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バーチャル・リアリティの中で複雑な人体解剖を学ぶことは、フラット・スクリーンや本で見る従来の方法よりも簡単、迅速、正確です。解剖の周りを歩き回ったり、手で体をつかんだり、好きな大きさに拡大したり、最小の解剖学的構造にもVRで飛び込むことができる。
人体は10層の高解像度レイヤーで表示されます。外側の筋肉から内側の臓器まで閲覧でき、何千もの解剖学的構造を細部まで学び、教えることができます。
Dissection Master XRを使えば、人体解剖学をこれまで以上に迅速かつ正確に視覚化、学習、理解することができます。また、VRで独自のレッスンやシミュレーションを作成することができます。あなたの講義を録画してVRで再生し、解剖学レッスンのライブラリーを増やしていきましょう。
Dissection Master XRは、人体の解剖学と生理学の理解を深め、高度な技術を持つ新世代の医療従事者を生み出す。
今すぐDissection Master XRで解剖学教育を始めましょう!
完全没入型のホログラフィック空間で人体とその解剖学を体験しよう。解剖マスターXRへようこそ、VR人体解剖図鑑です。
頭からつま先までの人体全体が、没入感のある10層の完全な注釈付きで、素晴らしいクオリティで提供される。
3000を超える解剖学的構造に名前が付けられ、注釈が付けられ、追加情報へリンクされている。
人体を拡大し、あらゆる角度や視点から検査・研究することができます。また、他のMedicalholodeckアプリを使って、医療画像やZygoteの解剖学データと比較してみましょう。
解剖は、第一線の専門医によって入念に行われる。
本物の人体解剖がアトラスの基礎となっている。解剖後、最新の最先端技術を駆使して慎重にデジタル化された。
あなたの部門で人体解剖学を教え、メタバース内の仮想教室で場所に独立してください。
解剖学のレッスンを記録し、コンテンツを開発し、ノウハウを保存して世界中のユーザーと共有しましょう。
The abdominal aorta, stretching downward from the thoracic aorta, serves as a pivotal vessel supplying oxygen-rich blood to numerous abdominal organs. With indispensable roles in bodily function and circulatory health, it bifurcates at its terminus, forming two iliac arteries, which subsequently ensure the vitality of the lower extremities by providing them with a rich blood supply.
Nestled between thorax and pelvis, the abdominal cavity constitutes a significant component of human anatomy. Within its confines, numerous vital organs, such as the liver, stomach, and intestines, find residence. Surrounded by protective muscular structures and internally lined with the peritoneum, it plays a critical role in various life-sustaining physiological processes.
Dispersed throughout the abdominal region, the abdominal lymph nodes tirelessly guard against infection and disease. These tiny, bean-shaped structures are responsible for filtering lymph fluid, intercepting and disabling potential threats like pathogens. Ensuring effective lymphatic flow, they remain a crucial component of the immune response.
Embedded in both the hand and foot, the abductor digiti minimi muscle contributes to the mobility and functionality of the little finger and toe. In the hand, it enables the pinky finger to abduct, while in the foot, it facilitates the lateral movement of the little toe. It is crucial for maintaining balance and enabling delicate manipulative activities..
Positioned in the foot, the abductor hallucis muscle performs the essential task of enabling big toe abduction. Engaging in moving it away from the other toes, its functionality is most prominent during ambulation and when maintaining equilibrium. Its role, though subtle, significantly impacts overall mobility and stability in locomotion.
Located in the hand, the abductor pollicis brevis is dedicated to facilitating the nuanced movements of the thumb. It abducts the thumb, moving it away from the hand’s palm, which is paramount for various gripping actions and manual manipulations. The utility of this muscle is exemplified in everyday gestures and intricate manual activities.
The abductor pollicis longus, residing further in the forearm, orchestrates precise thumb movements. This muscle not only abducts the thumb but also assists in its rotation. By doing so, it significantly enhances the thumb's dexterity and functionality, which is vital for performing a plethora of manual tasks and expressive gestures.
Situated in the thoracic area, the accessory hemi-azygos and superior hemi-azygos veins engage in the vital task of draining blood from parts of the thoracic wall and upper lumbar regions. These veins ensure the efficient return of deoxygenated blood back to the heart, playing a subtle yet crucial role in the circulatory system.
Belonging to the illustrious family of cranial nerves, the Accessory Nerve, also termed Cranial Nerve XI, plays a significant role in the human body. Comprising both cranial and spinal segments, this nerve is primarily involved with controlling muscles in the neck and shoulder, like the sternocleidomastoid and trapezius. Its function is keenly felt when turning the head or shrugging the shoulders, illustrating its importance in daily movements.
An interesting feature of human anatomy is its variability, exemplified by the Accessory Obturator Artery. Not universally present, when it does make an appearance, it often originates from the inferior epigastric artery. This artery, though a variant, remains important by supplying blood to areas around the hip and pelvic region, reflecting the human body's adaptability.
Complementing the Accessory Obturator Artery, the Accessory Obturator Vein is responsible for draining blood from regions supplied by the aforementioned artery. This ensures that the pelvic region enjoys efficient venous return, keeping the area well-circulated and in optimal health.
A variation of the widely recognized great saphenous vein, the Accessory Saphenous Vein, navigates the terrain of the leg. Despite being a variant, its function remains vital. It focuses on effectively channeling blood from the leg back to the heart, contributing significantly to the leg's venous circulation system.
Encircling the acetabulum of the hip is the Acetabular Labrum, a fibrocartilaginous structure. By amplifying the depth of the acetabulum, it acts as a cushion and boosts the joint's stability. Every step and hip movement benefits from this structure, enhancing the joint's security and facilitating smooth mobility.
An integral component of the hip structure, the Acetabulum is a concave surface on the pelvis. It welcomes the head of the femur, together forming the iconic ball-and-socket hip joint. As a cornerstone of the body's locomotion system, the Acetabulum ensures a wide range of movements, from walking to dancing.
A distinct bony projection from the scapula, the Acromion, connects with the clavicle to give rise to the acromioclavicular joint. Acting as an anchor point for various ligaments and muscles, the Acromion stands as a sentinel ensuring the shoulder's smooth and coordinated movement.
Delving into the inner thigh, one encounters the Adductor Brevis muscle. Specializing in drawing the thigh closer to the body's midline, it's a pivotal part of the adductor muscle group. Whether during a leisurely walk in the park or an intense soccer match, its role in propelling movement is undeniable.
Deep within the foot lies the Adductor Hallucis muscle, dedicated to moving the big toe towards its fellow toes. Its functions aren't just limited to toe movement; it's a key player in maintaining balance and plays a part in the weight distribution dynamics during activities like standing or striding.
Carved within the adductor magnus muscle, the Adductor Hiatus serves as a pivotal passageway. Through this hiatus, the femoral artery and vein travel, transitioning from the thigh region to the popliteal fossa located behind the knee. This opening is a testament to the body's intricate design, ensuring smooth blood circulation.
Situated within the inner thigh, the Adductor Longus is a powerful and elongated muscle. As its name suggests, its primary function is to adduct or draw the thigh inward towards the body's centerline. Integral to actions like crossing legs or making controlled sideways movements, its strategic placement and function underscore its role in daily mobility and stability.
Larger and broader than its counterpart, the Adductor Longus, the Adductor Magnus muscle dominates the medial aspect of the thigh. Its substantial size offers a hint about its purpose, playing a multifaceted role in adduction, flexion, and medial rotation of the thigh. Whether sprinting or simply standing, this muscle's significance is felt across a spectrum of activities.
人体解剖を理解するには、優れた3次元ビジュアライゼーションが必要です。解剖マスターXRは、バーチャル・リアリティのインタラクティブな解剖学アトラスであり、完全没入型のホログラフィック空間で、世界最高の解像度と最も詳細な解剖図を提供します。
VRで人体解剖学を教え、学び、教育の質を向上させ、生徒の学習スキルを高めましょう。
バーチャルクラスルームで学生とつながり、解剖学を教える。場所を選ばない授業は、大学教育、国際協力、グローバルラーニングに新たな可能性をもたらします。
時間を節約し、成功率を高めましょう。没入感のある3D環境で3D構造を学ぶことは、フラットスクリーンや書籍から学ぶよりも簡単です。
解剖学のレッスン、シミュレーション、コンテンツをVRで作成し、世界中のユーザーがアクセスできるようにしましょう。
Dissection Master XRとMedicalholodeckのデータとアプリを使って、バーチャル教室で人体解剖学を教えましょう。メディアを追加して、バーチャルリアリティで授業を作成しましょう。教育コンテンツやシミュレーションのライブラリを構築し、メタバースで世界中の生徒やユーザーと共有しましょう。
VRで解剖学を教え、DICOM、3D、2Dファイルを追加し、VRで再生するための教育、レッスン、シミュレーションを作成しましょう。Medicalholodeckを使用して、既存の解剖実習室を強化し、シミュレーション実習室を次のレベルに引き上げましょう。
Dissection Master XR、Anatomy Master XR、Medical Imaging XRを使って、バーチャルリアリティの中で人体解剖を学ぶことができます。すべてのアプリケーションは同時に使用することができ、学生に人体解剖、解剖モデル、医用画像への並外れた洞察力を与えます。バーチャルリアリティで勉強することで、時間の節約になり、医療業界での成功につながったと、利用者は認めています。
