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Management of pain in peripheral vascular disease with Jalauka Avacharana followed by Manjishtadi Kshara Basti-a case series
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作者 Heramb Pundalik Hattikar Gururaja D Tantry 《TMR Clinical Research》 2019年第3期91-99,共9页
Peripheral vascular disease with increasing prevalence rate is one among many conditions where a dependable cure is still elusive.Peripheral arterial disease(PAD),of which is a common form that results from atheroscle... Peripheral vascular disease with increasing prevalence rate is one among many conditions where a dependable cure is still elusive.Peripheral arterial disease(PAD),of which is a common form that results from atherosclerosis of arteries leading to reduced blood flow to the extremities.Commonly affecting the lower extremity,PAD presents with pain during ambulation,which is known as“intermittent claudication”which later manifests into“rest pain”.Due to the cry of the dying nerves,the pain is so severe that even common analgesics fail to relieve it.It is observed that the pathogenesis and clinical manifestation of PAD has striking similarities with“gambhira vatarakta”which is characterised by burning sensation,severe pain,excessive sweating,thirst,suppuration and tenderness.Keeping this view in mind the patients diagnosed with vatarakta were selected for jalauka avacharana(Leech therapy)followed by manjishtadi kshara basti(Decoction enema prepared by adding several drugs).This protocol showed remarkable results in relieving pain and ultimately vyadhi upashaya. 展开更多
关键词 PERIPHERAL VASCULAR Disease INTERMITTENT CLAUDICATION REST PAIN Vatarakta Jalauka Avacharana Manjishtadi Kshara basti
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双施主掺杂对高居里点PTC陶瓷性能的影响 被引量:2
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作者 郝永德 钟海波 +1 位作者 熊眩 龚树萍 《电子元件与材料》 CAS CSCD 北大核心 2005年第10期45-47,共3页
在分别研究了Nb5+、Y3+掺杂对高温PTC陶瓷性能的影响后,得出结果:Y3+既可作为施主,又可起受主作用,还可以提高升阻比;Nb5+主要是起施主作用,但可以抑制Pb的挥发.为了能够使高温PTC陶瓷整体性能提高,因此结合Nb5+、Y3+各自的优点,用正交... 在分别研究了Nb5+、Y3+掺杂对高温PTC陶瓷性能的影响后,得出结果:Y3+既可作为施主,又可起受主作用,还可以提高升阻比;Nb5+主要是起施主作用,但可以抑制Pb的挥发.为了能够使高温PTC陶瓷整体性能提高,因此结合Nb5+、Y3+各自的优点,用正交法对高温PTC陶瓷进行了双施主掺杂配方的试验,优选了最佳配方:Nb5+应该控制在0.06~0.08之间,Y3+控制在0.08~0.12之间较好. 展开更多
关键词 电子技术 BaTiO3系PTC陶瓷 高居里点 双施主掺杂 铅挥发
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