The diaphragm is a cervical barrier type of birth control. It is a soft latex or silicone dome with a spring molded into the rim. The spring creates a seal against the walls of the vagina.
Anyone inserting or removing a diaphragm should first wash their hands, to avoid introducing harmful bacteria into the vaginal canal.
The rim of a diaphragm is squeezed into an oval or arc shape for insertion. A water-based lubricant (usually spermicide) may be applied to the rim of the diaphragm to aid insertion. One teaspoon (5mL) of spermicide may be placed in the dome of the diaphragm before insertion, or with an applicator after insertion.
The diaphragm must be inserted sometime before sexual intercourse, and remain in the vagina for 6 to 8 hours after a man's last ejaculation. For multiple acts of intercourse, it is recommended that an additional 5mL of spermicide be inserted into the vagina (not into the dome - the seal of the diaphragm should not be broken) before each act. Upon removal, a diaphram should be cleaned with warm soapy water before storage. The diaphragm must be removed for cleaning at least once every 24 hours.
Oil-based products should not be used with latex diaphragms. Lubricants or vaginal medications that contain oil will cause the latex to rapidly degrade and greatly increases the chances of the diaphragm breaking or tearing.
Natural latex rubber will degrade over time. Depending on usage and storage conditions, a latex diaphragm should be replaced every one to three years. Silicone diaphragms may last much longer - up to ten years.
Diaphragms come in different sizes. A fitting appointment with a health care professional is necessary to determine which size a woman should wear.
A correctly fitting diaphragm will cover the cervix and rest snugly against the pubic bone. A diaphragm that is too small might fit inside the vagina without covering the cervix, or might become dislodged from the cervix during intercourse or bowel movements. It is also more likely, during intercourse, that a woman's partner will feel the anterior rim of a too-small diaphragm. A diaphragm that is too large will place pressure on the urethra, preventing the bladder from emptying completely and increasing the risk of urinary tract infection. A too-large diaphragm may also rub a sore on the vaginal wall.
Diaphragms should be re-fitted after a weight change of 4.5 kg (10 lb) or more. The traditional clinical guideline is that a decrease in weight may cause a woman to need a larger size, although the strength of this relationship has been questioned.
Diaphragms should also be re-fitted after any pregnancy of 14 weeks or longer. Full-term vaginal delivery especially will tend to increase the size diaphragm a woman needs, although the changes to the pelvic floor during pregnancy mean even women who experience second-trimester miscarriage, or deliver by C-section, should be refitted.
Vaginal tenting, an increase in the length of the vagina, occurs during arousal. This means that during intercourse, the diaphragm will not fit snugly against the pubic bone - it is carried higher up the vaginal canal by the movement of the cervix. If the diaphragm is inserted after arousal has begun, extra care must be taken to ensure the device is covering the cervix.
A woman might be fitted with a different size diaphragm depending on where she is in her menstrual cycle. It is common for a woman to wear a larger diaphragm during menstruation. It has been speculated that a woman may be fitted with a larger size diaphragm when she is near ovulation. The correct size for a woman is the largest size that she can wear comfortably throughout her cycle.
In the United States, diaphragms are available by prescription only. Many European countries do not require prescriptions.
Mechanism of contraception
The spring in the rim of the diaphragm forms a seal against the vaginal walls. The diaphragm covers the cervix, the entrance of the uterus, and blocks sperm from entering the female reproductive tract.
Traditionally, the diaphragm has been used with spermicide, and it is widely believed the spermicide significantly increases the effectiveness of the diaphragm. Insufficient studies have been conducted to determine effectiveness without spermicide.
It is widely taught that additional spermicide must be placed in the vagina if intercourse occurs more than six hours after insertion. However, there has been very little research on how long spermicide remains active within the diaphragm. One study found that spermicidal jelly and creme used in a diaphragm retained its full spermicidal activity for twelve hours after placement of the diaphragm.
It has long been recommended that the diaphragm be left in place for at least six or eight hours after intercourse. No studies have been done to determine the validity of this recommendation, however, and some medical professionals have suggested intervals of four hours or even two hours are sufficient to ensure efficacy. Interestingly, one manufacturer of contraceptive sponges only recommends leaving the sponge in place for two hours after intercourse. However, such use of the diaphragm (removal before 6 hours post-intercourse) has never been formally studied, and cannot be recommended.
It has been suggested that diaphragms be dispensed as a one-size-fits-all device, providing all women with the most common size (70mm). However, only 33% of women fitted for a diaphragm are prescribed a 70mm size, and correct sizing of the diaphragm is widely considered necessary.
The effectiveness of diaphragms, as of most forms of contraception, can be assessed two ways: method effectiveness and actual effectiveness. The method effectiveness is the proportion of couples correctly and consistently using the method who do not become pregnant. Actual effectiveness is the proportion of couples who intended that method as their sole form of birth control and do not become pregnant; it includes couples who sometimes use the method incorrectly, or sometimes not at all. Rates are generally presented for the first year of use. Most commonly the Pearl Index is used to calculate effectiveness rates, but some studies use decrement tables.
For all forms of contraception, actual effectiveness is lower than method effectiveness, due to several factors:
- 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.
For instance, someone using a diaphragm might be fitted incorrectly by a health care provider, or by mistake remove the diaphragm too soon after intercourse, or simply choose to have intercourse without placing the diaphragm.
Contraceptive Technology reports that the method failure rate of the diaphragm with spermicide is 6% per year.
The actual pregnancy rates among diaphragm users vary depending on the population being studied, with yearly rates of 10% to 39% being reported.
Unlike some other cervical barriers, the effectiveness of the diaphragm is the same for women who have given birth as for those who have not.
Diaphragms are available in diameters of 50mm to 105mm (about 2-4 inches). They are available in two different materials: latex (currently manufactured by Ortho and Reflexions) and silicone (currently manufactured by Milex and Semina). Diaphragms are also available with different types of springs in the rim.
An arcing spring folds into an arc shape when the sides are compressed. This is the strongest type of rim available in a diaphragm, and may be used by women with any level of vaginal tone. Unlike other spring types, arcing springs may be used by women with mild cystocele, rectocele, or retroversion. Arcing spring diaphragms may be easier to insert correctly than other spring types. Examples of arcing spring diaphragms are the Ortho All-Flex and the Milex Wide-Seal Arcing.
A coil spring flattens into an oval shape when the sides are compressed. This rim is not as strong as the arcing spring, and may only be used by women with average or firm vaginal tone. If an arcing spring diaphragm is uncomfortable for a woman or, during intercourse, her partner, a coil spring may prove more satisfactory. Unlike the arcing spring diaphragms, coil springs may be inserted with a device called an introducer. Examples of coil spring diaphragms are the Ortho Coil, the Milex Wide-Seal Omniflex, and the Semina diaphragm.
A flat spring is much like a coil spring, but thinner. This type of rim may only be used by women with firm vaginal tone. Flat spring diaphragms may also be inserted with an introducer for women uncomfortable using their hands. Ortho used to manufacture a flat-spring diaphragm called the Ortho White. While some providers may still have Ortho White diaphragms in stock, the only current manufacturer of a flat-spring diaphragm is Reflexions.
Variations on the traditional diaphragm are being tested. The SILCS diaphragm is made of silicone, has an arcing spring, and a finger cup is molded on one end for easy removal. The Duet disposable diaphragm is made of dipped polyurethane, pre-filled with BufferGel (BufferGel is currently in clinical trials as a spermicide and microbicide). Both the SILCS and Duet diaphragms are one-size-fits-all.
The diaphragm only has to be used during intercourse. Many women, especially those who have sex less frequently, prefer barrier contraception such as the diaphragm over methods that require some action every day.
Like all cervical barriers, diaphragms may be inserted several hours before use, allowing uninterrupted foreplay and intercourse. Most couples find that neither partner can feel the diaphragm during intercourse.
The contraceptive diaphragm may be used as a menstrual device, much like the commercial product Instead. Contact with blood will discolor the diaphragm, but will not affect its contraceptive effectiveness.
The diaphragm is less expensive than many other methods of contraception.
Protection from sexually transmitted infections
There is some evidence that the cells in the cervix are particularly susceptible to certain sexually transmitted infections (STIs). Cervical barriers such as diaphragms may offer some protection against these infections. However, research conducted to test whether the diaphragm offers protection from HIV found that women provided with both male condoms and a diaphragm experienced the same rate of HIV infection as women provided with male condoms alone.
Because pelvic inflammatory disease (PID) is caused by certain STIs, diaphragms may lower the risk of PID. Cervical barriers may also protect against human papillomavirus (HPV), the virus that causes cervical cancer, although the protection appears to be due to the spermicide used with diaphragms and not the barrier itself.
Diaphragms are also considered a good candidate as a delivery method for microbicides (preparations that, used vaginally, protect against STIs) that are currently in development.
Women (or their partners) who are allergic to latex should not use a latex diaphragm.
Diaphragms are associated with an increased risk of urinary tract infection (UTI). Urinating before inserting the diaphragm, and also after intercourse, may reduce this risk.
Toxic shock syndrome (TSS) occurs at a rate of 2.4 cases per 100,000 women using diaphragms, almost exclusively when the device is left in place longer than 24 hours.
The increase in risk of UTI may be due to the diaphragm applying pressure to the urethra, especially if the diaphragm is too large. However, the spermicide nonoxynol-9 is itself associated with increased risk of UTI, yeast infection, and bacterial vaginosis. For this reason, some advocate use of lactic acid or lemon juice based spermicides, which might have fewer side effects. Although these alternative spermicides have been shown to immobilize sperm in the laboratory, their effect on pregnancy rates in humans has never been studied.
It has also been suggested that, for women who experience side effects from nonoxynol-9, it may be acceptable to use the diaphragm without any spermcide. One study found an actual pregnancy rate of 24% per year in women using the diaphragm without spermicide; however, all women in this study were given a 60mm diaphragm rather than being fitted by a clinician. Other studies have been small and given conflicting results. The current recommendation is still for all diaphragm users to use spermicide with the device.
The idea of blocking the cervix to prevent pregnancy is thousands of years old. Various cultures have used cervix-shaped devices such as oiled paper cones or lemon halves, or have made sticky mixtures that include honey or cedar rosin to be applied to the cervical opening. However, the diaphragm - which stays in place because of the spring in its rim, rather than hooking over the cervix or being sticky - is of much more recent origin.
An important precursor to the invention of the diaphragm was the rubber vulcanization process, patented by Charles Goodyear in 1844. In the 1880s, a German gynecologist C. Haase published the first description of a rubber contraceptive device with a spring molded into the rim. Haase wrote under the pseudonym Wilhelm P.J. Mensinga, and the Mensinga diaphragm was the only brand available for many decades.
American birth control activist Margaret Sanger fled to Europe in 1914 to escape prosecution under the Comstock laws, which prohibited sending contraceptive devices, or information on contraception, through the mail. Sanger learned about the diaphragm in the Netherlands, and introduced the product to the United States when she returned in 1916. Sanger and her second husband, Noah Slee, illegally imported large quantities of the devices from Germany and the Netherlands. In 1925, Slee provided funding to Sanger's friend Herbert Simonds. Simonds used the funds to found the first diaphragm manufacturing company in the U.S., the Holland-Rantos Company.
Diaphragms played a role in overturning the federal Comstock Act. In 1932, Sanger arranged for a Japanese manufacturer to mail a package of diaphragms to a New York physician who supported Sanger's activism. U.S. customs confiscated the package, and Sanger helped file a lawsuit. In 1936, in the court case United States v. One Package of Japanese Pessaries, a federal appellate court ruled that the package could be delivered.
Although in Europe, the cervical cap was more popular than the diaphragm, the diaphragm became one of the most widely used contraceptives in the United States. In 1940, one-third of all U.S. married couples used a diaphragm for contraception. The number of women using diaphragms dropped dramatically after the 1960s introduction of the IUD and the combined oral contraceptive pill. In 1965, only 10% of U.S. married couples used a diaphragm for contraception. That number has continued to fall, and in 2002 only 0.2% of American women were using a diaphragm as their primary method of contraception.
- Cervical Barrier Advancement Society
- DiaphragmsAndCaps Yahoo! group "For women using or considering a barrier"
- Halberstam, David (1994). The Fifties. New York: Fawcett Columbine.
- McCann, Carole R. (1994). Birth Control Politics in the United States, 1916–1945. Ithaca: Cornell University Press.
- Tobin, Kathleen (2001). The American Religious Debate Over Birth Control, 1907–1937. Jefferson: McFarland & Company.
- ↑ 1.0 1.1 1.2 1.3 1.4 Johnson, Jennifer (December 2005). "Diaphragms, Caps, and Shields". Planned Parenthood. Retrieved 2006-10-15.
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Allen, Richard (January 2004). "Diaphragm Fitting". American Family Physician. American Academy of Family Physicians. 69 (1): 97–100. PMID 14727824. Retrieved 2006-10-15.
- ↑ 3.0 3.1 3.2 "Diaphragm". Feminist Women's Health Center. January 2006. Retrieved 2006-10-15.
- ↑ 4.0 4.1 4.2 "After your doctor or health care provider prescribes your Ortho diaphragm" (PDF) (Press release). Ortho-McNeil Pharmaceutical. 2004. Retrieved 2007-07-22.
- ↑ 5.0 5.1 5.2 S. Marie Harvey, Sheryl Thorburn Bird and Meredith Roberts Branch (November/December 2004). "A New Look at an Old Method: The Diaphragm". Perspectives on Sexual and Reproductive Health. 35 (6). Retrieved 2006-07-28. Check date values in:
- ↑ "Diaphragms: Management of Side Effects". PocketGuide for Family Planning Service Providers: Barriers and Spermicides. Reproductive Health Online. 2003. Retrieved 2007-09-15.
- ↑ Kugel C, Verson H (1986). "Relationship between weight change and diaphragm size change". Journal of obstetric, gynecologic, and neonatal nursing : JOGNN / NAACOG. 15 (2): 123–9. doi:10.1111/j.1552-6909.1986.tb01377.x. PMID 3517255.
Fiscella K (1982). "Relationship of weight change to required size of vaginal diaphragm". The Nurse practitioner. 7 (7): 21, 25. PMID 7121900.
- ↑ Weschler, Toni (2002). Taking Charge of Your Fertility (Revised Edition ed.). New York: HarperCollins. p. 232. ISBN 0-06-093764-5.
- ↑ 9.0 9.1 Cook L, Nanda K, Grimes D (2001). "Diaphragm versus diaphragm with spermicides for contraception". Cochrane Database Syst Rev: CD002031. PMID 11406025.
- ↑ Leitch W (1986). "Longevity of Ortho Creme and Gynol II in the contraceptive diaphragm". Contraception. 34 (4): 381–93. PMID 3780236.
- ↑ Kovacs G (1990). "Fitting a diaphragm". Aust Fam Physician. 19 (5): 713, 716. PMID 2346425.
- ↑ Bernstein G (1977). "Is effectiveness of diaphragm compromised by postcoital swimming or bathing?". JAMA. 237 (3): 270. PMID 12259737.
- ↑ "Sponges". Cervical Barrier Advancement Society. 2004. Retrieved 2006-09-17.
- ↑ Mauck C, Lai J, Schwartz J, Weiner D (2004). "Diaphragms in clinical trials: is clinician fitting necessary?". Contraception. 69 (4): 263–6. PMID 15033398.
- ↑ Hatcher, RA (2000). Contraceptive Technology (18th Edition ed.). New York: Ardent Media. ISBN 0-9664902-6-6. Unknown parameter
- ↑ Bulut A, Ortayli N, Ringheim K, Cottingham J, Farley T, Peregoudov A, Joanis C, Palmore S, Brady M, Diaz J, Ojeda G, Ramos R (2001). "Assessing the acceptability, service delivery requirements, and use-effectiveness of the diaphragm in Colombia, Philippines, and Turkey". Contraception. 63 (5): 267–75. PMID 11448468.
- ↑ Kippley, John (1996). The Art of Natural Family Planning (4th addition ed.). Cincinnati, OH: The Couple to Couple League. pp. p.146. ISBN 0-926412-13-2. Unknown parameter
|coauthors=ignored (help), which cites:
- Guttmacher Institute (1992). "Choice of Contraceptives". The Medical Letter on Drugs and Therapeutics. 34: 111–114.
- ↑ Trussell J, Strickler J, Vaughan B (1993). "Contraceptive efficacy of the diaphragm, the sponge and the cervical cap". Fam Plann Perspect. 25 (3): 100–5, 135. PMID 8354373.
- ↑ 19.0 19.1 19.2 "Diaphragms". Cervical Barrier Advancement Society. 2000. Retrieved 2006-10-18.
- ↑ 20.0 20.1 "Diaphragms". Ortho Women's Health. Ortho-McNeil Pharmaceutical, Inc. 2001. Retrieved 2006-10-18.
- ↑ "Women find arcing-spring diaphragm easier to insert, studies indicate". Contracept Technol Update. 7 (4): 41–2. 1986. PMID 12340681.
- ↑ "Contraceptive Diaphragm". Family Practice Notebook. 2000. Retrieved 2006-10-18.
- ↑ "Diaphragm". Dartmouth College Health Service. January 2004. Retrieved 2006-10-15.
- ↑ "QUESTIONS & ANSWERS: The MIRA Diaphragm Trial Results" (DOC). Cervical Barrier Advancement Society. July 2007. Retrieved 2007-07-22.
- ↑ J, Kelaghan (July 1982). "Barrier-method contraceptives and pelvic inflammatory disease". Journal of the American Medical Association. 248 (2): 184–187. Retrieved 2006-07-30. Unknown parameter
- ↑ Hildesheim A, Brinton L, Mallin K, Lehman H, Stolley P, Savitz D, Levine R (1990). "Barrier and spermicidal contraceptive methods and risk of invasive cervical cancer". Epidemiology. 1 (4): 266–72. PMID 2083303.
- ↑ Fihn S, Latham R, Roberts P, Running K, Stamm W (1985). "Association between diaphragm use and urinary tract infection". JAMA. 254 (2): 240–5. PMID 3999367.
Heaton C, Smith M (1989). "The diaphragm". Am Fam Physician. 39 (5): 231–6. PMID 2718900.
- ↑ "Drug Information: Nonoxynol-9 cream, film, foam, gel, jelly, suppository". Medical University of South Carolina. March 2006. Retrieved 2006-08-06.
- ↑ "Natural Spermicides and Femprotect". Ovusoft.com Message Boards. June 2003. Retrieved 2006-10-17.
|last1=in Authors list (help)
"Femprotect - Lactic Acid Contraceptive Gel". Woman's Natural Health Practice. Retrieved 2006-09-17.
"Contragel Green". Condomerie Webshop. Retrieved 2006-09-17.
- ↑ "Nonspermicide fit-free diaphragm trial reported". Network. 5 (3): 7. 1984. PMID 12279800.
- ↑ Ferreira A, Araújo M, Regina C, Diniz S, Faúndes A (1993). "Effectiveness of the diaphragm, used continuously, without spermicide". Contraception. 48 (1): 29–35. PMID 8403903.
- ↑ Bounds W, Guillebaud J, Dominik R, Dalberth B (1995). "The diaphragm with and without spermicide. A randomized, comparative efficacy trial". J Reprod Med. 40 (11): 764–74. PMID 8592310.
- ↑ 33.0 33.1 33.2 "A History of Birth Control Methods". Planned Parenthood. June 2002. Retrieved 2006-07-05.
- ↑ 34.0 34.1 "Evolution and Revolution: The Past, Present, and Future of Contraception". Contraception Online (Baylor College of Medicine). 10 (6). 2000. Unknown parameter
- ↑ "Biographical Note". The Margaret Sanger Papers. Sophia Smith Collection, Smith College, Northampton, Mass. 1995. Retrieved 2006-10-21.
- ↑ Chandra, A (2005). "Fertility, Family Planning, and Reproductive Health of U.S. Women: Data From the 2002 National Survey of Family Growth" (PDF). Vital Health Stat. National Center for Health Statistics. 23 (25). Retrieved 2007-05-20. Unknown parameter
|coauthors=ignored (help) See Table 56.
da:Pessar de:Pessar it:Diaframma (contraccezione) he:דיאפרגמה lt:Diafragma (kontracepcija) mk:Дијафрагма (контрацепција) nl:Pessarium no:Pessar sv:Pessar