For decades, the mechanics of the female reproductive system have been a subject of both intense curiosity and frustratingly sparse scientific data. While the male physiological response to climax is widely documented and understood as a singular event, the female experience has remained shrouded in a “research gap” that is only now beginning to close. Among the most debated and misunderstood phenomena is female ejaculation—a biological process that, until recently, was often dismissed as myth or mistaken identity.
However, a surge in modern research and high-tech digital simulations is finally unmasking the truth. Recent studies estimate that between 10 and 54 percent of women experience some form of fluid expulsion during climax. These figures suggest that what was once considered a “fringe” occurrence is actually a significant biological reality for millions. By leveraging advanced modeling and clinical trials, scientists are finally providing a clear, evidence-based look at what actually happens inside the body during these moments of peak physiological intensity.
The French Investigation: Seven Women and a Gynaecological Breakthrough
The journey toward clarity reached a turning point in 2014, led by French gynaecologist Samuel Salama. Recognizing that much of the existing discourse was based on anecdote rather than clinical evidence, Salama and his team recruited seven women for a study specifically designed to capture the mechanics of “squirting” and ejaculation in real-time.
Published in the Journal of Sexual Medicine, this study was revolutionary in its methodology. Researchers utilized ultrasound technology to monitor the bladder and surrounding tissues before and after arousal. The findings were striking: the study revealed that the phenomenon often involves two distinct biological events. This distinction is crucial for medical transparency, as it helps individuals distinguish between different types of fluid release, moving the conversation away from confusion and toward anatomical literacy.

To truly grasp the complexity of this biological marvel, witness this groundbreaking visual breakdown that strips away the myths and reveals the hidden mechanics of the female anatomy.
Decoding the Samples: What Science Found in the “Fluid of Mystery”
One of the most persistent questions in this field of study has been the chemical makeup of the ejaculate. Unlike the male counterpart, which is dominated by semen, the female equivalent was long thought to be a single substance. The Salama study and subsequent simulations have debunked this, revealing a complex chemical signature.

The analysis of samples found consistent waste products typically processed by the kidneys, such as urea, creatinine, and uric acid. However, the most startling discovery was the presence of Prostatic-Specific Antigen (PSA) in six out of seven samples. PSA is an enzyme produced by the prostate gland, and its presence in the female system provides a fascinating link between the sexes. Visually, the simulation describes the fluid as ranging from clear to having the appearance of “fat-free milk,” with volumes varying drastically from person to person. This chemical and visual variety proves that there is no “one size fits all” when it comes to human biology.
The “Female Prostate”: The Hidden Power of the Skene’s Glands
To understand where this fluid originates, one must look at a pair of small ducts located on the front wall of the vagina: the Skene’s glands. Often referred to in medical circles as the “female prostate,” these glands are more than just a biological footnote. They originate from the same embryonic gonadal tissue that develops into the prostate in males.

The Skene’s glands serve a dual purpose. While they are central to the expulsion of fluid during sexual climax, current scientific consensus suggests they also play a vital role in health. They are believed to secrete an antimicrobial fluid that helps protect the urinary tract. During sexual arousal, an increase in blood flow causes the area around these glands to swell, preparing them for secretion. This shared evolutionary origin highlights the sophisticated symmetry of the human reproductive system, showing that “pleasure tissue” often serves protective health functions as well.

For a deep dive into the clinical architecture of pleasure, this expert urological analysis explores the intricate relationship between the G-spot, the female prostate, and the physical triggers of squirting
The Simulation Reveal: A Visual Deep-Dive into the Climax
Digital simulations have become a game-changer for gynaecological transparency. By mapping the internal anatomy in 3D, these models show the step-by-step reaction of the vagina to arousal. As stimulation increases, the simulation visualizes the swelling effect of the Skene’s glands and the surrounding tissue.
The most critical insight from these simulations is the mechanical “how.” It shows that the expulsion is an involuntary muscular response to internal pressure. When the body reaches a state of peak arousal, the pelvic floor muscles contract, triggering the release of fluid from the Skene’s ducts. By seeing this process visualized, many people are able to better understand the involuntary nature of the event, removing the stigma and “performance pressure” that often surrounds discussions of sexual health.
Clinical Consensus: Debunking Myths and Validating Reality

Perhaps the most important takeaway from recent simulations is the definitive separation of orgasm and ejaculation. While they can occur simultaneously, science confirms they are not a “package deal.” A person can experience one without the other, and both experiences are biologically valid.
Normalizing this diversity is a key goal of modern sexual health research. By debunking myths—such as the idea that female ejaculation is purely a “psychological” or “performative” act—doctors are able to provide better care and clearer answers to their patients. The volume, frequency, and even the existence of the phenomenon depend on an individual’s unique anatomical makeup, specifically the size and activity level of their Skene’s glands. Understanding this variation is the first step toward body positivity and medical empowerment.
Final Thoughts
The journey from “mystery” to “simulation” marks a significant victory for science. For the 10 to 54 percent of women who experience this phenomenon, these findings provide a long-awaited validation. For the rest of the world, it offers a fascinating glimpse into the evolution of our species. By stripping away the taboo and focusing on the creatinine, the urea, and the PSA, we find a story of incredible biological design. As research continues to advance, we can expect even more barriers to break, ensuring that gynaecological health remains a field defined by clarity, respect, and evidence-based truth.