lentiform

简明释义

英[/ˈlɛn.tɪ.fɔrm/]美[/ˈlɛn.tɪ.fɔrm/]

adj. 两面凸的；呈扁豆状的；眼球晶状体的（等于 lenticular）

英英释义

单词用法

同义词

反义词

例句

1.CT scans revealed the bilateral and symmetric calcifications of the basal ganglia, caudate nucleus, lentiform nucleus and thalami.

CT扫描显示，双侧大脑基底节区，尾状核、豆状核及丘脑内有对称性钙化灶。

2.CT scans revealed the bilateral and symmetric calcifications of the basal ganglia, caudate nucleus, lentiform nucleus and thalami.

CT扫描显示，双侧大脑基底节区，尾状核、豆状核及丘脑内有对称性钙化灶。

3.The lentiform 透镜状 nucleus is shaped like a lens, hence its name.

lentiform 透镜状 核心的形状像一个透镜，因此得名。

4.Researchers study the lentiform 透镜状 nucleus to understand movement disorders.

研究人员研究lentiform 透镜状 核心以了解运动障碍。

5.A stroke in the area of the lentiform 透镜状 nucleus can lead to severe motor deficits.

在lentiform 透镜状 核心区域发生中风可能导致严重的运动缺陷。

6.In neuroanatomy, the lentiform 透镜状 structure is part of the basal ganglia.

在神经解剖学中，lentiform 透镜状 结构是基底神经节的一部分。

7.The brain's lentiform 透镜状 nucleus is crucial for motor control.

大脑的lentiform 透镜状 核心对运动控制至关重要。

作文

In the realm of anatomy, many terms are used to describe various shapes and structures within the human body. One such term is lentiform, which refers to a structure that is shaped like a lens. The word itself derives from the Latin word 'lens', which means 'lentil'. This shape is particularly important in understanding certain parts of the brain, specifically the lentiform nucleus, which is a critical component of the basal ganglia. The basal ganglia play a significant role in coordinating movement and regulating various functions related to motor control. The lentiform nucleus is divided into two major parts: the putamen and the globus pallidus. These areas work together to facilitate smooth and purposeful movements, highlighting the importance of their lentiform shape. When we consider the implications of this structure, it becomes clear that its unique form is not just a matter of semantics; it directly relates to its function. For instance, the lentiform nucleus helps in the modulation of voluntary motor movements and the learning of motor skills, making it essential for athletes and anyone who engages in physical activities. Moreover, the lentiform shape of this nucleus allows for efficient connectivity with other brain regions. It is located near the thalamus and interacts closely with the cortex, which is responsible for higher cognitive functions. This anatomical positioning underscores the significance of the lentiform structure in both motor and cognitive processes. Understanding the shape and function of the lentiform nucleus can provide insights into various neurological disorders, such as Parkinson's disease, where the coordination of movement is severely affected. In addition to its anatomical significance, the term lentiform can also be applied metaphorically in various contexts. For example, in literature, one might describe a character’s perspective as lentiform if it is shaped by a particular experience or worldview, suggesting that their understanding is limited or focused, much like the shape of a lens. This metaphorical use adds depth to our understanding of how shapes can influence perception and interpretation in various fields, including psychology and art. In conclusion, the term lentiform encapsulates not only a specific anatomical feature but also serves as a reminder of the intricate relationships between shape, function, and meaning in both biology and broader contexts. By exploring the lentiform nucleus and its implications, we can gain a deeper appreciation for the complexity of the human body and the ways in which language can reflect that complexity. Whether discussing the physical attributes of our anatomy or the figurative meanings in our lives, the concept of lentiform continues to resonate in numerous disciplines, bridging the gap between science and art.

在解剖学领域，许多术语被用来描述人体内各种形状和结构。其中一个术语是lentiform，指的是像透镜一样的结构。这个词本身源自拉丁语单词'lens'，意思是'扁豆'。这种形状在理解大脑某些部分时尤为重要，特别是lentiform核，它是基底神经节的一个关键组成部分。基底神经节在协调运动和调节与运动控制相关的各种功能中发挥着重要作用。lentiform核分为两个主要部分：壳核和苍白球。这些区域共同工作，以促进平滑和有目的的运动，突显出它们的lentiform形状的重要性。当我们考虑这一结构的影响时，很明显它的独特形状不仅仅是一个语义问题；它直接与其功能相关。例如，lentiform核帮助调节自主运动，并学习运动技能，这使其对运动员和任何参与体育活动的人至关重要。此外，这个核的lentiform形状使其能够与其他脑区高效连接。它位于丘脑附近，并与负责更高认知功能的皮层密切互动。这种解剖位置突显了lentiform结构在运动和认知过程中的重要性。理解lentiform核的形状和功能可以为各种神经系统疾病提供见解，例如帕金森病，在这种情况下，运动的协调受到严重影响。除了其解剖学意义外，术语lentiform在各种上下文中也可以比喻性地应用。例如，在文学中，如果一个角色的视角因特定经历或世界观而形成，可以将其描述为lentiform，暗示他们的理解是有限或集中在某一点，就像透镜的形状一样。这种比喻性的使用为我们理解形状如何影响各个领域的感知和解释增添了深度，包括心理学和艺术。总之，术语lentiform不仅囊括了一个特定的解剖特征，还提醒我们形状、功能和意义在生物学和更广泛的背景中之间的复杂关系。通过探索lentiform核及其影响，我们可以更深入地欣赏人体的复杂性以及语言如何反映这种复杂性。无论是在讨论我们解剖的物理特征还是我们生活中的比喻意义，概念lentiform在众多学科中继续引起共鸣，架起科学与艺术之间的桥梁。