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関連する概念動画

Anatomical Movements00:51

Anatomical Movements

16.2K
Anatomical movements refer to the various actions or motions that can be performed by the body's joints and muscles. These movements are described using specific terms to provide a standardized way of discussing and understanding the range of motion at different joints.
Here are some common anatomical movements:
Flexion and extension motions are in the sagittal (anterior–posterior) plane of motion. These movements take place at the shoulder, hip, elbow, knee, wrist,...
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Arteries of Lower Limbs01:20

Arteries of Lower Limbs

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The external iliac artery transitions out of the body cavity, entering the femoral region of the lower leg, and is renamed the femoral artery at the point where it traverses the body wall. This artery is responsible for the distribution of blood to the thigh's deep muscles and the skin's ventral and lateral regions, achieved through several minor branches and the lateral deep femoral artery, which also spawns a lateral circumflex artery. The knee area receives blood from the genicular...
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Veins of Lower Limbs01:15

Veins of Lower Limbs

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The human body consists of an intricate network of veins responsible for the crucial task of blood drainage from the lower limbs. These veins can be categorized into two main types: deep veins and superficial veins.
Formed by the union of the medial and lateral plantar veins, the posterior tibial vein, rising through the calf muscle, assimilates the fibular vein. The anterior tibial vein, a superior extension of the foot's dorsalis pedis vein, merges with the posterior tibial vein at the...
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The Movement of Organelles and Vesicles01:43

The Movement of Organelles and Vesicles

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In eukaryotic cells,  cytoskeletal filaments such as actin, microtubules, and intermediate filaments form a mesh-like cytoskeletal network. These filaments serve as tracks for transporting cellular cargo. Specialized motor proteins use the chemical energy stored in adenosine triphosphate (ATP) for this transport. During interphase, microtubules are polarized, with the plus-end towards the cell periphery and the minus-end towards the cell center. Two microtubule-associated motor proteins,...
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Fluid Movement Between Compartments01:18

Fluid Movement Between Compartments

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The force applied by fluids against a surface, known as hydrostatic pressure, initiates the transfer of fluid among different compartments. Within our blood vessels, the blood's hydrostatic pressure is a result of the heart's pumping action. At the arteriolar end of capillaries, hydrostatic pressure (capillary blood pressure) exceeds the opposing colloid osmotic pressure created primarily by plasma proteins like albumin. This discrepancy in pressure propels plasma and nutrients from the...
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Movement Joints in Buildings01:27

Movement Joints in Buildings

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Movement joints in buildings are essential design elements that accommodate inevitable motions caused by various factors such as temperature changes, moisture content variations, and structural deflections. These motions, if not considered in design and construction, can lead to unsightly or dangerous damage. Movement joints are incorporated in different forms to manage these stresses and allow materials to move without causing distress.
The simplest type of movement joints, working joints, are...
358

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Updated: Feb 10, 2026

Author Spotlight: Insights into Remotely Supervised Neuromodulation Procedure for Phantom Limb Pain
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幻肢運動のイントラニューラル記録からのデコーディング

Cecilia Rossi1, Marko Bumbasirevic2, Paul Čvančara3

  • 1Institute of Neuroinformatics, University of Zurich and ETH Zurich, Zurich, Switzerland.

Nature communications
|February 8, 2026
PubMed
まとめ
この要約は機械生成です。

坐骨神経内のイントラニューラル電極は、切断者における幻肢運動をデコードすることにより、義肢制御を可能にしました。このアプローチは、高度な双方向ニューラルプロテーゼの可能性を示しています。

キーワード:
幻肢運動イントラニューラル記録義肢制御ニューラルプロテーゼ切断者坐骨神経ニューロサイエンス生物医学工学

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Real-time Video Projection in an MRI for Characterization of Neural Correlates Associated with Mirror Therapy for Phantom Limb Pain
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Decoding Natural Behavior from Neuroethological Embedding
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関連する実験動画

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科学分野:

  • 神経科学
  • 生物医学工学
  • 義肢

背景:

  • 四肢の喪失は感覚運動障害をもたらし、多くの場合義肢を必要とします。
  • 義肢制御のための直接的な神経記録は、低信号振幅や神経インターフェースの困難さなどの課題に直面しています。

主な方法:

  • 2人の大腿転移切断者の遠位坐骨神経枝への横断的筋内マルチチャネル電極のインプラテーション。
  • 幻肢の膝、足首、つま先の動きに関連する多単位活動の記録。
  • 運動予測のためのスパイキングニューラルネットワーク(SNN)ベースのデコーダーの利用。

結論:

  • 坐骨神経からのイントラニューラル記録は、幻肢運動をデコードできます。
  • この技術は、双方向の神経制御された義肢システムの開発をサポートします。
  • 神経内の運動および感覚マップの早期分離が観察されました。