anodal

anodal的音标是["ænəʊdəl]，基本意思是“无电流的；无传导的”。

速记技巧是：在记忆这个单词的时候，可以结合词根记忆法，将前缀an-和词根-od-组合起来，这样就能轻松记住单词的拼写了。-od-表示动作、行为，是-act-的变体，表示动作的进行。an-表示“不，无”，所以anodal的意思是“无电流的”。

anodal 的英文词源为“ana”，意为“一端”，加上“dal”，意为“带”或“流”，组合起来就是“一端的、带电的”。

变化形式为复数形式为“anodes”，过去式为“anodded”，现在分词为“anodal”，意思为“单向的”。

相关单词：anode（正极）、disanodal（去极化）、para-anodal（旁支的）。

1. Anode（正极）：在电化学中，anode是指电位较负的电极，与 cathode（负极）相对应。

2. Disanodal（去极化）：指使细胞或其他生物组织失去极化的过程，通常由电流或药物引起。

3. Para-anodal（旁支的）：指在神经或神经束周围的区域，常用于描述与正极相关的旁支或分支。

例如，在神经影像学中，para-anodal space是指神经纤维束周围的区域，它与轴突之间的空间有关。

总之，anodal 是一个表示单向、带电的单词，具有丰富的含义和应用。

anodal短语：

1. anodal stimulation

2. anodal block

3. anodal protection

4. anodal current

5. anodal lesion

6. anodal facilitation

7. anodal therapy

双语例句：

1. Anodal stimulation can enhance neural activity in the stimulated region.

刺激正极可以增强刺激区域的神经活动。

2. Anodal block can occur when the electrode is placed too close to the brain tissue.

当电极放置在脑组织太近的地方时，可能会出现正极阻滞。

3. The anodal protection technique is used to prevent excessive cell death.

使用正极保护技术是为了防止细胞死亡过度。

4. Anodal current can be used to stimulate nerve cells in the brain.

正极电流可用于刺激大脑中的神经细胞。

5. Anodal lesion can cause temporary neurological symptoms.

正极损伤可能导致暂时的神经症状。

6. Anodal facilitation refers to the phenomenon where stimulation of the positive electrode enhances neural activity in the stimulated region.

正极促进是指正极刺激增强了受刺激区域的神经活动。

7. Anodal therapy is a non-invasive treatment for depression that uses electrical stimulation to enhance neural activity in the stimulated region of the brain.

正极疗法是一种非侵入性的抑郁症治疗方法，它使用电刺激来增强大脑受刺激区域的神经活动。

英文小作文：

Neurostimulation: Anodal Block and its Application in Brain Repair

Neurostimulation has become a popular treatment method for various neurological disorders, including depression, anxiety, and chronic pain. Among these techniques, anodal block has gained increasing attention due to its potential role in enhancing brain repair and recovery after injury or disease.

Anodal block refers to the phenomenon where stimulation of the positive electrode reduces neural activity in the stimulated region of the brain, which can lead to temporary neurological symptoms such as numbness or weakness in the affected area. However, this phenomenon can also be used to promote brain repair by enhancing neural activity in other regions of the brain that are not directly stimulated by the electrode.

In recent studies, researchers have demonstrated that anodal block can enhance neural activity in the stimulated region and promote recovery after brain injury or disease, such as stroke or traumatic brain injury. This technique has also been used in clinical trials for depression treatment, where it has been shown to be effective in reducing symptoms and improving quality of life for patients with this condition.

In conclusion, neurostimulation techniques such as anodal block hold great promise for enhancing brain repair and recovery after injury or disease, and further research is needed to fully understand its potential benefits and risks.