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A method for highly assisted control of cytoskeletal changes using nanotubes

A highly auxiliary, cytoskeletal technology, applied in nanotechnology, nanotechnology, nanotechnology, etc. for materials and surface science, that can address scaling reduction, adverse repair and replacement, reduced rate of osteoblast or stem cell differentiation, etc. question

Inactive Publication Date: 2019-07-26
SHANGHAI NINTH PEOPLES HOSPITAL SHANGHAI JIAO TONG UNIV SCHOOL OF MEDICINE
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the elastic deformation of simple titanium metal scaffolds is very subtle, and the changes to the cytoskeleton are also very subtle, which results in a decrease in the differentiation speed and proportion of osteoblasts or stem cells, which is not conducive to the repair and replacement of various types of bone.

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  • A method for highly assisted control of cytoskeletal changes using nanotubes
  • A method for highly assisted control of cytoskeletal changes using nanotubes
  • A method for highly assisted control of cytoskeletal changes using nanotubes

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Embodiment Construction

[0028] The following is a detailed description of the embodiments of the present invention. This embodiment is implemented on the premise of the technical solution of the present invention, and detailed implementation methods and specific operating procedures are provided, but the protection scope of the present invention is not limited to the following implementation example.

[0029] The present invention provides a method for highly assisted control of cytoskeleton changes using nanotubes, such as figure 1 , figure 2 with image 3 shown, including the following steps:

[0030] Anodic oxidation of pure titanium and low-modulus duplex titanium metal test pieces is carried out with organic solution (alcohol-based oxidation medium as electrolyte, such as ethanol solution containing calcium and phosphorus elements), and field emission scanning electron microscope, atomic force microscope, X-ray Diffractometer, Auger spectrometer, X-ray photoelectron spectrometer and other me...

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Abstract

The invention discloses a method for nanotube-height-aided control of cytoskeleton change. The method comprises steps of performing anodization of pure titanium or low-modulus biphase titanium using an organic solvent; representing the microscopic structure of an anodization product using a microscopic means; preparing a titanium metal piece of nanopore and naotube microstructures; separating bone narrow mesenchymal stem cells, adhering three-generation cells on a surface-modified metal piece for incubation; observing cell adhesion effects by MTT, DYPI nuclear staining and SEM; placing the metal testing piece for cell incubation in culture holes of an aseptic elastic plate, and placing the metal testing piece in a universal testing system in a constant temperature state and providing the metal testing piece with different periods, frequencies and load compressive stress; and observing and testing cell deformation with a SEM electron microscope or optical microscope, and detecting representation of cell proliferation and differentiation. The method enables the elastic deformation signal of a modified titanium substrate surface to be amplified, thereby influencing osteoblast adhered on the modified titanium substrate surface to receive greater simulation, and leading to larger cytoskeleton change.

Description

technical field [0001] The invention relates to the field of medical biomaterials, in particular to a method for highly assisted control of cytoskeleton changes by using nanotubes. Background technique [0002] Titanium metal will undergo nonlinear elastic deformation under appropriate stress stimulation. This deformation is affected by physical elements such as elastic modulus, shape, diameter, and three-dimensional structure. Metal scaffolds produce extremely small elastic deformations; osteoblasts and stem cells are mechanical signal-sensitive or responsive cells, and studies have shown that various mechanical signals between cells and substrates can be regulated by activating specific force transduction pathways through stem cell surface receptors Differentiation of stem cells. Mechanistic factors regulate stem cell self-renewal and lineage differentiation even in the absence of biochemical stimuli. However, the elastic deformation of pure titanium metal scaffolds is v...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01Q60/24G01Q30/02G01N23/20G01T1/36B82Y30/00B82Y40/00
CPCB82Y30/00B82Y40/00G01N23/20G01Q30/02G01Q60/24G01T1/36
Inventor 李慧武朱振安常永云戴尅戎曲新华
Owner SHANGHAI NINTH PEOPLES HOSPITAL SHANGHAI JIAO TONG UNIV SCHOOL OF MEDICINE