Fact-checked by Grok 2 weeks ago

Retrograde ejaculation

Retrograde ejaculation is a condition in which flows backward into the during instead of being expelled through the , due to a of the bladder neck muscles to properly. This results in a "dry ," where little or no is released externally, and it affects approximately 0.3–2% of cases. Although generally harmless and painless, with no impact on the sensation of or erectile function, retrograde ejaculation can impair by preventing from reaching a partner's reproductive tract. The main symptoms include the absence or significant reduction of during , leading to what is commonly described as a dry . Individuals may also observe cloudy shortly after , as the mixes with in the and is passed during the next . These signs often go unnoticed until issues arise, such as difficulty conceiving after one year of unprotected , prompting medical evaluation. The condition does not typically cause pain, discomfort, or changes in sexual pleasure, distinguishing it from other ejaculatory disorders. Retrograde ejaculation arises from disruptions to the neural or muscular mechanisms that ensure the bladder neck closes during . Common causes include surgical procedures, particularly (TURP) for , which can damage the bladder neck and occurs in most cases following such ; however, recent innovations like aquablation have reduced this risk to 10–15%. Neurological disorders like , , , and spinal cord injuries impair nerve signals required for proper muscle function. Certain medications, such as alpha-blockers (e.g., tamsulosin) for or prostate enlargement and some antidepressants, can also relax the bladder neck, contributing to the condition. Diagnosis involves a detailed , of the genitals and , and confirmatory tests like post-ejaculation to detect the presence of in the , indicating retrograde ejaculation. is usually unnecessary unless is an issue; in such cases, discontinuing causative medications or switching to alternatives may resolve symptoms. Pharmacological options, including (up to 240 mg/day in divided doses) or , can restore antegrade in some patients by promoting , though efficacy varies and side effects may occur. For preservation, retrieval from post-ejaculatory —enhanced by techniques like urine alkalization—enables assisted reproductive technologies such as intrauterine insemination or , achieving pregnancy rates of about 15% per cycle. Emerging approaches, including endourethral injections, show promise in improving ejaculatory volume and parameters over 12 months in preliminary studies. The outlook is favorable, with reversibility possible if medication-related, though surgical causes may lead to permanent changes requiring ongoing management.

Background

Definition

Retrograde ejaculation is a medical condition characterized by the redirection of semen into the urinary bladder rather than its expulsion through the urethra during orgasm. This occurs due to the improper closure of the bladder neck, allowing seminal fluid to flow backward instead of forward. The bladder neck, also known as the internal urethral sphincter, plays a critical role in normal ejaculation by contracting to prevent retrograde flow of semen into the bladder. In retrograde ejaculation, dysfunction of this sphincter—often due to anatomic or physiologic factors—fails to maintain closure during the expulsive phase of ejaculation, resulting in semen entering the bladder. The internal urethral sphincter similarly contributes to this barrier, and its impairment can exacerbate the retrograde flow. This condition represents a specific of ejaculatory dysfunction, distinguished by the backward propulsion of rather than other forms such as absent ejaculation () or painful ejaculation (). Unlike premature or , which involve timing issues, retrograde ejaculation primarily affects the direction of seminal emission. The term "retrograde ejaculation" originates from the observed backward (retrograde) flow of , with its earliest documented use appearing in in the , specifically in a 1948 publication in .

Retrograde ejaculation is a relatively uncommon condition in the general male population, with limited community-based estimates suggesting a of less than 1%. However, it accounts for only 0.3% to 2% of cases among men seeking for , where it contributes to or in affected individuals. In specialized cohorts, such as those attending clinics, the condition may appear at rates up to 3.2%, particularly when associated with underlying neurological or surgical factors. Incidence is markedly elevated in specific high-risk groups. Following (TURP), retrograde ejaculation occurs in 65% to 86% of sexually active men, primarily due to disruption of the bladder neck mechanism. Similarly, 70-90% of men experience it after certain procedures for , such as TURP. Among men with diabetes mellitus, prevalence reaches approximately 34% in adults (aged 35-55 years), rising with disease duration due to , while rates of 20% to 50% have been reported for ejaculatory dysfunction broadly in diabetic populations. In men with , ejaculatory disorders including retrograde ejaculation affect up to 35% to 60%, reflecting involvement. Demographically, retrograde ejaculation is more prevalent in men over 40 years of age, particularly those with chronic illnesses such as or neurological conditions, and in post-surgical patients undergoing prostate-related interventions. Limited data as of 2025 suggests consistent patterns across diverse populations, with no major racial or geographic variations reported. Over time, overall prevalence appears stable, but clinical recognition has increased alongside rising global rates of (projected to affect 783 million adults by 2045) and prostate surgeries, which numbered over 200,000 annually in the U.S. as of 2023.

Pathophysiology

Normal Ejaculation Process

Ejaculation is a complex physiological process divided into two main phases: and expulsion. During the phase, seminal fluid components are deposited into the posterior . This involves the propulsion of spermatozoa from the through the , where they mix with fluids from the (contributing approximately 60-70% of volume, rich in ) and the (adding about 25-30%, providing alkalinizing secretions). The neck simultaneously closes to prevent retrograde flow of into the , ensuring antegrade . The expulsion phase follows, characterized by the forceful ejection of through the urethral via rhythmic contractions of perineal muscles, primarily the bulbospongiosus and ischiocavernosus muscles. Neural control is orchestrated by the autonomic and nervous systems. Sympathetic innervation from the T10-L2 spinal segments, mediated through the hypogastric , governs the emission phase, including bladder neck closure and fluid deposition. In contrast, control via the (S2-S4) drives the expulsion phase by stimulating contractions of the . Hormonal influences, particularly testosterone, play a foundational role in maintaining ejaculatory function. As the principal , testosterone supports the structural integrity of reproductive organs and facilitates the ejaculatory reflex through androgen receptors in the medial preoptic area (MPOA) of the and muscles. Adequate testosterone levels are essential for normal and overall , ensuring coordinated neural and muscular responses during .

Mechanism of Retrograde Ejaculation

Retrograde ejaculation occurs due to a failure of the neck sphincter, also known as the , to contract properly during the emission phase of ejaculation. In the normal process, this sphincter closes tightly to direct forward through the , but in retrograde ejaculation, it remains incompetent, allowing to flow backward into the instead of being expelled externally. This primary defect results in semen mixing with urine in the bladder, where it is subsequently excreted during urination, often appearing as cloudy urine post-orgasm. The condition is typically painless, but it leads to potential infertility because sperm are lost into the urinary tract rather than being available for conception. Secondary factors contributing to this mechanism include impaired neural signaling from the , which normally coordinates sphincter contraction via thoracolumbar pathways (T10-L2), or reduced muscle tone in the neck region, rendering the sphincter unable to maintain closure. Additionally, the acidic environment and high osmolality of in the can rapidly diminish and viability upon entry, further impacting potential.

Causes

Neurological Causes

Neurological causes of retrograde ejaculation primarily involve disruptions to the , particularly the sympathetic nerves that control neck closure during , leading to entering the instead of being expelled through the . mellitus is a leading cause, where chronic induces that damages sympathetic nerve fibers originating from the T10-L3 spinal segments, impairing the 's and preventing proper closure. This neuropathy results in retrograde ejaculation in up to 35% of men with long-standing , particularly those aged 35-55 years, contributing significantly to in this population. Multiple sclerosis causes retrograde ejaculation through demyelination of pathways, which disrupts the neural signals required for coordinated sympathetic activation of the bladder neck during . This leads to failure of the bladder neck to contract effectively, allowing reflux into the bladder, and is reported as a common neurogenic in clinical guidelines. Spinal cord injuries, especially those at or above the T12 level, interrupt the sympathetic outflow from the thoracolumbar spinal segments (T10-L2), which are essential for bladder neck and . Complete injuries above T12 often result in a higher incidence of retrograde ejaculation compared to incomplete ones, as the latter may preserve partial neural function, though both can lead to ejaculatory dysfunction in up to 90% of affected men. Parkinson's disease contributes via progressive degeneration of dopaminergic neurons in the substantia nigra, which indirectly affects autonomic regulation and impairs bladder neck coordination during ejaculation. This autonomic dysfunction manifests as retrograde ejaculation in a subset of patients, often alongside other urogenital symptoms. Autonomic dysfunction associated with aging involves gradual degeneration of peripheral nerves and reduced sympathetic tone, which can weaken bladder neck function and predispose to retrograde ejaculation in older men. This is linked to overall and diminished , exacerbating ejaculatory disorders.

Pharmacological Causes

Pharmacological causes of retrograde ejaculation primarily involve medications that disrupt the sympathetic nervous system's role in bladder neck closure during ejaculation, leading to semen entering the instead of being expelled forward. This interference often stems from alpha-adrenergic blockade or alterations in sympathetic tone, which normally contracts the bladder neck to prevent retrograde flow. Alpha-adrenergic blockers, commonly prescribed for (BPH), are among the most frequent culprits due to their relaxation of the bladder neck's . Tamsulosin, a selective alpha-1A blocker, has been associated with abnormal in up to 30% of users in long-term studies, with effects manifesting as reduced or absent ejaculate volume indicative of retrograde flow. , another alpha-blocker used for BPH, shows a lower incidence, with clinical reviews reporting ejaculatory disorders in fewer cases compared to tamsulosin, though it still relaxes prostatic and bladder neck musculature. These effects are dose-dependent and more pronounced with highly selective agents targeting alpha-1A receptors. Antipsychotics and certain antidepressants can also induce retrograde ejaculation by affecting sympathetic tone through alpha-adrenergic antagonism or neurotransmitter modulation. antipsychotics, such as , have been implicated in case reports and reviews for causing retrograde ejaculation via blockade of alpha receptors, disrupting the ejaculatory . antidepressants, while sometimes used to treat retrograde ejaculation due to their alpha-agonist properties, can paradoxically contribute in some patients by altering sympathetic innervation, though this is less common than with antipsychotics. Other medications, including antihypertensives like , which depletes norepinephrine stores and blocks adrenergic transmission, have been reported to cause retrograde ejaculation and decreased counts, often reversible upon cessation. Regarding selective serotonin reuptake inhibitors (SSRIs), while primarily linked to , rare case reports associate certain SSRIs and similar agents like with retrograde ejaculation, and ongoing monitoring highlights potential risks in as of 2024-2025 clinical updates. The condition induced by these pharmacological agents is typically reversible, resolving upon discontinuation of the offending medication, with effects often dose-dependent and appearing within weeks of initiation. Prevalence among men on ranges from 10-20% overall, though higher rates (up to 30%) occur with specifically, underscoring the need for patient counseling on sexual side effects.

Surgical and Anatomical Causes

Surgical procedures involving the and neck are primary iatrogenic causes of retrograde ejaculation, primarily due to disruption of the neck's ability to close during , allowing to enter the instead of exiting through the . (TURP), commonly performed to treat (BPH), results in retrograde ejaculation in 50-90% of cases by incising the and compromising the internal urethral sphincter's function. Similarly, simple for large prostates in BPH can lead to retrograde ejaculation in up to 70% of patients through removal of obstructing that affects neck integrity. Bladder neck incision (BNI) or reconstruction surgeries, used for bladder neck contractures or obstructions, carry a lower but notable , with retrograde ejaculation occurring in approximately 5-27% of cases depending on the extent of incision and age. These procedures intentionally weaken the bladder neck musculature to relieve outflow obstruction, which inadvertently permits reflux during . Congenital anatomical anomalies, though rare, predispose individuals to retrograde ejaculation from birth by altering urethral or bladder neck structure. Bladder exstrophy-epispadias complex (BEEC) is associated with ejaculatory dysfunction in up to 50% of affected adult males due to malformed bladder neck and urethral anatomy, often compounded by strictures or surgical corrections. Urethral strictures, whether congenital or resulting from early trauma, can obstruct antegrade flow and promote retrograde ejaculation by creating high-pressure gradients during emission. Other iatrogenic factors include urethral trauma from instrumentation or accidents, which scars the and impairs closure mechanisms, and for pelvic malignancies like , leading to and retrograde ejaculation in 10-20% of cases over time. Recent advancements as of 2025, particularly in robotic-assisted techniques, have reduced incidence rates. Urethra-sparing robotic simple (US-RASP) preserves antegrade in over 80% of patients compared to 30-50% with conventional methods, by minimizing disruption to ejaculatory ducts and bladder neck. Ejaculation-sparing modifications to TURP and waterjet (Aquablation) further lower risks to under 20%, offering better functional outcomes for fertility-concerned individuals.

Clinical Presentation

Symptoms

The primary symptom of retrograde ejaculation is a dry orgasm, characterized by the absence or significant reduction of expulsion during climax, despite achieving and . This results in little to no visible ejaculate exiting the , often leading individuals to describe the experience as an "empty" or incomplete sensation at the point of release. The orgasmic sensation is typically preserved, allowing for the pleasurable peak of sexual response, though some men report a subtle alteration in feeling, such as reduced intensity or an awkwardness due to the lack of fluid emission. This can sometimes lead to psychological distress or anxiety, particularly regarding or sexual satisfaction. There is no associated with the condition, distinguishing it from other ejaculatory disorders. For men of reproductive age, often emerges as the chief concern, as the redirection of prevents its deposition in the partner's reproductive tract, thereby hindering without external or discomfort. In severe cases, this symptom manifests with every orgasmic event.

Associated Findings

One of the hallmark objective signs of retrograde ejaculation is the appearance of cloudy immediately following , resulting from the mixing of with in the ; this cloudiness typically resolves after the individual voids. Affected individuals often exhibit significantly reduced ejaculate volume during antegrade ejaculation, commonly measured as less than 1.5 mL, which may present as or complete aspermia. Retrograde ejaculation is generally asymptomatic with respect to urinary function, lacking common symptoms such as or beyond the fertility implications. The condition's primary secondary effect is on , where semen analysis reveals oligospermia in partial cases or azoospermia in complete retrograde ejaculation, leading to as sperm fails to be deposited in the female reproductive tract. This fertility impact is often the first concern prompting medical evaluation, distinct from the subjective experience of dry .

Diagnosis

Medical History and Physical Examination

The diagnosis of retrograde ejaculation begins with a thorough to identify symptoms and potential etiologies. Clinicians inquire about the onset and characteristics of ejaculatory changes, such as reduced or absent ejaculate volume (dry ), cloudy urine immediately following , and preserved sensation of despite lack of semen emission. Patients are also questioned regarding concerns, including duration of and prior analyses if available. Risk factor assessment during history taking focuses on conditions and exposures that may impair bladder neck closure or sympathetic innervation. A detailed review includes history of diabetes mellitus, which can cause retrograde ejaculation in up to 30% of men with the condition due to ; spinal cord injuries; retroperitoneal surgeries like lymph node dissection; prostate or bladder neck procedures such as transurethral resection; and medication use, particularly alpha-adrenergic blockers (e.g., tamsulosin) or antipsychotics. Neurological symptoms, such as sensory deficits or prior injuries, are probed to evaluate sympathetic pathway disruptions. The complements the by screening for anatomical and neurological abnormalities. A genital examination assesses for post-surgical scarring, penile abnormalities, or signs of , such as . Digital rectal examination evaluates size, tenderness, or irregularities that might suggest prior interventions. Neurological screening includes lower extremity reflexes, , and to detect deficits indicative of or spinal involvement. Through history and examination, differential diagnoses like (due to emission failure) or are distinguished; for instance, preserved with cloudy post-ejaculatory points toward retrograde ejaculation, whereas complete absence of sensation suggests psychogenic or severe neurological .

Laboratory and Diagnostic Tests

Diagnosis of retrograde ejaculation typically begins with laboratory evaluation of and post-ejaculatory to confirm the redirection of into the . is performed first, revealing low ejaculate volume (often less than 1.5 mL) or (absence of sperm), which serves as indirect evidence of the condition, though it is not specific to retrograde ejaculation alone. The confirmatory test is post-ejaculation , where the patient empties the bladder, achieves (typically via ), and then provides a sample for microscopic . The presence of atozoa in this sample, particularly more than 10-15 per high-power field or a concentration exceeding 1 million per mL, establishes the of retrograde ejaculation. Additionally, elevated levels in the post-ejaculatory —measured via methods like the indol test—further support the finding, as is a component of seminal fluid normally absent in . For cases requiring assessment of underlying mechanisms, advanced diagnostic tests target bladder neck function and anatomical integrity. Urodynamic studies evaluate bladder neck incompetence by measuring pressure-flow dynamics during voiding and simulating ejaculation, identifying failures in sphincter closure that permit retrograde flow. provides direct visualization of the and bladder neck to detect anatomical abnormalities, such as strictures or post-surgical changes, contributing to the condition. As of 2025, non-invasive imaging advancements have enhanced diagnostic precision without relying solely on invasive procedures. Transrectal ultrasound allows real-time observation of neck dynamics during , revealing incompetence through abnormal opening patterns, while suprapubic aspiration offers a targeted method to sample contents for detection in ambiguous cases. These techniques prioritize patient comfort and reduce procedural risks compared to traditional .

Treatment

Pharmacological Interventions

Pharmacological interventions for retrograde ejaculation primarily involve of sympathomimetic agents and antidepressants to enhance alpha-adrenergic tone at the bladder neck, thereby promoting its closure during ejaculation and restoring antegrade flow. These medications are most effective in cases stemming from reversible causes, such as medication-induced sympathetic inhibition or mild neuropathic conditions, where underlying structural damage is absent. Commonly prescribed sympathomimetics include and , which stimulate alpha-adrenergic receptors to contract the neck. , typically administered at 60-120 mg twice daily or as a single 120 mg dose 1-2 hours pre-intercourse for short-term use, has demonstrated efficacy in approximately 50-67% of selected non-surgical patients, with antegrade achieved in many within days to weeks. , a with alpha-adrenergic properties, is dosed at 25-50 mg twice daily, often combined with for synergistic effects, yielding success rates of 39-62% in combined therapy for complete retrograde . , a selective alpha-1 , is given at 2.5-10 mg three times daily and has shown particular promise in neuropathic cases, such as diabetic or post-surgical etiologies, with response rates exceeding 50% in some cohorts by improving ejaculatory force without broad systemic sympathomimetic effects. offers potentially fewer cardiovascular side effects compared to non-selective agents like due to its targeted alpha-1 receptor affinity, though long-term data remain limited. Treatment is generally short-term and timed to sexual activity to minimize risks, with patients advised to discontinue if no improvement occurs after 1-2 weeks. Common side effects include , , , and restlessness, necessitating and monitoring, especially in those with cardiovascular comorbidities.

Fertility Preservation Techniques

Fertility preservation in men with retrograde ejaculation primarily involves non-invasive sperm retrieval from post-ejaculatory followed by integration with assisted reproductive technologies to facilitate . The process begins with optimizing conditions to protect viability, as the acidic and hyperosmolar environment of can impair and survival. Patients are advised to alkalinize their prior to ejaculation by oral administration of agents such as or potassium citrate, which raises urinary from approximately 5.5 to 7.5-8.0, thereby increasing post-retrieval from around 42% to over 99%. Following or , the patient voids the post-orgasm sample, which is then processed immediately in a setting to isolate viable . Sperm retrieval typically employs centrifugation of the post-ejaculatory sample at 300 g for 10 minutes to concentrate the pellet, after which the supernatant is discarded and the pellet resuspended in 1-2 mL of sperm wash medium for assessment and preparation. This method, often based on the Hotchkiss procedure or its modifications, yields motile in up to 90% of cases when alkalinization is used, allowing for immediate or cryopreserved use. Retrieved are then utilized in assisted reproductive technologies such as intrauterine insemination (IUI) or fertilization (IVF) with (ICSI). For IUI, washed are placed directly into the ; IVF/ICSI involves laboratory fertilization of oocytes with selected . Success rates vary by technique, with IUI achieving a of approximately 15% per cycle and IVF/ICSI yielding 25% rates and 28% live birth rates per cycle or transfer. Protocols emphasize precise timing to maximize efficacy, with sperm retrieval and coordinated to the female partner's window, typically confirmed via or ovulation predictor kits, to ensure sperm availability within 12-24 hours of egg release. of 2-5 days prior to retrieval is recommended to optimize sperm count, and samples are processed under sterile conditions to minimize risks. Precautions against urinary tract infections (UTIs) include pre-procedure urine culture screening and avoidance of catheterization unless necessary, as bacterial presence can compromise sperm quality or lead to procedural complications. Recent advances as of 2025 have enhanced of urinary-retrieved , enabling long-term storage without significant loss of viability for future use in IVF/ICSI. Modified protocols, such as optimized freezing media with cryoprotectants tailored for low-motility urinary , have improved post-thaw recovery rates to over 70%, supporting live birth rates of 28% per frozen-thawed transfer in clinical series. These developments, including double-density gradient processing prior to , allow for multiple cycles from a single retrieval, broadening access to preservation.

Surgical Options

Surgical options for retrograde ejaculation primarily target structural defects, such as those arising from prior surgeries or , by aiming to restore the integrity of the neck or to facilitate antegrade ejaculation. These interventions are considered when anatomical issues prevent proper of the neck during , often as a result of procedures like or bladder neck incisions detailed in the Surgical and Anatomical Causes section. However, surgical interventions are rarely performed due to limited evidence from small, older case series, with current guidelines favoring pharmacological and fertility preservation approaches. Bladder neck reconstruction techniques focus on reinforcing the mechanism to prevent backflow into the bladder. One approach involves transurethral submucosal injections of bulking agents, such as or dextranomer/ copolymer (Deflux), delivered at multiple sites around the bladder neck (e.g., 1, 5, 7, and 11 o'clock positions) to narrow the opening and promote closure. This , performed cystoscopically, has shown success in restoring antegrade , with reported cases achieving normal volume and parameters within weeks. Alternatively, procedures wrap supportive material, such as synthetic or autologous tissue, around the bladder neck to provide dynamic reinforcement, mimicking a hammock-like support that enhances function during . Urethral repair addresses post-traumatic strictures that may contribute to ejaculatory dysfunction by obstructing normal flow. Endoscopic approaches, including internal urethrotomy or balloon dilatation, are commonly used to incise or dilate scar tissue in the posterior , thereby alleviating the stricture and potentially resolving associated retrograde ejaculation. These techniques involve transurethral access under , with the goal of restoring urethral patency without extensive open . Indications for these surgeries typically include persistent retrograde ejaculation following failed medical management, particularly in cases of identifiable structural damage from prior interventions or , where restoration of natural antegrade ejaculation is desired. Success rates vary in small case series, with some reporting restoration of antegrade ejaculation in 30-70% of cases depending on the underlying cause and patient factors. Potential risks include due to altered dynamics, postoperative at the surgical site, and recurrence of strictures or incomplete resolution of symptoms. As of 2025, advancements in robotic-assisted techniques, such as those used in precision or bladder neck interventions, have reduced complication rates by enhancing accuracy and minimizing tissue trauma.

Special Considerations

Intentional Induction for Contraception

One method of non-hormonal male contraception involves the deliberate of retrograde ejaculation, historically termed coitus saxonicus. This technique requires applying manual pressure to the base of the or the immediately prior to or during to obstruct antegrade semen flow, thereby diverting the ejaculate into the and producing a "dry " with no external . When performed successfully, the method prevents by ensuring no enters the , achieving near-complete efficacy since retrograde ejaculation inherently results in due to the absence of delivery during . The process is fully reversible, as normal antegrade ejaculation resumes once the technique is discontinued, with no long-term physiological changes. Documented in 20th-century contraceptive literature as a variant of , coitus saxonicus was described in works reviewing historical practices, often involving partner-assisted compression to control emission timing. However, the technique carries risks of incomplete induction, where partial antegrade emission may occur, potentially leading to . It is not endorsed by medical authorities, as it lacks clinical validation and may cause discomfort or urethral irritation from improper pressure application.

Cultural and Historical Practices

In ancient Taoist traditions, the practice of semen retention, particularly through the technique known as huanjing bunao ("returning the to supplement the brain"), was central to conserving jing—the vital believed to underpin health, longevity, and spiritual cultivation. Dating back to the around 200 BCE, as documented in early medical manuscripts like those from , this method involved redirecting during via muscle contractions and breath control, often resulting in retrograde ejaculation to prevent external loss of life force. Taoist adepts viewed this retention as a form of inner , transmuting sexual energy into qi for nourishing the body and brain, with detailed instructions appearing in later texts such as the Yangsheng yanming lu from the . Alchemical works like The Secret of the Golden Flower, a 17th-century text attributed to Taoist master and focused on meditative circulation of energy, further emphasized conserving jing through non-emissive practices to achieve and immortality, aligning with broader yangsheng ("nourishing life") disciplines. These techniques were not merely physical but philosophically rooted in balancing , where excessive was seen as depleting the body's foundational energy, potentially leading to premature aging or illness. During the 19th and 20th centuries, Western esoteric movements adapted these Eastern concepts amid growing interest in Orientalism and occultism. American physician Alice Bunker Stockham, influenced by Theosophical encounters with Indian and Chinese spiritual traditions during her travels, promoted karezza—a form of coitus reservatus—in her 1896 book Karezza: Ethics of Marriage, framing semen retention as a path to divine union, emotional harmony, and extended vitality without orgasmic release. This practice echoed Taoist retention for longevity but integrated Christian mystical elements, gaining traction among reformers like Havelock Ellis and contributing to early sexual hygiene discourses in Europe and America. In modern and interpretations, intentional semen retention, occasionally incorporating retrograde ejaculation, persists as a tool for enhancing spiritual awareness and personal energy, drawing from both Taoist and tantric roots. However, empirical studies have found no proven health benefits beyond effects, with practices often emphasized in communities for psychological rather than physiological gains. From a 2025 anthropological lens, these traditions reflect enduring cultural constructs of , vitality, and self-mastery across societies, yet medical consensus highlights risks such as and potential urinary tract irritation from entering the .