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ENM-PZE Interphase Sets Up the Novel Hossam’s Mechanics of the Soft Tissue Healing Law of the Surgical Wound: Granted US Patents Review

Published in Frontiers (Volume 2, Issue 1)
Received: 10 February 2022     Accepted: 1 March 2022     Published: 9 March 2022
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Abstract

Piezoelectric (PZE) materials are rarely used in modern medicine. They are the materials that can convert some of the mechanical stress into an electrical gradient difference (EGD). This could occur via the re-orientation of atoms inside these materials according to the rules of the electronegative momentum (ENM). It is believed that the suture materials have only one function of just an approximation of the edge of the wound till the healing is completed. Multiple US patents had been issued that changed the thinking about the repair of surgical wounds. These patents (US 9,782,513), (US 9,579,414), (US 9,849,210) claimed that the suture materials not only have to approximate the edges of the wound but also they could help in the acceleration of the healing process. The PZE materials could achieve this fundamental function via the production of the (EGD) that could be utilized by the ischemic cells at the edge of the wound to accelerate the healing process. Furthermore, they could stimulate the dormant adult stem cells in the deep layers of the wound that also help in the healing process. The acceleration of the healing process is associated with no or minimal scarring of the wound according to the Soft Tissue Healing Law. This would not only beneficial for the cosmetic purposes of the skin but also for the functional healing of the deep layers of the wound to avoid future contraction of the scar at its deep layers. Therefore, this new modality is beneficial at both the cosmetic and functional levels. Sadly, the (PZE) & (ENM) are almost unknown in the medical field by most surgeons.

Published in Frontiers (Volume 2, Issue 1)
DOI 10.11648/j.frontiers.20220201.17
Page(s) 68-78
Creative Commons

This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited.

Copyright

Copyright © The Author(s), 2022. Published by Science Publishing Group

Keywords

Piezoelectricity, Electronegative Momentum, Surgical Wound, Fibrosis, Scar, Soft Healing Law

References
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    Hossam Mohamed, Houda Almansour, Nour El Kadri. (2022). ENM-PZE Interphase Sets Up the Novel Hossam’s Mechanics of the Soft Tissue Healing Law of the Surgical Wound: Granted US Patents Review. Frontiers, 2(1), 68-78. https://doi.org/10.11648/j.frontiers.20220201.17

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    ACS Style

    Hossam Mohamed; Houda Almansour; Nour El Kadri. ENM-PZE Interphase Sets Up the Novel Hossam’s Mechanics of the Soft Tissue Healing Law of the Surgical Wound: Granted US Patents Review. Frontiers. 2022, 2(1), 68-78. doi: 10.11648/j.frontiers.20220201.17

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    AMA Style

    Hossam Mohamed, Houda Almansour, Nour El Kadri. ENM-PZE Interphase Sets Up the Novel Hossam’s Mechanics of the Soft Tissue Healing Law of the Surgical Wound: Granted US Patents Review. Frontiers. 2022;2(1):68-78. doi: 10.11648/j.frontiers.20220201.17

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  • @article{10.11648/j.frontiers.20220201.17,
      author = {Hossam Mohamed and Houda Almansour and Nour El Kadri},
      title = {ENM-PZE Interphase Sets Up the Novel Hossam’s Mechanics of the Soft Tissue Healing Law of the Surgical Wound: Granted US Patents Review},
      journal = {Frontiers},
      volume = {2},
      number = {1},
      pages = {68-78},
      doi = {10.11648/j.frontiers.20220201.17},
      url = {https://doi.org/10.11648/j.frontiers.20220201.17},
      eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.frontiers.20220201.17},
      abstract = {Piezoelectric (PZE) materials are rarely used in modern medicine. They are the materials that can convert some of the mechanical stress into an electrical gradient difference (EGD). This could occur via the re-orientation of atoms inside these materials according to the rules of the electronegative momentum (ENM). It is believed that the suture materials have only one function of just an approximation of the edge of the wound till the healing is completed. Multiple US patents had been issued that changed the thinking about the repair of surgical wounds. These patents (US 9,782,513), (US 9,579,414), (US 9,849,210) claimed that the suture materials not only have to approximate the edges of the wound but also they could help in the acceleration of the healing process. The PZE materials could achieve this fundamental function via the production of the (EGD) that could be utilized by the ischemic cells at the edge of the wound to accelerate the healing process. Furthermore, they could stimulate the dormant adult stem cells in the deep layers of the wound that also help in the healing process. The acceleration of the healing process is associated with no or minimal scarring of the wound according to the Soft Tissue Healing Law. This would not only beneficial for the cosmetic purposes of the skin but also for the functional healing of the deep layers of the wound to avoid future contraction of the scar at its deep layers. Therefore, this new modality is beneficial at both the cosmetic and functional levels. Sadly, the (PZE) & (ENM) are almost unknown in the medical field by most surgeons.},
     year = {2022}
    }
    

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    AB  - Piezoelectric (PZE) materials are rarely used in modern medicine. They are the materials that can convert some of the mechanical stress into an electrical gradient difference (EGD). This could occur via the re-orientation of atoms inside these materials according to the rules of the electronegative momentum (ENM). It is believed that the suture materials have only one function of just an approximation of the edge of the wound till the healing is completed. Multiple US patents had been issued that changed the thinking about the repair of surgical wounds. These patents (US 9,782,513), (US 9,579,414), (US 9,849,210) claimed that the suture materials not only have to approximate the edges of the wound but also they could help in the acceleration of the healing process. The PZE materials could achieve this fundamental function via the production of the (EGD) that could be utilized by the ischemic cells at the edge of the wound to accelerate the healing process. Furthermore, they could stimulate the dormant adult stem cells in the deep layers of the wound that also help in the healing process. The acceleration of the healing process is associated with no or minimal scarring of the wound according to the Soft Tissue Healing Law. This would not only beneficial for the cosmetic purposes of the skin but also for the functional healing of the deep layers of the wound to avoid future contraction of the scar at its deep layers. Therefore, this new modality is beneficial at both the cosmetic and functional levels. Sadly, the (PZE) & (ENM) are almost unknown in the medical field by most surgeons.
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Author Information
  • Medical & Research Department, Skyline Health Systems INC, Gatineau, Canada

  • Medical & Research Department, Skyline Health Systems INC, Gatineau, Canada

  • Medical & Research Department, Skyline Health Systems INC, Gatineau, Canada

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