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Niti Self Expandable Surgical Splints


Affiliations
1 Department of Othodontics and Dentofacial Orthopedics, Saveetha Dental College, Saveetha University Chennai-600077, India
     

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Surgical Splints are devices used to maintain tissues in a new position. This becomes most essential in surgical scenarios, where in appropriate tissue positions are achieved by surgical armamentarium to simulate guided tissue regeneration. Niti [nickel- titanium ] also known as Nitinol plays a vital role in the fabrication of surgical splints mainly because of its desirable biofunctional and biocompatible properties apart from its well known Shape memory and Super elasticity properties. Lately, Niti is the most sought after material in bio-engineering, due to its exclusive superelastical characteristics and shape memory. NiTi functioning is based on the application of a small load and a prolonged stress which can be dynamic, static progressive or static serial.

Keywords

Niti [Nickel- Titanium], Surgical Splints, Self Expandable.
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  • Effect of temperature on the orthodontic clinical applications of niti closed-coil springs Eduardo Espinar-Escalona 1, José-María Llamas-Carreras 1, José-María Barrera-Mora 1, Camilo Abalos- Lasbrucci 1, Francisco-Javier Gil-Mur
  • The effect of temperature on the mechanical behavior of nickel-titanium orthodontic initial archwires Luca Lombardoa; Giorgia Tonib; Filippo Stefanonic; Francesco Mollicad; Maria Paola Guarnerie;Giuseppe Sicilianif
  • Pseudoelasticity and thermoelasticity of nickeltitanium alloys: A clinically oriented review. Part I: Temperature transitional rangesMargherita Santoro, DDS, MA,a Olivier F. Nicolay, DDS, MS,b and Thomas J. Cangialosi, DDSc New York, NY
  • How does temperature infl uence the properties of rectangular nickel – titanium wires? Maurício Tatsuei Sakima , Michel Dalstra and Birte MelsenDepartment of Orthodontics, School of Dentistry, University of Aarhus, Denmark
  • Evaluation of the effect of temperature on the tortional stiffness of active Austenitic and active Martensitic Nickel Titanium arch wires: An In-vitro study Dr. Thomas John, Dr. Abhishek Bansa
  • Waters NE. Superelastic nickel-titanium wires. Br J Orthod 1992; T9: 319-322.
  • Kapila S and Sachdeva R. Mechanical properties and clinical applications of orthodontic wires. Am J OrthodDentofacOrthop 1989; 96: 100-109
  • Brief Overview on Nitinol as BiomaterialAbdulWadood Department of Materials Science and Engineering, Institute of Space Technology, Near Rawat Toll Plaza, Islamabad, Pakistan
  • R. C. L. Sachdeva, S. Miyazaki, and Z. H. Dughaish, “Nitinol as a biomedical material,” in Encyclopedia of Materials: Science and Technology, pp. 6155–6160, 2nd edition, 2001.
  • T. Yoneyama and S. Miyazaki, Shape Memory Alloys for Biomedical Applications, Woodhead, 1st edition, 2008.
  • ItalyAn overview of nickel–titanium alloys usedin dentistry S. A. ThompsonDepartment of Adult Dental Health, University of Wales College of Medicine, Cardiff, UK
  • Biomedical Applications of ShapeMemory Alloys Lorenza Petrini and FrancescoMigliavaccaPolitecnico di Milano, Laboratory of Biological Structure Mechanics, Department of Structural Engineering,Piazza Leonardo da Vinci 32, 20133 Milan, Italy
  • Design of splints based on the NiTi alloy for thecorrection of joint deformities in the fingers
  • Sergio Puértolas1, José M Pérez-García2,3,4, Luis Gracia1, José Cegoñino1, Elena Ibarz1, José A Puértolas5,Antonio Herrera2,3,4ENCE: Prosser R: Splinting in the management of proximal interphalangeal joint flexion contracture. Jour Hand Therapy 1996, 9:378-386.
  • Benaglia PG, Sartorio F, Franchignoni F: A new thermoplastic splint for proximal interphalangeal joint flexion contractures. Jour Sports Med Phys Fitness 1999, 39:249-252.
  • Fess EE, McCollum M: The influence of splinting on healing tissues. Jour Hand Therapy 1998, 11:157-161.
  • Wilton J: Hand splinting: Principles of design and fabrication.Edited by: Saunders WB. London; 1997:.
  • Li C: Force analysis of the Belly Gutter and Capener splints. Jour Hand Therapy 1999, 12:337-343.
  • Puértolas et al. Design of splints based on the NiTi alloy for the correction of joint deformities in the fingers ,BioMedical Engineering OnLine 2010

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  • Niti Self Expandable Surgical Splints

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Authors

B. Priya
Department of Othodontics and Dentofacial Orthopedics, Saveetha Dental College, Saveetha University Chennai-600077, India
Ashwin Mathew George
Department of Othodontics and Dentofacial Orthopedics, Saveetha Dental College, Saveetha University Chennai-600077, India

Abstract


Surgical Splints are devices used to maintain tissues in a new position. This becomes most essential in surgical scenarios, where in appropriate tissue positions are achieved by surgical armamentarium to simulate guided tissue regeneration. Niti [nickel- titanium ] also known as Nitinol plays a vital role in the fabrication of surgical splints mainly because of its desirable biofunctional and biocompatible properties apart from its well known Shape memory and Super elasticity properties. Lately, Niti is the most sought after material in bio-engineering, due to its exclusive superelastical characteristics and shape memory. NiTi functioning is based on the application of a small load and a prolonged stress which can be dynamic, static progressive or static serial.

Keywords


Niti [Nickel- Titanium], Surgical Splints, Self Expandable.

References