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相关概念视频

Overview of the Skull01:08

Overview of the Skull

4.7K
The cranium (skull) is the skeletal structure of the head that supports the face and protects the brain. It is subdivided into the facial bones and the brain case, or cranial vault. The facial bones underlie the facial structures, form the nasal cavity, enclose the eyeballs, and support the teeth of the upper and lower jaws.
The cranial vault surrounds and protects the brain and houses the middle and inner ear structures. This cavity is bounded superiorly by the rounded top of the skull, which...
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Muscles for Facial Expressions01:14

Muscles for Facial Expressions

2.2K
The craniofacial muscles are a collection of approximately 20 thin skeletal muscles situated beneath the skin of the face and scalp. These muscles, primarily responsible for the vast array of human facial expressions, originate from the bones or fibrous structures of the skull and extend outwards to connect with the skin. While most skeletal muscles in the body are enveloped in thick fascia, facial muscles generally have a more delicate fascial covering, with the buccinator muscle being a...
2.2K
Classification of Bones01:18

Classification of Bones

5.7K
The bones of the human skeletal system are of varied shapes, sizes, and functions. They can be classified based on their shape and function into four major classes: long bones, short bones, flat bones, and irregular bones. Some classifications include a fifth type, the sesamoid bones, as a separate class, whereas others categorize them under short bones.
Long and Short Bones
The appendicular skeleton, particularly the upper and lower limbs, is primarily made of long and short bones. The...
5.7K
Facial Feedback Hypothesis01:24

Facial Feedback Hypothesis

186
Charles Darwin proposed that facial expressions are an evolutionary adaptation for communication. He argued that these expressions are not influenced by culture but are universal across species. For example, a snarling expression with exposed teeth signals a threat in many animals, including humans. Darwin also suggested that displaying an emotion can intensify the feeling. Smiling, for example, could enhance one's sense of happiness. This idea laid the foundation for understanding the role...
186
Bone Formation by Intramembranous Ossification01:29

Bone Formation by Intramembranous Ossification

6.3K
Intramembranous ossification is one of the two processes involved in the development of bones within an embryo. The flat bones of the face, most of the cranial bones, and the clavicles are formed via this process. During intramembranous ossification, the bones develop directly from sheets of undifferentiated mesenchymal connective tissue.
The process begins when mesenchymal cells in the embryonic skeleton gather together and differentiate into osteogenic cells, which then develop into ...
6.3K
Cranial Bones: Lateral View01:27

Cranial Bones: Lateral View

2.3K
The lateral view of the cranium is dominated by temporal, sphenoid, and ethmoid bones.
The temporal bone forms the lower lateral side of the skull. The temporal bone is subdivided into several regions. The flattened upper portion is the squamous portion of the temporal bone. Below this area and projecting anteriorly is the zygomatic process of the temporal bone, which forms the posterior portion of the zygomatic arch. Posteriorly is the mastoid portion of the temporal bone. Projecting...
2.3K

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相关实验视频

Updated: Jul 17, 2025

Analysis of Craniomaxillofacial Malformations in Mice Using Three-dimensional Microcomputed Tomography
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Analysis of Craniomaxillofacial Malformations in Mice Using Three-dimensional Microcomputed Tomography

Published on: January 17, 2025

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基于人工智能的建模可以根据底层的头骨和面骨预测面部形状.

Hanieh Arjmand1,2, Allison Clement1, Michael Hardisty1,3

  • 1Orthopaedic Biomechanics Lab, Sunnybrook Research Institute.

The Journal of craniofacial surgery
|August 28, 2023
PubMed
概括
此摘要是机器生成的。

人工智能 (AI) 可以从骨质几何学预测3D面部形状. 这项技术有助于关面外科手术规划和法医识别.

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Three-Dimensional Shape Modeling and Analysis of Brain Structures
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Three-Dimensional Shape Modeling and Analysis of Brain Structures

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相关实验视频

Last Updated: Jul 17, 2025

Analysis of Craniomaxillofacial Malformations in Mice Using Three-dimensional Microcomputed Tomography
02:42

Analysis of Craniomaxillofacial Malformations in Mice Using Three-dimensional Microcomputed Tomography

Published on: January 17, 2025

363
Three-Dimensional Shape Modeling and Analysis of Brain Structures
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Three-Dimensional Shape Modeling and Analysis of Brain Structures

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Digital Hybrid Model Preparation for Virtual Planning of Reconstructive Dentoalveolar Surgical Procedures
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科学领域:

  • 医疗成像医学成像
  • 人工智能的人工智能
  • 三维重建的3D重建

背景情况:

  • 由于3D解剖学,3D解剖学,肌和面部重建是复杂的.
  • 双边损伤缺乏镜像技术,需要损伤前的数据.
  • 人工智能在面部特征识别和模拟方面表现有前途.

研究的目的:

  • 假设和测试AI是否可以从底层骨解剖学中预测3D面部形状.
  • 开发一个人工智能工作流程,用于对象特定的面部形状估计.
  • 评估人工智能预测面部几何学在手术规划和法医学的实用性.

主要方法:

  • 开发了一个自动化图像处理和人工智能工作流程,使用一个修改后的3D UNet.
  • 在5个公开可用的计算机断层扫描 (CT) 影像数据集上训练模型.
  • 嵌入骨几何和元数据 (BMI,年龄) 进行预测.

主要成果:

  • 人工智能模型提供了面部组织轮和几何学的可视合理预测.
  • 在综合数据集上获得0.89的验证子得分.
  • 在HNSCC数据集上训练时获得0.925的子得分.

结论:

  • 人工智能驱动的3D面部形状预测是可行的,使用骨质几何学.
  • 这种方法可以帮助在手术前的头骨和面部外科手术规划.
  • 自动化面部形状预测在法医科学中具有潜在的应用.