神經退行性變 的英文怎麼說

中文拼音 [shénjīngtuìhángxìngbiàn]
神經退行性變 英文
neurodegeneration
  • : Ⅰ名詞1 (神靈) god; deity; divinity 2 (精神; 精力) spirit; mind 3 (神氣; 神情) expression; l...
  • : 經動詞[紡織] (把紡好的紗或線梳整成經紗或經線) warp
  • 退 : 動詞1 (向後移動) retreat; draw back; move back 2 (使向後移動) cause to move back; remove; wit...
  • : 行Ⅰ名詞1 (行列) line; row 2 (排行) seniority among brothers and sisters:你行幾? 我行三。where...
  • : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
  • 神經 : nerve; nervus
  • 退行 : back line feed
  1. Glial cell line - derived neurotrophic factor ( gdnf ) was originally isolated based on its potent and specific ability to promote the survival and morphological differentiation of dopaminergic neurons and motoneurons in embryonic midbrain cultures. in addition, gdnf also support the survival and regulate the differentiation of many peripheral neurons, including sympathetic, parasympathetic, sensory and enteric neurons. gdnf also plays a crucial role outside the nervous system, as a morphogenetic factor in kidney development and as a regulator of spermatogonia differentiation

    Gfr 1與gdnf結合位點的研究膠質細胞源營養因子( gdnf )對多巴胺能元、運動元、感覺元、腸道元等多種元具有促進存活及保護作用,它還能促進腎臟的發育和精原細胞的成熟,因此,極有希望用於治療損傷和系統退
  2. Inorganic biochemistry on cuzn superoxide dismutase mutants and neurodegenerative diseases

    銅鋅超氧化物歧化酶的突退紊亂的生物無機化學
  3. Parkinson ' s disease is a neurodegenerative disorder which is caused by the death of dopaminergic neurons in the compact part of nigra

    摘要帕金森病是黑質多巴胺能壞死而引起的系統退疾病。
  4. Accumulating evidence indicates that nmda receptors are involved in many complex physiological and neuropathological mechanisms, such as neuronal developmental plasticity, long - term potentiation ( ltp ), learning and memory, excitotoxicity and neurodegenerative diseases etc. three gene families that encode nmda receptor subunits have been identified : nr1, nr2a - d, and nr3 subunit

    已知nmda受體與許多復雜的生理和病理機制有關,如突觸的可塑、長時程增強作用( ltp ) 、學習和記憶、興奮神經退行性變疾病等。已克隆到3個編碼nmda受體亞單位蛋白的基因家族,即nr1 、 nr2和nr3 。
  5. Mitochondria, the " plant " of energy in cells, has recently received great attention for its roles in metabolic diseases, e. g. diabetes and neural degenerative diseases

    近年來,線粒體在一些重大的代謝疾病如糖尿病和退中的作用備受關注。
  6. Because fddnp - pet binding differentiates among clinical entities with varying severity of cognitive decline, it may eventually prove useful in the early detection of neurodegeneration, they concluded

    研究人員總結,因為fddnp - pet能夠區分臨床上不同程度的認知力減退,它最終可能在退早期診斷中發揮重要作用。
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