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Saturday, August 11, 2018

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Wolff's law, developed by the German anatomist and surgeon Julius Wolff (1836-1902) in the 19th century, states that bone in a healthy person or animal will adapt to the loads under which it is placed. If loading on a particular bone increases, the bone will remodel itself over time to become stronger to resist that sort of loading. The internal architecture of the trabeculae undergoes adaptive changes, followed by secondary changes to the external cortical portion of the bone, perhaps becoming thicker as a result. The inverse is true as well: if the loading on a bone decreases, the bone will become less dense and weaker due to the lack of the stimulus required for continued remodeling. This reduction in bone density (osteopenia) is known as stress shielding and can occur as a result of a hip replacement (or other prosthesis). The normal stress on a bone is shielded from that bone by being placed on a prosthetic implant.


Video Wolff's law



Mechanotransduction

The remodeling of bone in response to loading is achieved via mechanotransduction, a process through which forces or other mechanical signals are converted to biochemical signals in cellular signaling. Mechanotransduction leading to bone remodeling involve the steps of mechanocoupling, biochemical coupling, signal transmission, and cell response. The specific effects on bone structure depends on the duration, magnitude and rate of loading, and it has been found that only cyclic loading can induce bone formation. When loaded, fluid flows away from areas of high compressive loading in the bone matrix. Osteocytes are the most abundant cells in bone and are also the most sensitive to such fluid flow caused by mechanical loading. Upon sensing a load, osteocytes regulate bone remodeling by signaling to other cells with signaling molecules or direct contact. Additionally, osteoprogenitor cells, which may differentiate into osteoblasts or osteoclasts, are also mechanosensors and may differentiate one way or another depending on the loading condition.

Computational models suggest that mechanical feedback loops can stably regulate bone remodeling by reorienting trabeculae in the direction of the mechanical loads.


Maps Wolff's law



Associated laws

  • In relation to soft tissue, Davis' law explains how soft tissue remolds itself according to imposed demands.
  • Refinement of Wolff's Law: Utah-Paradigm of Bone physiology (Mechanostat Theorem) by Harold Frost.

Wolff's Law Teaches Us How To Keep Our Bones Strong.
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Examples

  • The racquet-holding arm bones of tennis players become much stronger than those of the other arm. Their bodies have strengthened the bones in their racquet-holding arm since it is routinely placed under higher than normal stresses. The most critical loads on a tennis player's arms occur during the serve. There are four main phases of a tennis serve and the highest loads occur during external shoulder rotation and ball impact. The combination of high load and arm rotation result in a twisted bone density profile.
  • Weightlifters often display increases in bone density in response to their training.
  • The deforming effects of torticollis on craniofacial development in children.
  • An Anterior-Posterior Pelvic X-ray of an amputee. The right hip is much more dense with bone than the left.

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See also

  • Functional matrix hypothesis
  • Osteogenic loading
  • Iron Shirt, Wushu/Kungfu bone conditioning

Wolff's Law Film (@wolffslawfilm) | Twitter
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References

  • Das Gesetz der Transformation der Knochen - 1892. Reprint: Pro Business, Berlin 2010, ISBN 978-3-86805-648-8.
  • "The Classic: On the Inner Architecture of Bones and its Importance for Bone Growth". Clin Orthop Rel Res. 468 (4): 1056-1065. Apr 2010. doi:10.1007/s11999-010-1239-2. PMC 2835576 . 

Chapter 6 … III. Bone Formation and Development … E - ppt download
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External links

  • Julius Wolff Institut, Charité - Universitätsmedizin Berlin, main research areas are the regeneration and biomechanics of the musculoskeletal system and the improvement of joint replacement.

Source of the article : Wikipedia

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