Note: This story was dynamically reformatted for online reading convenience. The 'Blue Balls' Dossier ----------------------- A vignette in the Cuntanamo Bay scenario 20110708 SensoryOverlord Part 1 of ? "Going... Going.... Gone! Sold, to the gentleman in the video pants. Next, lot 728, another pallet of used office machines, suplus to requirements at the Department of Homeland Morality. Do I hear $2? ...." The auctioneer continues his monotone patter, a small crowd of bidders clustered around him in the middle of the very, very large space of the government surplus auctions warehouse. They pay just enough attention to not loose their places in the thick wads of today's auction catalog, mostly just waiting till whatever items come up that they want. It's mid afternoon, many had already been on their feet in this warehouse since early morning, inspecting the hundreds of items on today's offering. Now they have to stand around with aching feet as the auctioneer deals with one item after another. The smarter, or perhaps wealthier buyers have already put in prebids, and gone home. Some are just here for curiosity, others with small budgets here because this is a good way to get very cheap computers, office equipment, i-desks, and so on. People with just a few dollars to spend, will want to do their bidding in person. And so they must wait. Bill, the gentleman in the video pants (and plain old retro-cotton t-shirt, and fairly ratty runners) smiles to his friend, Charles. "Cool! I'm sure I can find the drivers for it. Oh man, I can't wait to get this hooked up. It's going to be ultra playing Megastrike on that huge surface." "Twenty five dollars! You know you just paid nearly half of new price, don't you? For something you're not sure even works, and is DEFINITELY out of waranty." "Yeah, yeah, but look at all the other stuff on the pallet! There's sure to to be things I can sell on eBoot and get most of the twenty five back. Maybe even more. Besides, you saw the little scratch over near the corner. You know as well as I do they'd toss it for that. Can't have our very serious DHM conference room surface with a nasty scratch, now can we? Betcha it works perfectly. There's nothing else here today you wanted is there? So lets go bring the van in ready to load up as soon as they get their electrons in a row, and free the lots we bought." "YOU bought. OK, but no piling shit up in the hallway this time. Your stuff is all going in your space." "That was only a couple of months, man. Sheesh." A week later... "Hey Bill! Wake up! Bill! Come on, wake up!' "Aff.. wzzz... leeme alone. Urggghhhh whaa... what time is.... it?" "Three man. Jan made some of her special cookies, thought you might want some while they're active. You gonna come get them?" "Fucking... three WHAT? Oh, daylight. Great. Fuck you Charles. You know I only went to bed a couple hours ago?" "Huh? But you've been playing Megastrike continuously for a week, and last night when you went for a piss you said you were going to bed right after, and not to disturb you. So we didn't. Now there's cookies." "Uuuraagh! Well I kept going for a bit, OK? Urrr... fuck, my head, fuck, fuck. Cookies you say? Give me a moment." A little later Bill is showing off his new gaming toy to the other members of the household. Everyone has a nice buzz going, and the special cookies are all gone. Neither Jan or Allen have ever seen such a gigantic, hi-res 3D active surface interface before, and in their current state are having an inordinate amount of very silly fun playing with it. Bill is extremely wide awake again, and chattering on about the game. "Then these two guys camping on the cliff ledge think they're waiting for me to respawn down in the ravine again, but I'm like, already way up on the other side of the canyon. So I get them in a line, and bam! Double head shots with one round. HA HA HA! Godsdick team are such losers." Charles has wandered away after a while, and is poking around at the pile of other gear that came in the same auction lot as the surface. The pile takes up a lot of space in Bill's studio, and it doesn't look like Bill has even touched anything since Charles helped him lug it all in here last week. "Hey Bill, did you check any of this stuff yet?" "No, didn't get to it yet. Why?" "Well it looks like this doc-rep has had the arse. Litterally. See?" He's lifted up the scanner lid, and pokes around in the loose safety glass chips lying in the scanner track. "Either someone had one paper jam too many and lost their temper, or some lard-arse at the DHM was trying to make prints of his lard-arse and the glass broke. Which do you reckon?" Bill comes over to see. "Aw man... I'm not going to be able to sell that! Even the guide rails are bent, see? The carriage must have been nearly in the middle when the glass broke. Shit." He pulls open the front cover, which reveals that there's a large cavity where the toner and drum unit should be. "Double crap. It's been scavenged too. Why didn't they just dump it?" "Uh, because someone was bound to see something else on the pallet they really wanted, and so cart this junk away for the DHM, without any effort on their part and after paying them money for it? You got a screwdriver handy?" "OK, OK, don't rub it in. You gotta admit the surface is awesome, right?" He finds a screwdriver, hands it to Charles. "Yeah, is it still or isn't it?" "We'll see. Make a bet?" "Nah man. They're supposed to crush them, so it's probably still in here. With any luck they were too busy bandaging lard-arse's cut up bum and laughing their own off. See, there's a little bit of blood on some of the glass." Richard undoes a beige plastic rear panel, and drops it into the ruined top scanner cavity. There's another sheet metal panel behind it. He undoes the screws on that, and it follows the plastic panel into the improvised dustbin. They both bend down to peer into the gap. "HA HA HA! See, I told you! It's still there." He reaches into the opening, and undoes a knurled thumbscrew on a retaining clip. Unplugs a cable. Grasps an object and pulls it out. It's a black rectangular block, about an inch thick, and fits in the palm of his hand. One side is mostly a circuit board. "They might have remembered to wipe it, do you think?" "How? You see any "wipe" button on the front controls? Like anyone in that place would know how to read a manual anyway." "Now you're going to just stand there waving it around, or drop it or something, right? Not, like, plug it in and see if it's readable?" Bill is already walking over to his system setup with the object. "Oh, maybe I should just leave it for a few more weeks, to tease you." "You're as curious as I am." Richard pulls open the trays at the bottom of the doc-rep. "It still has paper in all the trays even. Did they think this thing had arse bugs or something? Oh look!" He's opened the clamshell, and drags a sheet of paper out from between the rollers. "Case proved. Half an arse! The feed must have jammed when the carriage got crushed. Go on, admit it, you are." "No I'm not." Bill is eagerly unscrewing the side of his gaming system's case, having first done a crash no-save shut down. He digs a standard interface cable out of a drawer in his workbench with amazing speed considering the chaos in the drawer, and plugs one end into the black object. The other end goes into the guts of his system. He hits the startup button, and turns to the inky black slab of his new surface. In which a boot-logo suddenly appears, twirling in the 3D depths of the surface. Moments later Bill's usual command scenery appears. It's a surprisingly accurate rendition of his studio, except that it doesn't have the new pile of junk in the corner, or the nice new surface table beside his workbench. Plus there's a cute and naked female anime character lying on Bill's virtual bed, with a glowing red heart symbol rotating in the space above her. Bill ignores her, and gestures on the surface to open a cupboard door on the wall by his virtual workbench. Inside there's a row of glowing icons, one of which is the logo of the company that made the doc-rep machine. Under the icon there's a bargraph, that shows a tiny amount of the total bar length 'used'. There's a text name too, but it is BZ-1D62-75FE-8A23, which isn't very helpful. "Oh fuck me! They didn't!" He makes a Query-state gesture at the logo. It opens to a page of text and diagrams. "Fifteen terabytes capacity, two hundred gigabytes used. Not encrypted, no deletions ever. Initialized four years ago, last writes two months ago. Oh God... Charles..." Jan and Allen are looking bemused, while Charles is hopping up and down on the spot grinning his face off. "Guys, do you know what this is?" "Um, you're jumping up and down... a device that causes uncharacteristic physical exercise?" "Very funny Allen. That's a net-printer, scanner, copier and web server. This is the hard disk out of it. It appears to still have every document that DHS office ever put through the machine still on it. Unprotected. All offices are supposed to tripple wipe these office machine disks before disposing of the machine. Or smash them. Someone fucked up this time. Bill, if you don't open the file container right this minute, I'm going to smear your lovely new surface with cat poop." "We don't have a cat." "Cat poop is not difficult to obtain. Quit torturing us." "Well I was just kinda savouring the potential, you know? It will probably be all boring shit about counts of paperclips, and how many nylon wireties are to be shipped to the FEMA camps and stuff. How many doc-reps get the interesting gen, do you think? I mean, if there was interesting stuff going through this office, why would lard-arse be so bored he decided to scan his arse?" "Well, he might have needed it for an official report or something. Maybe the DHM sign ALL their documents with a picture of the author's arse, for all we know. WILL YOU OPEN the fucking thing now, please?" "Ah, magic word. OK fine. Destroy my pleasantly drawn-out moment of anticipation without a care why don't you." He gestures at the logo icon again. An instance of filecharter opens, and starts to construct a scene representative of the file elements on the disk as it samples through the serious amount of data. The ghostly outline builds up, shapes and colors potraying data objects and structures, the visualizer algorithms concentrating sampling to clarify boundaries between zones, and characterise data structure types. Ever since mass storage devices became far too large to read through in entirety in practical amounts of time, 'navigating' them became much more a process of statistical sampling and guiding of focus based on fractional initial sampling. It had taken the public disembowling and impalement back during the Troubles of more than a few Microsoft and Apple executives, and many, many DRM proponents before the corporate world stopped with all that bullshit about 'no, your own filesystem is not yours to see as it is, or to organise and use as you like, with whatever data you like', but in the end they had been made to see reason. Those of them that survived. It's quickly obvious that this drive contains a huge amount of data, of many different types and formats. Bill zooms in on a randomly chosen point in the gradually defining landscape of data, till a structure representing a single grouping of closely associated files fills most of the view pane. The heading icon consists of two blue spheres, CGI generated, slowly rotating around each other in space, while also pulsating slightly in size, in a way suggestive of some kind of inner pressure. The tag name is "Blue Balls Archive.' He gestures 'Open' at it, and a string of component file expands into view. He gestures at the first one. It opens, as a text document, headed with a DHM official seal. He blows it up large, rotates the pane a bit so they can all read easily, and strokes it to auto-scroll. -------------------------------------------------------------- DEPARTMENT OF HOMELAND MORALITY Records Archiving. File # G42-4672-23 DHM - Restricted DHM Personel File ---------------- Employee number: 7342812 Name of Employee: Elissa Zecca Date of Birth: 1986 Place of birth: Austin, Texas Gender: F Married: No. Party membership: AJP - American Jesus Party, in good standing. (Educational & academic record) Academic achievements Publications Joined DHM: 3rd May 2018, as Research Assistant. Current Role with DHM: Senior fellow, Sexual Management Technology Division (SMTD). Stationed: Cuntanamo Bay. Speciality: Reference Sexual Function and adaptations. ('reference sexual function' is the sexuality of individuals who have not been fitted with MPAs.) Most of her study subjects are teenagers, though with adults included for comparison. ---------------------------------------------------------------- DHM Security clearance - Elissa Zecca ------------------------------------ [section redacted] When a teenager herself, she had an experience that left her with some strong attitudes towards males. She'd been quite the tease queen in high school. Went out with many boys, delighted in getting them panting over her, then dropping them. She'd then have extended masturbation sessions at home, dreaming of the guy's frustrated erections and blue balls. She'd delight in arousing guys at times and places where she knew they would have no opportunity to masturbate for some time - such as just before leaving on an interstate coach trip with their sports team. Then five of her unlucky brief boyfriends got together for revenge. They sneaked a hidden video camera into her bedroom and got several videos of her masturbating. Then pointed out to her that her very devout and politically correct parents would disown her if they saw these. She spent the next two years of school relieving the five member 'blue balls club' (as they called themselves) at their whim. And they had many whims, most of which involved treating her to the same kinds of unrelieved tensions as she had done to them. All five members of that group have since been [redacted] by the DHM [redacted] section. Known personality quirks: * Ms Zecca has a strong but partially repressed antipathy towards young males. This exhibits particularly to the age range 16 to 20, but is discernable for ages 10 and upwards through all sexually active years. Loyalty implications: Positive. Ms Zecca's current line of research is promoted by the DHM strategic planning group. The unique alignment of her underlying fixations and the nature of her work made possible under DHM auspices is considered to ensure her continued dedication to the DHM. * Intermittent involvement with internet S&M contact sites. Security risk: low, under observation. ---------------------------------------------------------------- DHM - Sexual Management Technology Division Project Blue Balls - A Review ---------------------------- Author: Elissa Zecca The common slang term 'blue balls' is a misnomer, rooted in a widely held misconception. The sensation of fullness and urgent discomfort experienced by virile young males after an extended interval without ejaculation, or stimulation to near orgasm without completion, does not originate in the testicles or have anything to do with speramtoa accumulation in the testicles. After all if this was so, males who have vassectomies (blocking the vas deferens, the exit ducts from the testicles) would soon suffer extreme 'blue balls'. But no such effect is seen. In fact the sensation of 'blue balls' originates in the seminal vesicles and ejaculatory duct structures - located predominantly above and to either side of the prostate and wrapping closely around the rear of the bladder. These store the sperm-containing portion of the ejaculate, and their lower reaches extend down via the seminal ducts into the prostate muscular sheath before terminating at openings to the urethra in the lower prostate area. Contractions of the prostate muscular sheath compress both the prostate gland fibres, and the seminal fluid volume within the seminal ducts where they pass through the prostate. Each contraction ejects into the urethra a small portion of the prostate fluid contents and all of the seminal fluid that was within the lower seminal duct when contraction began. [Fig 1 - male sexual physiology] Experiments demonstrate it is primarily fullness of the seminal vesicles and resulting extension of dilation from the upper to lower ejaculatory ducts that results in 'ejaculatory urgency' (blue balls) when arousal is not followed by ejaculation, or when ejaculation has not occured for some time. The duct walls are liberally supplied with nerves, which are sensitive to the rate and degree of dilation of the duct walls. These nerves are part of the autonomic/sexual control system, with their signals centrally involved in the male libido and orgasm processes. 'Derivative' conscious perceptions such as horniness, ejaculatory urgency, aspects of the perception of orgasm and ejaculation, and so on, originate in excitation levels of these nerves. With teenage males the buildup of fluids in these glands is rapid, dilating the ducts and producing nerve signals perceived as sexual distress if pressure is unrelieved for intervals that can be as short as one or two days in some cases. Increasing seminal vesicle pressure and the consequent increase in dilation signalling results in increased 'gain' in the spinal nerve ganglia and brain centers that regulate arousal and erection in response to sexual stimuli. Increasing 'gain' results in initiation of erection in response to progressively more subtle visual or social erotic cues. Further increases of pressure and thus 'gain' progress through an extended spectrum of physiological responses, including totally spontaneous erections, prolonged erection duration, spontaneous ejaculation during sleep, and spontaneous waking ejaculation. The latter stages of this response spectra are only 'naturally' achievable via measures to enforce retention of seminal volume for extended periods. Until recently this implied the prevention of orgasm - an approach naturally incompatible with study of the various spontaneous orgasm forms, and possible further reaches of the male sexual response spectra. At the Sexual Management Technology Division (an agency of the Department of Homeland Morality) we have conducted ground breaking experimental studies in the physiology of male sexual response, ejaculation, and the precise origin of ejaculatory urgency. We have also pioneered the newly developing field of male sexuality enhancement via direct regulation of seminal volume and disposition. The crowning achievement of our work has been the discovery of an entirely new form of male response. This has been named 'ejaculum continua', and lies beyond spontaneous waking ejaculation in the response spectra. Our achievements have proven of great utility in furthering the DHM's support of the Sexual Richness Doctrine, and the DHM's tireless efforts to preserve and enhance the moral security of our great nation against all enemies. However even with Moral Purity Assistant implant technology, unauthorized loss of the precious male bodily fluids cannot ultimately be prevented one pressures exceed natural ranges. Now, when the National Interest demands full-spectrum seminal retention, we have the technology to enforce it. A brief summary of significant findings: Early research began with investigation of a technique long used by sexual entertainment workers, in which blunt pressure applied to a particular spot on the prostate via a finger in the rectum during male orgasm, completely prevents the ejaculation of seminal fluid. Anecdotal claims existed that this resulted in a immediate post-orgasm potency that was undiminished, and in fact often heightened. In consultation with sexual entertainment workers skilled in this technique, the DHM conducted long-term controlled experiments on compulsory male test subjects, examining the effects of repeated application of this technique. For all subjects, with ages ranging from 14 to 35, it was found that a well characterized application of blunt pressure to the conjunction of the ejaculatory ducts to the urethra, could provide 100% reliable total prevention of seminal fluid release during orgasm/ejaculation. It was further found that this technique was effective over prolonged intervals, preventing any seminal release for as long as the required pressure could be applied at the first sign of impending prostatic contractions. Seminal buildup in the resevoir structures of the vesicles was, perhaps surprisingly, continuous and did not diminish with increasing fluid pressure in the structures. Over the two years of the initial study, impressively large stored seminal volume accumulations developed in all test subjects (as quantified with ultrasound scans), without perceptible physiological complications. A number of intriguing behavioral changes were also noted in the test subjects, leading to interest in furthering these experiments in a more flexible manner. Such as some means of continuing without the expense and movement constraints involved in requiring the 24/7 presense of a hired sexual entertainment worker's finger in the subject's rectum. During those studies, a secondary line of research was begun to investigate hypothetical potentials for 'seminal charging'; considered to be any means of directly increasing seminal stored volume. Initial trials involved introduction of a thick clear inert sexual lubricant gell via a nozzle inserted into the penis opening. Subjects are required to tense the bladder sphincter tightly, while gel injection continues until the entire urethra through to the bladder sphincter is tightly filled with gell. Then the glans is pinched tightly closed, and finger stroked firmly down penis shaft over urethra, to transport more gell into the volume of urethra inside the prostate. At moderate pressure, the elastic outlets of the ejaculatory duct junctions with the urethra are dilated by the pressure, and gell flows upwards into the ducts. If the dilation is maintained for more than a dozen seconds or so, the sensation of dilation of the lower ducts produces a strong ejaculatory response, that continues until the intruded gell (and some of the seminal reserve) has been expelled. Continued cycles of this intrusion-expulsion do not achieve an overall increase in retained seminal fluid volume, though they do provide a means for prolonged ejaculatory exercising of a subject, using minimal equipment. However if pressure pulses are sufficiently strong for the gell intrusion to progress well up into the ejaculatory duct, while the duration of each pulse is brief and terminated suddenly (before arousal due to the sensations of duct dilation become suffient to trigger ejaculation) the lower duct recloses elasticly, and the closure progresses upwards along the duct in the normal 'semen retaining' reflex. Thus the intruded gell is worked up into the seminal vesicle reservoirs. With intervening breaks to keep accumulating sexual arousal below the point of ejaculation, these short pressure pulse driven intrusions can be repeated multiple times, building up fluid pressure in the lower seminal vesicles. As this continues, the viscous gell intrudes further into the vesicle labyrinthine structure, distending the entire vesicles, left and right. Thus gradually increasing the total resting seminal pressure. With careful profiling of the pulse pressure and durations, and especially if orgasm inhibiting disciplinary stimuli are simultaneously applied, seminal system volume and pressure can be raised to relatively high values. Conditions well beyond levels which would normally cause spontaneous ejaculation in sleep or waking if allowed to build over several weeks, can be achieved within an hour. To maintain this state of hyper ejaculatory urgency for any length of time, strong erection and ejaculation counter measures must be imposed. In this condition, enlargement of the seminal vesicle reservoirs is fairly rapid, typically on the order of 2 cc per week if presures are maintained near constantly. Without further intrusions the hyper-urgency condition will diminish over periods of a few days to more normal urgency, as the vesicle size increase reduces overall pressure back to the range of standard forced-retention slow volume increase. This results in a diminishment of the dilation of the ejaculatory ducts, lessening the perceived sense of urgency back to levels more natural for prolonged abstinence. With practice and familiarity with the subject's reactions, gell intrusion proceedures can be repeated as required to maintain hyper-urgency, and maximize vesicle volume growth rates. E. Zecca conducted the initial trials, with a group of twenty compulsory subjects ranged from age 12 to 19 over the course of 18 months. Inventoried gell intrusion was conducted daily, with once-monthly full seminal drainings via mechanical rectal milking of the seminal vesicles and prostate to calibrate daily ultrasound seminal volume measurements. The monthly drainings were followed immediately by re-intrusion of an identical amount of the gell. Ejaculatory urgency was measured four times daily; which involved removal of the erection restraint, controlled mechanical penile stimulation to the pre-orgasm moment as indicated by a cluster of body signs, rapid detumessing of the erection via ice-water and electical stimuli, then reapplication of the erection restraint. At the study conclusion, all subjects were switched to a one month ejaculatory exercising and volume training regime, alternating between ejaculation and re-charging sessions. Ejaculate volume and emission rate were quantified during no-penile-contact ejaculations induced by electrical stimulation of the prostate and mechanical milking of the seminal vesicles to achieve complete emptying. Stimulation was continued for 2 minutes after ejaculate emissions ceased. Following this, the recharging proceedure would commence, and continue until the 'full ejaculate volume' was achieved. This alternation was repeated around ten times a day, in order to rebuild muscle bulk and agility in the ejaculatory structures, after the 18 month period of complete ejaculation inhibition. At the start of this month ejaculate volumes broke all records by a factor of around 12 times. By the end of the month, emission rates had achieved a factor around 4 times previous records. This research was considered a great success, producing several fully characterized standard sexual enhancement training regimes, that are still in use today in the service of national moral excellence. In consideration of the original trial participant's historic roles in the pivotal early stages of the DHM's round-breaking sexual capacity reseach, the subjects were transfered to the DHM National Museum of Sexual Advancement. They are on public display during business hours, naked, wearing only 'no-contact' open wire cage erection guards. They are still serving DHM research, into the factors influencing spontaneous waking orgasm in the context of zero sexual stimulation, immediate maximal seminal recharging after ejaculation, and corporal punishment for occurence of orgasm other than when permitted. Subjects are only permitted to orgasm during the interval when a member of the public is pressing the 'permit orgasm' button/light on their display cubicle, and the subject is standing in a display position close to the cubicle front glass wall, with their erection cage inserted into the viewing frame. This ensures the best visibility of the erection and ejaculate emergence, catches the semen in a flow and volume measuring device that displays the measurements to the public, and applies punishment shocks if the ejaculation does not continue for a duration sufficient to mostly empty the reservoirs. On completion of ejaculation the system then locks the erection cage in the viewing frame, automatically performs a seminal recharging cycle, then releases the cage. Each subject also has a 'refil target', that the public can vote up or down within a range of +/-10% around the subject's usual refill value. +10% produces extreme sexual urgency and discomfort, and nearly impossible to consciously suppress spontaneous ejaculation. -10% provides a reduced degree of urgency, and capacity to delay orgasm for some time. During non-public museum hours the subjects are orgasm-inhibited. After these successes, the DHM began exploratory research, searching for a simpler way to reliably and harmlessly regulate inflow and outflow of fluids via the ejaculatory duct and urethra. Findings included: 1. Insertion of inert plastic spheres into the seminal ducts can result in intensely enhanced need to ejaculate. Balls of a range of sizes were tried, from 2mm dia up to 15mm. Below about 4mm there is little effect and the balls tend to be ejected during ejaculation. Ejaculatory urgency effects become significant at about 5mm, and pronounced by 8mm. In general above 5mm, the bigger they are, the stronger the effect. 2. Balls over about 10mm diameter, or smaller conformal seals positioned in the lower reaches of the seminal ducts just inside the outlet to the urethra are able to effectively block emission of seminal vesicle fluid during ejaculation. 3. Small balls that are comfortably passable through the urethra (eg 8mm dia) when placed in line in the urethra where it passes through the prostate produce a highly erogenous sensation perceptible during conscious contraction of surrounding muscles. The effect greatly stimulates erection and arousal, even completely spontaneous orgasm in some cases where erection is allowed to progress naturally. 4. An inflatable tube placed within the prostate urethra, with inflatable collars at top and bottom ends and a particular longitudinal profile, when rigidly inflated to adequate volume within the prostate, completely blocks the prostate's ability to eject prostatic fluid during contractions. 5. Seminal fluid production rate is invariant against accumulated seminal vesicle volume and pressure. Normally at or above a certain volume/pressure spontaneous emission will occur. Where emission is physically prevented by outlet plugging (See 2.) the vesical internal pressure continues to rise. At approximately twice normal maximum pressure, the vesicle walls enter an elastic growth stage, thus taking up further fluid production as an increase in glandular storage volume. 6. Seminal fluid production rate increases during sexual excitation. The increase is proportional to excitation, up to around 30% above 'resting' production rate. The effect does not diminish or increase regardless of duration of sexual excitement. With seminal outlet plugging, increased production rate results in further pressure increase during the interval of higher production due to vesicle wall expansion rate being roughly proportional to internal pressure. 7. Seminal vesicle volume increases due to enhanced pressure do not apparently cause any complications to bowel or urinary function. There are some consequences for sexual function: - Above-normal pressure is perceived as an abnormally intense urgency to achieve ejaculatory relief. - Above-normal pressure induces frequent spontaneous and persistent erections when physically possible. - Stimulation threshold to orgasm is greatly reduced. Spontaneous orgasm may occur if erection is possible. - If fluid outlet is prevented for significant intervals, subsequent ejaculate volume is increased in proportion to seminal vesicle size increase. - If the enlarged vesicles are significantly drained, average need returns after typical intervals, but does not ramp up to ejaculatory urgency until the extra volume has been refilled enough to reach threshold pressure. This can take some time - days or weeks, depending on gland full volume, initial emptiness, and refill rate. 8. During orgasm, contraction waves originate in the upper prostate muscular sheath, travelling down the prostate and out along the urethra. Each contraction wave entraps and then empties into the urethra the seminal fluid that was in the lower seminal duct (which is within the body of the prostate) at commencement. As each contraction progresses outwards along the urethra, relaxation occurs in the prostate, releasing compression on the lower seminal duct within the prostate. This allows the duct to refill with fluid moving downwards from the seminal vesicle under residual pressure in the vesicle.i It is the rate of refill of the lower seminal ducts with fluid from higher up in the seminal vesicles that regulates the intensity of the subseqent contraction. More exactly, greater rates of dilation of the walls of the duct result in positive neurological feedback to the spinal centers governing progression of orgasm and the intensity of the next contraction. In normal operation, this feedback tapers off orgasm as seminal fluid availability from the labyrinthine vesicles diminishes. The viscosity of this component of semen, combined with the convoluted geometry of the vesicles result in fluid availability reduction after a small number of contractions, thus terminating orgasm before more than a fraction of total seminal reserve volume is expelled. This is obviously a mechanism evolved to ensure possibility of repeated ejaculations after relatively short refractory intervals. Once seminal fluid emerges from further back in the vesicle convolutions, raising pressure sufficient to dilate the seminal ducts again, sensors in the ducts signal via neural and hormonal means to re-enable the ejaculatory system. 9. An inert substitute for seminal fluid was developed early in the DHM research program, suitable for insertion under controlled pressure into the seminal ducts and vessicles. This has been made available for use with MPAs for some years; see the MPA user manual. It is also suitable for use with the BB-X03. The substance's properties are: - Cheap to manufacture in commercial quantities. Standard bulk drum size is five gallons. - Body tissue compatible, non-allergenic, certified for internal and oral application. - Chemically stable. Completely safe to remain in situ for indefinite periods. - Wide-spectrum bactericidal. Basic sterile practice in use is sufficient. - Standard color is indistinguishable from natural seminal fluid. A wide range of alternate colors are available, including an indelible security dye, a UV-fluorescent dye, clear, and metalic flake. - Scent is neutral. Natural semen scent can be added, as can various others, though scents have limited persistence durations during seminal retention. - Graded viscosities are available, ranging from semen-normal, up to around 100 times more viscous than typical semen. Other modifications allow for polymerization in-situ, resulting in a flexible but non-flowing gell, that remains solid for selectable durations up to a year, then reverts to a viscous fluid. This version can also include dissolved gas, resulting in foaming expansion before gelling. The result is a flexible, springy closed-cell foam material. - Other additives available are: Irritant, slow release cializ, secretion stimulant, and penile tissue-targetted growth hormone. 10. Male perception of ejaculatory urgency or relief, and related sexual reflexes, respond in timescales of a few seconds to artificially varied seminal pressure. Perceptions and effects are indistinguishable from those resulting from natural accumulation. 11. The interior wall of the urethra within the prostate, is sufficiently sensitive to painful point-pressure, to allow for inhibition of non-permitted behavioral responses through punishment in this area. An object placed in this area, having dull-tipped 'cat's claws' extendable on command, provides a reliable means of behavioral control. 12 Where such 'cat's claws' are extended in response to local overall pressure increase (as from prostatic muscle sheath contraction due to orgasm), the device is able to fully prohibit orgasm under any circumstances. INTRODUCING THE BLUE BALLS MALE APPLIANCE Our team at the DHM Sexual Management Technology Division were able to design a device incorporating all of our findings on male sexual function. <photo of the device> [Fig 1. The Blue Balls Male Appliance] It is very compact. It looks like a small bent dumbell plus a short string of varying diameter beads attached cross-wise to the center of the dumbell 'bar'. Small supple tubes extend a few centimeters from the ends of the dumbell 'weights'. <more descrip> It is all the same colour - bright blue. Inserted with a special applicator tool, it is pushed up the urethra. Once the 'beaded tube' section is in place within the prostate, the side dumbell bars are each pushed into one of the seminal outlets, then two fine 'return' tubes are extended from the ends of the dumbell further up the seminal ducts and into the lower chambers of the seminal vesicles. Once everything is in place, the applicator injects a resin under pressure into the interior channels of the device, that expand parts of it and stiffens others. The balls inside the lower seminal ducts expand to about 5mm diameter, and their upper end transforms into a flower-like flexible seal that conforms to the inner shape of the duct, whether it is constricted, or dilated with seminal fluid during ejaculation contractions. This seal absolutely prevents any fluid from escaping into the urethra, regardless of contractile pressure. During resin setting the shaft holding the two vesicle seal balls apart and attaching them to the beaded trans-prostate tube stiffens in the shape it is in, conforming to the wearer's body. The beaded tube sitting within the prostate has annular tyres along its length, that expand to seal tightly against the urethal walls within the length of the prostate. This component's final shape is profiled to achieve dual effects. Firstly it alters fluid dynamics within the prostate's tissues during prostate sheath contraction, preventing prostatic fluid from ejecting into the urethra. Secondly, during the peristalitic contractions of ejaculation, the urethral tissues within the prostate are massaged against the knobby surface of the device, stimulating the nerves which normally report the pleasurable sensation of ejaculation fluid pulses passing in the urethra. The resulting sensory perception during orgasm is of an exceptionally large volume of ejaculate passing into and along the upper urethra on each contraction, when in fact no fluid at all is escaping. The body of the beaded tube also contains the 'cat's claw' extensible points, and a self-contained hydraulic actuation system. A compressible reservoir senses overall pressure on the device. Fluid from the reservoir passes via a single open-shut bi-stable valve, to the claw extension hydraulic actuators. If the valve is open, the claws extend immediately pressure is applied. If closed, extension does not occur. The valve can be opened or closed via the 'BB-Mon' accessory, or opened by applying finger-tip pressure to a point on the BB-X03 accessible via the rectum. Once resin-setting is complete, the applicator is detached from the device and withdrawn. Without reuse of the applicator, the device cannot be removed. The only way to remove it, is to reattach the applicator and inject a catalytic solvent that dissolves the set resin, making the device shrink and become flexible again. It can then be extracted from the body with only mild discomfort, as the seminal seals pull free from the duct that over time has adapted to their presence. Normal functioning of orgasm and ejaculation are available from immediately to a few days, depending on the contents pressure selected to be left in the seminal vesicles at the time of BB-X03 removal. Note that any of the available seminal replenishment options may be chosen at that time, including gelling, over-fill, Cializ, etc. The 'beaded tube' through the prostate has a hollow central passage, allowing urination. The lower end of this stucture has a self-aligning click-fit connector to which the applicator is originally attached, and to which other accessories can be easily attached and locked in place by pushing them into the urethra until the 'click' is felt. Once attached, the junction is locked together until released via the keylocked control on the external part of the accessory. The connector also provides several electrical contacts, from conductive rings around the periphery of each of the 'beads'. These allow for both monitoring of electrical signals due to muscular contractions, and direct electro-stimulation of the prostatic muscular sheath in various patterns. Within the seminal ducts, the small 'return' tubes extend from the center of the dumbell seals, like the stamen from a flower. Within the flower small openings combine to a passage that passes via a valve to the root of the 'return' tube. During ejaculatory contractions the prostate sheath is 'milking' downwards on the lower seminal duct, pushing fluid downwards towards the urethra. However with the duct outlet blocked by the dumbell flower, the fluid is forced into the 'return' tube via the valve. Fluid then travels back up inside the tube (which cannot be compressed by the peristaltic contractions) and is returned to the lower region of the seminal vesicles, increasing the transient local pressure in this area. From here, fluid is immediately available and under pressure to return to the lower seminal duct as soon as the current muscular constriction on the duct relaxes. One of the primary autonomic neural feedback loops operating during orgasm, involves dilation sensors throughout the seminal duct. This loop strongly influences the primary ejaculation contraction cycling, and also passes signals to the brain that are perceived as orgasm progression, intensity and other aspects such as need, anticipation, contraction effort, etc. These signals are also directly wired to the brain's pleasure centers, and even at normal orgasm intensity are responsible for much of the mental functional incapacitation during orgasm. The seminal duct sensors are responsive to both static and dynamic dilation, with dynamic changes producing much stronger signals than static dilation. Usually, the seminal ducts are constricted by their own elasticity. Over time, increasing seminal fluid pressure begins to dilate more of the duct, progressively downwards from the seminal vesicles. This dilation is consciously perceived as increasing sexual frustration and need to ejaculate, as well as lowering erection trigger threshhold. As seminal (and prostate) fluid pressures increase, the seminal duct dilation advances, which also result in greater sensitivity to dynamic variations resulting from random movements, blood pulsing, and pressure variations transmitted via an erection. Ultimately, in the absense of induced orgasm, seminal pressure increases to the point where static dilation signals and heightened dynamic sensitivity of the ducts is so great that feedback sets in between the sexual contractile enervation and the duct dynamic dilation sensors, resulting in the spontaneous ejaculation of a nocturnal emission. During ejaculation, on each relaxation of the prostate sheath fluids initially flow down into the uncompressed seminal duct due to pressure originating from elastic tension of the seminal vesicles. The rate of dilation of the ducts by replacement seminal fluid in this phase is perceived as 'readyness/need/anticipation', with the implications of orgasm continuity (vesicle reservoirs readily re-supplying fluid) or orgasm ending (replenishment rate from reservoir diminishing below orgasm maintenance threshold.) If enough fluid inflows quickly enough to maintain the orgasm, the next contraction begins. This milks fluid downwards in the dilated seminal duct, increasing pressure/dilation in the lower regions of the duct, before forcing fluid via the elastic outlets into the urethra. The suddenly increased dilation/pressure in the lower duct is perceived as a pleasure wave of the contraction, and the rate of decline of the dilation/pressure is proportional to the perceived 'effort' of the contraction. There is an immediate feedback loop with the muscular enervation, such that contraction is regulated to produce an approximately uniform duration of time required to squeeze the dilated duct down to empty. Thus an initially fuller duct produces a perceived greater (more intense) contraction effort, while with lessening duct re-fills the contractions become weaker. Near the end of each contraction there is a phase of 'achievement/satisfaction', blending into the 'anticipation' phase before the next pulse begins. At one time it was thought that the male refractory interval underlying effectors were the signaling hormone oxytocin and/or prolactin, released during orgasm. Later during more directed studies it became clear that these are secondary effects, with primary control being via signalling complexes related to the state of dilation of the seminal duct tissues. The evolutionary benefit was a system that 'enforced' conservation of stored semen reserves for later opportunities for impregnation. The primary mechanism involves the high viscosity of seminal fluid stored in the vesicles, combined with their length and labyrinthine structure. Evolution also packed the seminal vesicles in between the rear bladder wall and the lower bowel, where other regular internal movements aid in slowly mobilising seminal reserves stored deeply in the vesicles, via a fairly direct massaging effect. This is not directly perceptible to the individual, however the result is that after ejaculation, over time older seminal reserves seep out from deeper in the vessicles, and become available as a dilating pressure in the lower seminal ducts. All the ready vs refractory signalling that occurs is simply reporting the full vs empty status of these ducts. In summary, fluids are moved downwards in the seminal ducts first by elastic pressure, then by prostatic contraction. The resulting rest state dilation of the seminal ducts, and the rate at which this rises then falls during orgasm as fluid escapes to the urethra, provide many of the behaviours and perceived sensations of sexual need and ejaculation, including the anticipation/effort/satisfaction repeating cycle of the contractions. This system (which is central to male sexual mechanics, and ultimately drives all males socio-sexual release-seeking behaviour) depends on the dynamics of how fluid pressure and dilation in the lower seminal duct respond to influences. Effectively, all male socio-sexual drives are derived from the functioning of a very simple viscious hydraulics mechanism, occupying a few cubic inches within the lowest area of the abdominal cavity. With the BB-X03 fitted, these dynamics are radically altered:1. While the presence of the dumbell-flowers expanded in the very lowest portion of the ducts (within the volume of the prostate) is not consciously perceived directly, they induce a strong awareness of a 'need to ejaculate' urgency in the conscious mind. It is described as something like an itch, only non-localised and with the desired 'scratch' being an ejaculation. Erection triggering sensitivity is greatly enhanced, and the 'itch' is intrusive, persistent for the duration of BB-X03 wearing, and almost impossible to mask via distraction. Even with fully drained seminal reservoirs, this 'itch' effect has been quantified via questionaire survey, double-blind behavioral profiling and spontaneous erection frequency as statistically equivalent to an average 18yo male's sexual discomfort after 3.7 (+/-0.4) weeks of total emission-denial, subsequent to a baseline one-month interval of twice-per-day optimal vaginal intercourse to ejaculation. 2. During ejaculation contractions, fluid squeezed downwards in the seminal ducts meets the obstruction of the dumbell flower-seal. The only fluid outlet is via the valve within the dumbell, thence the return tubes back to the vesicles (which do not have contractile muscle sheaths, but only the elastic tension of their walls.) The valve opening is adjustable to allow a wide variation in rate of return flow of seminal fluid, from fully closed to fully open. When fully closed, the trapped fluid is confined to a shorter and shorter length of duct immediately behind the flower-seal as each peristaltic contraction proceeds. The flower seal dilates to maintain the duct seal, but in doing so produces a leveraged greater dilation at the point of seal. Due to the greater than normal dilation, and the absense of any dilation reduction as the contraction persists, the muscular feedback loop ramps up contraction strength attempting to achieve typical' ejaculate pulse durations, even as the actual contraction pulse duration remains in the upper bounds producible by the orgasm control nerve structures due to there being no 'completion' of each pulse. The perceived effect is of mind-blowingly powerful long contraction/pleasure waves with very great perceived 'effort', but with virtually zero 'satisfaction' as each wave tails off, or any of the 'anticipation' between the waves as fresh fluid re-dilates the emptied duct - since they remain highly dilated. Over successive contractions, the seminal ducts are pumped fuller with fluid, reaching a maximum in which the duct is at the limit of its dilation under the available muscular power, and the small reflow back to the vesicles on relaxation equals the inflow at the start of contraction. Depending on fullness, muscular fitness, and other factors, dilation may reach painful levels. In which case the contractions become shortened and attenuated by pain-avoidance lower-spine reflex. In rare cases the pain can rapidly terminate the ejaculation cycle, however usually a pain vs contraction strength and pleasure balance is achieved and the ejaculation continues, albeit painfully. If semen availability is low, the duct equilibrium state may never reach maximum dilation, and the orgasm perception will be generally lesser, though with the same absense of 'anticipation' and 'satisfaction'. With the valve partly open but allowing slower fluid escape than would normally occur to the urethra, pressure decline during each contraction is considerably slower than during normal ejaculation. Resulting in a wearer's perception of increased 'work' in the ejaculatory contraction phase. Each contraction extends until the duct nerves signal the duct is 'empty', and the regulatory nerve ganglia attempt to intensify muscular contraction strength to achieve something similar to 'usual' contraction duration. Thus with the limited seminal escape path via the return tube, each contraction is considerably longer than customary and more intense than with standard orgasm. With valve adjustment it is generally possible to achieve up to five times longer per contraction. Beyond that the ejaculation control nerves typically cycle contractions before the duct is fully emptied. In addition, the rate of re-dilation of the duct with seminal fluid once a contraction ends, is greater than usual with standard ejaculation. In normal orgasm, even after the first contraction there is not as much fluid resupply pressure as initially. However with all fluid being returned to the vesicles, the 'refill' rate after the first contraction ends (assuming full vesicles) is approximately 50% faster than in normal orgasm. On subsequent cycles it tends to increase even more, as more fluids are mobilized from deeper in the seminal vesicles, and the viscosity is lowered due to agitation. It is the greatly enhanced 'refill' rate that produces the most dramatic effects of the unit, both functional and perceived. Refill dilation of the lower seminal duct within the postate appears to be the primary factor in central nervous system maintenance of the orgasm complex. With normal ejaculation the orgasm ends when refill rates reduce below a threshold. Refill rate is also consciously perceived during orgasm as a rate-proportional sensation of 'pleasurable filling' and associated anticipation of impending contraction. With the higher and persistent refill rate, all these sensations are intensified. More significantly, this and other heightened contributions to orgasm including the dumbell/flower induced persistent 'need', the flower-plug's leveraged dilation of the seminal duct on each contraction, prostatic massaging by the urethral insert, and adjustment of the seminal fluid reflow valve for extended contraction effort, orgasm and ejaculatory contraction cycling continues until longer term factors such as muscular fatigue, mental exhaustion, or guardian intervention come into play. With healthy, fit individuals, depending on sexual characteristics and practiced ability to sleep, eat, etc regardless, in most cases ejaculation can continue indefinitely. This is 'ejaculum continua', a male sexual response unknown before development of the BB series appliances. IN SUMMARY The device prevents any escape of seminal fluids, resulting in a buildup that over time increases ejaculatory urgency, enlarges seminal vesicle capacity, promotes priapism, reduces stimulatory margin to orgasm, and produces greatly increased mental sexual focus. During orgasm, the device co-opts the neuro-physiological systems which regulate orgasm, and which normally terminate ejaculation after a small number of contraction cycles in order to preserve a reservoir of semen for later copulation opportunities. The device alters the fluid dynamics component of the regulation loops, resulting in greatly intensified wearer perception of orgasm, and orgasms that do not self-terminate over extended intervals. Since the seminal structures do not empty on orgasm, there is no refractory period and no reduction of ejaculatory urgency post orgasm. Thus repeat orgasms can be induced in quick succession. When the 'cat's claws' are enabled, the device effectively prevents orgasm, by immediately applying pain in response to the muscular contractions of ejaculation. ACCESSORIES A number of accessory attachments have been developed for use in conjunction with the BB-X03. * BB-Insert. Not available to the public. <photo redacted> * BB-Mon. This has a relatively long flexible connection to the BB-X03, allowing access even when the wearer has an erection, and during exercising. The unit allows for adjustment of the seminal return valve opening, opening or closing the urine outlet, and hydraulic access to the seminal return tubes. This permits seminal pressure measuring and adjustment by adding or extracting fluids. The unit is entirely mechanical in operation, though electrical connections with the BB-X03 inter-prostate electro-stim pads are brought out to a connector on the control unit, allowing an electrical sensor/stimulator unit to be added if required. BB-Ban, Rod and Cage all have identical electro-stim connectors at their apex, though only BB-Mon has the seminal pressure monitor and return valve adjustment capability. Fig %%% BB-Mon * BB-Ban. A short, flexible but fixed-length tube, with a cup-like termination at the outer end. In use the tube is inserted to the urethra and coupled to the BB-X03 while the subject is flacid. The cup fits over the penis glans, reducing the flacid penis length and pulling the glans closer to the body. Erection pressure cannot overcome the penis length restraint imposed by the internally anchored BB-X03, non-elastic tube, and cup. Erection pressure against the cup also translates to internal discomfort as the BB-X03 pulls against its points of anchorage, and also causes the cat's claw points to extend in proportion to the pull. This discomfort is easily sufficient to inhibit further development of the erection reflex. Removal of the BB-Ban unit automatically closes the cat's claw control valve, thus permitting orgasm. Urination as normal is possible via the tube. Fig %%% BB-Ban * BB-Rod. A rigid metal tube, mostly straight, with a curve in the lower section towards the BB-X03 mating connector, that matches the curve of the urethra descending into the perineum and then ascending to the prostate. In use the Rod is manoevered into place through the urethra (penis must be flacid) till the connector mates. Now the straight section is rotated up to closely parallel the stomach. The upper end of the Rod consists of a small ring, that locks into a slot on a rigid waist band. The band and the Rod-slot both lock in place with a single key. An alternative means of securing the Rod end, is a piercing of the belly button and fitting a lockable anchor for the upper end of the Rod. Once fitted, the wearer is able to achieve a full erection, but the penis shaft is constrained to follow the straight form of the inner Rod, and is held closely upright against the lower abdomen. This provides for a constrained form of erection display, completely eliminates penile 'flag waving' during ejaculation exercising (though some length pulsations will still be seen), prevents any possibility of penetrating intercourse, and greatly restricts possible forms of penile stimulation. Fig %%% BB-Rod * BB-Cage. The internal structure of Cage is similar to Rod, in that the tubing is rigid, the upper section is straight, while the lower section curves upwards inside the body to mate with the BB-X03 as an anchor. The length is again sufficient to allow a full erection, and the upper end has a fastening point that may be attached to a belt or belly button piercing. However with Cage, the upper end is also rigidly attached to a cylindrical stainless steel barred cage, that descends around the penis to a second point of attachment formed by a lockable ring around the scrotum, above the testicles. Thus the penis (erect or soft) is confined to the center of this cage. Under no circumstances can any part of the penis touch the walls of the cage, or be manually touched due to the surrounding cage and the small size of the openings between the bars. Fig %%% BB-Cage * BB-Glow. This is a clear, flexible urethral insert that attaches to the BB-X03. The length is specified on order to be slightly less than the subject's erection length. In use, when the penis is flacid the Firefly extends from the penis tip, allowing disconnection from the BB-X03. When erect, the Firefly is fully hidden within the shaft of the erection. The unit contacts the seminal pressure-sense capiliary, and continually monitors for prostate contractions. It contains a small but high capacity Li-ion rechargable cell, powering the contained circuitry. When a prostate contraction is detected, multi-color high brightness LEDs along the length of the insert flash in patterns generated in time to the prostatic contractions. These lights are visible through the flesh of the penis. The result is a kind of penis disco lightshow, in beat time to the wearer's orgasm contractions. Fig %%% BB-Glow