However, the non treatment group was not treated with LNP.
非治疗组不做负压治疗。
LNP will develop specific electrical testing as needed to suit customer application requirements.
LNP将开发特殊的电子测试必须适合客户应用的要求。
CONCLUSION: the LNP treatment promotes the releasing of CGRP in the cutaneous sensory nerve fiber endings.
结论:提示肢体负压疗法可促进皮肤感觉神经纤维中CGRP的释放。
The FCC accepts that a delay is needed, to enable operators to resolve outstanding LNP implementation issues.
FCC承认为使运营商解决实施本地号码可携性的遗留问题,有必要进行推迟。
BACKGROUND: It is not clearly known about the mechanism of limb negative pressure (LNP) in treatment of peripheral arterial occlusive diseases.
背景:肢体负压治疗周围动脉闭塞性疾病的机制尚不清楚。
Method: Before and after LNP treatment, the skin microcirculation and the BP ankle were examined in dog models with occluded artery in hind leg.
方法:建立后肢动脉闭塞犬模型,观测负压前后患肢皮肤微循环及踝动脉压的变化。
The LNP database keeps track of ported numbers and Local Routing Numbers (LRNs) which provide a unique identity for every exchange in the network.
LNP数据库会跟踪端口号和本地路由号(LRN),其中本地路由号可为网络中的每一交换提供一个唯一标识。
AIM To observe the influence of limb negative pressure (LNP) on cutaneous CGRP immunoreactive nerve fibers in dogs with peripheral arterial occlusive disease.
目的:观察肢体负压对周围动脉闭塞性病变犬脊髓及背根神经节中CGRP免疫反应阳性神经纤维的影响。
Moreover, utilizing the local geometry during ONPE dimension reduction, a new classification method (ONPC) based on a label propagation method (LNP) is proposed.
同时,在ONPE算法的基础上,利用局部几何信息,提出了一种在低维空间中使用标签传递(lnp)的分类算法——ONPC。
However, it remains convinced that LNP is crucial to preserve consumer choice and enhance competition among carriers and between the wireless and wireline industries.
然而,FCC仍确信本地号码可携性对于保留消费者选择、提高运营商之间以及无线与有线行业之间的竞争程度是至关重要的。
AIM: To observe the influence of limb negative pressure (LNP) on CGRP positive immunoreactive nerve fibers in the spinal cord and dorsal root ganglion of peripheral arterial occlusive diseased dogs.
目的:观察肢体负压对周围动脉闭塞性病变犬脊髓及背根神经节中CGRP免疫反应阳性神经纤维的影响。
AIM: To observe the influence of limb negative pressure (LNP) on CGRP positive immunoreactive nerve fibers in the spinal cord and dorsal root ganglion of peripheral arterial occlusive diseased dogs.
目的:观察肢体负压对周围动脉闭塞性病变犬脊髓及背根神经节中CGRP免疫反应阳性神经纤维的影响。
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