Comparison of birth control methods
Comparison of birth control methods: Different types of birth control methods have large differences in effectiveness, actions required of users, and side effects. Different methods require different actions of users. Barrier methods, spermicides, or coitus interruptus must be used at every act of intercourse. The male condom may not be applied until the penis is erect. Barriers such as diaphragms, caps, the contraceptive sponge, and female condoms may be placed several hours before intercourse begins (note that when using the female condom the penis must be guided into place when initiating intercourse). The female condom should be removed immediately after intercourse, and before arising.[1] The other female barrier methods must be left in place for several hours after sex. Spermicides, depending on the form, may be applied several minutes to an hour before intercourse begins.
With IUDs, female or male sterilization, and hormone implant there is "little or nothing to do" post initial procedure; there is nothing to put in place before intercourse to prevent pregnancy[2] Intrauterine methods require clinic visits for installation and removal or replacement (if desired) only once every several years (5-12), depending on the device. Sterilization is a one-time, permanent procedure - after the success of surgery is verified (for vasectomy), no action is usually required of users.
Implants, such as Nexplanon, provide effective birth control for three years without any user action between insertion and removal of the implant. Insertion and removal of the Implant involves a minor surgical procedure. Oral contraceptives require some action every day. Other hormonal methods require less frequent action - weekly for the patch, twice a month for vaginal ring, monthly for combined injectable contraceptive, and every twelve weeks for the injection Depo-Provera. Fertility awareness-based methods require some action every day to monitor and record fertility signs. The lactational amenorrhea method (LAM) requires breast feeding at least every four to six hours.
User dependence
Different methods require different levels of diligence by users. Methods with little or nothing to do or remember, or that require a clinic visit less than once per year are said to be non-user dependent, forgettable or top-tier methods.[3] Intrauterine methods, implants and sterilization fall into this category.[3] For methods that are not user dependent, the actual and perfect-use failure rates are very similar.
Many hormonal methods of birth control, and LAM require a moderate level of thoughtfulness. For many hormonal methods, clinic visits must be made every three months to a year to renew the prescription. The pill must be taken every day, the patch must be reapplied weekly, or the ring must be replaced monthly. Injections are required every 12 weeks. The rules for LAM must be followed every day. Both LAM and hormonal methods provide a reduced level of protection against pregnancy if they are occasionally used incorrectly (rarely going longer than 4–6 hours between breastfeeds, a late pill or injection, or forgetting to replace a patch or ring on time). The actual failure rates for LAM and hormonal methods are somewhat higher than the perfect-use failure rates.
Higher levels of user commitment are required for other methods.[4] Barrier methods, coitus interruptus, and spermicides must be used at every act of intercourse. Fertility awareness-based methods may require daily tracking of the menstrual cycle. The actual failure rates for these methods may be much higher than the perfect-use failure rates.[5]
Side effects
Different forms of birth control have different potential side effects. Not all, or even most, users will experience side effects from a method.
The less effective the method, the greater the risk of the side-effects associated with pregnancy.
Minimal or no other side effects are possible with coitus interruptus, fertility awareness-based, and LAM. Some forms of periodic abstinence encourage examination of the cervix; insertion of the fingers into the vagina to perform this examination may cause changes in the vaginal environment. Following the rules for LAM may delay a woman's first post-partum menstruation beyond what would be expected from different breastfeeding practices.
Barrier methods have a risk of allergic reaction. Users sensitive to latex may use barriers made of less allergenic materials - polyurethane condoms, or silicone diaphragms, for example. Barrier methods are also often combined with spermicides, which have possible side effects of genital irritation, vaginal infection, and urinary tract infection.
Sterilization procedures are generally considered to have low risk of side effects, though some persons and organizations disagree.[6][7] Female sterilization is a more significant operation than vasectomy, and has greater risks; in industrialized nations, mortality is 4 per 100,000 tubal ligations, versus 0.1 per 100,000 vasectomies.[8]
After IUD insertion, users may experience irregular periods in the first 3–6 months with Mirena, and sometimes heavier periods and worse menstrual cramps with ParaGard. However, "ninety-nine percent of IUD users are pleased with them". A positive characteristic of IUDs is that fertility and the ability to become pregnant returns quickly once the IUD is removed.[2]
Because of their systemic nature, hormonal methods have the largest number of possible side effects.[9]
Sexually transmitted disease prevention
Male and female condoms provide significant protection against sexually transmitted diseases (STD) when used consistently and correctly. They also provide some protection against cervical cancer.[10][11] Condoms are often recommended as an adjunct to more effective birth control methods (such as IUD) in situations where STD protection is also desired.[12]
Other barrier methods, such as diaphragm may provide limited protection against infections in the upper genital tract. Other methods provide little or no protection against sexually transmitted diseases.
Effectiveness calculation
Failure rates may be calculated by either the Pearl Index or a life table method. A "perfect-use" rate is where any rules of the method are rigorously followed, and (if applicable) the method is used at every act of intercourse.
Actual failure rates are higher than perfect-use rates for a variety of reasons:
- mistakes on the part of those providing instructions on how to use the method
- mistakes on the part of the method's users
- conscious user non-compliance with method.
- insurance providers sometimes impede access to medications (e.g. require prescription refills on a monthly basis)[13]
For instance, someone using oral forms of hormonal birth control might be given incorrect information by a health care provider as to the frequency of intake, or for some reason not take the pill one or several days, or not go to the pharmacy on time to renew the prescription, or the pharmacy might be unwilling to provide enough pills to cover an extended absence.
Effectiveness
The table below color codes the typical-use and perfect-use failure rates, where the failure rate is measured as the expected number of pregnancies per year per 100 women using the method:
Blue under 1% lower risk Green up to 5% Yellow up to 10% Orange up to 20% Red over 20% higher risk Grey no data no data available
In the user action required column, items that are non-user dependent (require action once per year or less) also have a blue background.
Some methods may be used simultaneously for higher effectiveness rates. For example, using condoms with spermicides the estimated perfect use failure rate would be comparable to the perfect use failure rate of the implant.[3] However, mathematically combining the rates to estimate the effectiveness of combined methods can be inaccurate, as the effectiveness of each method is not necessarily independent, except in the perfect case.[14]
If a method is known or suspected to have been ineffective, such as a condom breaking, emergency contraception (ECP) may be taken up to 72 to 120 hours after sexual intercourse. Emergency contraception should be taken shortly before or as soon after intercourse as possible, as its efficacy decreases with increasing delay. Although ECP is considered an emergency measure, levonorgestrel ECP taken shortly before sex may be used as a primary method for woman who have sex only a few times a year and want a hormonal method, but don’t want to take hormones all the time.[15] Failure rate of repeated or regular use of LNG ECP is similar to rate for those using a barrier method.[16][17]
This table lists the chance of pregnancy during the first year of use.
Birth control method | Brand/common name | Typical-use failure rate (%) | Perfect-use failure rate (%) | Type | Implementation | User action required |
---|---|---|---|---|---|---|
Contraceptive implant | Implanon,[ref 1] Jadelle,[ref 2] the implant | 0.05 (1 of 2000) | 0.05 | Progestogen | Subdermal implant | 3-5 years |
Vasectomy[ref 1] | male sterilization | 0.15 (1 of 666) | 0.1 | Sterilization | Surgical procedure | Once |
Combined injectable[ref 3] | Lunelle, Cyclofem | 0.2 (1 of 500) | 0.2 | Estrogen + progestogen | Injection | Monthly |
IUD with progestogen[ref 1] | Mirena, Skyla, Liletta | 0.2 (1 of 500) | 0.2 | Intrauterine & progestogen | Intrauterine | 3-7 years |
Essure[ref 4] | female sterilization | 0.26 (1 of 384) | 0.26 | Sterilization | Surgical procedure | Once |
Tubal ligation[ref 1] | female sterilization | 0.5 (1 of 200) | 0.5 | Sterilization | Surgical procedure | Once |
IUD with copper[ref 1] | Paragard, Copper T, the coil | 0.8 (1 of 125) | 0.6 | Intrauterine & copper | Intrauterine | 3 to 12+ years |
Symptoms-based fertility awareness[ref 1][note 1] | basal body temperature, cervical mucus | 1.8[17] (1 of 55) | 0.6 | Behavioral | Observation and charting | Throughout day or daily[note 2] |
LAM for 6 months only; not applicable if menstruation resumes[ref 1][note 3] | ecological breastfeeding | 2 (1 of 50) | 0.5 | Behavioral | Breastfeeding | Every few hours |
Depo Provera[ref 1] | the shot | 3 (1 of 33) | 0.3 | Progestogen | Injection | 12 weeks |
Lea's Shield and spermicide used by nulliparous[ref 5][note 4][note 5] | 5 (1 of 20) | no data | Barrier + spermicide | Vaginal insertion | Every act of intercourse | |
FemCap and spermicide[ref 6] | cervical cap | 7.6 (estimated) (1 of 13) | no data | Barrier & spermicide | Vaginal insertion | Every act of intercourse |
Combined oral contraceptive pill[ref 1] | the Pill | 9 (1 of 11)[18] | 0.3 | Estrogen & progestogen | Oral medication | Daily |
Contraceptive patch[ref 1] | Ortho Evra, the patch | 8 (1 of 12) | 0.3 | Estrogen & progestogen | Transdermal patch | Weekly |
NuvaRing[ref 1] | the ring | 9 (1 of 11) | 0.3 | Estrogen & progestogen | Vaginal insertion | In place 3 weeks / 1 week break |
Progestogen only pill[ref 1] | POP, minipill | 9[18] | 0.3 | Progestogen | Oral medication | Daily |
Ormeloxifene[ref 7] | Saheli, Centron | 9 | 2 | SERM | Oral medication | Weekly |
Plan B One-Step® | levonorgestrel | no data | no data | emergency contraception pill | Oral medication | Every act of intercourse |
Testosterone injection[19] | Testosterone Undecanoate | 6.1 (1 of 16) | 1.1 | Testosterone | Intramuscular Injection | Every 4 weeks |
Lea's Shield and spermicide used by parous[ref 5][note 4][note 6] | 15 (1 of 6) | no data | Barrier + spermicide | Vaginal insertion | Every act of intercourse | |
Diaphragm and spermicide[ref 1] | 16 (1 of 6) | 6 | Barrier & spermicide | Vaginal insertion | Every act of intercourse | |
Prentif cervical cap and spermicide used by nulliparous[ref 8][note 5] | 16 | 9 | Barrier + spermicide | Vaginal insertion | Every act of intercourse | |
Today contraceptive sponge used by nulliparous[ref 1][note 5] | the sponge | 16 | 9 | Barrier & spermicide | Vaginal insertion | Every act of intercourse |
Male latex condom[ref 1][20] | Condom | 18 (1 of 5.5) | 2 | Barrier | Placed on erect penis | Every act of intercourse |
Coitus interruptus[ref 1] | withdrawal method, pulling out | 18 (1 of 5)[21] | 4 | Behavioral | Withdrawal | Every act of intercourse |
Female condom[ref 1] | 21 (1 of 4.7) | 5 | Barrier | Vaginal insertion | Every act of intercourse | |
Standard Days Method[ref 1] | CycleBeads, iCycleBeads | 12 | 5 | Behavioral | Calendar-based | Daily |
Knaus-Ogino method[ref 8] | the rhythm method | 25 | 9 | Behavioral | Calendar-based | Daily |
Spermicidal gel, foam, suppository, or film[ref 1] | 29 (1 of 3) | 18 | Spermicide | Vaginal insertion | Every act of intercourse | |
Today contraceptive sponge used by parous[ref 1][note 6] | the sponge | 32 (1 of 3) | 20 | Barrier & spermicide | Vaginal insertion | Every act of intercourse |
Prentif cervical cap and spermicide used by parous[ref 8][note 6] | 32 | 26 | Barrier + spermicide | Vaginal insertion | Every act of intercourse | |
None (unprotected intercourse)[ref 1] | 85 (6 of 7) | 85 | n/a | n/a | n/a | |
Birth control method | Brand/common name | Typical-use failure rate (%) | Perfect-use failure rate (%) | Type | Delivery | User action required |
Table notes
- ↑ The term fertility awareness is sometimes used interchangeably with the term natural family planning (NFP), though NFP usually refers to use of periodic abstinence in accordance with Catholic beliefs.
- ↑ Users may observe one or more of the three primary fertility signs. Basal body temperature (BBT) and cervical position are checked once per day. Cervical mucus is checked before each urination, and vaginal sensation is observed throughout the day. The observed sign or signs are recorded once per day.
- ↑ The pregnancy rate applies until the user reaches six months postpartum, or until menstruation resumes, whichever comes first. If menstruation occurs earlier than six months postpartum, the method is no longer effective. For users for whom menstruation does not occur within the six months: after six months postpartum, the method becomes less effective.
- 1 2 In the effectiveness study of Lea's Shield, 84% of participants were parous. The unadjusted pregnancy rate in the six-month study was 8.7% among spermicide users and 12.9% among non-spermicide users. No pregnancies occurred among nulliparous users of the Lea's Shield. Assuming the effectiveness ratio of nulliparous to parous users is the same for the Lea's Shield as for the Prentif cervical cap and the Today contraceptive sponge, the unadjusted six-month pregnancy rate would be 2.2% for spermicide users and 2.9% for those who used the device without spermicide.
- 1 2 3 Nulliparous refers to those who have not given birth.
- 1 2 3 Parous refers to those who have given birth.
Table references
- 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 Trussell, James (2007). "Contraceptive Efficacy". In Hatcher, Robert A.; Trussell, James; Nelson, Anita L. Contraceptive Technology (19th ed.). New York: Ardent Media. ISBN 0-9664902-0-7.
- ↑ Sivin, I.; Campodonico, I.; Kiriwat, O.; Holma, P.; Diaz, S.; Wan, L.; Biswas, A.; Viegas, O.; et al. (1998). "The performance of levonorgestrel rod and Norplant contraceptive implants: A 5 year randomized study". Human Reproduction 13 (12): 3371–8. doi:10.1093/humrep/13.12.3371. PMID 9886517.
- ↑ "FDA Approves Combined Monthly Injectable Contraceptive". The Contraception Report. Contraception Online. June 2001. Archived from the original on October 18, 2007. Retrieved 2008-04-13.
- ↑ "Essure System - P020014". United States Food and Drug Administration Center for Devices and Radiological Health.
- 1 2 Mauck, Christine; Glover, Lucinda H.; Miller, Eric; Allen, Susan; Archer, David F.; Blumenthal, Paul; Rosenzweig, Bruce A.; Dominik, Rosalie; et al. (1996). "Lea's Shield®: A study of the safety and efficacy of a new vaginal barrier contraceptive used with and without spermicide". Contraception 53 (6): 329–35. doi:10.1016/0010-7824(96)00081-9. PMID 8773419.
- ↑ "Clinician Protocol". FemCap manufacturer.
- ↑ Puri V (1988). "Results of multicentric trial of Centchroman". In Dhwan B. N., et al. (eds.). Pharmacology for Health in Asia : Proceedings of Asian Congress of Pharmacology, 15–19 January 1985, New Delhi, India. Ahmedabad: Allied Publishers.
Nityanand S (1990). "Clinical evaluation of Centchroman: a new oral contraceptive". In Puri, Chander P.; Van Look, Paul F. A. (eds.). Hormone Antagonists for Fertility Regulation. Bombay: Indian Society for the Study of Reproduction and Fertility. - 1 2 3 Trussell, James (2004). "Contraceptive Efficacy". In Hatcher, Robert A.; Trussell, James; Nelson, Anita L. Contraceptive Technology (18th ed.). New York: Ardent Media. pp. 773–845. ISBN 0-9664902-6-6.
Cost and cost-effectiveness
Family planning is among the most cost-effective of all health interventions.[22] Costs of contraceptives include method costs (including supplies, office visits, training), cost of method failure (ectopic pregnancy, spontaneous abortion, induced abortion, birth, child care expenses) and cost of side effects.[23] Contraception saves money by reducing unintended pregnancies and reducing transmission of sexually transmitted infections. By comparison, in the US, method related costs vary from nothing to about $1,000 for a year or more of reversible contraception.
During the initial five years, vasectomy is comparable in cost to the IUD. Vasectomy is much less expensive and safer than tubal ligation.
Since ecological breastfeeding and fertility awareness are behavioral they cost nothing or a small amount upfront for a thermometer and / or training. Fertility awareness based methods can be used throughout a woman's reproductive lifetime.
Not using contraceptives is the most expensive option. While in that case there are no method related costs, it has the highest failure rate, and thus the highest failure related costs. Even if one only considers medical costs relating to preconception care and birth, any method of contraception saves money compared to using no method.
The most effective and the most cost-effective methods are long-acting methods. Unfortunately these methods often have significant up-front costs, requiring the user to pay a portion of these costs prevents some from using more effective methods.[24] Contraception saves money for the public health system and insurers.
References
- ↑ Cates, Willard; Raymond, Elizabeth (2008). "Vaginal Barriers and Spermicides". In Hatcher, Robert A.; Trussell, James; Nelson, Anita L. Contraceptive Technology (19th ed.). New York: Ardent Media. ISBN 978-1-59708-001-9.
- 1 2 "Planned Parenthood IUD Birth Control - Mirena IUD - ParaGard IUD". Retrieved 2012-02-26.
- 1 2 3 Hatcher, Robert A.; Trussell, James; Nelson, Anita L., eds. (2011). Contraceptive Technology (20th ed.). New York: Ardent Media. ISBN 978-1-59708-004-0.
- ↑ Kathleen Henry Shears,
Kerry Wright Aradhya (July 2008). Helping women understand contraceptive effectiveness (PDF) (Report). Family Health International. line feed character in
|author=
at position 24 (help) - ↑ Trussell, James (2007). "Contraceptive Efficacy". In Hatcher, Robert A.; Trussell, James; Nelson, Anita L. Contraceptive Technology (19th ed.). New York: Ardent Media. ISBN 0-9664902-0-7.
- ↑ Bloomquist, Michele (May 2000). "Getting Your Tubes Tied: Is this common procedure causing uncommon problems?". MedicineNet.com. WebMD. Retrieved 2006-09-25.
- ↑ Hauber, Kevin C. "If It Works, Don't Fix It!". Retrieved 2006-09-25.
- ↑ Awsare, Ninaad S; Krishnan, Jai; Boustead, Greg B; Hanbury, Damian C; McNicholas, Thomas A (2005). "Complications of vasectomy". Annals of the Royal College of Surgeons of England 87 (6): 406–10. doi:10.1308/003588405X71054. PMC 1964127. PMID 16263006.
- ↑ Staff, Healthwise. "Advantages and Disadvantages of Hormonal Birth Control". Retrieved 2010-07-06.
- ↑ Winer, Rachel L.; Hughes, James P.; Feng, Qinghua; O'Reilly, Sandra; Kiviat, Nancy B.; Holmes, King K.; Koutsky, Laura A. (2006). "Condom Use and the Risk of Genital Human Papillomavirus Infection in Young Women". New England Journal of Medicine 354 (25): 2645–54. doi:10.1056/NEJMoa053284. PMID 16790697.
- ↑ Hogewoning, Cornelis J.A.; Bleeker, Maaike C.G.; Van Den Brule, Adriaan J.C.; Voorhorst, Feja J.; Snijders, Peter J.F.; Berkhof, Johannes; Westenend, Pieter J.; Meijer, Chris J.L.M. (2003). "Condom use promotes regression of cervical intraepithelial neoplasia and clearance of human papillomavirus: A randomized clinical trial". International Journal of Cancer 107 (5): 811–6. doi:10.1002/ijc.11474. PMID 14566832.
- ↑ Cates, Willard; Steiner, Markus J. (2002). "Dual Protection Against Unintended Pregnancy and Sexually Transmitted Infections". Sexually Transmitted Diseases 29 (3): 168–74. doi:10.1097/00007435-200203000-00007. PMID 11875378.
- ↑ Trussell, James; Wynn, L.L. (2008). "Reducing unintended pregnancy in the United States". Contraception 77 (1): 1–5. doi:10.1016/j.contraception.2007.09.001. PMID 18082659.
- ↑ Kestelman, Philip; Trussell, James (1991). "Efficacy of the Simultaneous Use of Condoms and Spermicides". Family Planning Perspectives 23 (5): 226–7, 232. doi:10.2307/2135759. JSTOR 2135759. PMID 1743276.
- ↑ Shelton, James D (2002). "Repeat emergency contraception: Facing our fears". Contraception 66 (1): 15–7. doi:10.1016/S0010-7824(02)00313-X. PMID 12169375.
- ↑ "Efficacy and side effects of immediate postcoital levonorgestrel used repeatedly for contraception". Contraception 61 (5): 303–8. 2000. doi:10.1016/S0010-7824(00)00116-5. PMID 10906500.
- 1 2 Frank-Herrmann, P.; Heil, J.; Gnoth, C.; Toledo, E.; Baur, S.; Pyper, C.; Jenetzky, E.; Strowitzki, T.; et al. (2007). "The effectiveness of a fertility awareness based method to avoid pregnancy in relation to a couple's sexual behaviour during the fertile time: A prospective longitudinal study". Human Reproduction 22 (5): 1310–9. doi:10.1093/humrep/dem003. PMID 17314078.
- 1 2 http://www.contraceptivetechnology.org/wp-content/uploads/2013/09/CTFailureTable.pdf
- ↑ "Multicenter contraceptive efficacy trial of injectable testosterone undecanoate in Chinese men". J Clin Endocrinol Metab. National Center for Biotechnology Information. 2013-08-12. doi:10.1210/jc.2008-1846. Retrieved 2013-12-11. Check date values in:
|year= / |date= mismatch
(help) - ↑ http://www.contraceptivetechnology.org/wp-content/uploads/2013/09/CTFailureTable.pdf
- ↑ http://www.guttmacher.org/pubs/journals/reprints/Contraception79-407-410.pdf
- ↑ Tsui, A. O.; McDonald-Mosley, R.; Burke, A. E. (2010). "Family Planning and the Burden of Unintended Pregnancies". Epidemiologic Reviews 32 (1): 152–74. doi:10.1093/epirev/mxq012. PMC 3115338. PMID 20570955.
- ↑ Trussell, J; Lalla, AM; Doan, QV; Reyes, E; Pinto, L; Gricar, J (2009). "Cost effectiveness of contraceptives in the United States". Contraception 79 (1): 5–14. doi:10.1016/j.contraception.2008.08.003. PMC 3638200. PMID 19041435.
- ↑ Cleland, Kelly; Peipert, Jeffrey F.; Westhoff, Carolyn; Spear, Scott; Trussell, James (2011). "Family Planning as a Cost-Saving Preventive Health Service". New England Journal of Medicine 364 (18): e37. doi:10.1056/NEJMp1104373. PMID 21506736.
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