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Friday, July 7, 2023

Estradiol

From Wikipedia, the free encyclopedia

Estradiol (E2), also spelled oestradiol, is an estrogen steroid hormone and the major female sex hormone. It is involved in the regulation of the estrous and menstrual female reproductive cycles. Estradiol is responsible for the development of female secondary sexual characteristics such as the breasts, widening of the hips and a female-associated pattern of fat distribution. It is also important in the development and maintenance of female reproductive tissues such as the mammary glands, uterus and vagina during puberty, adulthood and pregnancy. It also has important effects in many other tissues including bone, fat, skin, liver, and the brain.

Though estradiol levels in males are much lower than in females, estradiol has important roles in males as well. Apart from humans and other mammals, estradiol is also found in most vertebrates and crustaceans, insects, fish, and other animal species.

Estradiol is produced especially within the follicles of the ovaries, but also in other tissues including the testicles, the adrenal glands, fat, liver, the breasts, and the brain. Estradiol is produced in the body from cholesterol through a series of reactions and intermediates. The major pathway involves the formation of androstenedione, which is then converted by aromatase into estrone and is subsequently converted into estradiol. Alternatively, androstenedione can be converted into testosterone, which can then be converted into estradiol. Upon menopause in females, production of estrogens by the ovaries stops and estradiol levels decrease to very low levels.

In addition to its role as a natural hormone, estradiol is used as a medication, for instance in menopausal hormone therapy and feminizing hormone therapy for transgender women; for information on estradiol as a medication, see the estradiol (medication) article.

Biological function

Sexual development

The development of secondary sex characteristics in women is driven by estrogens, to be specific, estradiol. These changes are initiated at the time of puberty, most are enhanced during the reproductive years, and become less pronounced with declining estradiol support after menopause. Thus, estradiol produces breast development, and is responsible for changes in the body shape, affecting bones, joints, and fat deposition. In females, estradiol induces breast development, widening of the hips, a feminine fat distribution (with fat deposited particularly in the breasts, hips, thighs, and buttocks), and maturation of the vagina and vulva, whereas it mediates the pubertal growth spurt (indirectly via increased growth hormone secretion) and epiphyseal closure (thereby limiting final height) in both sexes.

Reproduction

Female reproductive system

In the female, estradiol acts as a growth hormone for tissue of the reproductive organs, supporting the lining of the vagina, the cervical glands, the endometrium, and the lining of the fallopian tubes. It enhances growth of the myometrium. Estradiol appears necessary to maintain oocytes in the ovary. During the menstrual cycle, estradiol produced by the growing follicles triggers, via a positive feedback system, the hypothalamic-pituitary events that lead to the luteinizing hormone surge, inducing ovulation. In the luteal phase, estradiol, in conjunction with progesterone, prepares the endometrium for implantation. During pregnancy, estradiol increases due to placental production. The effect of estradiol, together with estrone and estriol, in pregnancy is less clear. They may promote uterine blood flow, myometrial growth, stimulate breast growth and at term, promote cervical softening and expression of myometrial oxytocin receptors. In baboons, blocking of estrogen production leads to pregnancy loss, suggesting estradiol has a role in the maintenance of pregnancy. Research is investigating the role of estrogens in the process of initiation of labor. Actions of estradiol are required before the exposure of progesterone in the luteal phase.

Male reproductive system

The effect of estradiol (and estrogens in general) upon male reproduction is complex. Estradiol is produced by action of aromatase mainly in the Leydig cells of the mammalian testis, but also by some germ cells and the Sertoli cells of immature mammals. It functions (in vitro) to prevent apoptosis of male sperm cells. While some studies in the early 1990s claimed a connection between globally declining sperm counts and estrogen exposure in the environment, later studies found no such connection, nor evidence of a general decline in sperm counts. Suppression of estradiol production in a subpopulation of subfertile men may improve the semen analysis.

Males with certain sex chromosome genetic conditions, such as Klinefelter's syndrome, will have a higher level of estradiol.

Skeletal system

Estradiol has a profound effect on bone. Individuals without it (or other estrogens) will become tall and eunuchoid, as epiphyseal closure is delayed or may not take place. Bone density is also affected, resulting in early osteopenia and osteoporosis. Low levels of estradiol may also predict fractures, with post-menopausal women having the highest incidence of bone fracture. Women past menopause experience an accelerated loss of bone mass due to a relative estrogen deficiency.

Skin health

The estrogen receptor, as well as the progesterone receptor, have been detected in the skin, including in keratinocytes and fibroblasts. At menopause and thereafter, decreased levels of female sex hormones result in atrophy, thinning, and increased wrinkling of the skin and a reduction in skin elasticity, firmness, and strength. These skin changes constitute an acceleration in skin aging and are the result of decreased collagen content, irregularities in the morphology of epidermal skin cells, decreased ground substance between skin fibers, and reduced capillaries and blood flow. The skin also becomes more dry during menopause, which is due to reduced skin hydration and surface lipids (sebum production). Along with chronological aging and photoaging, estrogen deficiency in menopause is one of the three main factors that predominantly influences skin aging.

Hormone replacement therapy consisting of systemic treatment with estrogen alone or in combination with a progestogen, has well-documented and considerable beneficial effects on the skin of postmenopausal women. These benefits include increased skin collagen content, skin thickness and elasticity, and skin hydration and surface lipids. Topical estrogen has been found to have similar beneficial effects on the skin. In addition, a study has found that topical 2% progesterone cream significantly increases skin elasticity and firmness and observably decreases wrinkles in peri- and postmenopausal women. Skin hydration and surface lipids, on the other hand, did not significantly change with topical progesterone. These findings suggest that progesterone, like estrogen, also has beneficial effects on the skin, and may be independently protective against skin aging.

Nervous system

Estrogens can be produced in the brain from steroid precursors. As antioxidants, they have been found to have neuroprotective function.

The positive and negative feedback loops of the menstrual cycle involve ovarian estradiol as the link to the hypothalamic-pituitary system to regulate gonadotropins. (See Hypothalamic–pituitary–gonadal axis.)

Estrogen is considered to play a significant role in women's mental health, with links suggested between the hormone level, mood and well-being. Sudden drops or fluctuations in, or long periods of sustained low levels of estrogen may be correlated with significant mood-lowering. Clinical recovery from depression postpartum, perimenopause, and postmenopause was shown to be effective after levels of estrogen were stabilized and/or restored.

The volumes of sexually dimorphic brain structures in transgender women were found to change and approximate typical female brain structures when exposed to estrogen concomitantly with androgen deprivation over a period of months, suggesting that estrogen and/or androgens have a significant part to play in sex differentiation of the brain, both prenatally and later in life.

There is also evidence the programming of adult male sexual behavior in many vertebrates is largely dependent on estradiol produced during prenatal life and early infancy. It is not yet known whether this process plays a significant role in human sexual behavior, although evidence from other mammals tends to indicate a connection.

Estrogen has been found to increase the secretion of oxytocin and to increase the expression of its receptor, the oxytocin receptor, in the brain. In women, a single dose of estradiol has been found to be sufficient to increase circulating oxytocin concentrations.

Gynecological cancers

Estradiol has been tied to the development and progression of cancers such as breast cancer, ovarian cancer and endometrial cancer. Estradiol affects target tissues mainly by interacting with two nuclear receptors called estrogen receptor α (ERα) and estrogen receptor β (ERβ). One of the functions of these estrogen receptors is the modulation of gene expression. Once estradiol binds to the ERs, the receptor complexes then bind to specific DNA sequences, possibly causing damage to the DNA and an increase in cell division and DNA replication. Eukaryotic cells respond to damaged DNA by stimulating or impairing G1, S, or G2 phases of the cell cycle to initiate DNA repair. As a result, cellular transformation and cancer cell proliferation occurs.

Cardiovascular system

Estrogen affects certain blood vessels. Improvement in arterial blood flow has been demonstrated in coronary arteries. 17-beta-estradiol (E2) is considered the most potent estrogen found in humans. E2 influences vascular function, apoptosis, and damage during cardiac ischemia and reperfusion. E2 can protect the heart and individual cardiac myocytes from injuries related to ischemia. After a heart attack or long periods of hypertension, E2 inhibits the adverse effects of pathologic remodeling of the heart.

During pregnancy, high levels of estrogens, namely estradiol, increase coagulation and the risk of venous thromboembolism.

Other functions

Estradiol has complex effects on the liver. It affects the production of multiple proteins, including lipoproteins, binding proteins, and proteins responsible for blood clotting. In high amounts, estradiol can lead to cholestasis, for instance cholestasis of pregnancy.

Certain gynecological conditions are dependent on estrogen, such as endometriosis, leiomyomata uteri, and uterine bleeding.

Biological activity

Estradiol acts primarily as an agonist of the estrogen receptor (ER), a nuclear steroid hormone receptor. There are two subtypes of the ER, ERα and ERβ, and estradiol potently binds to and activates both of these receptors. The result of ER activation is a modulation of gene transcription and expression in ER-expressing cells, which is the predominant mechanism by which estradiol mediates its biological effects in the body. Estradiol also acts as an agonist of membrane estrogen receptors (mERs), such as GPER (GPR30), a recently discovered non-nuclear receptor for estradiol, via which it can mediate a variety of rapid, non-genomic effects. Unlike the case of the ER, GPER appears to be selective for estradiol, and shows very low affinities for other endogenous estrogens, such as estrone and estriol. Additional mERs besides GPER include ER-X, ERx, and Gq-mER.

ERα/ERβ are in inactive state trapped in multimolecular chaperone complexes organized around the heat shock protein 90 (HSP90), containing p23 protein, and immunophilin, and located in majority in cytoplasm and partially in nucleus. In the E2 classical pathway or estrogen classical pathway, estradiol enters the cytoplasm, where it interacts with ERs. Once bound E2, ERs dissociate from the molecular chaperone complexes and become competent to dimerize, migrate to nucleus, and to bind to specific DNA sequences (estrogen response element, ERE), allowing for gene transcription which can take place over hours and days.

Given by subcutaneous injection in mice, estradiol is about 10-fold more potent than estrone and about 100-fold more potent than estriol. As such, estradiol is the main estrogen in the body, although the roles of estrone and estriol as estrogens are said not to be negligible.

Biochemistry

Human steroidogenesis, showing estradiol at bottom right.

Biosynthesis

Estradiol, like other steroid hormones, is derived from cholesterol. After side chain cleavage and using the Δ5 or the Δ4- pathway, androstenedione is the key intermediary. A portion of the androstenedione is converted to testosterone, which in turn undergoes conversion to estradiol by aromatase. In an alternative pathway, androstenedione is aromatized to estrone, which is subsequently converted to estradiol via 17β-hydroxysteroid dehydrogenase (17β-HSD).

During the reproductive years, most estradiol in women is produced by the granulosa cells of the ovaries by the aromatization of androstenedione (produced in the theca folliculi cells) to estrone, followed by conversion of estrone to estradiol by 17β-HSD. Smaller amounts of estradiol are also produced by the adrenal cortex, and, in men, by the testes.

Estradiol is not produced in the gonads only; in particular, fat cells produce active precursors to estradiol, and will continue to do so even after menopause. Estradiol is also produced in the brain and in arterial walls.

In men, approximately 15 to 25% of circulating estradiol is produced in the testicles. The rest is synthesized via peripheral aromatization of testosterone into estradiol and of androstenedione into estrone (which is then transformed into estradiol via peripheral 17β-HSD). This peripheral aromatization occurs predominantly in adipose tissue, but also occurs in other tissues such as bone, liver, and the brain. Approximately 40 to 50 µg of estradiol is produced per day in men.

Distribution

In plasma, estradiol is largely bound to SHBG, and also to albumin. Only a fraction of 2.21% (± 0.04%) is free and biologically active, the percentage remaining constant throughout the menstrual cycle.

Metabolism

Metabolic pathways of estradiol in humans
Description: The metabolic pathways involved in the metabolism of estradiol and other natural estrogens (e.g., estrone, estriol) in humans. In addition to the metabolic transformations shown in the diagram, conjugation (e.g., sulfation and glucuronidation) occurs in the case of estradiol and metabolites of estradiol that have one or more available hydroxyl (–OH) groups

Inactivation of estradiol includes conversion to less-active estrogens, such as estrone and estriol. Estriol is the major urinary metabolite. Estradiol is conjugated in the liver to form estrogen conjugates like estradiol sulfate, estradiol glucuronide and, as such, excreted via the kidneys. Some of the water-soluble conjugates are excreted via the bile duct, and partly reabsorbed after hydrolysis from the intestinal tract. This enterohepatic circulation contributes to maintaining estradiol levels.

Estradiol is also metabolized via hydroxylation into catechol estrogens. In the liver, it is non-specifically metabolized by CYP1A2, CYP3A4, and CYP2C9 via 2-hydroxylation into 2-hydroxyestradiol, and by CYP2C9, CYP2C19, and CYP2C8 via 17β-hydroxy dehydrogenation into estrone, with various other cytochrome P450 (CYP) enzymes and metabolic transformations also being involved.

Estradiol is additionally conjugated with an ester into lipoidal estradiol forms like estradiol palmitate and estradiol stearate to a certain extent; these esters are stored in adipose tissue and may act as a very long-lasting reservoir of estradiol.

Excretion

Estradiol is excreted in the form of glucuronide and sulfate estrogen conjugates in urine. Following an intravenous injection of labeled estradiol in women, almost 90% is excreted in urine and feces within 4 to 5 days. Enterohepatic recirculation causes a delay in excretion of estradiol.

Levels

Estradiol levels across the menstrual cycle in 36 normally cycling, ovulatory women, based on 956 specimens. The horizontal dashed lines are the mean integrated levels for each curve. The vertical dashed line in the center is mid-cycle.

Levels of estradiol in premenopausal women are highly variable throughout the menstrual cycle and reference ranges widely vary from source to source. Estradiol levels are minimal and according to most laboratories range from 20 to 80 pg/mL during the early to mid follicular phase (or the first week of the menstrual cycle, also known as menses). Levels of estradiol gradually increase during this time and through the mid to late follicular phase (or the second week of the menstrual cycle) until the pre-ovulatory phase. At the time of pre-ovulation (a period of about 24 to 48 hours), estradiol levels briefly surge and reach their highest concentrations of any other time during the menstrual cycle. Circulating levels are typically between 130 and 200 pg/mL at this time, but in some women may be as high as 300 to 400 pg/mL, and the upper limit of the reference range of some laboratories are even greater (for instance, 750 pg/mL). Following ovulation (or mid-cycle) and during the latter half of the menstrual cycle or the luteal phase, estradiol levels plateau and fluctuate between around 100 and 150 pg/mL during the early and mid luteal phase, and at the time of the late luteal phase, or a few days before menstruation, reach a low of around 40 pg/mL. The mean integrated levels of estradiol during a full menstrual cycle have variously been reported by different sources as 80, 120, and 150 pg/mL. Although contradictory reports exist, one study found mean integrated estradiol levels of 150 pg/mL in younger women whereas mean integrated levels ranged from 50 to 120 pg/mL in older women.

During the reproductive years of the human female, levels of estradiol are somewhat higher than that of estrone, except during the early follicular phase of the menstrual cycle; thus, estradiol may be considered the predominant estrogen during human female reproductive years in terms of absolute serum levels and estrogenic activity. During pregnancy, estriol becomes the predominant circulating estrogen, and this is the only time at which estetrol occurs in the body, while during menopause, estrone predominates (both based on serum levels). The estradiol produced by male humans, from testosterone, is present at serum levels roughly comparable to those of postmenopausal women (14–55 versus <35 pg/mL, respectively). It has also been reported that if concentrations of estradiol in a 70-year-old man are compared to those of a 70-year-old woman, levels are approximately 2- to 4-fold higher in the man.

Group E2 (prod) E2 (levels) E1 (levels) Ratio
Pubertal girlsa
  Tanner stage I (childhood)
  Tanner stage II (ages 8–12)
  Tanner stage III (ages 10–13)
  Tanner stage IV (ages 11–14)
  Tanner stage V (ages 12–15)
    Follicular (days 1–14)
    Luteal (days 15–28)
 
?
?
?
?
 
?
?
 
9 (<9–20) pg/mL
15 (<9–30) pg/mL
27 (<9–60) pg/mL
55 (16–85) pg/mL
 
50 (30–100) pg/mL
130 (70–300) pg/mL
 
13 (<9–23) pg/mL
18 (10–37) pg/mL
26 (17–58) pg/mL
36 (23–69) pg/mL
 
44 (30–89) pg/mL
75 (39–160) pg/mL
 
?
?
?
?
 
?
?
Prepubertal boys ? 2–8 pg/mL ? ?
Premenopausal women
  Early follicular phase (days 1–4)
  Mid follicular phase (days 5–9)
  Late follicular phase (days 10–14)
  Luteal phase (days 15–28)
  Oral contraceptive (anovulatory)
 
30–100 µg/day
100–160 µg/day
320–640 µg/day
300 µg/day
?
 
40–60 pg/mL
60–100 pg/mL
200–400 pg/mL
190 pg/mL
12–50 pg/mL
 
40–60 pg/mL
?
170–200 pg/mL
100–150 pg/mL
?
 
0.5–1
?
1–2
1.5
?
Postmenopausal women 18 µg/day 5–20 pg/mL 30–70 pg/mL 0.3–0.8
Pregnant women
  First trimester (weeks 1–12)
  Second trimester (weeks 13–26)
  Third trimester (weeks 27–40)
 
?
?
?
 
1,000–5,000 pg/mL
5,000–15,000 pg/mL
10,000–40,000 pg/mL
 
?
?
?
 
?
?
?
Mena 20–60 µg/day 27 (20–55) pg/mL 20–90 pg/mL 0.4–0.6
Footnotes: a = Format is "mean value (range)" or just "range".

Measurement

In women, serum estradiol is measured in a clinical laboratory and reflects primarily the activity of the ovaries. The Estradiol blood test measures the amount of estradiol in the blood. It is used to check the function of the ovaries, placenta, adrenal glands. This can detect baseline estrogen in women with amenorrhea or menstrual dysfunction, and to detect the state of hypoestrogenicity and menopause. Furthermore, estrogen monitoring during fertility therapy assesses follicular growth and is useful in monitoring the treatment. Estrogen-producing tumors will demonstrate persistent high levels of estradiol and other estrogens. In precocious puberty, estradiol levels are inappropriately increased.

Ranges

Individual laboratory results should always be interpreted using the ranges provided by the laboratory that performed the test.

Reference ranges for serum estradiol
Patient type Lower limit Upper limit Unit
Adult male 50 200 pmol/L
14 55 pg/mL
Adult female (follicular
phase
, day 5)
70
95% PI (standard)
500
95% PI
pmol/L
110
90% PI (used
in diagram)
220
90% PI
19 (95% PI) 140 (95% PI) pg/mL
30 (90% PI) 60 (90% PI)
Adult female (preovulatory
peak)
400 1500 pmol/L
110 410 pg/mL
Adult female
(luteal phase)
70 600 pmol/L
19 160 pg/mL
Adult female – free
(not protein bound)
0.5 9 pg/mL
1.7 33 pmol/L
Post-menopausal female N/A < 130 pmol/L
N/A < 35 pg/mL
Reference ranges for the blood content of estradiol during the menstrual cycle

In the normal menstrual cycle, estradiol levels measure typically <50 pg/mL at menstruation, rise with follicular development (peak: 200 pg/mL), drop briefly at ovulation, and rise again during the luteal phase for a second peak. At the end of the luteal phase, estradiol levels drop to their menstrual levels unless there is a pregnancy.

During pregnancy, estrogen levels, including estradiol, rise steadily toward term. The source of these estrogens is the placenta, which aromatizes prohormones produced in the fetal adrenal gland.

Medical use

Estradiol is used as a medication, primarily in hormone therapy for menopausal symptoms as well as feminizing hormone therapy for trans individuals.

Chemistry

Estradiol is an estrane steroid. It is also known as 17β-estradiol (to distinguish it from 17α-estradiol) or as estra-1,3,5(10)-triene-3,17β-diol. It has two hydroxyl groups, one at the C3 position and the other at the 17β position, as well as three double bonds in the A ring. Due to its two hydroxyl groups, estradiol is often abbreviated as E2. The structurally related estrogens, estrone (E1), estriol (E3), and estetrol (E4) have one, three, and four hydroxyl groups, respectively.

Neuropsychopharmacology

In a randomized, double-blind, placebo-controlled study, estradiol was shown to have gender-specific effects on fairness sensitivity. Overall, when the division of a given amount of money was framed as either fair or unfair in a modified version of the ultimatum game, estradiol increased the acceptance rate of fair-framed proposals among men and decreased it among women. However, among the placebo-group "the mere belief of receiving estradiol treatment significantly increased the acceptance of unfair-framed offers in both sexes", indicating that so-called "environmental" factors played a role in organising the responses towards these presentations of the ultimatum game.

History

The discovery of estrogen is usually credited to the American scientists Edgar Allen and Edward A. Doisy. In 1923, they observed that injection of fluid from porcine ovarian follicles produced pubertal- and estrus-type changes (including vaginal, uterine, and mammary gland changes and sexual receptivity) in sexually immature, ovariectomized mice and rats. These findings demonstrated the existence of a hormone which is produced by the ovaries and is involved in sexual maturation and reproduction. At the time of its discovery, Allen and Doisy did not name the hormone, and simply referred to it as an "ovarian hormone" or "follicular hormone"; others referred to it variously as feminin, folliculin, menformon, thelykinin, and emmenin. In 1926, Parkes and Bellerby coined the term estrin to describe the hormone on the basis of it inducing estrus in animals. Estrone was isolated and purified independently by Allen and Doisy and German scientist Adolf Butenandt in 1929, and estriol was isolated and purified by Marrian in 1930; they were the first estrogens to be identified.

Estradiol, the most potent of the three major estrogens, was the last of the three to be identified. It was discovered by Schwenk and Hildebrant in 1933, who synthesized it via reduction of estrone. Estradiol was subsequently isolated and purified from sow ovaries by Doisy in 1935, with its chemical structure determined simultaneously, and was referred to variously as dihydrotheelin, dihydrofolliculin, dihydrofollicular hormone, and dihydroxyestrin. In 1935, the name estradiol and the term estrogen were formally established by the Sex Hormone Committee of the Health Organization of the League of Nations; this followed the names estrone (which was initially called theelin, progynon, folliculin, and ketohydroxyestrin) and estriol (initially called theelol and trihydroxyestrin) having been established in 1932 at the first meeting of the International Conference on the Standardization of Sex Hormones in London. Following its discovery, a partial synthesis of estradiol from cholesterol was developed by Inhoffen and Hohlweg in 1940, and a total synthesis was developed by Anner and Miescher in 1948.

Society and culture

Etymology

The name estradiol derives from estra-, Gk. οἶστρος (oistros, literally meaning "verve or inspiration"), which refers to the estrane steroid ring system, and -diol, a chemical term and suffix indicating that the compound is a type of alcohol bearing two hydroxyl groups.

Prison sexuality

From Wikipedia, the free encyclopedia

Prison sexuality (or prison sex or penitentiary sex) consists of sexual relationships between prisoners or between a prisoner and a prison employee or other persons to whom prisoners have access. Since prisons are usually separated by sex, most sexual activity is with a same-sex partner. Exceptions to this include sex with spouses/partners during conjugal visits and sex with a prison employee of the opposite sex.

Prison sexuality is an issue that has been commonly misunderstood and misrepresented due not only to the taboo nature of the subject, but also because of a lack of research. The most common kind of sexual activity in prisons is consensual sex.

A 2011 study developed a taxonomy for different types of sexual behaviors in women's prison. They include suppression, in which an inmate chooses celibacy (i.e., refrains from sexual activity while in prison, most commonly to stay loyal to a partner who is outside of prison); autoeroticism (i.e., masturbation); true homosexuality (consensual sex between inmates who were already homosexual before entering prison); situational homosexuality (consensual sex between inmates who have homosexual experiences for the first time in prison); and sexual violence (which can be between inmates or between a staff member and an inmate). Sexual violence includes coercion, manipulation, and compliance. Manipulation is performed for power or some kind of reward. Compliance occurs to obtain safety or protection or out of fear.

In general, prisoner-prisoner relationships are same-sex relationships because prisons are generally segregated by sex. An example of an exception to this general rule took place in Canada at the Sainte-Anne-des-Plaines prison. There, two convicted killers of the opposite sex, Karla Homolka and Jean-Paul Gerbet, were able to engage in sexual activity through a chain-link fence, which was the only barrier separating men and women. This prison is Canada's highest security prison in which inmates of either sex may be sent if considered especially dangerous.

Prisoner-prisoner relationships

Female prisoners

The first research done on prison sexuality was on women in 1913. In 1931, researcher Selling found that different levels of relationships exist between females in prison (and female juvenile facilities), such as "friendship, pseudofamily membership, pseudohomosexuality, and overt homosexuality". The forming of pseudofamilies have been more common in women prisons. These are families women create in prison that provide them support, bonds and relationships, like a traditional family would. Typically, only the main couple in the family has sexual relations. The women take on masculine and feminine roles to mimic a traditional heterosexual family. "Mammy" or "mumsy" is given to an older, maternal woman in the family, and "Popsy" is given to a dominant woman, who is least feminine. These "parents" are typically older and are seen as mentors to younger inmates. Roles within pseudofamilies are flexible and can change with time.

In 1965, Ward and Kassebaum conducted research in Frontera through questionnaires and concluded from staff and inmates that "between 30% and 75% of the inmates had sexual affairs while in prison", 50% of those engaging in same-sex sexual activity. Sexual intercourse between these women were typically for fun and enjoyment, sometimes transitioning into a serious relationship. Furthermore, these relationships occurred between women who were housed together or between women of different races; same-race relations are not as typical. After a survey taken in a study conducted by Propper in 1976, his results for reasons for homosexual relationships include "game playing, economic manipulation, loneliness, the need for companionship, and genuine affection". Researcher Otis studied what was seen as "unnatural relationships" between interracial women. In 2014, consensual sexual relationships between women in UK prisons were described as "commonplace" by The Daily Telegraph.

In homosexual relationships, sexual types for women include: "butch" or “daddy" refers to the masculine female who is dominant. The "femme" or "mommy" is the submissive one. A "trick" is a girl who allows herself to be used by others. A "commissary hustler" is manipulative. "Cherries" have never had lesbian experiences and a "square" will not take part in homosexual acts.

Male prisoners

Prison sexuality for males has been studied since the 1930s. Research is lacking on consensual sex because most research done has focused on coercion. Sexual abuse is more common among male inmates. Men sexually abuse others to establish dominance, power and to maintain their masculinity. Men who are physically weaker will offer consensual sex in exchange for protection, security, goods or support.

Heterosexual men in prison view their homosexual acts as being "situation specific" and may not consider themselves bisexual. These men often describe how they imagine being with a woman while taking part in sexual activity with a male inmate. During masturbation, they picture past sexual experiences with women. They take part in homosexual activity due to having no “heterosexual outlets”.

A dominant sexual partner in prison is called "daddy" while their submissive partner is called "kid" or “girl”. The dominant partner has their mate take on the feminine role in order to feel more masculine and powerful.

Jonathan Schwartz's research in the documentary Turned Out: Sexual Assault Behind Bars found that "in male prison populations where entitlement to (anal and oral) penetration (or perhaps possessing a 'wife') is the ultimate symbol of domination – [it is] part of the symbolic economy of an all-male, hyper-masculinist environment."

Mixed-sex prisons

While most prisons exclusively house inmates of either gender, there are some facilities that house both men and women. Within such institutions there are cases where inmates engage in heterosexual sex with prisoners of the opposite gender. Additionally, there have even been instances in which married couples are held in the same location. However such sexual encounters are not very common and can be difficult for the inmates to arrange with each other as a result of the men and women being separated from each other and the fact that the prisoners are closely monitored by the prison officers.

This specific kind of interaction between inmates is gaining more attention, due to the benefits it seems to provide for inmates. For instance, inmates in these relationships experience a lower level of romantic loneliness, a higher level of sexual satisfaction, as well as increased quality of life compared to inmates with a spouse/romantic partner outside of the jail or inmates with no partner whatsoever. This suggests that inmates in the same prison will benefit from developing relationships with other inmates. In the rare instances where inmates are permitted contact with incarcerated members of the opposite sex, intimate relationships are shown to be beneficial for the inmates’ interpersonal and psychological state.

Prisoners and other relationships

Around the world many prisons offer conjugal visits to the partners of inmates, in which prisoners are permitted to spend time in private rooms, with their partners in a prison-facilitated environment like private apartment-style rooms within the prison itself or the inmates are taken to meet their spouses in secure locations such as trailers or cabins. During conjugal visits the inmate and their partners may even be provided with supplies such as soap, towels, bed linens, condoms, lubricant, and even G-rated (in the United States) DVDs. Conjugal visits are restricted to only inmates with good behavior, and in some jurisdictions this is only permitted for married couples, while others allow domestic partners.

Inmates might also engage in heterosexual relationships during work release programs, in which a prisoner is sufficiently monitored by a supervisor or trusted enough to temporarily leave the prison to work at a place of employment before returning to the prison. During the working shift, inmates have taken advantage of the temporary freedom to engage in sex with either their work release supervisor, a co-worker from their place of employment, or anyone else they can manage to contact. However such relations are not allowed and thus any inmate caught engaging in such activity may face punishments such as being excluded from the work release programs.

In prisons with high enough levels of corruption, inmates with considerable amounts of wealth and influence, such as crime bosses and/or drug lords, have been known to use their money to bribe the prison staff, so as to allow outsiders, such as prostitutes or even intimate partners, to enter into the prisons for sexual activity with the inmates. However prison staff that engage in such misconduct risk being temporarily suspended or fired if their corruption is exposed, along with possible prosecution.

Relations also occur between correctional staff and inmates. Due to the power dynamic of staff over the inmates, tight quarters and restriction of sexual relations, prisoners are in a vulnerable position toward staff members. Personnel of the staff include: security staff, teachers, case managers, counselors, medical workers, work release supervisors, contractors and religious workers; additionally there have also been cases of inmates having relations with lawyers visiting clients in the prison. At times there are even cases of women becoming pregnant as a result of sexual relations between inmates and staff. Although not allowed, many times this would be the only opportunity for inmates to engage in heterosexual relations. In some jurisdictions, sexual relations by prison staff with inmates are illegal regardless of consent.

Additionally prison inmates with contraband such as mobile web have been known to use their smartphones and/or tablet computers to either watch pornography or to engage in sexting, phone sex or cybersex with people outside of the prisons.

A government report in the UK in 2014 found that female prisoners in England and Wales have been coerced into sex with staff in exchange for alcohol and cigarettes. Some sexbot manufacturers have argued that introducing sexbots into prisons will have the positive effect of reducing prison rapes and reducing sexual tension.

Prison rape

Prison is a community sexologically characterized by overt masturbation and by homosexual couplings that may be consensual, coercive or assaultive (rape). Prison rape is defined differently from state to state but is understood to be non-consensual or unwanted sexual contact between individuals. Prison rape can be between inmates or inmates and staff of the prison. This is a form of sexuality because these individuals use their capacity for sexual feelings to intimidate or control their victims which causes sociological properties of the prison to change.

According to research done in 1980, prisoners have two overarching reasons to rape a victim. One is to satisfy their overt sexual- and need-based desires that self-pleasure cannot. The second is to use the assault as a sort of intimidation factor to grant the rapist power in a place where these actions generally go unpunished. In prison, the term "booty bandit" is used to describe an inmate who would rape another (in the case of males). There seems to be no correlation shown that men who are abusive to their partners outside of prison are more likely to be rapists in prisons. Such men are not known to have a history of sexual assault before prison.

According to the 2001 Human Rights Watch report "No Escape: Male Rape in U.S. Prisons", sexual slavery is frequently posed as a consensual sexual relationship inside prisons. Rape victims are often intimidated into feigning consent to sexual activity, to the point of becoming "slaves" and the figurative property of their rapists.

Prospective slaveholders will sometimes use intimidating innuendo, as opposed to overt threats of violence, which the prospective slave unwillingly accepts, thereby disguising the coercive nature of the sexual activity from even the enslaver. Victims might not even see themselves as being coerced if the abuse is negotiated as repayment for a debt. The trauma of the sexual violations often affects men as it threatens their sense of masculinity, gender identity and sexual orientation. The HRW report contains an account in which an inmate is feeling this way. It concludes that in prison, consent is inherently illusory.

In 2003, for the first time ever, the United States government moved to protect prisoners from sexual violence. With pressure from human rights groups, the U.S. House of Representatives and Senate unanimously passed the Prison Rape Elimination Act (PREA) to protect prisoners from sexual violence.

In news media

The printed news media in the historical era emphasized the issue of prison rape by establishing a social problem and blaming the U.S. correction system. According to major newspapers, the U.S. correction system not only involved the correctional personnel but the inmates who engaged in homosexual behavior. Later in the contemporary era, print news media shifted the United States' focus on prison rape from a framed-problem perspective to a political rights and civil rights issue within the U.S. correction system.

The issue of prison rape gained national attention in the press, thus creating an open door for new perspectives on how to understand and eliminate the issue. News media contributed to the U.S. government's initiative to intervene in the matter.

Discrimination in prison sexuality

Gender discrimination

Studies conducted by Cindy Struckman-Johnson conclude that 22 percent of male inmates have either been coerced or persuaded into sexual acts in prison. Sexual assault in prison is not exclusive to male prisons. Female prisoners experience sexual assault in a different way. By 1998, there were over 138,000 women in the prison system. While this is the case, the majority of prison guards are male. There is evidence that women prisoners are coerced into sex by prison staff in exchange for "drugs, favors, and promises of more lenient treatment." Female inmates also report that guards and staff watch them shower and undress, as well improperly touch them during pat-downs.

LGBTQ+ discrimination

Members of the LGBTQ+ community are incarcerated at higher rates than heterosexual people in America. There is a significant demographic of LGBTQ+ individuals within the criminal justice system. The Bureau of Justice Statistics, a branch of the Department of Justice, reports that gay and lesbian men and women are ten times more likely to be sexually assaulted in prison by another inmate. Additionally, they are 2.6 times more likely than heterosexual inmates to be sexually assaulted by prison staff.

Transgender and intersex Inmates

Transgender inmates in particular face tougher discrimination than any other prison demographic. Not only are they required to be imprisoned with other members of their designated biological sex, but the lack of facilities for transgender inmates is discriminatory in nature. The concept of differentiating the sexes in prisons is called sex segregation. The separate men's and women's prisons bring forward issues for transgender and intersex people who are incarcerated.

While it is known that discrimination exists against transgender and intersex prisoners, there is little data on the issue thus far. This is due to the fact that jails and prisons are segregated by binary sex. There are studies that demonstrate that compared to the United Kingdom, transgender inmates in the United States are much less likely to be housed with other members of the gender they identify with.

The treatment of transgender inmates also varies across different jurisdictions in the United States. The most inclusive states allow for inmates to be segregated based on their gender identity on their Department of Motor Vehicle identification card. Others states such as Tennessee have restrictive laws against gender identification in prisons. The state of Tennessee only allows inmates to be housed based on their biological sex on their birth certificate, which in this state cannot be changed.

The lack of autonomy for transgender people in prison to decide where they should be housed is discriminatory and dangerous in nature. It leads to more sexual assaults from other prisoners and prison personnel. A study conducted in California concluded that transgender people in prison are 13 times more likely to be a victim of sexual assault.

Inmate contraceptive access

Even though the state law prohibits all sex acts, sex still takes place in prison whether widely consensual or violently coerced. Health advocates believe that condoms should be available for everyone to prevent the spread of HIV/AIDS and other sexually transmitted infections and since sex is going to happen in the prisons, it should be safe. Organizations like the World Health Organization and the Joint United Nations Program On HIV/AIDS truly believe that condoms should be available to prisoners and have been insistent on it for more than a decade. Despite their attempts to provide condoms some places still do not provide them. Conversations in the United States can be filled with judgments as to what prisoners do not deserve, condoms being part of this. While the conversations take place the infection rates of HIV and other STIs continue to rise severely affecting both the inmates and the community.

As of September 2013, condoms are available inside prisons in Canada, most of the European Union, Australia, Brazil, Indonesia, South Africa, and the US state of Vermont. In September 2014, a law was passed in California when Governor Jerry Brown signed the Assembly Bill 966 also known as the Prisoner Protections for Family and Community Health Act to require the state to hand out condoms and make them available to inmates in 34 of its prison facilities. This bill protects the prisoner's health as well while being cost effective. For the state, condom distribution is a low cost method to prevent the transmission of HIV and sexually transmitted diseases since individual HIV treatments are costly.

As of 12 September 2016, a California bill passed stating that birth control and hygiene products are allowed for women inmates to use if they are prescribed by their physician. All forms of birth control approved by the United States Food and Drug Administration (FDA) will be made available to all inmates capable of becoming pregnant.

Debate over condoms in the U.S.

Multiple factors contribute to the debate over providing condoms to prisoners, one is that of political standings. In the U.S. in particular, prison officials believe that providing condoms amounts to condoning sex, which in some places is illegal. In 1999 some penal systems participated in condom distribution including San Francisco, Washington D.C, and New York City. Without condoms, some prisoners are forced to improvise, such as using foam to prevent transmission of HIV.

HIV testing

The amount of STIs in prisons is 8-10 times higher than the general population among both males and females.

Many of these incarcerated individuals with drug-related crime have participated in unsafe injection or have sexual risk for HIV and other sexually transmitted or infectious diseases. Even though correctional administrators deny it, sexual activity and drug use take place in prisons. HIV/AIDS and sexually transmitted infections are transmitted by unprotected sex and sharing contaminated drug injection equipment in these correctional facilities. Many prisoners are infected while incarcerated which can affect their personal health, spread infectious diseases to other inmates, and eventually their sexual partner in the community. Because the rate of STIs is much higher in prison, some prisons provide voluntary HIV testing and counseling to educate and reduce HIV risk behavior. Some prisoners refuse to voluntarily get tested for HIV because they fear their results will not remain confidential among the staff and that they will be discriminated against.

Health is a priority for many prisons, especially when prisoners return to their communities once their sentence is complete.

Social constructionist approach

Some explanations for prison sexuality include the social constructionist theory by Groth. He implies that sexuality is not only an "inherent part" of a person but also that it may be a "construct of that person's society". Additionally, he mentions that you cannot classify the prisoner's sexuality as heterosexual or homosexual during their prison time because it could not be accurate; their sexuality is on hold meanwhile because they act rather on personal needs than interpersonal needs. This, however does not fully conclude that this is the sole reason for prison relationships because they also feel the genuine connection that can turn into a serious relationship.

A similar perspective was penned by Donald Clemmer, who in 1940 theorized that inmates engaged in homosexual behavior partly as they "were deprived of a heteronormative sexual identity". As sexuality has been historically separated into heterosexual or homosexual categories, this deprivation model of an inmate satisfying their needs at the cost of changing from heterosexual to homosexual fits with the social constructionist theory.

In 1958, Gresham Sykes created the deprivation model. In this model, heterosexual inmates struggle with deprivation and create a prison subculture. Inmates are deprived of their sexual needs and desire some activity, resort to masturbation, consensual or coerced sex.

John Irwin and Donald Cressey created the importation model in 1962. With this model, inmates create a unique prison culture based on values from the outside. The social constructionist model is made up of social situations and values.

Equality (mathematics)

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