List of orthopedic implants
An orthopedic implant is a medical device manufactured to replace a missing joint or bone or to support a damaged bone.[1] The medical implant is mainly fabricated using stainless steel and titanium alloys for strength and the plastic coating that is done on it acts as an artificial cartilage.[2]Or the biodegradable metals in this category are magnesium-based [3]and iron-based alloys ,although recently zinc has also been investigated.[4] Currently, the uses of bioresorbable metals are as fracture fixation implants[5][6] [7] [8] Internal fixation is an operation in orthopedics that involves the surgical implementation of implants for the purpose of repairing a bone.[9][10] During the surgery of broken bones through internal fixation the bone fragments are first reduced into their normal alignment then they are held together with the help of internal fixators such as plates, screws, nails, pins and wires.[11][12]
Eponymous implants and their uses
- Austin-Moore prosthesis for fracture of the neck of femur[13]
- Baksi's prosthesis for elbow replacement[14]
- Charnley prosthesis for total hip replacement[15]
- Condylar blade plate for condylar fractures of femur[16]
- Ender's nail for fixing intertrochanteric fracture[17]
- Grosse-Kempf nail for tibial or femoral shaft fracture[18]
- Hansson pin (or LIH for Lars Ingvar Hansson), a hook-pin used for fractures of the femoral neck[19]
- Harrington rod for fixation of the spine[20]
- Hartshill rectangle for fixation of the spine[21]
- Insall Burstein prosthesis : for total knee replacement [22]
- Richard N.W. Wohns interspinous implant and implantation instrument intended to be implanted between two adjacent dorsal spines[23]
- Kirschner wire for fixation of small bones[24]
- Kuntscher nail for fracture of the shaft of femur[25]
- Luque rod : for fixation of the spine[26]
- Moore's pin for fracture of the neck of femur
- Neer's prosthesis for shoulder replacement[27]
- Rush nail for diaphyseal fractures of a long bone[28]
- Smith Peterson nail for fracture of the neck of femur
- Smith Peterson nail with McLaughlin's plate for intertrochanteric fracture
- Seidel nail for fracture of the shaft of humerus[29]
- Souter's prosthesis for elbow replacement[30]
- Steffee plate for fixation of the spine[31]
- Steinmann pin for skeletal traction[32]
- Swanson prosthesis for the replacement of joints of the fingers[33]
- Talwalkar nail for fracture of radius and ulna[34]
- Thompson prosthesis for fracture of the neck of femur[35]
Branded Systems
Waldemar Link | DePuy Synthes | Vast Ortho | Stryker | Smith & Nephew | Biomet | Orthofix | Zimmer | ||
---|---|---|---|---|---|---|---|---|---|
Elective | Total Hip Replacement | Lubinus SP II | Austin Moore
Bipolar Thompson |
Exeter
Accolade |
|||||
Hip hemiarthroplasty | |||||||||
Hip resurfacing | Birmingham | ||||||||
Total Knee Replacement | Gemini
Endo-Model |
Sigma
Attune |
Triathlon
Scorpio |
Journey
Legion Genesis II |
Vanguard
VanguardXP |
NexGen
Persona | |||
Unicompartmental knee arthroplasty[36] | Sled | Oxford | |||||||
Shoulder/Elbow/Ankle Replacement | |||||||||
Trauma | Femoral Nail | Expert LFN/RAFN/ALFN
PFNA TFN |
PFNA
PFNA II TFN |
Gamma nail[37] | Intertan nail[38] | ZNN System, NCB System | |||
Tibial Nail | Expert tibia nail | Tibia Nail | T2 tibia nail | ZNN System, NCB System | |||||
External fixation | Ilizarov Ring
Clamp Trocar |
Hoffmann II | Taylor spatial frame
Ilizarov JET-X |
TrueLok Hex
Galaxy |
|||||
Locking Plates (LCP) | 2.4mm Locking
2.7mm Locking 3.5mm Locking 4.5/5.0mm Locking |
||||||||
Angled Plates | Angle Blade Plate
Condylat Plate DHC, DCS Jewett Nail Plate |
||||||||
Spine | Anterior Cervical Plate
Monoaxial Screws Polyaxial Screws Cages Mesh |
Image gallery
- Moore's pin
- Austin Moore prostheses
- Steinman pins
- Shans pin
- Rush nail
- Buttress plates
Research progress
A surface engineering method was developed for biodegradable magnesium alloys to enhance orthopedic implants.[39]
See also
References
- "Orthopedic Implants". Wordpress. Retrieved 12 August 2012.
- "About Orthopedic Implants". Wordpress. Retrieved 12 June 2014.
- Saberi A, Bakhsheshi-Rad HR, Karamian E, Kasiri-Asgarani M, Ghomi H. Magnesium-graphene nano-platelet composites: Corrosion behavior, mechanical and biological properties. Journal of Alloys and Compounds. 2020 Apr 25;821:153379.https://doi.org/10.1016/j.jallcom.2019.153379
- Kong, L.; Heydari, Z.; Lami, G.H.; Saberi, A.; Baltatu, M.S.; Vizureanu, P. A Comprehensive Review of the Current Research Status of Biodegradable Zinc Alloys and Composites for Biomedical Applications. Materials 2023, 16, 4797. https://doi.org/10.3390/ma16134797https://pubmed.ncbi.nlm.nih.gov/37445111/
- Liu J, Wang X, Saberi A, Heydari Z. The effect of Co-encapsulated GNPs-CNTs nanofillers on mechanical properties, degradation and antibacterial behavior of Mg-based composite. Journal of the Mechanical Behavior of Biomedical Materials. 2023 Feb 1;138:105601.https://doi.org/10.1016/j.jmbbm.2022.105601
- Zhao, J.; Haowei, M.; Saberi, A.; Heydari, Z.; Baltatu, M.S. Carbon Nanotube (CNT) Encapsulated Magnesium-Based Nanocomposites to Improve Mechanical, Degradation and Antibacterial Performances for Biomedical Device Applications. Coatings 2022, 12, 1589. https://doi.org/10.3390/coatings12101589
- Zhang, H.; Saberi, A.; Heydari, Z.; Baltatu, M.S. Bredigite-CNTs Reinforced Mg-Zn Bio-Composites to Enhance the Mechanical and Biological Properties for Biomedical Applications. Materials 2023, 16, 1681. https://doi.org/10.3390/ma16041681 https://pubmed.ncbi.nlm.nih.gov/36837310/
- Amirzade-Iranaq, M.T.; Omidi, M.; Bakhsheshi-Rad, H.R.; Saberi, A.; Abazari, S.; Teymouri, N.; Naeimi, F.; Sergi, C.; Ismail, A.F.; Sharif, S.; et al. MWCNTs-TiO2 Incorporated-Mg Composites to Improve the Mechanical, Corrosion and Biological Characteristics for Use in Biomedical Fields. Materials 2023, 16, 1919. https://doi.org/10.3390/ma16051919
- "General Principles of Internal Fixation". E-Medicine. 2019-11-09.
{{cite journal}}
: Cite journal requires|journal=
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- "Types of Orthopedic Implants". gpcmedical. Retrieved 12 August 2012.
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- Neumann, Lars; Freund, Knud Gade; Sørensen, K. Harry (1996). "Total Hip Arthroplasty with the Charnley Prosthesis in Patients Fifty-five Years Old and Less. Fifteen to Twenty-one-Year Results". The Journal of Bone and Joint Surgery. 78 (1): 73–9. doi:10.2106/00004623-199601000-00010. PMID 8550682. S2CID 30505982. Archived from the original on 2013-04-15.
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