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Wikipedia

Copper IUD

December 27, 2022

This article is about non-hormone-based IUDs. For hormone-based, see Hormonal IUDs.

Intrauterine device (IUD) with copper, also known as intrauterine coil or copper coil, is a type of intrauterine device which contains copper.[3] It is used for birth control and emergency contraception within five days of unprotected sex.[3] It is one of the most effective forms of birth control with a one-year failure rate around 0.7%.[4] The device is placed in the uterus and lasts up to twelve years.[3][1][5] It may be used by women of all ages regardless of whether or not they have had children.[6] Following removal, fertility quickly returns.[1]

Copper IUD
Photo of a common IUD (Paragard T 380A)
Background
TypeIntrauterine
First use1970s[1]
Trade namescopper-T, ParaGard, others
AHFS/Drugs.comFDA Professional Drug Information
Failure rates (first year)
Perfect use0.6%[2]
Typical use0.8%[2]
Usage
Duration effect5–12+ years[1]
Reversibilityrapid[1]
User remindersCheck thread position after each period. Have removed shortly after menopause, if not before.
Clinic reviewAnnually
Advantages and disadvantages
STI protectionNo
PeriodsMay be heavier and more painful[3]
BenefitsUnnecessary to take any daily action.
Emergency contraception if inserted within 5 days
RisksSmall risk of PID in first 20 days following insertion.[3]
Rarely, uterine perforation.

Side effects may be heavy menstrual periods, and/or rarely the device may come out.[3] It is less recommended for people at high risk of sexually transmitted infections as it may increase the risk of pelvic inflammatory disease in the first three weeks after insertion.[6] It is recommended for people who don't tolerate or hardly tolerate hormonal contraceptives. If a woman becomes pregnant with an IUD in place removal is recommended.[6] Very rarely, uterine perforation may occur during insertion if not done properly.[1] The copper IUD is a type of long-acting reversible birth control.[4] It primarily works by killing the sperm.[1]

The copper IUD came into medical use in the 1970s.[1] It is on the World Health Organization's List of Essential Medicines.[7] They are used by more than 170 million women globally.[8][9]

Medical uses

Copper IUDs are a form of long-acting reversible contraception and are one of the most effective forms of birth control available.[10] The type of frame and amount of copper can affect the effectiveness of different copper IUD models.[11] The failure rates for different models vary between 0.1 and 2.2% after 1 year of use. The T-shaped models with a surface area of 380 mm² of copper have the lowest failure rates. The TCu 380A (ParaGard) has a one-year failure rate of 0.8% and a cumulative 12-year failure rate of 2.2%.[11] Over 12 years of use, the models with less surface area of copper have higher failure rates. The TCu 220A has a 12-year failure rate of 5.8%. The frameless GyneFix has a failure rate of less than 1% per year.[12] Worldwide, older IUD models with lower effectiveness rates are no longer produced.[13]

Unlike other forms of reversible contraception, the typical use failure rate and the perfect use failure rate for the copper IUDs are the same because the IUD does not depend on user action.[10] A 2008 review of the available T-shaped copper IUDs recommended that the TCu 380A and the TCu 280S be used as the first choice for copper IUDs because those two models have the lowest failure rates and the longest lifespans.[11] The effectiveness of the copper IUD (failure rate of 0.8%) is comparable to tubal sterilization (failure rate of 0.5%) for the first year.[14][15][16] However, the effects of the copper IUD are reversible, which can be viewed as either an advantage or a disadvantage, depending on a person's goals for contraception.

Emergency contraception

It was first discovered in 1976 that the copper IUD could be used as a form of emergency contraception (EC).[17] The copper IUD is the most effective form of emergency contraception. It is more effective than the hormonal EC pills currently available.[18] The pregnancy rate among those using the copper IUD for EC is 0.09%. It can be used for EC up to five days after the act of unprotected sex and does not decrease in effectiveness during the five days.[19] An additional advantage of using the copper IUD for emergency contraception is that it can be used as a form of birth control for 10–12 years after insertion.[19]

Removal and return to fertility

Removal of the copper IUD should also be performed by a qualified medical practitioner. Fertility has been shown to return to previous levels quickly after removal of the device.[20] One study found that the median amount of time from removal to planned pregnancy was three months for those women using the TCu 380Ag.[21]

Side effects

Expulsion: Sometimes, the copper IUD can be spontaneously expelled from the uterus.[20] Expulsion rates can range from 2.2% to 11.4% of users from the first year to the 10th year. The TCu380A may have lower rates of expulsion than other models.[22] Unusual vaginal discharge, cramping or pain, spotting between periods, postcoital (after sex) spotting, dyspareunia, or the absence or lengthening of the strings can be signs of a possible expulsion.[20] If expulsion occurs, the woman is not protected against pregnancy. If an IUD with copper is inserted after an expulsion has occurred, the risk of re-expulsion has been estimated in one study to be approximately one third of cases after one year.[23] Magnetic resonance imaging (MRI) may cause dislocation of a copper IUD, and it is therefore recommended to check the location of the IUD both before and after MRI.[24]

 
Transvaginal ultrasonography showing a perforated copper IUD as a hyperechoic (rendered as bright) line at right, 3 centimeters away from the uterus at left. The IUD is surrounded by a hypoechoic (dark) foreign-body granuloma.

Perforation: Very rarely, the IUD can move through the wall of the uterus.[20] Risk of perforation is mostly determined by the skill of the practitioner performing the insertion. For experienced medical practitioners, the risk of perforation is 1 per 1,000 insertions or less.[25] It is recommended to consult an obstetrician/gynecologist, who has the equipment to properly insert the IUD and check that it does not move during the months following insertion.

Infection: The insertion of a copper IUD poses a transient risk of pelvic inflammatory disease (PID) in the first 21 days after insertion. However, it is a small risk and is attributable to preexisting gonorrhea or chlamydia infection at the time of insertion, and not to the IUD itself.[26][27] Proper infection prevention procedures have little or no effect on the course of gonorrhea or chlamydia infections but are important in helping protect both clients and providers from infection in general.[27] Such infection prevention practices include washing hands and then putting on gloves, cleaning the cervix and vagina, making minimal contact with non-sterile surfaces (using a no-touch insertion technique), and, after the procedure, washing hands again and then processing instruments.[13] The device itself carries no increased risk of PID beyond the time of insertion.[20]

Cramping: Some women can feel cramping during the IUD insertion process and immediately after as a result of cervix dilation during insertion.[13] Taking NSAIDs before the procedure often reduces discomfort,[28] as the use of a local anaesthetic. Misoprostol 6 to 12 hrs before insertion can help with cervical dilation.[28] Some women may have cramps for 1 to 2 weeks following insertion.

Heavier periods: The copper IUD may increase the amount of blood flow during a woman's menstrual periods.[13] On average, menstrual blood loss may increase by 20–50% after insertion of a copper-T IUD; This symptom may clear up for some women after 3 to 6 months.[29]

Irregular bleeding and spotting: For some women, the copper IUD may cause spotting between periods during the first 3 to 6 months after insertion.[20]

 
Transvaginal ultrasonography visualizing an IUD with copper in the optimal location within the uterus.

Pregnancy: Although rare, if pregnancy does occur with the copper IUD in place there can be side effects. The risk of ectopic pregnancy to a woman using an IUD is lower than the risk of ectopic pregnancy to a woman using no form of birth control. However, of pregnancies that do occur during IUD use, a higher than expected percentage (3–4%) are ectopic.[13] If pregnancy occurs with the IUD in place there is a higher risk of miscarriage or early delivery. If this occurs and the IUD strings are visible, the IUD should be removed immediately by a clinician.[20] Although the Dalkon Shield IUD was associated with septic abortions (infections associated with miscarriage), other brands of IUD are not. IUDs are also not associated with birth defects.[13]

Some barrier contraceptives protect against STIs. Hormonal contraceptives reduce the risk of developing pelvic inflammatory disease (PID), a serious complication of certain STIs. IUDs, by contrast, do not protect against STIs or PID.[30][20]

Copper Toxicity: There exists anecdotal evidence linking copper IUDs to cases of copper toxicity.[31]

Contraindications

A category 3 condition indicates conditions where the theoretical or proven risks usually outweigh the advantages of inserting a copper IUD. A category 4 condition indicates conditions that represent an unacceptable health risk if a copper IUD is inserted.

Women should not use a copper IUD if they:

(Category 4)

  • Are pregnant or think they may be pregnant
  • Have certain uterine abnormalities
  • Have malignant gestational trophoblastic disease
  • Have or may have an STI
  • Have or may have had a pelvic infection within the past three months
  • Have pelvic tuberculosis
  • Have unexplained abnormal vaginal bleeding
  • Have untreated cervical cancer
  • Have uterine cancer
  • Having a septic pregnancy or abortion

(Category 3)

A full list of contraindications can be found in the World Health Organization (WHO) Medical Eligibility Criteria for Contraceptive Use[29] and the Centers for Disease Control and Prevention (CDC) United States Medical Eligibility Criteria for Contraceptive Use.[32]

Being a nulliparous women (women who have never given birth) is not a contraindication for IUD use. IUDs are safe and acceptable even in young nulliparous women.[33][34] The same is likely the case for virgin women, unless there is a microperforate hymen that obstructs any insertion of the IUD.

Device description

There are a number of models of copper IUDs available around the world. Most copper devices consist of a plastic core that is wrapped in a copper wire.[11] Many of the devices have a T-shape similar to the hormonal IUD. However, there are "frameless" copper IUDs available as well.ParaGard is the only model currently available in the United States. At least three copper IUD models are available in Canada, two of which are slimmer T-shape versions used for women who have not had children. Early copper IUDs had copper around only the vertical stem, but more recent models have copper sleeves wrapped around the horizontal arms as well, increasing effectiveness.[35]

Some newer models also contain a silver core instead of a plastic core to delay copper fragmentation as well as increase the lifespan of the device. The lifespan of the devices range from 3 years to 10 years; however, some studies have demonstrated that the TCu 380A may be effective through 12 years.[25]

Its ATC code is G02BA (WHO).

Insertion

The copper IUD must be inserted by a qualified medical practitioner. It is recommended to consult an obstetrician/gynecologist, who has the equipment to properly insert the IUD and check that it does not move during the months following insertion. A copper IUD can be inserted at any phase of the menstrual cycle, but the optimal time is right after the menstrual period when the cervix is softest and the woman is least likely to be pregnant.[36] The insertion process generally takes five minutes or less. The procedure can cause cramping or be painful for some women. Before placement of an IUD, a medical history and physical examination by a medical professional is useful to check for any contraindications or concerns.[36] It is also recommended by some clinicians that patients be tested for gonorrhea and chlamydia, as these two infections increase the risk of contracting pelvic inflammatory disease shortly after insertion.[26]

Immediately prior to insertion, the clinician will perform a pelvic exam to determine the position of the uterus.[20] After the pelvic exam, the vagina is held open with a speculum.[36] A tenaculum is used to steady the cervix and uterus.[36] Uterine sounding may be used to measure the length and direction of the cervical canal and uterus in order to decrease the risk of uterine perforation.[37] The IUD is placed using a narrow tube, which is inserted through the cervix into the uterus. Short monofilament plastic/nylon strings hang down from the uterus into the vagina. The clinician will trim the threads so that they only protrude 3 to 4 cm out of the cervix and remain in the upper vagina. The strings allow the patient or clinician to periodically check to ensure the IUD is still in place and to enable easy removal of the device.[20]

The copper IUD can be inserted at any time in a woman's menstrual cycle as long as the woman is not pregnant.[25] An IUD can also be inserted immediately postpartum and post-abortion as long as no infection has occurred.[32] Breastfeeding is not a contraindication for the use of the copper IUD. The IUD can be inserted in women with HIV or AIDS as it does not increase the risk of transmission.[29] Although previously not recommended for nulliparous women (women who have not had children), the IUD is now recommended for most women who are past menarche (their first period), including adolescents.[38]

After the insertion is finished, normal activities such as sex, exercise, and swimming can be performed as soon as it feels comfortable.[36] Strenuous physical activity does not affect the position of the IUD.[36]

Types

 
A variety of IUDs

Many different types of copper IUDs are currently manufactured worldwide, but availability varies by country. In the United States, only one type of copper IUD is approved for use, while in the United Kingdom, over ten varieties are available.[39] One company, Mona Lisa N.V., offers generic versions of many existing IUDs.[40]

IUD Type Width

(mm)

Length (mm) Copper (mm2) Life (years) Manufacturer Distinguishing characteristics
Gyneplus Cu 380 T-shaped 380 5 Dispo.Cont.
Multiload Cu375 U-shaped 20.5[41] 35 375 5 Multilan
Multiload Cu250 U-shaped 250 3 Multilan
Multi-Safe 375 U-shaped 19.5[42] 32.5 375 5 Williams Medical Supplies
Multi-Safe 375 Short Loop U-shaped 375 5 Williams Medical Supplies
Load 375 U-shaped 19.5[42] 32.5 375 5 7-MED Industrie
Nova-T 380 T-shaped (plain) 32[43] 32 380 5 Bayer
Neo-Safe T 380 T-shaped (plain) 32[42] 32 380 5 Durbin
Neo-Safe T 380 Mini T-shaped (plain) 24[44] 30 380 5 Durbin
UT 380 T-shaped (plain) 32[42] 32 380 5 Laboratoire CCD
UT 380 Short T-shaped (plain) 32[42] 28.4 380 5 Laboratoire CCD
Flexi-T 300 T-shaped (plain) 23[45] 29 300 5 Prosan
Flexi-T + 300 T-shaped (plain) 28[45] 32 300 5 Prosan Wider arms than Flexi-T 300
T-safe CU 380A T-shaped (banded) 31.8[42] 35.8 380 8 Durbin
Flexi-T + 380 T-shaped (banded) 28[45] 32 380 5 Prosan
TT 380 Slimline T-shaped (banded) 31.8[42] 35.8 380 10 7-MED Industrie
TT 380 Mini T-shaped (banded) 23.2[42] 29.5 380 5 7-MED Industrie
Paragard T-shaped (banded) 32[46] 36 380 10 Duramed Only copper IUD currently approved by the U.S. FDA
Gynefix 330 (standard) Frameless 2.2[42] 30 330 5 or 10 Contrel Only frameless IUD brand available
Gynefix 200 (mini) Frameless 200 5 Contrel Only frameless IUD brand available
IUB SCu300A/B Spherical (3D) 300 5 OCON Nitinol alloy cored frame. Brand name is Ballerine.
SMB TCu 380A T-shaped (banded) 32[47] 36 380 10 SMB corp WHO UNFPA Prequalified IUD Manufacturer
Protect TCu 380A T-shaped (banded) 380 12 SMB corp WHO UNFPA Prequalified IUD Manufacturer
Protect Multi-arm Cu 375 standard U-shaped 375 5 SMB corp WHO UNFPA Prequalified IUD Manufacturer
Protect Multi-arm Cu 375 short U-shaped 375 5 SMB corp WHO UNFPA Prequalified IUD Manufacturer

Frameless IUDs

The frameless IUD eliminates the use of the frame that gives conventional IUDs their signature T-shape. This change in design was made to reduce discomfort and expulsion associated with prior IUDs; without a solid frame, the frameless IUD should mold to the shape of the uterus. It may reduce expulsion and discontinuation rates compared to framed copper IUDs.[48]

Gynefix is the only frameless IUD brand currently available. It consists of hollow copper tubes on a polypropylene thread. It is inserted through the cervix with a special applicator that sutures the thread to the fundus (top) of the uterus; the thread is then cut with a tail hanging outside of the cervix, similar to frame IUDs. When this tail is pulled, the suture comes undone and the device can be removed. This requires more force than removing a T-shaped IUD and results in comparable discomfort during removal.[49] Gynefix is not approved for use in the United States.

Mechanism of action

 
A diagram showing a copper IUD in place in the uterus.

The copper IUD's primary mechanism of action is to prevent fertilization.[20][50][51][52] Copper acts as a spermicide within the uterus. The presence of copper increases the levels of copper ions, prostaglandins, and white blood cells within the uterine and tubal fluids.[20][50]

Although not a primary mechanism of action, some experts in human reproduction believe there is sufficient evidence to suggest that IUDs with copper can disrupt implantation,[53] especially when used for emergency contraception.[54][55] Despite this, there has been no definitive evidence that IUD users have higher rates of embryonic loss than women not using contraception.[50] Therefore, the copper IUD is considered to be a true contraceptive and not an abortifacient.[20]

Usage

Globally, the IUD is the most widely used method of reversible birth control.[56] The most recent data indicates that there are 169 million IUD users around the world. This includes both the nonhormonal and hormonal IUDs. IUDs are most popular in Asia, where the prevalence is almost 30%. In Africa and Europe, the prevalence is around 20%.[56] As of 2009, levels of IUD use in the United States are estimated to be 5.5%.[14] Data in the United States does not distinguish between hormonal and non-hormonal IUDs. In Europe, copper IUD prevalence ranges from under 5% in the United Kingdom to over 10% in Denmark in 2006.[57]

History

According to popular legend, Arab traders inserted small stones into the uteruses of their camels to prevent pregnancy during long desert treks. The story was originally a tall tale to entertain delegates at a scientific conference on family planning; although it was later repeated as truth, it has no known historical basis.[58]

Precursors to IUDs were first marketed in 1902. Developed from stem pessaries (where the stem held the pessary in place over the cervix), the 'stem' on these devices actually extended into the uterus itself. Because they occupied both the vagina and the uterus, this type of stem pessary was also known as an intrauterine device. The use of intrauterine devices was associated with high rates of infection; for this reason, they were condemned by the medical community.[59]

The first intrauterine device (contained entirely in the uterus) was described in a German publication in 1909, although the author appears to have never marketed his product.[60]

In 1929, Ernst Gräfenberg of Germany published a report on an IUD made of silk sutures. He had found a 3% pregnancy rate among 1,100 women using his ring. In 1930, Gräfenberg reported a lower pregnancy rate of 1.6% among 600 women using an improved ring wrapped in silver wire. Unbeknownst to Gräfenberg, the silver wire was contaminated with 26% copper. Copper's role in increasing IUD efficacy would not be recognized until nearly 40 years later.

In 1934, Japanese physician Tenrei Ota developed a variation of Gräfenberg's ring that contained a supportive structure in the center. The addition of this central disc lowered the IUD's expulsion rate. These devices still had high rates of infection, and their use and development were further stifled by World War II politics: contraception was forbidden in both Nazi Germany and Axis-allied Japan. The Allies did not learn of the work by Gräfenberg and Ota until well after the war ended.[60]

The first plastic IUD, the Margulies Coil or Margulies Spiral, was introduced in 1958. This device was somewhat large, causing discomfort to a large proportion of women users, and had a hard plastic tail, causing discomfort to their male partners. The modern colloquialism "coil" is based on the coil-shaped design of early IUDs.

The Lippes Loop, a slightly smaller device with a monofilament tail, was introduced in 1962 and gained in popularity over the Margulies device.[59]

The stainless steel single-ring IUD was developed in the 1970s[61] and widely used in China because of low manufacturing costs. The Chinese government banned production of steel IUDs in 1993 due to high failure rates (up to 10% per year).[13][62]

Howard Tatum, in the US, conceived the plastic T-shaped IUD in 1968. Shortly thereafter Jaime Zipper, in Chile, introduced the idea of adding copper to the devices to improve their contraceptive effectiveness.[59][63] It was found that copper-containing devices could be made in smaller sizes without compromising effectiveness, resulting in fewer side effects such as pain and bleeding.[13] T-shaped devices had lower rates of expulsion due to their greater similarity to the shape of the uterus.[60]

The poorly designed Dalkon Shield plastic IUD (which had a multifilament tail) was manufactured by the A. H. Robins Company and sold by Robins in the United States for three and a half years from January 1971 through June 1974, before sales were suspended by Robins on June 28, 1974, at the request of the FDA because of safety concerns following reports of 110 septic spontaneous abortions in women with the Dalkon Shield in place, seven of whom had died.[64][65] Robins stopped international sales of the Dalkon Shield in April 1975.[66]

Tatum developed many different models of the copper IUD. He created the TCu220 C, which had copper collars as opposed to a copper filament, which prevented metal loss and increased the lifespan of the device. Second-generation copper-T IUDs were also introduced in the 1970s. These devices had higher surface areas of copper, and for the first time consistently achieved effectiveness rates of greater than 99%.[13] The last model Tatum developed was the TCu380A, the model that is most recommended today.[11] In addition to T-shaped IUDs, there are also U-shaped IUDs (such as the Multiload) and 7-shaped Gravigard Copper 7 (with a mini version for nulliparous women introduced in the 1980s). More recently, a frameless IUD called Gynefix was introduced.

Brands

The ParaGard T-380A is an IUD with copper, manufactured and marketed in the United States by The Cooper Companies. It is the only copper-containing intrauterine device approved for use in the U.S. (three hormonal uterine devices, Mirena, Skyla and Liletta are also approved). The ParaGard consists of a T-shaped polyethylene frame wound with copper wire, along with two monofilament threads to aid in the removal of the IUD.

The ParaGard T 380A was developed in the 1970s by the Population Council and Finishing Enterprises Inc. (FEI). The Population Council's ParaGard new drug application (NDA) was approved by the U.S. Food and Drug Administration (FDA) and FEI began manufacturing it for distribution outside the United States in 1984. GynoPharma (originally GynoMed) began marketing it in the U.S. in May 1988. On August 2, 1995, Ortho-McNeil acquired GynoPharma and began marketing ParaGard in the U.S. On January 1, 2004, FEI Women's Health acquired the patent from the Population Council and U.S. marketing rights from Ortho-McNeil. On November 10, 2005, Duramed Pharmaceuticals, a subsidiary of Barr Pharmaceuticals, acquired FEI Women's Health and ParaGard. On July 18, 2008, it was announced that Teva Pharmaceutical Industries Ltd. would acquire Barr Pharmaceuticals.

On November 1, 2017, The Cooper Companies acquired Paragard from Teva Pharmaceutical Industries for approximately $1.1 billion.[67]

The original FDA approval of ParaGard in 1984 was for 4 years continuous use, this was later extended to 6 years in 1989, then 8 years in 1991, then 10 years in 1994. (ATC code G02BA02 (WHO))

References

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    Mechanism of action
    Although the precise mechanism of action is not known, currently available IUCs work primarily by preventing sperm from fertilizing ova.26 IUCs are not abortifacients: they do not interrupt an implanted pregnancy.27 Pregnancy is prevented by a combination of the "foreign body effect" of the plastic or metal frame and the specific action of the medication (copper or levonorgestrel) that is released. Exposure to a foreign body causes a sterile inflammatory reaction in the intrauterine environment that is toxic to sperm and ova and impairs implantation.28,29 The production of cytotoxic peptides and activation of enzymes lead to inhibition of sperm motility, reduced sperm capacitation and survival, and increased phagocytosis of sperm.30,31 The TCu380A causes an increase in copper ions, enzymes, prostaglandins, and white blood cells (macrophages) in uterine and tubal fluids; these impair sperm function and prevent fertilization.
    p. 162:
    Table 7-1. Myths and misconceptions about IUCs
    Myth: IUCs are abortifacients. Fact: IUCs prevent fertilization and are true contraceptives.
  21. ^ Belhadj, H; et al. (1986). "Recovery of fertility after use of the Levonorgestrel 20 mcg/d or copper T 380 Ag intrauterine device". Contraception. 34 (3): 261–267. doi:10.1016/0010-7824(86)90007-7. PMID 3098498.
  22. ^ Kaneshiro B, Aeby T (2010). "Long-term safety, efficacy, and patient acceptability of the intrauterine Copper T-380A contraceptive device". International Journal of Women's Health. 2: 211–220. doi:10.2147/ijwh.s6914. PMC 2971735. PMID 21072313.
  23. ^ Bahamondes L, Díaz J, Marchi NM, Petta CA, Cristofoletti ML, Gomez G (November 1995). "Performance of copper intrauterine devices when inserted after an expulsion". Hum. Reprod. 10 (11): 2917–8. doi:10.1093/oxfordjournals.humrep.a135819. PMID 8747044.
  24. ^ Berger-Kulemann, Vanessa; Einspieler, Henrik; Hachemian, Nilouparak; Prayer, Daniela; Trattnig, Siegfried; Weber, Michael; Ba-Ssalamah, Ahmed (2013). "Magnetic Field Interactions of Copper-Containing Intrauterine Devices in 3.0-Tesla Magnetic Resonance Imaging: In Vivo Study". Korean Journal of Radiology. 14 (3): 416–22. doi:10.3348/kjr.2013.14.3.416. ISSN 1229-6929. PMC 3655294. PMID 23690707.
  25. ^ a b c WHO Scientific Group on the Mechanism of Action Safety and Efficacy of Intrauterine Devices, World Health Organization (1987). Mechanism of action, safety and efficacy of intrauterine devices. Geneva: World Health Organization. hdl:10665/38182. ISBN 9241207531. World Health Organization technical report series; no. 753.
  26. ^ a b Mohllajee, AP; Curtis, KM; Peterson, HB (2006). "Does insertion of an intrauterine device increase the risk of pelvic inflammatory disease among women with sexually transmitted infection? A systematic review". Contraception. 73 (2): 143–153. doi:10.1016/j.contraception.2005.08.007. PMID 16413845. from the original on 2020-02-06. Retrieved 2020-09-30.
  27. ^ a b . Archived from the original on 2010-01-01. By the United States Agency for International Development (USAID). Retrieved on Feb 14, 2010
  28. ^ a b Hutten-Czapski P, Goertzen J (2008). (PDF). Can J Rural Med. 13 (1): 31–5. PMID 18208650. Archived from the original (PDF) on 2016-08-14. Retrieved 2009-01-22.
  29. ^ a b c World Health Organization (2015). Medical eligibility criteria for contraceptive use (5th ed.). Geneva: World Health Organization. hdl:10665/181468. ISBN 9789241549158.
  30. ^ Farley TM, Rosenberg MJ, Rowe PJ, Chen JH, Meirik O (1992). "Intrauterine devices and pelvic inflammatory disease: an international perspective". Lancet. 339 (8796): 785–8. doi:10.1016/0140-6736(92)91904-M. PMID 1347812. S2CID 22226835.
    Grimes DA (2000). "Intrauterine device and upper-genital-tract infection". Lancet. 356 (9234): 1013–9. doi:10.1016/S0140-6736(00)02699-4. PMID 11041414. S2CID 7760222.
  31. ^ "Athena Hidden Dangers of the Copper Iud". 2021-10-13. from the original on 2021-11-10. Retrieved 2021-11-11.
  32. ^ a b Curtis KM, Tepper NK, Jatlaoui TC, et al. (July 2016). "U.S. Medical Eligibility Criteria for Contraceptive Use, 2016" (PDF). MMWR Recomm Rep. 65 (3): 1–103. doi:10.15585/mmwr.rr6503a1. PMID 27467196. (PDF) from the original on 2020-10-16. Retrieved 2020-02-03.
  33. ^ Forthofer KV (2009). "A clinical review of the intrauterine device as an effective method of contraception". J Obstet Gynecol Neonatal Nurs. 38 (6): 693–8. doi:10.1111/j.1552-6909.2009.01067.x. PMID 19930283.
  34. ^ Lohr, Patricia A.; Lyus, Richard; Prager, Sarah (2017-06-01). "Use of intrauterine devices in nulliparous women". Contraception. 95 (6): 529–537. doi:10.1016/j.contraception.2016.08.011. ISSN 0010-7824. PMID 27591814. from the original on 2021-08-28. Retrieved 2020-05-27.
  35. ^ Sivin I, Stern J (1979). "Long-acting, more effective Copper T IUDs: a summary of U.S. experience, 1970–1975". Studies in Family Planning. 10 (10): 263–281. doi:10.2307/1965507. JSTOR 1965507. PMID 516121.
  36. ^ a b c d e f . Archived from the original on 2010-08-10. Author: Omnia M Samra. Last Editorial Review: 5/18/2006
  37. ^ . Archived from the original on 2009-04-19. By Dawn Stacey M.Ed. Updated April 30, 2010
  38. ^ ACOG Committee Opinion 450 (December 2009). . American Congress of Obstetricians and Gynecologists. Archived from the original on 2012-05-02. Retrieved 2012-06-28.
  39. ^ "Contraceptive coils (IUDs)". NetDoctor.co.uk. 2006. from the original on 2006-07-17. Retrieved 2006-07-05.
  40. ^ Archived from the original on 2011-07-14., a manufacturer of generic IUDs
  41. ^ (PDF). www.broadwaymed.co.nz. Archived from the original (PDF) on 2020-01-17. Retrieved 2020-07-10.
  42. ^ a b c d e f g h i "Guidance" (PDF). www.nhstaysideadtc.scot.nhs.uk. (PDF) from the original on 2021-01-10. Retrieved 2020-07-10.
  43. ^ "Nova-T 380 IUD (Intrauterine Device)". www.mistrymedical.com. from the original on 2020-03-30. Retrieved 2020-03-30.
  44. ^ "Neo-Safe T CU 380 Mini IUD". MidMeds Ltd. from the original on 2020-03-30. Retrieved 2020-03-30.
  45. ^ a b c "Product information". Prosan (in Dutch). from the original on 2020-03-30. Retrieved 2020-03-29.
  46. ^ "How big is Paragard?". Paragard® IUD. from the original on 2020-03-30. Retrieved 2020-03-29.
  47. ^ "SMB T 380A, Copper T IUD, SMB T 380A IUD, Copper T IUD Device". www.smbcorpn.com. from the original on 2020-07-22. Retrieved 2020-07-21.
  48. ^ Wu S, Hu J, Wildemeersch D (February 2000). "Performance of the frameless GyneFix and the TCu380A IUDs in a 3-year multicenter, randomized, comparative trial in parous women". Contraception. 61 (2): 91–8. doi:10.1016/s0010-7824(00)00087-1. PMID 10802273.
  49. ^ D'Souza RE, Bounds W, Guillebaud J (April 2003). "Comparative trial of the force required for, and pain of, removing GyneFix versus Gyne-T380S following randomised insertion". J Fam Plann Reprod Health Care. 29 (2): 29–31. doi:10.1783/147118903101197494. PMID 12681034.
  50. ^ a b c Ortiz, María Elena; Croxatto, Horacio B. (June 2007). "Copper-T intrauterine device and levonorgestrel intrauterine system: biological bases of their mechanism of action". Contraception. 75 (6 Suppl): S16‒S30. doi:10.1016/j.contraception.2007.01.020. PMID 17531610. p. S28:

    Conclusions
    Active substances released from the IUD or IUS, together with products derived from the inflammatory reaction present in the luminal fluids of the genital tract, are toxic for spermatozoa and oocytes, preventing the encounter of healthy gametes and the formation of viable embryos. The current data do not indicate that embryos are formed in IUD users at a rate comparable to that of nonusers. The common belief that the usual mechanism of action of IUDs in women is the destruction of embryos in the uterus is not supported by empirical evidence. The bulk of the data indicate that interference with the reproductive process after fertilization has taken place is exceptional in the presence of a T-Cu or LNG-IUD and that the usual mechanism by which they prevent pregnancy in women is by preventing fertilization.
  51. ^ Speroff, Leon; Darney, Philip D. (2011). "Intrauterine contraception". A clinical guide for contraception (5th ed.). Philadelphia: Lippincott Williams & Wilkins. pp. 239–280. ISBN 978-1-60831-610-6. p. 246:

    Mechanism of action
    The contraceptive action of all IUDs is mainly in the intrauterine cavity. Ovulation is not affected, and the IUD is not an abortifacient.58–60 It is currently believed that the mechanism of action for IUDs is the production of an intrauterine environment that is spermicidal.
    Nonmedicated IUDs depend for contraception on the general reaction of the uterus to a foreign body. It is believed that this reaction, a sterile inflammatory response, produces tissue injury of a minor degree but sufficient enough to be spermicidal. Very few, if any, sperm reach the ovum in the fallopian tube… In women using copper IUDs, sensitive assays for human chorionic gonadotropin do not find evidence of fertilization.62,63 This is consistent with the fact that the copper IUD protects against both intrauterine and ectopic pregnancies.
    The copper IUD releases free copper and copper salts that have both a biochemical and morphological impact on the endometrium and also produce alterations in cervical mucus and endometrial secretions... An additional spermicidal effect probably takes place in the cervical mucus.
  52. ^ Jensen, Jeffrey T.; Mishell, Daniel R. Jr. (2012). "Family planning: contraception, sterilization, and pregnancy termination". In Lentz, Gretchen M.; Lobo, Rogerio A.; Gershenson, David M.; Katz, Vern L. (eds.). Comprehensive gynecology. Philadelphia: Mosby Elsevier. pp. 215–272. ISBN 978-0-323-06986-1. p. 259:

    Intrauterine devices
    Mechanisms of action
    The common belief that the usual mechanism of action of IUDs in women is destruction of embryos in the uterus is not supported by empirical evidence... Because concern over the mechanism of action represents a barrier to acceptance of this important and highly effective method for some women and some clinicians, it is important to point out that there is no evidence to suggest that the mechanism of action of IUDs is abortifacient... the principal mechanism of action of the copper T 380A IUD is to interfere with sperm action, preventing fertilization of the ovum.
  53. ^ ESHRE Capri Workshop Group (May–June 2008). "Intrauterine devices and intrauterine systems". Human Reproduction Update. 14 (3): 197‒208. doi:10.1093/humupd/dmn003. PMID 18400840. p. 199:

    Mechanisms of action
    Thus, both clinical and experimental evidence suggests that IUDs can prevent and disrupt implantation. It is unlikely, however, that this is the main IUD mode of action, … The best evidence indicates that in IUD users it is unusual for embryos to reach the uterus.
    In conclusion, IUDs may exert their contraceptive action at different levels. Potentially, they interfere with sperm function and transport within the uterus and tubes. It is difficult to determine whether fertilization of the oocyte is impaired by these compromised sperm. There is sufficient evidence to suggest that IUDs can prevent and disrupt implantation. The extent to which this interference contributes to its contraceptive action is unknown. The data are scanty and the political consequences of resolving this issue interfere with comprehensive research.
    p. 205:
    Summary
    IUDs that release copper or levonorgestrel are extremely effective contraceptives... Both copper IUDs and levonorgestrel-releasing IUSs may interfere with implantation, although this may not be the primary mechanism of action. The devices also create barriers to sperm transport and fertilization, and sensitive assays detect hCG in less than 1% of cycles, indicating that significant prevention must occur before the stage of implantation.
  54. ^ Speroff, Leon; Darney, Philip D. (2011). "Special uses of oral contraception: emergency contraception, the progestin-only minipill". A clinical guide for contraception (5th ed.). Philadelphia: Lippincott Williams & Wilkins. pp. 153–166. ISBN 978-1-60831-610-6. p. 157:

    Emergency postcoital contraception
    Other methods
    Another method of emergency contraception is the insertion of a copper IUD, anytime during the preovulatory phase of the menstrual cycle and up to 5 days after ovulation. The failure rate (in a small number of studies) is very low, 0.1%.34,35 This method definitely prevents implantation, but it is not suitable for women who are not candidates for intrauterine contraception, e.g., multiple sexual partners or a rape victim. The use of a copper IUD for emergency contraception is expensive, but not if it is retained as an ongoing method of contraception.
  55. ^ Trussell, James; Schwarz, Eleanor Bimla (2011). "Emergency contraception". In Hatcher, Robert A.; Trussell, James; Nelson, Anita L.; Cates, Willard Jr.; Kowal, Deborah; Policar, Michael S. (eds.). Contraceptive technology (20th revised ed.). New York: Ardent Media. pp. 113–145. ISBN 978-1-59708-004-0. ISSN 0091-9721. OCLC 781956734. p. 121:

    Mechanism of action
    Copper-releasing IUCs
    When used as a regular or emergency method of contraception, copper-releasing IUCs act primarily to prevent fertilization. Emergency insertion of a copper IUC is significantly more effective than the use of ECPs, reducing the risk of pregnancy following unprotected intercourse by more than 99%.2,3 This very high level of effectiveness implies that emergency insertion of a copper IUC must prevent some pregnancies after fertilization.
    Pregnancy begins with implantation according to medical authorities such as the US FDA, the National Institutes of Health79 and the American College of Obstetricians and Gynecologists (ACOG).80
  56. ^ a b Brigid Fitzgerald Reading. "Growth in World Contraceptive Use Stalling; 215 Million Women's Needs Still Unmet". Earth Policy Institute. from the original on 2012-12-03. Retrieved 2013-10-04.
  57. ^ Sonfield, Adam (2012). "Popularity Disparity: Attitudes About the IUD in Europe and the United States". The Guttmacher Institute. from the original on 2010-03-07.
  58. ^ . Planned Parenthood. June 2002. Archived from the original on 2008-05-17. Retrieved 2007-10-14., which cites:
    • Thomas, Patricia (1988-03-14). "Contraceptives". Medical World News. 29 (5): 48.
    • Bullough, Vern L.; Bullough, Bonnie (1990). Contraception: A Guide to Birth Control Methods. Buffalo, NY: Prometheus Books. ISBN 9780879755898.
  59. ^ a b c Lynch, Catherine M. . Contraception Online. Baylor College of Medicine. Archived from the original on 2006-01-27. Retrieved 2006-07-09.
  60. ^ a b c . Contraception Online (Baylor College of Medicine). 10 (6). February 2000. Archived from the original on September 26, 2006.
  61. ^ Bradley, Jeff (August 1998). . OBGYN.net. Archived from the original on 2006-01-17. Retrieved 2006-07-09. (Has pictures of various IUD designs.)
  62. ^ Kaufman, J. (May–Jun 1993). "The cost of IUD failure in China". Studies in Family Planning. 24 (3): 194–6. doi:10.2307/2939234. JSTOR 2939234. PMID 8351700.
  63. ^ Van Kets, H.E. (1997). C. Coll Capdevila; L. Iglesias Cortit; G. Creatsas (eds.). . Contraception Today, Proceedings of the 4th Congress of the European Society of Contraception. The Parthenon Publishing Group. pp. 112–116. Archived from the original on 2006-08-10. Retrieved 2006-07-09. (Has pictures of many IUD designs, both historic and modern.)
  64. ^ Sivin I (1993). "Another look at the Dalkon Shield: meta-analysis underscores its problems". Contraception. 48 (1): 1–12. doi:10.1016/0010-7824(93)90060-K. PMID 8403900.
  65. ^ Mintz, Morton (January 15, 1986). "A Crime Against Women. A. H. Robins and the Dalkon Shield". Multinational Monitor. 7 (1). from the original on October 3, 2006.
  66. ^ Salem R (February 2006). "New Attention to the IUD: Expanding Women's Contraceptive Options To Meet Their Needs". Popul Rep B (7). from the original on 2007-10-13.
  67. ^ "The Cooper Companies Completes Acquisition of PARAGARD® IUD From Teva | CooperCompanies". investor.coopercos.com. from the original on 2021-11-24. Retrieved 2021-11-24.

External links

  • Association of Reproductive Health Professionals' Clinical Proceedings: New Developments in Intrauterine Contraception

December 27, 2022
copper, this, article, about, hormone, based, iuds, hormone, based, hormonal, iuds, intrauterine, device, with, copper, also, known, intrauterine, coil, copper, coil, type, intrauterine, device, which, contains, copper, used, birth, control, emergency, contrac. This article is about non hormone based IUDs For hormone based see Hormonal IUDs Intrauterine device IUD with copper also known as intrauterine coil or copper coil is a type of intrauterine device which contains copper 3 It is used for birth control and emergency contraception within five days of unprotected sex 3 It is one of the most effective forms of birth control with a one year failure rate around 0 7 4 The device is placed in the uterus and lasts up to twelve years 3 1 5 It may be used by women of all ages regardless of whether or not they have had children 6 Following removal fertility quickly returns 1 Copper IUDPhoto of a common IUD Paragard T 380A BackgroundTypeIntrauterineFirst use1970s 1 Trade namescopper T ParaGard othersAHFS Drugs comFDA Professional Drug InformationFailure rates first year Perfect use0 6 2 Typical use0 8 2 UsageDuration effect5 12 years 1 Reversibilityrapid 1 User remindersCheck thread position after each period Have removed shortly after menopause if not before Clinic reviewAnnuallyAdvantages and disadvantagesSTI protectionNoPeriodsMay be heavier and more painful 3 BenefitsUnnecessary to take any daily action Emergency contraception if inserted within 5 daysRisksSmall risk of PID in first 20 days following insertion 3 Rarely uterine perforation Side effects may be heavy menstrual periods and or rarely the device may come out 3 It is less recommended for people at high risk of sexually transmitted infections as it may increase the risk of pelvic inflammatory disease in the first three weeks after insertion 6 It is recommended for people who don t tolerate or hardly tolerate hormonal contraceptives If a woman becomes pregnant with an IUD in place removal is recommended 6 Very rarely uterine perforation may occur during insertion if not done properly 1 The copper IUD is a type of long acting reversible birth control 4 It primarily works by killing the sperm 1 The copper IUD came into medical use in the 1970s 1 It is on the World Health Organization s List of Essential Medicines 7 They are used by more than 170 million women globally 8 9 Contents 1 Medical uses 1 1 Emergency contraception 1 2 Removal and return to fertility 2 Side effects 2 1 Contraindications 3 Device description 3 1 Insertion 3 2 Types 3 3 Frameless IUDs 4 Mechanism of action 5 Usage 6 History 7 Brands 8 References 9 External linksMedical uses EditCopper IUDs are a form of long acting reversible contraception and are one of the most effective forms of birth control available 10 The type of frame and amount of copper can affect the effectiveness of different copper IUD models 11 The failure rates for different models vary between 0 1 and 2 2 after 1 year of use The T shaped models with a surface area of 380 mm of copper have the lowest failure rates The TCu 380A ParaGard has a one year failure rate of 0 8 and a cumulative 12 year failure rate of 2 2 11 Over 12 years of use the models with less surface area of copper have higher failure rates The TCu 220A has a 12 year failure rate of 5 8 The frameless GyneFix has a failure rate of less than 1 per year 12 Worldwide older IUD models with lower effectiveness rates are no longer produced 13 Unlike other forms of reversible contraception the typical use failure rate and the perfect use failure rate for the copper IUDs are the same because the IUD does not depend on user action 10 A 2008 review of the available T shaped copper IUDs recommended that the TCu 380A and the TCu 280S be used as the first choice for copper IUDs because those two models have the lowest failure rates and the longest lifespans 11 The effectiveness of the copper IUD failure rate of 0 8 is comparable to tubal sterilization failure rate of 0 5 for the first year 14 15 16 However the effects of the copper IUD are reversible which can be viewed as either an advantage or a disadvantage depending on a person s goals for contraception Emergency contraception Edit It was first discovered in 1976 that the copper IUD could be used as a form of emergency contraception EC 17 The copper IUD is the most effective form of emergency contraception It is more effective than the hormonal EC pills currently available 18 The pregnancy rate among those using the copper IUD for EC is 0 09 It can be used for EC up to five days after the act of unprotected sex and does not decrease in effectiveness during the five days 19 An additional advantage of using the copper IUD for emergency contraception is that it can be used as a form of birth control for 10 12 years after insertion 19 Removal and return to fertility Edit Removal of the copper IUD should also be performed by a qualified medical practitioner Fertility has been shown to return to previous levels quickly after removal of the device 20 One study found that the median amount of time from removal to planned pregnancy was three months for those women using the TCu 380Ag 21 Side effects EditExpulsion Sometimes the copper IUD can be spontaneously expelled from the uterus 20 Expulsion rates can range from 2 2 to 11 4 of users from the first year to the 10th year The TCu380A may have lower rates of expulsion than other models 22 Unusual vaginal discharge cramping or pain spotting between periods postcoital after sex spotting dyspareunia or the absence or lengthening of the strings can be signs of a possible expulsion 20 If expulsion occurs the woman is not protected against pregnancy If an IUD with copper is inserted after an expulsion has occurred the risk of re expulsion has been estimated in one study to be approximately one third of cases after one year 23 Magnetic resonance imaging MRI may cause dislocation of a copper IUD and it is therefore recommended to check the location of the IUD both before and after MRI 24 Transvaginal ultrasonography showing a perforated copper IUD as a hyperechoic rendered as bright line at right 3 centimeters away from the uterus at left The IUD is surrounded by a hypoechoic dark foreign body granuloma Perforation Very rarely the IUD can move through the wall of the uterus 20 Risk of perforation is mostly determined by the skill of the practitioner performing the insertion For experienced medical practitioners the risk of perforation is 1 per 1 000 insertions or less 25 It is recommended to consult an obstetrician gynecologist who has the equipment to properly insert the IUD and check that it does not move during the months following insertion Infection The insertion of a copper IUD poses a transient risk of pelvic inflammatory disease PID in the first 21 days after insertion However it is a small risk and is attributable to preexisting gonorrhea or chlamydia infection at the time of insertion and not to the IUD itself 26 27 Proper infection prevention procedures have little or no effect on the course of gonorrhea or chlamydia infections but are important in helping protect both clients and providers from infection in general 27 Such infection prevention practices include washing hands and then putting on gloves cleaning the cervix and vagina making minimal contact with non sterile surfaces using a no touch insertion technique and after the procedure washing hands again and then processing instruments 13 The device itself carries no increased risk of PID beyond the time of insertion 20 Cramping Some women can feel cramping during the IUD insertion process and immediately after as a result of cervix dilation during insertion 13 Taking NSAIDs before the procedure often reduces discomfort 28 as the use of a local anaesthetic Misoprostol 6 to 12 hrs before insertion can help with cervical dilation 28 Some women may have cramps for 1 to 2 weeks following insertion Heavier periods The copper IUD may increase the amount of blood flow during a woman s menstrual periods 13 On average menstrual blood loss may increase by 20 50 after insertion of a copper T IUD This symptom may clear up for some women after 3 to 6 months 29 Irregular bleeding and spotting For some women the copper IUD may cause spotting between periods during the first 3 to 6 months after insertion 20 Transvaginal ultrasonography visualizing an IUD with copper in the optimal location within the uterus Pregnancy Although rare if pregnancy does occur with the copper IUD in place there can be side effects The risk of ectopic pregnancy to a woman using an IUD is lower than the risk of ectopic pregnancy to a woman using no form of birth control However of pregnancies that do occur during IUD use a higher than expected percentage 3 4 are ectopic 13 If pregnancy occurs with the IUD in place there is a higher risk of miscarriage or early delivery If this occurs and the IUD strings are visible the IUD should be removed immediately by a clinician 20 Although the Dalkon Shield IUD was associated with septic abortions infections associated with miscarriage other brands of IUD are not IUDs are also not associated with birth defects 13 Some barrier contraceptives protect against STIs Hormonal contraceptives reduce the risk of developing pelvic inflammatory disease PID a serious complication of certain STIs IUDs by contrast do not protect against STIs or PID 30 20 Copper Toxicity There exists anecdotal evidence linking copper IUDs to cases of copper toxicity 31 Contraindications Edit A category 3 condition indicates conditions where the theoretical or proven risks usually outweigh the advantages of inserting a copper IUD A category 4 condition indicates conditions that represent an unacceptable health risk if a copper IUD is inserted Women should not use a copper IUD if they Category 4 Are pregnant or think they may be pregnant Have certain uterine abnormalities Have malignant gestational trophoblastic disease Have or may have an STI Have or may have had a pelvic infection within the past three months Have pelvic tuberculosis Have unexplained abnormal vaginal bleeding Have untreated cervical cancer Have uterine cancer Having a septic pregnancy or abortion Category 3 Are postpartum between 48 hours and 4 weeks increased IUD expulsion rate with delayed postpartum insertion The CDC and WHO criteria differ in their recommendation for women postpartum between 48 hours and 4 weeks The CDC does not list this as a contraindication Have AIDS unless clinically well on anti retroviral therapy Have benign gestational trophoblastic disease Have ovarian cancer Have very high individual likelihood of exposure to gonorrhea or chlamydial STIsA full list of contraindications can be found in the World Health Organization WHO Medical Eligibility Criteria for Contraceptive Use 29 and the Centers for Disease Control and Prevention CDC United States Medical Eligibility Criteria for Contraceptive Use 32 Being a nulliparous women women who have never given birth is not a contraindication for IUD use IUDs are safe and acceptable even in young nulliparous women 33 34 The same is likely the case for virgin women unless there is a microperforate hymen that obstructs any insertion of the IUD Device description EditThere are a number of models of copper IUDs available around the world Most copper devices consist of a plastic core that is wrapped in a copper wire 11 Many of the devices have a T shape similar to the hormonal IUD However there are frameless copper IUDs available as well ParaGard is the only model currently available in the United States At least three copper IUD models are available in Canada two of which are slimmer T shape versions used for women who have not had children Early copper IUDs had copper around only the vertical stem but more recent models have copper sleeves wrapped around the horizontal arms as well increasing effectiveness 35 Some newer models also contain a silver core instead of a plastic core to delay copper fragmentation as well as increase the lifespan of the device The lifespan of the devices range from 3 years to 10 years however some studies have demonstrated that the TCu 380A may be effective through 12 years 25 Its ATC code is G02BA WHO Insertion Edit The copper IUD must be inserted by a qualified medical practitioner It is recommended to consult an obstetrician gynecologist who has the equipment to properly insert the IUD and check that it does not move during the months following insertion A copper IUD can be inserted at any phase of the menstrual cycle but the optimal time is right after the menstrual period when the cervix is softest and the woman is least likely to be pregnant 36 The insertion process generally takes five minutes or less The procedure can cause cramping or be painful for some women Before placement of an IUD a medical history and physical examination by a medical professional is useful to check for any contraindications or concerns 36 It is also recommended by some clinicians that patients be tested for gonorrhea and chlamydia as these two infections increase the risk of contracting pelvic inflammatory disease shortly after insertion 26 Immediately prior to insertion the clinician will perform a pelvic exam to determine the position of the uterus 20 After the pelvic exam the vagina is held open with a speculum 36 A tenaculum is used to steady the cervix and uterus 36 Uterine sounding may be used to measure the length and direction of the cervical canal and uterus in order to decrease the risk of uterine perforation 37 The IUD is placed using a narrow tube which is inserted through the cervix into the uterus Short monofilament plastic nylon strings hang down from the uterus into the vagina The clinician will trim the threads so that they only protrude 3 to 4 cm out of the cervix and remain in the upper vagina The strings allow the patient or clinician to periodically check to ensure the IUD is still in place and to enable easy removal of the device 20 The copper IUD can be inserted at any time in a woman s menstrual cycle as long as the woman is not pregnant 25 An IUD can also be inserted immediately postpartum and post abortion as long as no infection has occurred 32 Breastfeeding is not a contraindication for the use of the copper IUD The IUD can be inserted in women with HIV or AIDS as it does not increase the risk of transmission 29 Although previously not recommended for nulliparous women women who have not had children the IUD is now recommended for most women who are past menarche their first period including adolescents 38 After the insertion is finished normal activities such as sex exercise and swimming can be performed as soon as it feels comfortable 36 Strenuous physical activity does not affect the position of the IUD 36 Types Edit A variety of IUDs Many different types of copper IUDs are currently manufactured worldwide but availability varies by country In the United States only one type of copper IUD is approved for use while in the United Kingdom over ten varieties are available 39 One company Mona Lisa N V offers generic versions of many existing IUDs 40 IUD Type Width mm Length mm Copper mm2 Life years Manufacturer Distinguishing characteristicsGyneplus Cu 380 T shaped 380 5 Dispo Cont Multiload Cu375 U shaped 20 5 41 35 375 5 MultilanMultiload Cu250 U shaped 250 3 MultilanMulti Safe 375 U shaped 19 5 42 32 5 375 5 Williams Medical SuppliesMulti Safe 375 Short Loop U shaped 375 5 Williams Medical SuppliesLoad 375 U shaped 19 5 42 32 5 375 5 7 MED IndustrieNova T 380 T shaped plain 32 43 32 380 5 BayerNeo Safe T 380 T shaped plain 32 42 32 380 5 DurbinNeo Safe T 380 Mini T shaped plain 24 44 30 380 5 DurbinUT 380 T shaped plain 32 42 32 380 5 Laboratoire CCDUT 380 Short T shaped plain 32 42 28 4 380 5 Laboratoire CCDFlexi T 300 T shaped plain 23 45 29 300 5 ProsanFlexi T 300 T shaped plain 28 45 32 300 5 Prosan Wider arms than Flexi T 300T safe CU 380A T shaped banded 31 8 42 35 8 380 8 DurbinFlexi T 380 T shaped banded 28 45 32 380 5 ProsanTT 380 Slimline T shaped banded 31 8 42 35 8 380 10 7 MED IndustrieTT 380 Mini T shaped banded 23 2 42 29 5 380 5 7 MED IndustrieParagard T shaped banded 32 46 36 380 10 Duramed Only copper IUD currently approved by the U S FDAGynefix 330 standard Frameless 2 2 42 30 330 5 or 10 Contrel Only frameless IUD brand availableGynefix 200 mini Frameless 200 5 Contrel Only frameless IUD brand availableIUB SCu300A B Spherical 3D 300 5 OCON Nitinol alloy cored frame Brand name is Ballerine SMB TCu 380A T shaped banded 32 47 36 380 10 SMB corp WHO UNFPA Prequalified IUD ManufacturerProtect TCu 380A T shaped banded 380 12 SMB corp WHO UNFPA Prequalified IUD ManufacturerProtect Multi arm Cu 375 standard U shaped 375 5 SMB corp WHO UNFPA Prequalified IUD ManufacturerProtect Multi arm Cu 375 short U shaped 375 5 SMB corp WHO UNFPA Prequalified IUD ManufacturerFrameless IUDs Edit The frameless IUD eliminates the use of the frame that gives conventional IUDs their signature T shape This change in design was made to reduce discomfort and expulsion associated with prior IUDs without a solid frame the frameless IUD should mold to the shape of the uterus It may reduce expulsion and discontinuation rates compared to framed copper IUDs 48 Gynefix is the only frameless IUD brand currently available It consists of hollow copper tubes on a polypropylene thread It is inserted through the cervix with a special applicator that sutures the thread to the fundus top of the uterus the thread is then cut with a tail hanging outside of the cervix similar to frame IUDs When this tail is pulled the suture comes undone and the device can be removed This requires more force than removing a T shaped IUD and results in comparable discomfort during removal 49 Gynefix is not approved for use in the United States Mechanism of action Edit A diagram showing a copper IUD in place in the uterus The copper IUD s primary mechanism of action is to prevent fertilization 20 50 51 52 Copper acts as a spermicide within the uterus The presence of copper increases the levels of copper ions prostaglandins and white blood cells within the uterine and tubal fluids 20 50 Although not a primary mechanism of action some experts in human reproduction believe there is sufficient evidence to suggest that IUDs with copper can disrupt implantation 53 especially when used for emergency contraception 54 55 Despite this there has been no definitive evidence that IUD users have higher rates of embryonic loss than women not using contraception 50 Therefore the copper IUD is considered to be a true contraceptive and not an abortifacient 20 Usage EditGlobally the IUD is the most widely used method of reversible birth control 56 The most recent data indicates that there are 169 million IUD users around the world This includes both the nonhormonal and hormonal IUDs IUDs are most popular in Asia where the prevalence is almost 30 In Africa and Europe the prevalence is around 20 56 As of 2009 levels of IUD use in the United States are estimated to be 5 5 14 Data in the United States does not distinguish between hormonal and non hormonal IUDs In Europe copper IUD prevalence ranges from under 5 in the United Kingdom to over 10 in Denmark in 2006 57 History EditAccording to popular legend Arab traders inserted small stones into the uteruses of their camels to prevent pregnancy during long desert treks The story was originally a tall tale to entertain delegates at a scientific conference on family planning although it was later repeated as truth it has no known historical basis 58 Precursors to IUDs were first marketed in 1902 Developed from stem pessaries where the stem held the pessary in place over the cervix the stem on these devices actually extended into the uterus itself Because they occupied both the vagina and the uterus this type of stem pessary was also known as an intrauterine device The use of intrauterine devices was associated with high rates of infection for this reason they were condemned by the medical community 59 The first intrauterine device contained entirely in the uterus was described in a German publication in 1909 although the author appears to have never marketed his product 60 In 1929 Ernst Grafenberg of Germany published a report on an IUD made of silk sutures He had found a 3 pregnancy rate among 1 100 women using his ring In 1930 Grafenberg reported a lower pregnancy rate of 1 6 among 600 women using an improved ring wrapped in silver wire Unbeknownst to Grafenberg the silver wire was contaminated with 26 copper Copper s role in increasing IUD efficacy would not be recognized until nearly 40 years later In 1934 Japanese physician Tenrei Ota developed a variation of Grafenberg s ring that contained a supportive structure in the center The addition of this central disc lowered the IUD s expulsion rate These devices still had high rates of infection and their use and development were further stifled by World War II politics contraception was forbidden in both Nazi Germany and Axis allied Japan The Allies did not learn of the work by Grafenberg and Ota until well after the war ended 60 The first plastic IUD the Margulies Coil or Margulies Spiral was introduced in 1958 This device was somewhat large causing discomfort to a large proportion of women users and had a hard plastic tail causing discomfort to their male partners The modern colloquialism coil is based on the coil shaped design of early IUDs The Lippes Loop a slightly smaller device with a monofilament tail was introduced in 1962 and gained in popularity over the Margulies device 59 The stainless steel single ring IUD was developed in the 1970s 61 and widely used in China because of low manufacturing costs The Chinese government banned production of steel IUDs in 1993 due to high failure rates up to 10 per year 13 62 Howard Tatum in the US conceived the plastic T shaped IUD in 1968 Shortly thereafter Jaime Zipper in Chile introduced the idea of adding copper to the devices to improve their contraceptive effectiveness 59 63 It was found that copper containing devices could be made in smaller sizes without compromising effectiveness resulting in fewer side effects such as pain and bleeding 13 T shaped devices had lower rates of expulsion due to their greater similarity to the shape of the uterus 60 The poorly designed Dalkon Shield plastic IUD which had a multifilament tail was manufactured by the A H Robins Company and sold by Robins in the United States for three and a half years from January 1971 through June 1974 before sales were suspended by Robins on June 28 1974 at the request of the FDA because of safety concerns following reports of 110 septic spontaneous abortions in women with the Dalkon Shield in place seven of whom had died 64 65 Robins stopped international sales of the Dalkon Shield in April 1975 66 Tatum developed many different models of the copper IUD He created the TCu220 C which had copper collars as opposed to a copper filament which prevented metal loss and increased the lifespan of the device Second generation copper T IUDs were also introduced in the 1970s These devices had higher surface areas of copper and for the first time consistently achieved effectiveness rates of greater than 99 13 The last model Tatum developed was the TCu380A the model that is most recommended today 11 In addition to T shaped IUDs there are also U shaped IUDs such as the Multiload and 7 shaped Gravigard Copper 7 with a mini version for nulliparous women introduced in the 1980s More recently a frameless IUD called Gynefix was introduced Brands EditThe ParaGard T 380A is an IUD with copper manufactured and marketed in the United States by The Cooper Companies It is the only copper containing intrauterine device approved for use in the U S three hormonal uterine devices Mirena Skyla and Liletta are also approved The ParaGard consists of a T shaped polyethylene frame wound with copper wire along with two monofilament threads to aid in the removal of the IUD The ParaGard T 380A was developed in the 1970s by the Population Council and Finishing Enterprises Inc FEI The Population Council s ParaGard new drug application NDA was approved by the U S Food and Drug Administration FDA and FEI began manufacturing it for distribution outside the United States in 1984 GynoPharma originally GynoMed began marketing it in the U S in May 1988 On August 2 1995 Ortho McNeil acquired GynoPharma and began marketing ParaGard in the U S On January 1 2004 FEI Women s Health acquired the patent from the Population Council and U S marketing rights from Ortho McNeil On November 10 2005 Duramed Pharmaceuticals a subsidiary of Barr Pharmaceuticals acquired FEI Women s Health and ParaGard On July 18 2008 it was announced that Teva Pharmaceutical Industries Ltd would acquire Barr Pharmaceuticals On November 1 2017 The Cooper Companies acquired Paragard from Teva Pharmaceutical Industries for approximately 1 1 billion 67 The original FDA approval of ParaGard in 1984 was for 4 years continuous use this was later extended to 6 years in 1989 then 8 years in 1991 then 10 years in 1994 ATC code G02BA02 WHO References Edit a b c d e f g h Goodwin T Murphy Montoro Martin N Muderspach Laila Paulson Richard Roy Subir 2010 Management of Common Problems in Obstetrics and Gynecology 5 ed John Wiley amp Sons pp 494 496 ISBN 978 1 4443 9034 6 Archived from the original on 2017 11 05 a b Trussell James 2011 Contraceptive efficacy PDF In Hatcher Robert A Trussell James Nelson Anita L Cates Willard Jr Kowal Deborah Policar Michael S eds Contraceptive technology 20th revised ed New York Ardent Media pp 779 863 ISBN 978 1 59708 004 0 ISSN 0091 9721 OCLC 781956734 Archived PDF from the original on 2017 02 15 a b c d e f World Health Organization 2009 Stuart MC Kouimtzi M Hill SR eds WHO Model Formulary 2008 World Health Organization pp 370 2 hdl 10665 44053 ISBN 9789241547659 a b Wipf Joyce 2015 Women s Health An Issue of Medical Clinics of North America Elsevier Health Sciences p 507 ISBN 978 0 323 37608 2 Archived from the original on 2017 09 24 IUD Birth Control Info About Mirena amp ParaGard IUDs www plannedparenthood org Archived from the original on 4 January 2021 Retrieved 22 March 2018 a b c British national formulary BNF 69 69 ed British Medical Association 2015 pp 557 559 ISBN 978 0 85711 156 2 World Health Organization 2019 World Health Organization model list of essential medicines 21st list 2019 Geneva World Health Organization hdl 10665 325771 WHO MVP EMP IAU 2019 06 License CC BY NC SA 3 0 IGO Speroff Leon Darney Philip D 2011 A Clinical Guide for Contraception Lippincott Williams amp Wilkins p 243 ISBN 978 1 60831 610 6 Archived from the original on 2017 11 05 Schafer Korting Monika 2010 Drug Delivery Springer Science amp Business Media p 290 ISBN 978 3 642 00477 3 Archived from the original on 2017 11 05 a b Winner B Peipert JF Zhao Q Buckel C Madden T Allsworth JE Secura GM 2012 Effectiveness of Long Acting Reversible Contraception New England Journal of Medicine 366 21 1998 2007 doi 10 1056 NEJMoa1110855 PMID 22621627 S2CID 16812353 Archived from the original on 2020 08 17 Retrieved 2019 08 18 a b c d e Kulier R O Brien P Helmerhorst FM Usher Patel M d Arcangues C 2008 Copper containing framed intra uterine devices for contraception Review Cochrane Database of Systematic Reviews 4 CD005347 doi 10 1002 14651858 CD005347 PUB3 PMID 17943851 O Brien P A Marfleet C 25 January 2005 Frameless versus classical intrauterine device for contraception The Cochrane Database of Systematic Reviews 1 CD003282 doi 10 1002 14651858 CD003282 pub2 ISSN 1469 493X PMID 15674904 a b c d e f g h i Treiman Katherine Liskin Laurie Kols Adrienne Rinehart Ward December 1995 IUDs an update PDF Population Reports Series B Intrauterine Devices Baltimore Johns Hopkins School of Public Health Population Information Program 6 1 35 PMID 8724322 Archived PDF from the original on October 29 2013 Retrieved July 9 2006 a b The Guttmacher Institute 2012 Contraceptive Use in the United States Archived from the original on 2013 10 04 Retrieved 2013 10 04 Bartz D Greenberg J A 2008 Sterilization in the United States Reviews in Obstetrics amp Gynecology 1 1 23 32 PMC 2492586 PMID 18701927 Committee On Practice Bulletins Gynecology Long Acting Reversible Contraception Work Group November 2017 Practice Bulletin No 186 PDF Obstetrics amp Gynecology 130 5 e251 e269 doi 10 1097 AOG 0000000000002400 PMID 29064972 S2CID 35477591 Archived from the original on 2021 08 28 Retrieved 2019 06 20 Lippes J Malik T Tatum HJ 1976 The postcoital copper T Adv Plan Parent 11 1 24 9 PMID 976578 Cheng L Gulmezoglu AM Piaggio G Ezcurra E Van Look PF 2008 Cheng Linan ed Interventions for emergency contraception Cochrane Database of Systematic Reviews 2 CD001324 doi 10 1002 14651858 cd001324 pub3 PMID 18425871 a b Cleland K Zhu H Goldstruck N Cheng L Trussel T 2012 The efficacy of intrauterine devices for emergency contraception a systematic review of 35 years of experience Human Reproduction 27 7 1994 2000 doi 10 1093 humrep des140 PMC 3619968 PMID 22570193 a b c d e f g h i j k l m Dean Gillian Schwarz Eleanor Bimla 2011 Intrauterine contraceptives IUCs In Hatcher Robert A Trussell James Nelson Anita L Cates Willard Jr Kowal Deborah Policar Michael S eds Contraceptive technology 20th revised ed New York Ardent Media pp 147 191 ISBN 978 1 59708 004 0 ISSN 0091 9721 OCLC 781956734 p 150 Mechanism of action Although the precise mechanism of action is not known currently available IUCs work primarily by preventing sperm from fertilizing ova 26 IUCs are not abortifacients they do not interrupt an implanted pregnancy 27 Pregnancy is prevented by a combination of the foreign body effect of the plastic or metal frame and the specific action of the medication copper or levonorgestrel that is released Exposure to a foreign body causes a sterile inflammatory reaction in the intrauterine environment that is toxic to sperm and ova and impairs implantation 28 29 The production of cytotoxic peptides and activation of enzymes lead to inhibition of sperm motility reduced sperm capacitation and survival and increased phagocytosis of sperm 30 31 The TCu380A causes an increase in copper ions enzymes prostaglandins and white blood cells macrophages in uterine and tubal fluids these impair sperm function and prevent fertilization p 162 Table 7 1 Myths and misconceptions about IUCsMyth IUCs are abortifacients Fact IUCs prevent fertilization and are true contraceptives Belhadj H et al 1986 Recovery of fertility after use of the Levonorgestrel 20 mcg d or copper T 380 Ag intrauterine device Contraception 34 3 261 267 doi 10 1016 0010 7824 86 90007 7 PMID 3098498 Kaneshiro B Aeby T 2010 Long term safety efficacy and patient acceptability of the intrauterine Copper T 380A contraceptive device International Journal of Women s Health 2 211 220 doi 10 2147 ijwh s6914 PMC 2971735 PMID 21072313 Bahamondes L Diaz J Marchi NM Petta CA Cristofoletti ML Gomez G November 1995 Performance of copper intrauterine devices when inserted after an expulsion Hum Reprod 10 11 2917 8 doi 10 1093 oxfordjournals humrep a135819 PMID 8747044 Berger Kulemann Vanessa Einspieler Henrik Hachemian Nilouparak Prayer Daniela Trattnig Siegfried Weber Michael Ba Ssalamah Ahmed 2013 Magnetic Field Interactions of Copper Containing Intrauterine Devices in 3 0 Tesla Magnetic Resonance Imaging In Vivo Study Korean Journal of Radiology 14 3 416 22 doi 10 3348 kjr 2013 14 3 416 ISSN 1229 6929 PMC 3655294 PMID 23690707 a b c WHO Scientific Group on the Mechanism of Action Safety and Efficacy of Intrauterine Devices World Health Organization 1987 Mechanism of action safety and efficacy of intrauterine devices Geneva World Health Organization hdl 10665 38182 ISBN 9241207531 World Health Organization technical report series no 753 a b Mohllajee AP Curtis KM Peterson HB 2006 Does insertion of an intrauterine device increase the risk of pelvic inflammatory disease among women with sexually transmitted infection A systematic review Contraception 73 2 143 153 doi 10 1016 j contraception 2005 08 007 PMID 16413845 Archived from the original on 2020 02 06 Retrieved 2020 09 30 a b Infection Prevention Practices for IUD Insertion and Removal Archived from the original on 2010 01 01 By the United States Agency for International Development USAID Retrieved on Feb 14 2010 a b Hutten Czapski P Goertzen J 2008 The occasional intrauterine contraceptive device insertion PDF Can J Rural Med 13 1 31 5 PMID 18208650 Archived from the original PDF on 2016 08 14 Retrieved 2009 01 22 a b c World Health Organization 2015 Medical eligibility criteria for contraceptive use 5th ed Geneva World Health Organization hdl 10665 181468 ISBN 9789241549158 Farley TM Rosenberg MJ Rowe PJ Chen JH Meirik O 1992 Intrauterine devices and pelvic inflammatory disease an international perspective Lancet 339 8796 785 8 doi 10 1016 0140 6736 92 91904 M PMID 1347812 S2CID 22226835 Grimes DA 2000 Intrauterine device and upper genital tract infection Lancet 356 9234 1013 9 doi 10 1016 S0140 6736 00 02699 4 PMID 11041414 S2CID 7760222 Athena Hidden Dangers of the Copper Iud 2021 10 13 Archived from the original on 2021 11 10 Retrieved 2021 11 11 a b Curtis KM Tepper NK Jatlaoui TC et al July 2016 U S Medical Eligibility Criteria for Contraceptive Use 2016 PDF MMWR Recomm Rep 65 3 1 103 doi 10 15585 mmwr rr6503a1 PMID 27467196 Archived PDF from the original on 2020 10 16 Retrieved 2020 02 03 Forthofer KV 2009 A clinical review of the intrauterine device as an effective method of contraception J Obstet Gynecol Neonatal Nurs 38 6 693 8 doi 10 1111 j 1552 6909 2009 01067 x PMID 19930283 Lohr Patricia A Lyus Richard Prager Sarah 2017 06 01 Use of intrauterine devices in nulliparous women Contraception 95 6 529 537 doi 10 1016 j contraception 2016 08 011 ISSN 0010 7824 PMID 27591814 Archived from the original on 2021 08 28 Retrieved 2020 05 27 Sivin I Stern J 1979 Long acting more effective Copper T IUDs a summary of U S experience 1970 1975 Studies in Family Planning 10 10 263 281 doi 10 2307 1965507 JSTOR 1965507 PMID 516121 a b c d e f Birth Control Intrauterine Devices IUDs Archived from the original on 2010 08 10 Author Omnia M Samra Last Editorial Review 5 18 2006 What To Expect During an IUD Insertion Archived from the original on 2009 04 19 By Dawn Stacey M Ed Updated April 30 2010 ACOG Committee Opinion 450 December 2009 Increasing the Use of Contraceptive Implants and Intrauterine Devices To Reduce Unintended Pregnancy American Congress of Obstetricians and Gynecologists Archived from the original on 2012 05 02 Retrieved 2012 06 28 Contraceptive coils IUDs NetDoctor co uk 2006 Archived from the original on 2006 07 17 Retrieved 2006 07 05 Mona Lisa N V Archived from the original on 2011 07 14 a manufacturer of generic IUDs Data PDF www broadwaymed co nz Archived from the original PDF on 2020 01 17 Retrieved 2020 07 10 a b c d e f g h i Guidance PDF www nhstaysideadtc scot nhs uk Archived PDF from the original on 2021 01 10 Retrieved 2020 07 10 Nova T 380 IUD Intrauterine Device www mistrymedical com Archived from the original on 2020 03 30 Retrieved 2020 03 30 Neo Safe T CU 380 Mini IUD MidMeds Ltd Archived from the original on 2020 03 30 Retrieved 2020 03 30 a b c Product information Prosan in Dutch Archived from the original on 2020 03 30 Retrieved 2020 03 29 How big is Paragard Paragard IUD Archived from the original on 2020 03 30 Retrieved 2020 03 29 SMB T 380A Copper T IUD SMB T 380A IUD Copper T IUD Device www smbcorpn com Archived from the original on 2020 07 22 Retrieved 2020 07 21 Wu S Hu J Wildemeersch D February 2000 Performance of the frameless GyneFix and the TCu380A IUDs in a 3 year multicenter randomized comparative trial in parous women Contraception 61 2 91 8 doi 10 1016 s0010 7824 00 00087 1 PMID 10802273 D Souza RE Bounds W Guillebaud J April 2003 Comparative trial of the force required for and pain of removing GyneFix versus Gyne T380S following randomised insertion J Fam Plann Reprod Health Care 29 2 29 31 doi 10 1783 147118903101197494 PMID 12681034 a b c Ortiz Maria Elena Croxatto Horacio B June 2007 Copper T intrauterine device and levonorgestrel intrauterine system biological bases of their mechanism of action Contraception 75 6 Suppl S16 S30 doi 10 1016 j contraception 2007 01 020 PMID 17531610 p S28 ConclusionsActive substances released from the IUD or IUS together with products derived from the inflammatory reaction present in the luminal fluids of the genital tract are toxic for spermatozoa and oocytes preventing the encounter of healthy gametes and the formation of viable embryos The current data do not indicate that embryos are formed in IUD users at a rate comparable to that of nonusers The common belief that the usual mechanism of action of IUDs in women is the destruction of embryos in the uterus is not supported by empirical evidence The bulk of the data indicate that interference with the reproductive process after fertilization has taken place is exceptional in the presence of a T Cu or LNG IUD and that the usual mechanism by which they prevent pregnancy in women is by preventing fertilization Speroff Leon Darney Philip D 2011 Intrauterine contraception A clinical guide for contraception 5th ed Philadelphia Lippincott Williams amp Wilkins pp 239 280 ISBN 978 1 60831 610 6 p 246 Mechanism of actionThe contraceptive action of all IUDs is mainly in the intrauterine cavity Ovulation is not affected and the IUD is not an abortifacient 58 60 It is currently believed that the mechanism of action for IUDs is the production of an intrauterine environment that is spermicidal Nonmedicated IUDs depend for contraception on the general reaction of the uterus to a foreign body It is believed that this reaction a sterile inflammatory response produces tissue injury of a minor degree but sufficient enough to be spermicidal Very few if any sperm reach the ovum in the fallopian tube In women using copper IUDs sensitive assays for human chorionic gonadotropin do not find evidence of fertilization 62 63 This is consistent with the fact that the copper IUD protects against both intrauterine and ectopic pregnancies The copper IUD releases free copper and copper salts that have both a biochemical and morphological impact on the endometrium and also produce alterations in cervical mucus and endometrial secretions An additional spermicidal effect probably takes place in the cervical mucus Jensen Jeffrey T Mishell Daniel R Jr 2012 Family planning contraception sterilization and pregnancy termination In Lentz Gretchen M Lobo Rogerio A Gershenson David M Katz Vern L eds Comprehensive gynecology Philadelphia Mosby Elsevier pp 215 272 ISBN 978 0 323 06986 1 p 259 Intrauterine devicesMechanisms of actionThe common belief that the usual mechanism of action of IUDs in women is destruction of embryos in the uterus is not supported by empirical evidence Because concern over the mechanism of action represents a barrier to acceptance of this important and highly effective method for some women and some clinicians it is important to point out that there is no evidence to suggest that the mechanism of action of IUDs is abortifacient the principal mechanism of action of the copper T 380A IUD is to interfere with sperm action preventing fertilization of the ovum ESHRE Capri Workshop Group May June 2008 Intrauterine devices and intrauterine systems Human Reproduction Update 14 3 197 208 doi 10 1093 humupd dmn003 PMID 18400840 p 199 Mechanisms of actionThus both clinical and experimental evidence suggests that IUDs can prevent and disrupt implantation It is unlikely however that this is the main IUD mode of action The best evidence indicates that in IUD users it is unusual for embryos to reach the uterus In conclusion IUDs may exert their contraceptive action at different levels Potentially they interfere with sperm function and transport within the uterus and tubes It is difficult to determine whether fertilization of the oocyte is impaired by these compromised sperm There is sufficient evidence to suggest that IUDs can prevent and disrupt implantation The extent to which this interference contributes to its contraceptive action is unknown The data are scanty and the political consequences of resolving this issue interfere with comprehensive research p 205 SummaryIUDs that release copper or levonorgestrel are extremely effective contraceptives Both copper IUDs and levonorgestrel releasing IUSs may interfere with implantation although this may not be the primary mechanism of action The devices also create barriers to sperm transport and fertilization and sensitive assays detect hCG in less than 1 of cycles indicating that significant prevention must occur before the stage of implantation Speroff Leon Darney Philip D 2011 Special uses of oral contraception emergency contraception the progestin only minipill A clinical guide for contraception 5th ed Philadelphia Lippincott Williams amp Wilkins pp 153 166 ISBN 978 1 60831 610 6 p 157 Emergency postcoital contraceptionOther methodsAnother method of emergency contraception is the insertion of a copper IUD anytime during the preovulatory phase of the menstrual cycle and up to 5 days after ovulation The failure rate in a small number of studies is very low 0 1 34 35 This method definitely prevents implantation but it is not suitable for women who are not candidates for intrauterine contraception e g multiple sexual partners or a rape victim The use of a copper IUD for emergency contraception is expensive but not if it is retained as an ongoing method of contraception Trussell James Schwarz Eleanor Bimla 2011 Emergency contraception In Hatcher Robert A Trussell James Nelson Anita L Cates Willard Jr Kowal Deborah Policar Michael S eds Contraceptive technology 20th revised ed New York Ardent Media pp 113 145 ISBN 978 1 59708 004 0 ISSN 0091 9721 OCLC 781956734 p 121 Mechanism of actionCopper releasing IUCsWhen used as a regular or emergency method of contraception copper releasing IUCs act primarily to prevent fertilization Emergency insertion of a copper IUC is significantly more effective than the use of ECPs reducing the risk of pregnancy following unprotected intercourse by more than 99 2 3 This very high level of effectiveness implies that emergency insertion of a copper IUC must prevent some pregnancies after fertilization Pregnancy begins with implantation according to medical authorities such as the US FDA the National Institutes of Health79 and the American College of Obstetricians and Gynecologists ACOG 80 a b Brigid Fitzgerald Reading Growth in World Contraceptive Use Stalling 215 Million Women s Needs Still Unmet Earth Policy Institute Archived from the original on 2012 12 03 Retrieved 2013 10 04 Sonfield Adam 2012 Popularity Disparity Attitudes About the IUD in Europe and the United States The Guttmacher Institute Archived from the original on 2010 03 07 A History of Birth Control Methods Planned Parenthood June 2002 Archived from the original on 2008 05 17 Retrieved 2007 10 14 which cites Thomas Patricia 1988 03 14 Contraceptives Medical World News 29 5 48 Bullough Vern L Bullough Bonnie 1990 Contraception A Guide to Birth Control Methods Buffalo NY Prometheus Books ISBN 9780879755898 a b c Lynch Catherine M History of the IUD Contraception Online Baylor College of Medicine Archived from the original on 2006 01 27 Retrieved 2006 07 09 a b c Evolution and Revolution The Past Present and Future of Contraception Contraception Online Baylor College of Medicine 10 6 February 2000 Archived from the original on September 26 2006 Bradley Jeff August 1998 Ultrasound Interactive Case Study Ring IUD OBGYN net Archived from the original on 2006 01 17 Retrieved 2006 07 09 Has pictures of various IUD designs Kaufman J May Jun 1993 The cost of IUD failure in China Studies in Family Planning 24 3 194 6 doi 10 2307 2939234 JSTOR 2939234 PMID 8351700 Van Kets H E 1997 C Coll Capdevila L Iglesias Cortit G Creatsas eds Importance of intrauterine contraception Contraception Today Proceedings of the 4th Congress of the European Society of Contraception The Parthenon Publishing Group pp 112 116 Archived from the original on 2006 08 10 Retrieved 2006 07 09 Has pictures of many IUD designs both historic and modern Sivin I 1993 Another look at the Dalkon Shield meta analysis underscores its problems Contraception 48 1 1 12 doi 10 1016 0010 7824 93 90060 K PMID 8403900 Mintz Morton January 15 1986 A Crime Against Women A H Robins and the Dalkon Shield Multinational Monitor 7 1 Archived from the original on October 3 2006 Salem R February 2006 New Attention to the IUD Expanding Women s Contraceptive Options To Meet Their Needs Popul Rep B 7 Archived from the original on 2007 10 13 The Cooper Companies Completes Acquisition of PARAGARD IUD From Teva CooperCompanies investor coopercos com Archived from the original on 2021 11 24 Retrieved 2021 11 24 External links EditAssociation of Reproductive Health Professionals Clinical Proceedings New Developments in Intrauterine Contraception Portal Medicine Retrieved from https en wikipedia org w index php title Copper IUD amp oldid 1126952936, wikipedia, wiki, book, books, library,

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