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Related Concept Videos

Bone Formation by Endochondral Ossification01:24

Bone Formation by Endochondral Ossification

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Bone formation, or ossification, begins around the sixth to seventh week of embryonic development. Most bones develop from a cartilaginous template through the process of endochondral ossification. Cartilage formation begins when clusters of mesenchymal cells differentiate into chondrocytes. These chondrocytes proliferate rapidly and secrete an extracellular matrix that becomes encased in a membrane called the perichondrium. The resulting cartilage model provides a template that resembles the...
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Bone Formation by Intramembranous Ossification01:29

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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 ...
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The Functions of the Skeletal System01:22

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The most apparent functions of the skeletal system are support, protection, and movement. However, bone tissue also performs several other critical metabolic functions. For one, the bone matrix acts as a reservoir for a number of minerals important to the functioning of the body, especially calcium and phosphorus. These minerals, present in the bone tissue, can be released back into the bloodstream when required. Calcium ions, for example, are essential for muscle contractions and controlling...
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Osteoclasts in Bone Remodeling01:31

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Osteoclasts are cells responsible for bone resorption and remodeling. They originate from hematopoietic progenitor cells present in the bone marrow. Numerous progenitor cells fuse to form multinucleated cells, each with 10-20 nuclei. A single osteoclast has a diameter of 150 to 200 µM. These cells have ruffled borders that break down the underlying bone tissue and release minerals such as calcium into the blood in bone resorption. Osteoclasts cling to bones with their ruffled edges during...
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Introduction to the Skeletal System01:20

Introduction to the Skeletal System

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The skeletal system is the central framework of the body, consisting of different connective tissues: bones, cartilage, tendons, and ligaments.
Components of the Skeletal System
Bone, or osseous tissue, is a hard connective tissue that forms an internal support structure for the human body. Bones shield vulnerable organs and soft tissue from external forces. For example, the vertebral bones protect and support the spinal cord.
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Development of the Limb Synovial Joints01:07

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Joints form during embryonic development in conjunction with the formation and growth of the associated bones. The embryonic tissue that gives rise to all bones, cartilage, and connective tissues of the body is called mesenchyme.
The mesenchymal stem cells differentiate into chondrocytes that form the hyaline cartilage, and later the cartilaginous model of the bone. This model further transforms into a bone. This process is known as endochondral ossification.
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The Future of Osteopathy.

Bruno Bordoni1, Allan R Escher2

  • 1Physical Medicine and Rehabilitation, Foundation Don Carlo Gnocchi, Milan, ITA.

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|January 8, 2024
PubMed
Summary

Clinicians must stay updated. Quantum physics offers new insights into the human body

Area of Science:

  • Integrative medicine
  • Quantum physics applications
  • Biophysics

Background:

  • Homeostatic reactions in the human body remain incompletely understood within classical physics frameworks.
  • The need for clinicians to continuously update their knowledge for improved patient care is paramount.

Discussion:

  • Quantum physics provides a novel lens for understanding biological systems, particularly at the nanoscopic level.
  • It posits that macroscopic biological functions are governed by quantum coherence phenomena.

Key Insights:

  • The macroscopic biological world is potentially managed by nanoscopic quantum coherence.
  • Understanding these quantum effects is crucial for advancing medical knowledge.

Outlook:

Keywords:
fasciaosteopathic medicineosteopathypalpationquantum physics

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  • Osteopathy education should incorporate quantum physics principles.
  • This integration promises to enhance the understanding and practice of osteopathic medicine.