Lewis
Member
Your Brain on Sex
Well Christians, here is what science knows. But this is a very, very informative article, and should be read. To get a better understanding of lust and other things. It sure explains a lot.
Lewis W
NOTE: If you're interested in understanding the effects of today's hyperstimulating Internet porn on the brain visit Your Brain On Porn.
Let’s look at what goes on in the brain during sex and orgasm. Although you may think everything happens between your legs, the experience of orgasm actually occurs between your ears. All thoughts, feelings, and bodily sensations you have correlate to specific nerve cells being activated. Orgasm, like all experiences, is brought about by electric impulses flowing along paths of connected nerve cells. Orgasm happens when specific pleasure pathways are turned on, while your defense pathways are turned off.
All this happens by means of chemical messengers and the nerve cell receptors they bind to. These neurochemical changes take place primarily in the limbic system, a very old part of the brain with circuitry that is common to all mammals. These ancient limbic circuits control almost all bodily functions.
The limbic system's job is to keep you alive and reproducing. It does this by avoiding pain and repeating what is pleasurable. The limbic system is the seat of emotions, drives, impulses and desires – including sexual ones. It’s where you fall in and out of love…or lust. Due to the nature of the limbic system, you cannot will your feelings, emotions, falling in love, or staying in love, anymore than you can will your heart to beat, or yourself to digest a meal or sleep. The limbic system has been around for well over 100,000,000 years, lurking right beneath your large, rational neo-cortex.
Rats, apes and humans use the same neurochemicals to operate the same functions in this part of the brain. Keep in mind that scientists aren't studying rodent brains to help them with their addictions and erections! Studying animals and humans, scientists have begun to unravel the neurochemistry of lust, attachment and falling in love. Falling in love involves simultaneous activation and deactivation of discrete parts of the limbic system. For every biological event in your body, there is a biological cause. In this case, the cause is neurochemicals—and the pathways they turn on and off.
Neurochemical Commands: Your World Revolves Around Dopamine
The central neurochemical player behind falling in—and out—of love is dopamine. Dopamine is the principal neurochemical that activates your reward circuitry, the centerpiece of the limbic system. Your reward circuitry drives nearly all of your behaviors. In other words, most all roads lead to Rome, or to the reward circuitry, so you can assess things as "good, bad, or indifferent."
At its most basic, this circuit is activated when you engage in activities that further your survival, or the continuation of your genes. Whether it’s sex, eating, taking risks, achieving goals, or drinking water, all increase dopamine, and dopamine turns on your reward circuitry. You can think of dopamine as the "Gotta have it!" neurochemical, whatever "it" is. It’s the "craving" signal. The more dopamine you release and the more your reward circuit is activated, the more you want or crave something.
A good example is food. We get a much bigger blast of dopamine eating high-calorie foods than we do low-calorie foods. It’s why we choose chocolate cake over Brussels sprouts. Our reward circuit is programmed so that "calories equal survival."
You’re not actually craving ice cream, or a winning lotto ticket, or even a romp in the sack. You’re craving the dopamine that is released with these activities. Dopamine is your major motivation, not the item or activity.
Dopamine is not the only neurochemical involved with reward, but it’s the one that motivates you to go after the reward. Dopamine governs the feelings of wanting, yet the experience of liking or enjoying something is probably due to opioids. Opioids are your brain's own morphine and endorphins. Dopamine drives us toward eating or orgasm, but the experience of the actual orgasm or eating chocolate arises from opioids goosing the reward circuit. In essence, dopamine is never satisfied.
Addiction mechanisms are extraordinarily complex, and not fully understood. Yet the one aspect they share is dopamine dysregulation. All addictive substances and activities share one thing – the ability to strongly elevate dopamine levels. Watching porn, accumulating money, gaining power over others, gambling, compulsive shopping, video games…if something really boosts your dopamine, then it’s potentially addictive for you. Why did Martha Stewart risk everything for more money? She got a thrill from a stock market gamble. She didn’t need the money; she (thought she) needed the dopamine.
Addictive highs mimic the good feelings of the basic activities for which we're actually wired...by hijacking our reward circuitry. Only a few substances (alcohol, cocaine, etc.) have the ability jack up dopamine – that’s why they are addictive. We can also hijack it with extremely stimulating versions of natural behaviors: casinos with hot hostesses, novel porn at every click, tasty junk food filled with fat and sugar, and so forth. Dopamine especially responds to novelty and the unexpected, among natural stimuli.
Don't fall into labeling dopamine as bad. There's no such thing as a bad neurochemical or hormone, although either can become a problem when out of balance. Dopamine is absolutely necessary for your decision-making, happiness, and survival. Yet when it’s too low or too high (or when changes in its receptors alter your sensitivity), it can cause real problems. If you look at this chart you can see some behaviors and conditions associated with dopamine levels or with sensitivity to dopamine. Sensitivity equates with how many receptors a nerve cell has for dopamine.
It's true that some of the conditions listed are at extreme ends of the dopamine spectrum. Nonetheless, dopamine is involved with many aspects of mood, behavior, and perception. Even small shifts in dopamine sensitivity or levels can have profound effects on how you see the world, or your partner.
The key word on the list below is bonding. Bonding is more than a behavior. It is a mammalian program, the program that permits parenting and living in groups. When dopamine drops, you are likely to find your partner less rewarding—and your bond unravels.
Dopamine Levels (or altered sensitivity to dopamine)
Excess Deficient "Normal" Addictions Addictions Healthy bonding Anxiety Depression Feelings of well-being, satisfaction Compulsions Anhedonia—no pleasure, world looks colorless Pleasure, reward in accomplishing tasks Sexual fetishes Lack of ambition and drive Healthy libido Sexual addiction Inability to "love" Good feelings toward others Unhealthy risk-taking Low libido Motivated Gambling Erectile dysfunction Healthy risk taking Compulsive activities No remorse about personal behavior Sound choices Aggression ADHD or ADD Realistic expectations Psychosis Social anxiety disorder Parent/child bonding Schizophrenia Sleep disturbances, "restless legs" Contentment with "little" things The power of dopamine and our reward circuitry are seen in classic experiments done on rats. Consider what happens when sadistic scientists put a starving rat on one side of a grid with electric current running through it and food on the other side. The rat will not cross the pain-producing grid. Yet put a rat with an electrode planted in her reward circuitry on one side of the grid and a lever she knows will stimulate her reward circuitry on the other, and she’ll dash across the grid to tap that lever nonstop. Stimulation of her reward circuitry becomes her top priority, because it’s telling her inner compass that a big reward is just around the corner. She will ignore food, even if starving, or abandon her unweaned pups just to tap that lever until she drops.
If the rat is male, he’ll ignore a receptive female to tap it until he drops. Humans implanted with similar electrodes (decades ago) experienced a constant urge to tap their levers, as well as intense sexual arousal—but not pleasure or orgasm itself. They also reported an undercurrent of anxiety.
Despite the obvious differences between rats and humans, rats have been called "guiding flashlights" for understanding the primitive mechanisms of our own brain.
Sexually-satiated male rats take up to fifteen days to recover their full desire for sex (although they can get it up long before they are back to full steam).
Meanwhile, even if they're feeling sexually sluggish, there is a reliable way to jump-start them, which we’ll get to in a moment. (Female rats also show evidence of a similar cycle in the form of predictable surges of prolactin after vigorous copulation, whether or not they become pregnant. A shadow version of this prolactin cycle has now been detected in women, and may be connected with post-sex mood swings in some women.)
Research also shows that male rats experience a reduction in testosterone receptors for up to a week within their reward circuitry. Hormones and neurochemicals dock with receptors on the nerve cells. In this case, fewer receptors mean less sensitivity to circulating testosterone. The result is that the reward circuitry pumps out less dopamine. It's like the reward circuitry's batteries are low. If this happens in females, it would also reduce their sexual desire.
Low testosterone (or decreased sensitivity to it) is associated with irritability and anger. Serotonin and endorphin levels also rise in the reward circuitry of sexually-satiated rats. Most of us have heard that these are "happy neurochemicals," but in this part of the limbic system both function to put on the brakes instead of just producing warm, fuzzy feelings.
Keep in mind that sexual dysfunction is a major side effect of taking either antidepressants that raise serotonin or narcotics that mimic endorphins. When neurochemicals dampen your reward circuitry for a time, your relationship can suffer. See The Passion Cycle.
Dopamine and the Coolidge Effect
Humans, like virtually all mammals, are not naturally monogamous (as in sexually exclusive), although many individuals are. This may not sound very romantic, but no mammals are sexually exclusive.
Continued Below
Well Christians, here is what science knows. But this is a very, very informative article, and should be read. To get a better understanding of lust and other things. It sure explains a lot.
Lewis W
NOTE: If you're interested in understanding the effects of today's hyperstimulating Internet porn on the brain visit Your Brain On Porn.
Let’s look at what goes on in the brain during sex and orgasm. Although you may think everything happens between your legs, the experience of orgasm actually occurs between your ears. All thoughts, feelings, and bodily sensations you have correlate to specific nerve cells being activated. Orgasm, like all experiences, is brought about by electric impulses flowing along paths of connected nerve cells. Orgasm happens when specific pleasure pathways are turned on, while your defense pathways are turned off.
All this happens by means of chemical messengers and the nerve cell receptors they bind to. These neurochemical changes take place primarily in the limbic system, a very old part of the brain with circuitry that is common to all mammals. These ancient limbic circuits control almost all bodily functions.
The limbic system's job is to keep you alive and reproducing. It does this by avoiding pain and repeating what is pleasurable. The limbic system is the seat of emotions, drives, impulses and desires – including sexual ones. It’s where you fall in and out of love…or lust. Due to the nature of the limbic system, you cannot will your feelings, emotions, falling in love, or staying in love, anymore than you can will your heart to beat, or yourself to digest a meal or sleep. The limbic system has been around for well over 100,000,000 years, lurking right beneath your large, rational neo-cortex.
Rats, apes and humans use the same neurochemicals to operate the same functions in this part of the brain. Keep in mind that scientists aren't studying rodent brains to help them with their addictions and erections! Studying animals and humans, scientists have begun to unravel the neurochemistry of lust, attachment and falling in love. Falling in love involves simultaneous activation and deactivation of discrete parts of the limbic system. For every biological event in your body, there is a biological cause. In this case, the cause is neurochemicals—and the pathways they turn on and off.
Neurochemical Commands: Your World Revolves Around Dopamine
At its most basic, this circuit is activated when you engage in activities that further your survival, or the continuation of your genes. Whether it’s sex, eating, taking risks, achieving goals, or drinking water, all increase dopamine, and dopamine turns on your reward circuitry. You can think of dopamine as the "Gotta have it!" neurochemical, whatever "it" is. It’s the "craving" signal. The more dopamine you release and the more your reward circuit is activated, the more you want or crave something.
A good example is food. We get a much bigger blast of dopamine eating high-calorie foods than we do low-calorie foods. It’s why we choose chocolate cake over Brussels sprouts. Our reward circuit is programmed so that "calories equal survival."
Dopamine is not the only neurochemical involved with reward, but it’s the one that motivates you to go after the reward. Dopamine governs the feelings of wanting, yet the experience of liking or enjoying something is probably due to opioids. Opioids are your brain's own morphine and endorphins. Dopamine drives us toward eating or orgasm, but the experience of the actual orgasm or eating chocolate arises from opioids goosing the reward circuit. In essence, dopamine is never satisfied.
Addiction mechanisms are extraordinarily complex, and not fully understood. Yet the one aspect they share is dopamine dysregulation. All addictive substances and activities share one thing – the ability to strongly elevate dopamine levels. Watching porn, accumulating money, gaining power over others, gambling, compulsive shopping, video games…if something really boosts your dopamine, then it’s potentially addictive for you. Why did Martha Stewart risk everything for more money? She got a thrill from a stock market gamble. She didn’t need the money; she (thought she) needed the dopamine.
Addictive highs mimic the good feelings of the basic activities for which we're actually wired...by hijacking our reward circuitry. Only a few substances (alcohol, cocaine, etc.) have the ability jack up dopamine – that’s why they are addictive. We can also hijack it with extremely stimulating versions of natural behaviors: casinos with hot hostesses, novel porn at every click, tasty junk food filled with fat and sugar, and so forth. Dopamine especially responds to novelty and the unexpected, among natural stimuli.
Don't fall into labeling dopamine as bad. There's no such thing as a bad neurochemical or hormone, although either can become a problem when out of balance. Dopamine is absolutely necessary for your decision-making, happiness, and survival. Yet when it’s too low or too high (or when changes in its receptors alter your sensitivity), it can cause real problems. If you look at this chart you can see some behaviors and conditions associated with dopamine levels or with sensitivity to dopamine. Sensitivity equates with how many receptors a nerve cell has for dopamine.
It's true that some of the conditions listed are at extreme ends of the dopamine spectrum. Nonetheless, dopamine is involved with many aspects of mood, behavior, and perception. Even small shifts in dopamine sensitivity or levels can have profound effects on how you see the world, or your partner.
The key word on the list below is bonding. Bonding is more than a behavior. It is a mammalian program, the program that permits parenting and living in groups. When dopamine drops, you are likely to find your partner less rewarding—and your bond unravels.
Dopamine Levels (or altered sensitivity to dopamine)
Excess Deficient "Normal" Addictions Addictions Healthy bonding Anxiety Depression Feelings of well-being, satisfaction Compulsions Anhedonia—no pleasure, world looks colorless Pleasure, reward in accomplishing tasks Sexual fetishes Lack of ambition and drive Healthy libido Sexual addiction Inability to "love" Good feelings toward others Unhealthy risk-taking Low libido Motivated Gambling Erectile dysfunction Healthy risk taking Compulsive activities No remorse about personal behavior Sound choices Aggression ADHD or ADD Realistic expectations Psychosis Social anxiety disorder Parent/child bonding Schizophrenia Sleep disturbances, "restless legs" Contentment with "little" things The power of dopamine and our reward circuitry are seen in classic experiments done on rats. Consider what happens when sadistic scientists put a starving rat on one side of a grid with electric current running through it and food on the other side. The rat will not cross the pain-producing grid. Yet put a rat with an electrode planted in her reward circuitry on one side of the grid and a lever she knows will stimulate her reward circuitry on the other, and she’ll dash across the grid to tap that lever nonstop. Stimulation of her reward circuitry becomes her top priority, because it’s telling her inner compass that a big reward is just around the corner. She will ignore food, even if starving, or abandon her unweaned pups just to tap that lever until she drops.
If the rat is male, he’ll ignore a receptive female to tap it until he drops. Humans implanted with similar electrodes (decades ago) experienced a constant urge to tap their levers, as well as intense sexual arousal—but not pleasure or orgasm itself. They also reported an undercurrent of anxiety.
Despite the obvious differences between rats and humans, rats have been called "guiding flashlights" for understanding the primitive mechanisms of our own brain.
Sexually-satiated male rats take up to fifteen days to recover their full desire for sex (although they can get it up long before they are back to full steam).
Meanwhile, even if they're feeling sexually sluggish, there is a reliable way to jump-start them, which we’ll get to in a moment. (Female rats also show evidence of a similar cycle in the form of predictable surges of prolactin after vigorous copulation, whether or not they become pregnant. A shadow version of this prolactin cycle has now been detected in women, and may be connected with post-sex mood swings in some women.)
Research also shows that male rats experience a reduction in testosterone receptors for up to a week within their reward circuitry. Hormones and neurochemicals dock with receptors on the nerve cells. In this case, fewer receptors mean less sensitivity to circulating testosterone. The result is that the reward circuitry pumps out less dopamine. It's like the reward circuitry's batteries are low. If this happens in females, it would also reduce their sexual desire.
Low testosterone (or decreased sensitivity to it) is associated with irritability and anger. Serotonin and endorphin levels also rise in the reward circuitry of sexually-satiated rats. Most of us have heard that these are "happy neurochemicals," but in this part of the limbic system both function to put on the brakes instead of just producing warm, fuzzy feelings.
Dopamine and the Coolidge Effect
Humans, like virtually all mammals, are not naturally monogamous (as in sexually exclusive), although many individuals are. This may not sound very romantic, but no mammals are sexually exclusive.
Continued Below
Last edited by a moderator:
