Sexual motivation and hormones

Sexual motivation can be defined as the impulse to satisfy sex drive, or libido. In the human species, sexual motivation is a complex phenomenon that is derived from a variety of influences. The pleasure principle is one theory of sexual motivation which postulates that perceived pleasure obtained from sexual activities is the driving force behind motivation to engage in future sexual behaviours. Conversely, other theories hypothesize that sexual motivation occurs based on an interaction between external incentives and internal states. Whether external incentives trigger motivated behaviour is dependent on the internal state of an individual. The higher the internal deprivation state, the more likely an external stimulus will trigger sexual motivation in the individual. A number of factors complicate the direct relationship between internal states and external incentives. In particular, internal states of sexual motivation are governed by numerous factors, including ones’ cognitions, culture, learned behaviours, and levels of circulating hormones.

Hormones are a particularly interesting factor contributing to sexual motivation. Hormones such as testosterone, estrogen, progesterone, oxytocin, and vasopressin all play a role in influencing motivation to engage in sexual behaviours. Likewise, pheromones have also been shown to contribute to sexual motivation. In most mammalian species, sex hormones control the ability to engage in sexual behaviours. However, sex hormones do not directly regulate the ability to copulate in primates (including humans). Rather, sex hormones in primates are only one influence on the motivation to engage in sexual behaviours.

Measuring Sexual Motivation
Sexual motivation can be measured using a variety of different techniques. Self-report measures, such as the Sexual Desire Inventory, are commonly used to detect levels of sexual motivation in humans. Self-report techniques such as the Bogus Pipeline can be utilized to ensure that individuals do not falsify their answers to represent socially desirable results. Sexual motivation can also be implicitly examined through frequency of sexual behaviour, including masturbation.

Testosterone


Testosterone appears to be a major contributing factor to sexual motivation in male primates, including humans. The elimination of testosterone in adulthood has been shown to reduce sexual motivation in both male humans and male primates. Male humans who had their testicular function suppressed with a GnRH anatagonist displayed decreases in sexual desire and masturbation two weeks following the procedure. Research from male rhesus monkeys suggests that testosterone functions to increase sexual motivation, thereby motivating males to compete for access to sexual partners. It is postulated that the motivating effects of testosterone in male rhesus monkeys promotes successful sexual competition and may be particularly important motivating tools for low ranking males. It is important to note that elimination of testosterone in primates does not reduce the ability to copulate, rather it reduces the motivation to copulate.

It is also suggested that levels of testosterone in men are related to the type of relationship they are involved in. Men involved in polyamorous relationships display higher levels of testosterone than men involved in either a single partner relationship or single men. Perhaps males who have higher levels of testosterone are more sexually motivated, and thus seek out multiple sexual relationships. However, this is only one interpretation of the results, and more research needs to be conducted to determine the direct relationship between levels of testosterone and sexual motivation in males.

Testosterone levels in males have been shown to vary according to the ovulating state of females. It was observed that males who were exposed to scents of ovulating women recorded a higher testosterone level than males who were exposed to scents of nonovulating women. Being exposed to female ovulating cues may increase testosterone, which in turn may increase males’ motivation to engage in, and initiate, sexual behaviour. Ultimately, these higher levels of testosterone may increase the reproductive success of males exposed to female ovulation cues.

See also: Testosterone and Sexual Arousal under Testosterone

Oxytocin & Vasopressin
The hormones oxytocin and vasopressin may also help to regulate sexual motivation in males. Oxytocin is released at orgasm for human males, and promotes both emotional bonding and sexual pleasure. Based on the pleasure model of sexual motivation, the increased sexual pleasure that occurs following oxytocin release may encourage motivation to engage in future sexual activities. Vasopressin is involved in the male arousal phase. Vasopressin levels have been shown to increase during erectile response in male sexual arousal, and decrease back to baseline following ejaculation. The increase of vasopressin during erectile response may be directly associated with increased motivation to engage in sexual behaviour.

Estrogen & Progesterone
The relationship between hormones and female sexual motivation is not as well understood. Estrogen and progesterone typically regulate motivation to engage in sexual behaviour for female mammalian species. In particular, estrogens have been shown to correlate positively with increases in female sexual motivation, and progesterone has been associated with decreases in female sexual motivation. The periovulatory period of the female menstrual cycle is often associated with increased female receptivity and sexual motivation. During this stage in the cycle, estrogens are elevated in the female and progesterone levels are low. At this time, mating can result in female pregnancy.

Females at different stages of their menstrual cycle have been shown to display differences in sexual attraction. Non-piling using heterosexual females who are ovulating (high levels of estrogens) have a preference for the scent of males with low levels of fluctuating asymmetry. Ovulating heterosexual females also display preferences toward masculine faces and report greater sexual attraction to males other than their current partner. From an evolutionary perspective, increases in estrogens during fertile periods in females may direct sexual motivation toward males with preferential genes (the good genes hypothesis).

Following natural or surgically induced menopause many women experience declines in sexual motivation. Menopause is associated with a rapid decline of estrogen, as well as a steady rate of decline of androgens. The decline of estrogen and androgen levels is believed to account for the lowered levels of sexual desire and motivation in post-menopausal women, although the direct relationship is not very well understood.

Testosterone
The relationship between testosterone and female sexual motivation is somewhat ambiguous. Research suggests that androgens, such as testosterone, are not sufficient by themselves to prompt sexual motivation in females. In particular, studies with rhesus monkeys have observed that testosterone was not significantly associated with variations in level of sexual motivation in females. However, some research with nonhuman primates suggests a role for androgens in female sexual behaviour. Adrenalectomized female rhesus monkeys displayed diminished female sexual receptivity. Later studies revealed that this diminished sexual receptivity was specific to the elimination of androgens that can be converted to estrogen. The relationship between testosterone and sexual motivation in human females is also quite complex. Research has indicated that polyamorous women have both higher levels of testosterone and score higher on measures of sexual desire than women who are single or women who are in single partnered relationships. One interpretation of these findings is that higher levels of testosterone in women are associated with greater sexual desire, and a greater motivation to engage in multiple sexual relationships. However, more research into the direct effects of testosterone and female sexual motivation needs to be conducted to further examine the implication of these results.

Oxytocin & Vasopressin
The hormones oxytocin and vasopressin are also implicated in female sexual motivation. Oxytocin is released at orgasm and is associated with both sexual pleasure and the formation of emotional bonds. Emotional closeness may be an especially strong predictor of sexual motivation in females. Insufficient oxytocin release may conversely diminish sexual arousal and motivation in females. It is also suggested that high levels of vasopressin may lead to decreases in sexual motivation for females. A link between vasopressin release and aggression has been observed, which may impair female sexual arousal and sexual motivation by leading to feelings of neglect and hostility toward a sexual partner.

Hormonal Influences in Non-Primate Species
The hormonal influences of sexual motivation are much more clearly understood for non-primate females. Suppression of estrogen receptors in the ventromedial nucleus of the hypothalamus in female rats has been observed to reduce female proceptivity and receptivity. Proceptivity and receptivity in the female rat are indicators of sexual motivation, thus indicating a direct relationship between estrogen levels and sexual motivation in the female rat. In addition, research has observed that female rats receiving doses of estrogen and progesterone were more likely to exert effort at gaining sexual attention from a male rat. The willingness of the female rats to access males was considered a direct measure of the females’ level of sexual motivation.

An increase in vasopressin has been observed in female rats who have just given birth. Vasopressin is associated with aggressive and hostile behaviours, and is postulated to decrease sexual motivation in females. Vasopressin that is administered in the female rat brain has been observed to result in an immediate decrease in sexual motivation.

Sexual Orientation Effects
Little research has been conducted on the effect of hormones on sexual motivation in sexual minorities. One study observed the relationship between hormones and sexual motivation in lesbian and bisexual women. Lesbian women who were at the peak of their fertile cycle (associated with heightened levels of estrogen) reported increased motivation for sexual contact with women. Bisexual women reported only a slight increase in same-sex motivated sexual contact during peak estrogen levels. This study confirms the sexual motivating effects of estrogen on sexual minority women. Future research should look into the effects of hormones on sexual motivation in sexual minority males, as well as, examine the roles of various other hormones.