, as measured by shear strength, without altering bone length or ash content by the time birds reached market weight.
选择快速生长的火鸡会导致骨骼问题,如股骨骨折。减缓生长速度可以改善骨骼结构,但对骨骼机械性能的影响尚不清楚。本研究的假设是,通过降低饮食中的能量和 CP 来减缓火鸡的生长速度,会导致股骨完整性增加。商业火鸡喂食 3 种饮食中的 1 种:对照饮食提供 100%NRC 能量和 CP 水平,以及提供 80%或 60%NRC 能量和 CP 水平的饮食。所有其他营养素均符合或超过 NRC 要求。对照鸡长到 20 周龄,而 80%和 60%NRC 鸡在 BW 与对照鸡在第 4、8、12、16 和 20 周龄相匹配时取样。提取两只股骨,其中一只测量和灰化,另一只旋转至失效,以评估机械性能。测量总骨长度、直径、皮质厚度和皮质密度。在 5 和 10 kg BW 时,60%NRC 鸡的总股骨长度比对照鸡长(P<0.05);当鸡达到 16 kg BW 时,这种差异就消失了。在 5 和 10 kg BW 时,对照鸡的灰分含量高于 60%NRC 鸡(P<0.05)。在 16 kg BW 时,60%NRC 鸡的股骨灰分最高(P<0.05)。力学测试参数为骨骼的失效扭矩、剪切强度和剪切模量。60%饮食在 16 kg BW 及以上时产生的失效扭矩最高(P<0.05)。一旦 60%饮食的鸡达到 5 kg BW,其剪切强度就大于其他饮食(P=0.01)。总之,将饮食中的能量和蛋白质减少到 NRC 推荐量的 60%,从而减缓生长速度,提高了骨骼强度,用失效扭矩来衡量,提高了骨骼质量,用剪切强度来衡量,在鸡达到上市体重时,不会改变骨长或灰分含量。
