BIOMAT Database Logo BIOMAT Database Logo

An analysis of the corrosion process of the Nova-T IUD. 1994

E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Department of Obstetrics and Gynaecology, University Hospital of South Manchester, West Didsbury, UK.

OBJECTIVE To measure the copper from Nova-T IUDs that have been used for up to 9 years. To examine the composition and extent of surface deposits on these used IUDs. METHODS Nova-T IUDs were randomly collected at normal replacement or removal. The copper, silver and calcium content was quantified by X-ray fluorescence; surface topography and analysis was by scanning electron microscopy and X-ray dispersive analysis. RESULTS Copper loss slowly increased at an exponential rate over the study period but the copper was stabilized by the silver core and did not show increased fragmentation with extended use. No corrosion of the silver core was detected. Calcium- and sulfur-containing surface deposits built up on the copper but did not modify the rate of copper release. CONCLUSIONS The mean rate of copper loss was 0.25 mumol/day during the first 40 months of use, which is not significantly different from that of similar IUDs without a silver core. The silver core of the copper coil on the Nova-T IUD prevented its fragmentation. Surface deposits containing calcium and sulfur that built up on the IUD did not affect the rate of copper loss.

UI MeSH Term Description Entries
D007435 Intrauterine Devices, Copper Intrauterine contraceptive devices that depend on the release of metallic copper. Copper Intrauterine Devices,Copper-Releasing IUDs,IUD, Copper Releasing,Copper Intrauterine Device,Copper Releasing IUD,Copper-Releasing IUD,Device, Copper Intrauterine,Devices, Copper Intrauterine,IUD, Copper-Releasing,IUDs, Copper-Releasing,Intrauterine Device, Copper
D002118 Calcium A basic element found in nearly all tissues. It is a member of the alkaline earth family of metals with the atomic symbol Ca, atomic number 20, and atomic weight 40. Calcium is the most abundant mineral in the body and combines with phosphorus to form calcium phosphate in the bones and teeth. It is essential for the normal functioning of nerves and muscles and plays a role in blood coagulation (as factor IV) and in many enzymatic processes. Coagulation Factor IV,Factor IV,Blood Coagulation Factor IV,Calcium-40,Calcium 40,Factor IV, Coagulation
D003300 Copper A heavy metal trace element with the atomic symbol Cu, atomic number 29, and atomic weight 63.55. Copper-63,Copper 63
D003343 Corrosion The gradual destruction of a metal or alloy due to oxidation or action of a chemical agent. (From McGraw-Hill Dictionary of Scientific and Technical Terms, 6th ed) Corrosions
D004868 Equipment Failure Failure of equipment to perform to standard. The failure may be due to defects or improper use. Defects, Equipment,Device Failure,Failure, Equipment,Malfunction, Equipment,Medical Device Failure,Misuse, Equipment,Device Failure, Medical,Device Failures, Medical,Failure, Medical Device,Failures, Medical Device,Defect, Equipment,Device Failures,Equipment Defect,Equipment Defects,Equipment Failures,Equipment Malfunction,Equipment Malfunctions,Equipment Misuse,Equipment Misuses,Failure, Device,Failures, Device,Failures, Equipment,Malfunctions, Equipment,Misuses, Equipment
D005260 Female Females
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D012834 Silver An element with the atomic symbol Ag, atomic number 47, and atomic weight 107.87. It is a soft metal that is used medically in surgical instruments, dental prostheses, and alloys. Long-continued use of silver salts can lead to a form of poisoning known as ARGYRIA.
D013052 Spectrometry, X-Ray Emission The spectrometric analysis of fluorescent X-RAYS, i.e. X-rays emitted after bombarding matter with high energy particles such as PROTONS; ELECTRONS; or higher energy X-rays. Identification of ELEMENTS by this technique is based on the specific type of X-rays that are emitted which are characteristic of the specific elements in the material being analyzed. The characteristic X-rays are distinguished and/or quantified by either wavelength dispersive or energy dispersive methods. Particle-Induced X-Ray Emission Spectrometry,Proton-Induced X-Ray Emission Spectrometry,Spectrometry, Particle-Induced X-Ray Emission,Spectrometry, Proton-Induced X-Ray Emission,Spectrometry, X-Ray Fluorescence,X-Ray Emission Spectrometry,X-Ray Emission Spectroscopy,X-Ray Fluorescence Spectrometry,Energy Dispersive X-Ray Fluorescence Spectrometry,Energy Dispersive X-Ray Fluorescence Spectroscopy,Energy Dispersive X-Ray Spectrometry,Energy Dispersive X-Ray Spectroscopy,Particle Induced X Ray Emission Spectrometry,Proton Induced X Ray Emission Spectrometry,Spectrometry, Particle Induced X Ray Emission,Spectrometry, Proton Induced X Ray Emission,Spectrometry, Xray Emission,Wavelength Dispersive X-Ray Fluorescence Spectrometry,Wavelength Dispersive X-Ray Fluorescence Spectroscopy,Wavelength Dispersive X-Ray Spectrometry,Wavelength Dispersive X-Ray Spectroscopy,X-Ray Fluorescence Spectroscopy,Xray Emission Spectroscopy,Emission Spectrometry, X-Ray,Emission Spectrometry, Xray,Emission Spectroscopy, X-Ray,Emission Spectroscopy, Xray,Energy Dispersive X Ray Fluorescence Spectrometry,Energy Dispersive X Ray Fluorescence Spectroscopy,Energy Dispersive X Ray Spectrometry,Energy Dispersive X Ray Spectroscopy,Fluorescence Spectrometry, X-Ray,Fluorescence Spectroscopy, X-Ray,Spectrometry, X Ray Emission,Spectrometry, X Ray Fluorescence,Spectroscopy, X-Ray Emission,Spectroscopy, X-Ray Fluorescence,Spectroscopy, Xray Emission,Wavelength Dispersive X Ray Fluorescence Spectrometry,Wavelength Dispersive X Ray Fluorescence Spectroscopy,Wavelength Dispersive X Ray Spectrometry,Wavelength Dispersive X Ray Spectroscopy,X Ray Emission Spectrometry,X Ray Emission Spectroscopy,X Ray Fluorescence Spectrometry,X Ray Fluorescence Spectroscopy,X-Ray Fluorescence Spectroscopies,Xray Emission Spectrometry
D013455 Sulfur An element that is a member of the chalcogen family. It has an atomic symbol S, atomic number 16, and atomic weight [32.059; 32.076]. It is found in the amino acids cysteine and methionine. Sulfur-16,Sulfur 16

Related Publications

E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
IUD (Nova-T) insertion following induced abortion.
September 1990, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
The Nova-T IUD--a review of the literature.
October 1991, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Five-year clinical experiences with NOVA T 380 copper IUD.
November 2002, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Two-year clinical experience with Nova-T 380, a novel copper-silver IUD.
January 1999, Advances in contraception : the official journal of the Society for the Advancement of Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
The saf-t-coil, an IUD.
January 1968, Fertility and sterility,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Combined and national experience of postmenstrual IUD insertions of Nova-T and Copper-T in a randomized study.
January 1979, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Risk factors for copper T IUD expulsion: an epidemiologic analysis.
November 1992, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
[Inflammation or an immune process in IUD? (proceedings)].
August 1978, Ceskoslovenska gynekologie,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
The norgestrel-T-IUD.
September 1980, Contraception,
E Chantler, and P Kenway, and Z Larouk, and E B Faragher, and J Morris, and A Kosonen, and H Allonen, and M Elstein
Analysis of the reason of abnormal uterine bleeding induced by copper corrosion of IUD Cu.
January 2016, Clinical and experimental obstetrics & gynecology,
Copied contents to your clipboard!