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Case Report | DOI: https://doi.org/10.31579/2690-1897/023
Director, Relevium Labs, Inc., 4663 Katie Lane, Oxford, Ohio, 45056, USA
*Corresponding Author: Brent Reider, Director, Relevium Labs, Inc., 4663 Katie Lane, Oxford, Ohio, 45056, USA
Citation: Reider B. (2020) Medical Imaging Enfranchising the Patient for Better Feedback and Life-Long Wellness:
From Female Pelvic Floor Control to Orgasm. Journal of Surgical Case Reports and Images, 3(3): Doi: 10.31579/2690-1897/023
Copyright: © 2020. : Brent Reider. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
Received: 02 February 2020 | Accepted: 05 March 2020 | Published: 10 March 2020
Keywords: A Spot; Clitoral Gland; Clitoral Bulb; Clitoris; Clitourethrovaginal Complex; Female Ejaculation; Female Prostate; G Spot; Gräfenberg Spot; Gushing; K Spot; O Spot; P Spot; Procedural Memory; Squirting; U Spot; Vagina; Vulva; Yarlap
Image design for healthcare instruction must be attuned to the way we learn and the formulation of our abstract knowledge. Images for a manual on how to use a medical device will differ significantly in presentation from images that are intended as guidance on how to improve corporal performance. Images for the former will rely on intentional recollection of life experiences, learned concepts and facts as tools. While not mutually exclusive, images for the latter should be designed to consciously work with procedural memory to improve bodily performance. The images in this article demonstrate this by imaging the relationship between the pelvic floor muscles, clitoris and demarking “Spots” indicated for sexual arousal. Qualitative data suggests that many individuals know little about the interactive relationship between the clitoris, pelvic floor muscles and the female orgasm. Social and educational venues are inadequate, and in some cases misleading. The use of appropriate images conveys meaning very effectively. So whether imaging for a medical condition, procedure (e.g., surgery) or device to enfranchise the patient in their wellness the individual’s experience and proclivity for learning must be considered. If the images are effectively planned and executed, images can play an important role in involving the patients in their wellness. Enfranchising the patient into the process can improve patient feedback therein contributing to advancements in medical procedure and device usage.
The sequence of images is guidance based upon a woman’s innate understanding of her body, so that she may move to a higher state of knowledge where her body performs better. Further, if her mind is inspired by the success, then her body could proceed beyond the achieved state repeatedly. The data confirms this performance structure. Women who score high for pelvic floor strength and coordination report high sexual functioning and genital perception.
Research indicates positive sexual performance and sexual expression are closely related with overall quality of life. Emotionally, sexual activity lowers the incident of depression and stress and supports self-esteem and intimacy. Physically, sexual activity can reduce the risk of heart disease and stroke, bolster the immune system, and help manage the body posture and pain, improve sleep and can even help individuals appear more youthful. For women, sex stimulates the vagina’s natural lubricant and increases blood flow to keep the genitalia tissues healthy and strong (whipple et al., 2007). Pelvic floor muscle tone improves sexual performance, sexual expression, and bladder control, and images can be highly effective tools in helping women better understand the improvement of their bodily performance.
A sequence of images to incite arousal is guidance that must follow a woman’s inherent understanding of her body. The images will differ than ones that would be used for the use of a medical device. Data reveals women who score high for pelvic floor strength and coordination report high sexual functioning and genital perception (Cacciari et al, 2017), but it suggests that many women know little about the interactive relationship between the clitoris, pelvic floor muscles and the female orgasm. The images in this article demonstrate clitourethrovaginal relationship by imaging the relationship between the pelvic floor muscles, clitoris and demarking “Spots” indicated for sexual arousal. If her mind is inspired by the success, then her body could proceed beyond the achieved state repeatedly.
The muscles of the female pelvic floor are inside the pelvis and run along the floor of the abdominal cavity creating the pelvic and urogenital diaphragm. The primary function of the pelvic floor muscles, including the pubococcygeus muscle, is postural. They play an essential role in the dynamic stability of the musculoskeletal structure, working with the muscles of the spine, lower back and thighs to move the weight of the upper body to our heals (Pel et al., 2008). and they hold our visceral organs in their correct natural position (vagina, urethra, and the anus) (Kegel & Powell, 1950; Peters, 2000). As such, pelvic muscle tone affects continence (Dumoulin et al., 2014; Pandey et al., 2019). Importantly, the pelvic floor muscles play a critical role in childbirth (Hilde et al., 2013), sexual expression and sexual performance (Whipple et al, 2007: Gianotten et al., 2007), including the eurythmic pelvic muscle contractions experienced during orgasm (Bartlik et al. 2010).
The orgasm in the human female is a variable. The pleasure centers that provoke the orgasm and the following muscle reactions appear to depend on the type of stimulation, routing of the stimuli, muscle tone, and include the significant differences in vaginal anatomy that exists among women (Jannini et al., 2014). The shear variety in non-genital orgasms, those incited by imagination and/or stimulation running throughout the body (Komisaruk & Whipple, 1998), including nipples, lips, mouth, anus, rectum, prostate, other body parts and even on phantom limbs (Komisaruk & Whipple, 2011), indicates the orgasm is not intromission specific. Indeed, the reflexive muscle contraction-release sequence of the human female may be as layered and complex as the theories surrounding them (Levin & Wagner, 1982), from contractions (Masters & Johnson 1966; Fisher 1973; Hite, 1973), to a
physiological excitatory response capable of inciting a meditative-like state (e.g., like floating on a cloud) (Davidson, 1980). Furthermore, women who experience multiple orgasms do so because their brains continue to receive signals from the genitals after orgasm and because the nerve pathways from the clitoris to the brain differ from those from the vagina to the brain (Komisaruk & Whipple, 1994; Komisaruk & Whipple, 1995), perhaps resulting in different perceptions to stimulation (Komisaruk et al., 1972). Simply, sexual intercourse is far from the exclusive pathway to female orgasm (Lloyd, 2005), and no definitive explanations for what triggers orgasm for the human female have been offered (Meston, 2004). Conditions for the female orgasm and features for orgasmic intensity can be trust and security (Singer & Singer, 1978; Fox et al., 1970). Since these conditions are difficult to represent in art and problematic to reproduce in the laboratory they are not in the preview of this manuscript nor intimated in the images presented in this work.
Dr. Kegel (pronounced: Kay-gl) observed “sexual feeling within the vagina is closely related to muscle tone, and can be improved through muscle education and resistive exercise (Kegel, 1952).” A relationship between muscle tone and the female orgasm is proven by measuring the pelvic muscle strength of women who experience female ejaculation (Perry & Whipple, 1981) – an ancient normal and pleasurable phenomenon for some women (female ejaculate differs in chemistry and scent from urine) (Korda et al, 2010; Zaviacic, 1999; Belzer et al, 1984). While stimulation of the clitoris, directly or indirectly, is the sole noncontroversial effective trigger of female orgasm (Jannini, 2012), the measurement of muscle tone to incite orgasm suggests other trigger points, including the “A” Spot and “G” Spot – the latter named (by Dr. B. Whipple) for Dr. E. Gräfenberg who first documented the sensitive site and suggested two possible separate reflexive pathways involved in the orgasm. The pubococeygeus muscle of the pelvic floor receives its innervation from the pudendal nerve (which also serves the clitoris), while the third of the pubococeygeus as well as the bladder and uterus are served by the pelvic nerve (Perry & Whipple 1981). Peripheral serotonin may also regulate the sensory threshold during genital stimulation (Marson, 2017). Other sensitive areas are acknowledged, like the “A” Spot, “K” Spot, “P” Spot, “O” Spot and “U” Spot, but reliable technique for arousal at any spot appears to diminish as distance from the clitourethrovaginal complex. The clitoral gland is the only visible part of an extensive clitourethrovaginal complex that bifurcates twice as its structure runs along the pelvic floor; first the corpus cavernosum (each branch extending toward the nearest hip) and then at the clitoral bulb (surrounding the vagina on three sides, close but perhaps not touching the wall of the vagina’s cervix) (Reider, 2016). Indeed some researchers regard “G” Spot not a distinct anatomical entity but as a functional unit in arousal as the clitourethrovaginal complex.
Studies suggest approximately 10% to 33% of women ejaculate prostatic fluid when aroused (e.g., 0.3m L to 150mL; 60 ml thought to be the most common volume) (Wimpissinger et al., 2013). It is difficult to ascertain how many women ejaculate, in part because women are often chastened for “Squirting” because the phenomenon it either thought to be disproportionate vaginal lubrication or female urinary incontinence (Pastor & Chmel, 2018; Jackman, 1979). Loss of urinary control is often assumed because it is estimated that approximately half of all women experience some loss of pelvic floor muscle tone from non-use, injury or strain. The loss of tone leading to female urinary incontinence includes many normal lifetime activities like childbirth, muscle strain from heavy lifting (e.g., women working in warehouses) and repetitive impact from sports (e.g., running or horseback riding) (Beck et al., 1991). Incontinence symptoms are rarely reported by women because the outcomes are intensely personal and often prompt emotional burdens of shame and embarrassment (Newman et al., 2009; Bedretdinova et al., 2016), as well as low self-esteem and it may diminish sexual activity (Thakar & Stanton, 2002). Abstinence from sexual activity may only make the situation worse, so it is best women see professional diagnosis that includes a sample of the fluid (ejaculate tests may show creatinine, uric acid, and prostatic‐specific antigen) (Salama et al., 2015). Fortunately, pelvic floor muscle re-education can treat female urinary incontinence (FDA, 2015; Newman et al., 2009) and indications suggest improved pelvic floor muscle tone has positive effect in the treatment of organ prolapse (Bø, 2006). Consequently, some women take measures to mitigate their ejaculatory response. A reported measure is to limit the intake of fluids, conflating the perception that the ejaculatory response is female urinary incontinence. Ejaculation can return if desired by the woman and encouraged by the partner (Tollison & Adams, 1979).
Pelvic floor muscle training, including muscle re-education following non-use, injury or strain, universally referred to as Kegel exercises, changes muscle morphology by increasing the cross-sectional area, improves neuromuscular function by increasing the number of activated motor neurons and their frequency of excitation, and therein improves the muscles ability to contract and relax with effective control (DiNublie, 1991). Consequently, pelvic floor muscles can be trained beyond structural support of the visceral organs, upper body and tightening around the urethra, the vagina, and the rectum (DeLancey, 1990; Bø et al., 2001). History (Korda et al, 2010; Shakespeare, 1592) and clinical data indicates that coordinated training of the pelvic floor muscles promotes improved symmetric distribution of pressure throughout the vaginal canal which results in the ability of the woman to willfully change the symmetry of the spatiotemporal pressure distribution in the vaginal canal (Cacciari et al., 2017). The ability of the woman to clench, release and sustain waveform pelvic floor muscle contractions is known across many cultures by many names, such as Pompoir, Kabazza and Yin-yang Butterfly.
Unfortunately, clinical data suggests a significant number of women find it difficult or nearly impossible to tone their pelvic floor muscles with patient-initiated Kegel exercises (Bump et al., 1991). As with any exercise, pelvic floor exercises must be properly performed. To overcome this limitation and significantly increase patient compliance, a medical device can be used to transmit a mild electronic impulse to the pelvic floor muscles. These mild impulses instruct the muscles to work and rest safely with clinically proven results. The muscle toning technology is often termed AutoKegelÒ and it is not bio-feedback technology. Bio-feedback devices measure self-initiated muscle action and if the wrong muscles are being used in exercise, bio-feedback will still measure muscle action.
In a recent study of women looking at an image of a vulva, 71% could identify the clitoral bulb. But only slightly more than half were able to the labia (57%) or the vaginal opening (55%). Less than half could find the urethra (45%). Similarly, many women wonder if their genitalia look “normal.” There really is no normal and there is a wide range of appearances in a healthy vulva. Half the women did not realize their vagina was self-cleaning and a third (33%) thought it should be washed on a daily basis, not realizing the vagina contains a large amount of good bacteria that keeps the area healthy. Washing inside the vagina – even just with water – damages the natural balance of bacteria and is highly likely to lead to infections (Waldersee, 2019).
Women who have accurate perception of their genitalia and understand sexual function have much better sexual performance and sexual expression than women who do not. The clitoral gland can be identified by approximately 71% of the female population. However, few understand the clitoral gland is the visible part of the organ, which runs along the pelvic floor muscles. Moving front to back, the clitoral gland meets the clitoral corpus cavernosum which bifurcates with each branch extending toward the nearest hip. Then comes the clitoral bulb close but perhaps not touching the wall of the vagina’s cervix. The Clitoral bulb surrounds the vagina on three sides - a “U” shape that can be wide open at the top or extending around the vaginal opening as if to close the top of the “U” so it is more “O” like and very near the anus (the anus passes through the pelvic floor muscles). The entire clitoral organ, not just the visible part, is the sole noncontroversial effective trigger of female orgasm. Hence, the close proximity of the different organs in the clitourethrovaginal complex demonstrates their effective interaction to sexual arousal in the woman and the recognition of identified point of arousal along the entire complex.
Nearly 51% of women indicate stimulation of the “G” Spot is an effective means of arousal. The “G”- spot is near the female prostate. Not all women appear to have the gland(s) that produces the seminal fluid found in ejaculate or the Skene’s glands, which may emit the ejaculate located near the urethra. Proximity to the urethra and differences in individual anatomy may be cause for different reports on female ejaculation. Yet while, the percentage of the population that experience female ejaculation is difficult to ascertain, women who report their “squirting” find it extremely pleasurable (Wimpissinger et al., 2013). Overall, women’s knowledge of their vaginal lubrication and ejaculate, 44% did not know the origin of their fluid emissions during orgasm, and 23
The way we learn and the formulation of our abstract knowledge is determined by our body (Piaget, 1971). Epistemologically, procedural memory is embodied and helps people performing certain tasks without conscious awareness of the previous experiences. Explicit memory refers to the conscious, intentional recollection of life experiences, learned concepts and information (e.g., facts) (Ullman, 2004). The difference may be compared to one’s knowing how to ride a bicycle and one’s explaining to someone else how to ride.” While not mutually exclusive, instructions and images for a medical device are generally episodic (i.e., to achieve a set task effectively). Indeed, facts themselves are tools and evolve (i.e., what we know as facts today may be different in the future as we know more). Whereas the images in this article are designed to work with a woman’s procedural memory; starting from an innate understanding of her body, moving to a higher state of knowledge using the information here expressed with images to where her body performs more than it did before (i.e., better) and again proceeding from the achieved state to a superior one. The data confirms this performance structure because women who score high for pelvic floor strength and coordination report high sexual functioning and genital perception (Cacciari et al., 2017).
Most woman will have an innate procedural memory sense of her body’s drive for sexual arousal. Stimulation to orgasm is highly varied and orgasm is not intromission specific. While orgasm is not universal among human females (at least 10% of women never report having achieved orgasm) (Wallen & Lloyd, 2011), women are capable of experiencing orgasm before their menses and long after menarche. Without the intent of becoming pregnant, many women strive to achieve orgasm (Lloyd, 2006). The data bears this out. Most women know the location of their clitoris (the primary effective trigger of female orgasm) (Jannini et al., 2012) followed by the vagina and popularly recognized “Spots” for arousal - generally near the clitourethrovaginal complex. An image of the clitoris can be expressed in a number of ways.
It is proposed that life size three dimensional models of individual organs might help women understand their bodies. One such project uses to scale three dimensional images of the clitoris to explain the size and shape of the organ. It can reproduce a three dimensional model from a three dimensional printer (Russo, 2017). However, a three dimensional model in itself does not show the organ in its position or help the lay-person understand size and location. These limitations can be overcome with two dimensional design. Plus, a series of two dimensional images can be used to anchor the organs to an easily understood reference point on the exterior of the body, like the vulva, for the lay-person. A large number cannot even identify the organ’s location on the external part of the body (e.g. only half could identify the vaginal opening in an image of the vulva). To aid the lay-person, the parts of the vulva can be illustrated as if viewed from the outside, then in a series of drawings moving inward to specific points as illustrated in the series of images in this article.
Qualitative data suggest that many women in the target audience find medical jargon perplexing and medical images equally disengaging. Biophilic design choices, including color, appear to boost the activity of the parasympathetic nervous system, thereby decreasing stress levels and encouraging a general sense of well-being (Tsunetsugu et al., 2007). Colors can define spatial relationships. Perhaps biophilic design choices may even help comprehension because humans are extremely adept at building a framework of understanding suggested in an abstract image (Piaget, 1973; Peterson, 1999). The way we register color is in part a cultural preconception. For example we will associate the color red with blood or muscle. Colors have an instinctive psychological resonance (Wiggins, 2016). The way we actually see color is important in their use as a tool. Retinal cones, which register color are most concentrated at the center of the eye and wain towards the outer edges. So for maximum effect, active colors (yellows, reds, and oranges) should be placed in the center or where creativity and socialization is a desired emphasis. The less bright colors (dark green, dark blue, dark brown) are ideally placed at the edges (Sharpe, 1974). Also, mentally registering color requires a significant amount of neuroprocessing. Color is effective in patient gaming therapy for that reason (McGonigal, 2015). It can help make the therapy/learning more fully engaging because it demands to much mental focus. Expertise in medical gaming of the author of this article is fully concordant with the data (Reider, 2019). The use of color in medical images and diagrams is not prohibitive for women because only a small percentage of women are colorblind (approximate 0.5% of all females).
Like the application of color, the layout be attuned to the audience. The final product is a document for women who are literate, interested in pelvic wellness, conscientious and generally un-familiar with medical terminology. A majority will read either English (79%), or a Romance language (18%). Their eyes will instinctively scan the page left to right so the “F” Style eye scan page layout is most effective (Nielsen, 2006). If one wants the reader to read the text first, then predominantly, the text should appear on the left and the image(s) to the right. If the final document were a call to action in electronic media (e.g., sales promotion), the page layout would be in a “Z” pattern (Cao, 2015) with the image to the margin.
As you look at the images, perhaps ask yourself if the human female orgasm were primarily reproductive, would not the female orgasm be more intromission-dependent and therein the structure of the clitoris more anatomically mission-focused (e.g., inside the vagina)?
Jung saw the mind/body/feelings (or what we call the psyche), as all working together (Jung, 1981). Images help us construct a map to our dreams so that perhaps in a woman’s sexual function we can become the best our dreams suggest. These images, presented in series, are examples of art designed to engage the way our mind learns to help women undertake a life time of purposeful improvement of their body’s performance to a level of performance they choose.
Image design for lay-person instruction must be attuned to the way we learn and the formulation of our abstract knowledge. Therefore, images for a manual on how to use a medical device will differ significantly in presentation from images that are intended as guidance on how to improve bodily performance. Images for the former will rely on intentional recollection of life experiences, learned concepts and facts as tools. While not mutually exclusive, images for the latter should be designed to consciously work with procedural memory to improve bodily performance. The images in this article demonstrate this by imaging the relationship between the pelvic floor muscles, clitoris and demarking “Spots” indicated for sexual arousal. The sequence of images is guidance based upon a woman’s innate understanding of her body, so that she may move to a higher state of knowledge where her body performs better. Further, if her mind is inspired by the success, then her body could proceed beyond the achieved state repeatedly. The data confirms this performance structure. Women who score high for pelvic floor strength and coordination report high sexual functioning and genital perception.
Images design to engage the patient can be used to enfranchising the patient into the well-ness process and can improve patient feedback contributing to advancements in medical device usage and medical procedures. Consequently, a patient appropriate image is not necessarily anatomically precise. I believe patient involvement is significantly enhanced with images that are designed taking into account the individual’s experience and proclivity for learning.
Clearly Auctoresonline and particularly Psychology and Mental Health Care Journal is dedicated to improving health care services for individuals and populations. The editorial boards' ability to efficiently recognize and share the global importance of health literacy with a variety of stakeholders. Auctoresonline publishing platform can be used to facilitate of optimal client-based services and should be added to health care professionals' repertoire of evidence-based health care resources.
