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Defecography

Defecography, also known as evacuation proctography, is a specialized radiological imaging procedure that assesses the anatomy and function of the pelvic floor, rectum, and anal canal during the act of defecation. It involves introducing a contrast medium, such as a thick barium paste, into the rectum to visualize the mechanics of evacuation in real time, helping to identify abnormalities in muscle coordination and organ positioning.^[1]^[2] The procedure exists in two primary forms: conventional fluoroscopic defecography, which uses real-time X-ray imaging and exposes patients to a low dose of ionizing radiation, and magnetic resonance (MR) defecography, a noninvasive alternative that employs magnetic fields and radio waves to produce detailed images without radiation risk.^[1]^[3] Fluoroscopic defecography, introduced in the late 20th century through foundational studies in the 1960s and 1980s, remains widely available and cost-effective, typically lasting 30 to 60 minutes and involving the patient straining and evacuating while seated on a commode-like apparatus.^[2] MR defecography, increasingly preferred for its superior soft-tissue contrast and ability to evaluate multiple pelvic compartments simultaneously, often requires the patient to lie supine or in a specialized position during imaging sequences that capture rest, squeeze, strain, and evacuation phases.^[3]^[1] Clinically, defecography is indicated for diagnosing disorders of defecation, including chronic constipation, fecal incontinence, pelvic floor dyssynergia, and structural issues such as rectal prolapse, rectocele, enterocele, or intussusception, particularly when symptoms persist despite conservative treatments.^[2]^[1] It provides dynamic insights into pelvic organ mobility and coordination that static imaging or physical exams cannot, guiding therapeutic decisions like biofeedback, surgery, or further interventions.^[3] Risks are minimal, with fluoroscopy carrying a small radiation exposure comparable to a few abdominal X-rays, while MR defecography is contraindicated only in cases of incompatible implants or severe claustrophobia; both methods use safe contrast agents, though preparation involves bowel cleansing and dietary restrictions.^[1]^[3]

Background

Definition and Purpose

Defecography is a dynamic radiological imaging technique that provides real-time visualization of the mechanics of defecation to evaluate anorectal and pelvic floor function.^[1]^[4] It employs contrast agents, such as barium paste or rectal gel, to simulate stool consistency, allowing for the observation of organ movement and muscle activity during simulated evacuation under fluoroscopy or magnetic resonance imaging.^[5]^[6] The primary purpose of defecography is to diagnose structural and functional abnormalities contributing to defecatory disorders, including chronic constipation, fecal incontinence, obstructed defecation syndrome (ODS), and pelvic organ prolapse.^[1]^[4] These abnormalities often involve impaired coordination or excessive descent of pelvic structures, such as rectoceles, enteroceles, or intussusception, which can obstruct normal bowel emptying or lead to incontinence.^[6]^[7] Central to the technique is the assessment of coordination among the pelvic floor muscles, rectum, and anus across key phases: rest (baseline positioning), squeeze (voluntary contraction), and evacuation (simulated defecation with straining).^[5]^[6] During these phases, defecography measures dynamic changes, such as alterations in the anorectal angle and pelvic floor relaxation, to detect dyssynergia or paradoxical contractions that hinder effective defecation.^[4]^[7] In contrast to static imaging modalities, which capture fixed anatomical views, defecography emphasizes functional dynamics by recording continuous motion, providing essential insights into the interplay of pelvic components during active defecation.^[1]^[5] This real-time approach, pioneered in fluoroscopic forms and advanced through magnetic resonance variants, remains a cornerstone for evaluating complex pelvic floor interactions.^[6]

Historical Development

Defecography, also known as defecating proctography, was first described in 1953 by Swedish surgeon Lennart Wallden, who utilized fluoroscopy to examine the anorectal region and pelvic floor during defecation, focusing on cases of obstructed defecation associated with deep rectogenital pouches. This pioneering work laid the foundation for dynamic imaging of evacuation disorders, initially applied to conditions such as rectal prolapse and anismus, providing insights into anorectal mechanics that were previously inaccessible through static examinations.^[8] The technique evolved significantly in the 1980s and 1990s, with Belgian radiologist Paul Mahieu and colleagues standardizing the procedure in 1984 by introducing a barium paste contrast medium to simulate stool consistency, enabling more accurate assessment of rectal emptying.^[9] This advancement facilitated quantitative measurements, including the anorectal angle and perineal descent, which became essential for evaluating pelvic floor dynamics and diagnosing disorders like rectocele and intussusception. During the 1980s, the integration of cinefluoroscopy, or video recording, enhanced temporal resolution, allowing for detailed analysis of defecatory sequences and improving diagnostic reproducibility across institutions.^[10] Following the introduction of magnetic resonance defecography (MRD) in 1993, which offered radiation-free multi-compartmental imaging of the pelvic floor, there has been growing adoption of MRD as a safer alternative, though fluoroscopy retained utility in resource-limited settings.^[11] Key milestones include the 2022 consensus guidelines from the Society of Abdominal Radiology (SAR) and collaborating societies, which standardized MRD protocols for defecatory pelvic floor disorders, emphasizing interpretation templates for prolapse and dyssynergia.^[12] More recently, 2025 research has highlighted MRD's role in postoperative assessment of pelvic floor dysfunction following gynecological surgery, demonstrating improved detection of residual prolapse and incontinence through dynamic imaging.^[13]

Clinical Use

Indications

Defecography is primarily indicated for patients with chronic constipation that remains unresponsive to conservative treatments such as dietary modifications, fiber supplementation, and osmotic laxatives, particularly when symptoms suggest outlet dysfunction or evacuation disorders. It is also recommended for evaluating fecal incontinence, especially in cases combined with obstructive defecation symptoms, to identify underlying structural or functional contributions that may guide biofeedback or other therapies. In the context of obstructed defecation syndrome (ODS), defecography helps assess dynamic pelvic floor interactions when initial evaluations like physical examination and anorectal manometry are inconclusive. For structural disorders, defecography is used to diagnose conditions such as rectocele (anterior or posterior), internal rectal prolapse or intussusception, enterocele, sigmoidocele, and descending perineum syndrome, which may manifest as incomplete evacuation or excessive straining.^[4] These evaluations are particularly valuable in patients with longstanding symptoms of constipation or incontinence where anatomical abnormalities contribute to impaired defecation mechanics. Regarding functional issues, the procedure aids in identifying anismus, characterized by paradoxical puborectalis contraction during straining, as well as megarectum and solitary rectal ulcer syndrome, often linked to chronic straining or internal prolapse. The American Society of Colon and Rectal Surgeons (ASCRS) guidelines endorse defecography when physical exam and manometry fail to explain persistent symptoms in these scenarios, emphasizing its role in confirming dyssynergic patterns or rectal dilation.^[14] Additionally, defecography supports preoperative planning for pelvic floor surgery by delineating multi-compartment involvement and potential coexisting abnormalities, thereby informing tailored interventions to reduce recurrence risk. It is also employed postoperatively to evaluate persistent or new disorders following gynecological procedures, such as hysterectomies, which may unmask or exacerbate pelvic floor weaknesses.

Contraindications and Patient Selection

Defecography, particularly the fluoroscopic variant, is contraindicated in pregnant patients due to the ionizing radiation exposure, which poses a potential risk to the fetus, though the MRI-based alternative may be considered if clinically essential after weighing benefits against risks.^[1] In cases of recent colorectal surgery, such as coloanal anastomosis, the procedure carries a relative contraindication owing to the risk of stressing the surgical site and potential complications like anastomotic disruption.^[15] Patients with known allergy to barium contrast should avoid fluoroscopic defecography, as severe allergic reactions, though rare, can occur with rectal administration of the agent.^[16] For magnetic resonance defecography, relative contraindications include severe claustrophobia, which may necessitate sedation or an open MRI system to ensure patient comfort and cooperation during the enclosed imaging environment.^[3] Individuals with implanted devices such as cardiac pacemakers require pre-procedure evaluation, as the strong magnetic field can cause device malfunction unless confirmed MRI-conditional.^[3] Additionally, patients with severe renal impairment are typically excluded from protocols involving gadolinium-based contrast due to the risk of nephrogenic systemic fibrosis, often requiring a serum creatinine assessment beforehand.^[3] Patient selection for defecography prioritizes adults presenting with refractory defecation disorders, such as chronic constipation or obstructed defecation, where initial evaluations including colonoscopy, anorectal manometry, and balloon expulsion testing have failed to provide a definitive diagnosis.^[4]^[17] The procedure is particularly suited to female patients, as it enables comprehensive multi-compartment assessment of pelvic floor dynamics, which are more commonly disordered in women due to factors like childbirth.^[18] Pediatric use is generally limited to specialized centers for select cases of severe constipation or prolapse, given the invasive nature and availability of alternative diagnostics.^[19] Key considerations in patient selection include obtaining informed consent that addresses procedural discomfort from rectal contrast instillation and, for fluoroscopy, the minimal radiation exposure involved.^[1] Screening for comorbidities, such as MRI-incompatible implants, ensures safety, while emphasizing the test's role in guiding targeted therapies for persistent symptoms post-conservative management.^[3]

Procedure

Preparation

Preparation for defecography aims to ensure optimal visualization of pelvic floor dynamics during the procedure by minimizing artifacts from residual stool or excessive bladder filling, while prioritizing patient safety and comfort. Patients are generally advised to fast for 2 to 4 hours prior to the examination, though specific instructions may vary by facility and imaging modality.^[3]^[20] Regular medications can typically be taken with small sips of water at least 2 hours before the procedure, unless otherwise directed by the healthcare provider.^[3]^[21] To avoid interference from residual fecal material, particularly in fluoroscopic defecography, many protocols recommend bowel cleansing with a laxative or enema, such as a Fleet enema administered 2 hours prior to the exam and repeated if necessary.^[21]^[22] Following any enema, patients are encouraged to drink water to maintain hydration. However, bowel preparation is optional and often omitted in magnetic resonance defecography, as the procedure relies on controlled rectal filling with contrast material rather than complete evacuation.^[15]^[23] Patients should void their bladder approximately 2 hours before the study to achieve moderate filling, which facilitates accurate assessment of pelvic floor function.^[23] For female patients requiring multi-compartment evaluation, such as assessment of vaginal or uterine prolapse alongside rectal dynamics, preparation may involve the insertion of vaginal contrast material, typically a viscous barium gel, to opacify the vagina and enable visualization of its position and movement.^[15] This step is performed just prior to imaging and is not required if the focus is solely on the anorectal compartment. MRI-specific preparation includes screening for contraindications such as pacemakers, cochlear implants, or other ferromagnetic devices, with patients required to remove all metal objects like jewelry or clothing with metallic elements.^[3] Mild sedation may be offered for individuals with claustrophobia or anxiety, in which case a chaperone or driver is recommended for transportation home post-procedure.^[3]

General Technique

In defecography, the patient is initially positioned in the left lateral decubitus for rectal contrast administration, then seated on a radiolucent commode for fluoroscopic procedures or an MRI-compatible chair in an open-configuration setup for magnetic resonance imaging, allowing simulation of physiologic defecation in a semi-lateral or upright orientation.^[2]^[3] Rectal filling involves injecting 200-300 mL of barium paste, prepared to mimic stool consistency, using a syringe or caulking gun to achieve adequate distension without discomfort; optionally, 400-600 mL of dilute barium suspension is administered orally 1-2 hours prior to opacify the small bowel and reduce superimposition artifacts.^[2]^[24] The imaging sequence proceeds through standardized phases: rest for baseline assessment of pelvic floor position, squeeze to evaluate pelvic floor contraction, evacuation during simulated defecation effort, and post-evacuation to assess residual material and anatomic changes, with patients instructed to perform maneuvers as naturally as possible without excessive straining.^[2]^[24] The total procedure duration is typically 30-60 minutes, encompassing preparation, imaging, and patient instructions.^[1] In fluoroscopic defecography, radiation exposure is minimized through pulsed imaging modes and tight collimation to the region of interest, adhering to as low as reasonably achievable (ALARA) principles.^[19]

Imaging Modalities

Fluoroscopic Defecography

Fluoroscopic defecography, also known as evacuation proctography, utilizes conventional X-ray fluoroscopy to provide dynamic, real-time imaging of the anorectal region during defecation. The procedure employs a standard fluoroscopy unit equipped with video recording capabilities, often referred to as cinedefecography, to capture continuous motion at rates sufficient for analyzing subtle movements, such as changes in the anorectal angle. Imaging is performed in the lateral beam projection to optimally visualize the sagittal plane of the pelvic floor, including the rectum, anus, and surrounding structures, while minimizing superimposition of anterior and posterior compartments.^[5] The protocol begins with the patient positioned in the left lateral decubitus on the fluoroscopy table, where approximately 200-300 mL of thick barium paste—simulating stool consistency—is introduced into the rectum via a large-bore catheter or syringe attached to a rectal probe. The patient is then transferred to a radiolucent commode in the sitting position, mimicking natural defecation posture, and dynamic fluoroscopic imaging is acquired during key phases: rest, squeeze (pelvic floor contraction), and evacuation (straining to expel the barium). Emphasis is placed on assessing evacuation efficiency through continuous video recording, allowing frame-by-frame analysis of rectal emptying and pelvic floor motion. Measurements such as perineal descent are referenced to the pubococcygeal line, drawn from the inferior border of the pubic symphysis to the last coccygeal articulation, to quantify vertical displacement of the anorectal junction during straining.^[25]^[26] This modality offers high temporal resolution for capturing rapid physiological events, such as muscle coordination during defecation, and is cost-effective with widespread availability in radiology departments. Historically, fluoroscopic defecography emerged as the standard in the mid-20th century, first described in 1952, and evolved through the 1980s with refinements in contrast agents and imaging techniques to evaluate functional anorectal disorders. However, its current use has declined due to ionizing radiation exposure, with an effective dose typically ranging from 2-5 mSv per examination—comparable to a few years of background radiation—prompting preference for radiation-free alternatives like MRI when accessible. Despite this, it remains valuable in settings where MRI is unavailable or contraindicated.^[27]^[19]^[28]

Magnetic Resonance Defecography

Magnetic resonance defecography (MRD) is an advanced imaging technique that utilizes magnetic resonance imaging to dynamically evaluate pelvic floor function during defecation, offering a radiation-free alternative to traditional fluoroscopic methods. It provides high-resolution, multiplanar visualization of the pelvic compartments, enabling assessment of anorectal and surrounding structures in real time. Unlike conventional defecography, MRD employs non-ionizing MRI sequences to capture functional dynamics without exposing patients to radiation, making it particularly suitable for younger individuals or those requiring repeated evaluations. MR defecography was first described in 1991 and has become increasingly preferred for its radiation-free nature and ability to evaluate multiple pelvic compartments simultaneously.^[3]^[29] The procedure is performed using 1.5T or 3T MRI scanners, typically closed-bore with the patient supine, though open-configuration scanners may be used to allow a sitting position in some cases, equipped with a pelvic phased-array coil to accommodate patient positioning and optimize signal reception. Imaging sequences include true fast imaging with steady-state precession (TrueFISP), also known as balanced gradient echo or FIESTA, which allows for rapid acquisition of T2-weighted dynamic cine images. The protocol involves instilling rectal contrast using ultrasound gel or a similar soft substance (typically 60-120 mL, without barium) to simulate stool, with optional filling of the vagina or bladder using gel for comprehensive compartment evaluation. Dynamic cine sequences are acquired in the midsagittal plane during key phases: rest, voluntary contraction (squeeze or Kegel maneuver), straining, and evacuation, often repeated up to three times to ensure adequate capture.^[29]^[12] Each phase consists of multiple rapid acquisitions lasting 10-20 seconds, facilitating the depiction of 3D multi-compartment dynamics across anterior, middle, and posterior pelvic structures without radiation exposure. Advantages of MRD include its excellent soft tissue contrast, which delineates subtle anatomical relationships and functional impairments in the anterior and posterior compartments more effectively than X-ray-based techniques. The 2022 Society of Abdominal Radiology (SAR) consensus provides standardized guidelines for technique and reporting, promoting consistency in clinical practice. Recent 2025 studies further demonstrate its utility in postoperative assessment of pelvic floor dysfunction (PFD), particularly after gynecological surgery, where it detects complications such as mesh retraction, organ prolapse, and fistulas with high diagnostic accuracy.^[12]^[13]^[29] Despite these benefits, MRD has notable limitations, including higher costs compared to fluoroscopic alternatives and longer scan times of 30-45 minutes, which may challenge patient tolerance. Potential artifacts from patient motion during dynamic phases can degrade image quality, and the supine or semi-upright positioning may not fully replicate physiological defecation mechanics.^[3]^[29]

Interpretation and Diagnosis

Normal Anatomy and Function

Defecography provides visualization of key pelvic structures, including the rectum, anal canal, puborectalis muscle, and levator ani muscle, which form the pelvic floor. The exam delineates the three pelvic compartments: the anterior compartment containing the bladder and urethra (or vagina in females), the middle compartment including the uterus and vagina, and the posterior compartment encompassing the rectum and anus in relation to the sacrum. The pubococcygeal line (PCL), referenced from the inferior margin of the pubic symphysis to the final coccygeal articulation, serves as a baseline for assessing perineal positioning and organ descent. The anal canal typically measures 3-4 cm in length at rest. During the rest phase, the anorectal angle (ARA), formed at the anorectal junction by the intersection of the anal canal axis and a line along the posterior rectal wall, measures 90-100°. The puborectalis muscle creates a characteristic posterior indentation on the rectal wall, maintaining continence through its sling-like configuration around the anorectal junction. Perineal position aligns with the PCL reference, with minimal descent observed. In the squeeze phase, the ARA narrows to 70-90° as the puborectalis muscle contracts, elevating the anorectal junction and enhancing the posterior rectal impression for sphincter closure. This maneuver demonstrates coordinated pelvic floor contraction to simulate voluntary continence. The evacuation phase involves opening of the ARA to 110-180°, reflecting relaxation of the puborectalis muscle and loss of its rectal indentation, which facilitates straightening of the anorectum. Perineal descent remains limited to less than 3 cm below the PCL, and normal function includes complete evacuation, with over 90% of rectal contrast expelled efficiently. Overall defecatory function relies on coordinated puborectalis relaxation coupled with an increased rectoanal pressure gradient, where rectal propulsion exceeds anal resistance to enable smooth expulsion.

Abnormal Findings

Defecography reveals a range of pathological findings indicative of pelvic floor disorders, particularly in patients with obstructive defecation syndrome (ODS), by demonstrating structural and functional abnormalities during dynamic imaging. These include protrusions, herniations, dyssynergic contractions, and incomplete voiding, which deviate from normal benchmarks and aid in diagnosing conditions like rectal prolapse or anismus.^[30] Abnormalities are quantified relative to reference lines such as the pubococcygeal line (PCL) and assessed for their impact on evacuation mechanics.^[7] Rectocele appears as an anterior bulge of the rectal wall greater than 2 cm from its expected position during evacuation, reflecting weakness in the rectovaginal septum.^[7] It is often graded based on depth, with grade 1 (mild: 2 to <3 cm), grade 2 (moderate: 3 to <4 cm), and grade 3 (severe: ≥4 cm); depths exceeding 3 cm are often clinically significant, correlating with symptoms such as incomplete evacuation or need for manual assistance.^[31] Retained contrast within the rectocele pouch post-evacuation further supports the diagnosis and its role in ODS.^[30] Rectal intussusception manifests as internal folding of the rectal wall into the anal canal or beyond, while rectal prolapse involves external eversion of the rectal mucosa or full-thickness wall.^[7] Intussusception is classified as intrarectal (confined to rectum), intra-anal (reaching the anal canal), or extra-anal (protruding externally as prolapse), with quantification of the leading edge's position aiding differentiation from normal infolding.^[30] These findings signify progressive rectal redundancy or fixation defects, often contributing to tenesmus or fecal incontinence.^[7] Anismus, or pelvic floor dyssynergia, is identified by paradoxical narrowing of the anorectal angle during squeeze or evacuation maneuvers, with the angle measuring less than 122° at defecation instead of widening.^[30] This non-relaxation of the puborectalis muscle impedes anal opening and rectal descent, distinguishing it from coordinated defecation and linking it to functional causes of constipation.^[7] Enterocele involves herniation of small bowel loops into the rectovaginal space, while sigmoidocele features descent of the sigmoid colon, both defined by protrusion greater than 2 cm below the PCL during straining.^[7] These peritoneal hernias trap viscera, obstructing evacuation and requiring assessment of the hernia's extent (e.g., upper, middle, or full vaginal involvement) for surgical planning.^[30] Excessive perineal descent is evident when the anorectal junction drops more than 3 cm below the PCL, signaling levator ani weakness or denervation.^[7] This excessive mobility, beyond the normal 2-3 cm range, predisposes to prolapse and is quantified dynamically to evaluate pelvic floor integrity.^[30] Incomplete evacuation occurs when less than two-thirds of rectal contrast is expelled within the imaging period, often quantified as partial (one-third or two-thirds evacuated) and associated with ODS due to mechanical obstruction or dyssynergia.^[7] This finding underscores the test's utility in identifying evacuation disorders beyond outlet obstruction.^[30] Multi-compartment prolapse is evaluated particularly in magnetic resonance defecography, revealing coordinated dysfunction across anterior (e.g., cystocele), middle (e.g., vaginal vault), and posterior (e.g., rectocele) compartments, with descent exceeding 2 cm below the PCL in one or more areas.^[30] Recent 2025 analyses indicate postoperative persistence in 10-30% of cases, attributed to unrecognized multi-compartment involvement preoperatively, emphasizing the need for comprehensive imaging.^[30]

Limitations and Future Directions

Complications and Risks

Defecography procedures, whether fluoroscopic or magnetic resonance imaging (MRI)-based, carry a generally low risk of complications. Post-procedure monitoring is recommended to detect rare issues such as barium impaction, which may require laxatives or further intervention if symptoms like persistent constipation arise.^[32] In fluoroscopic defecography, patients are exposed to ionizing radiation, with effective doses typically ranging from 2 to 3 mSv, equivalent to approximately one year of natural background radiation exposure.^[33] This dose is lower than that of a standard barium enema (around 7 mSv) but can accumulate with repeated examinations, potentially increasing long-term stochastic risks such as cancer, particularly in younger patients or those requiring multiple pelvic imaging studies.^[34] Barium contrast used in fluoroscopy may rarely lead to retention in the rectum, causing temporary constipation, though severe impaction or perforation is exceptional and often linked to underlying anatomical issues.^[35] MRI defecography avoids radiation but involves gadolinium-based contrast agents in some protocols, which carry a risk of allergic reactions estimated at less than 0.1% overall.^[36] In patients with severe renal impairment, gadolinium exposure heightens the risk of nephrogenic systemic fibrosis (NSF), a rare but serious fibrosing condition affecting skin and organs, though incidence has declined with modern agent formulations and screening.^[37] Procedural discomfort is common, including mild pain or irritation from rectal catheter insertion, alongside psychological factors like embarrassment due to the nature of simulating defecation.^[1] Minor bleeding or rectal irritation occurs infrequently, typically resolving without intervention.^[4] MRI-specific risks include claustrophobia, exacerbated by the enclosed scanner environment, as well as noise-induced discomfort and rare tissue heating from magnetic gradients.^[3] Contraindications such as ferromagnetic implants or pacemakers must be screened to prevent dislodgement or burns.^[38] Proper preparation, including bowel cleansing, helps mitigate these risks by ensuring smoother insertion and evacuation.^[1]

Alternatives and Advancements

Alternatives to defecography include several non-invasive or less invasive diagnostic methods that address limitations such as radiation exposure in fluoroscopic techniques. Anorectal manometry measures anorectal pressures and sphincter function, providing physiologic insights into defecatory disorders without imaging.^[39] The balloon expulsion test serves as a simple, office-based screening tool to evaluate outlet obstruction by assessing the ability to expel a balloon filled with water or air from the rectum.^[40] These tests are often used as first-line assessments due to their accessibility and lack of radiation.^[41] Imaging-based alternatives encompass ultrasound and MRI variants that avoid ionizing radiation. Three-dimensional transperineal ultrasound evaluates pelvic floor prolapse and dynamic function in an office setting, offering real-time visualization of structures like the rectocele and levator ani without contrast or specialized equipment.^[42] Dynamic endoanal ultrasound focuses on assessing anal sphincter integrity and defects contributing to incontinence or dyssynergia.^[43] Endoanal MRI provides detailed static imaging of anorectal anatomy, including sphincter muscles and surrounding tissues, complementing dynamic evaluations.^[24] Comparisons highlight trade-offs among these methods. Transperineal ultrasound is more cost-effective and radiation-free but demonstrates lower sensitivity for deeper pelvic compartments compared to defecography, with agreement rates around 70-80% for posterior disorders like rectocele.^[44] Anorectal manometry offers complementary physiologic data on pressures and coordination but lacks the dynamic multi-compartment visualization of defecography.^[45] Recent advancements integrate technology to enhance defecography's utility. From 2023 to 2025, artificial intelligence models, such as radiomics-based approaches, have enabled automated grading of rectocele severity from dynamic magnetic resonance defecography sequences, improving interpretive efficiency and reproducibility.^[46] Hybrid protocols combining defecography with anorectal manometry allow simultaneous anatomic and physiologic assessment, as seen in studies evaluating fecal incontinence from 2023 onward.^[47] Defecography has also expanded in preoperative planning for robotic ventral mesh rectopexy, aiding in prolapse characterization per 2025 Delphi consensus guidelines.^[48] Future directions emphasize broader adoption and optimization. A 2021 consensus from the Pelvic Floor Disorders Consortium (published in 2022 contexts) advocates wider use of magnetic resonance defecography as a radiation-free standard for multi-compartment evaluation.^[12] Efforts to reduce scan times include optimized protocols with faster sequences and enema compositions, minimizing patient discomfort while maintaining diagnostic yield.^[23] Validation studies promote transperineal ultrasound as a first-line option in resource-limited settings, leveraging its portability and low cost for initial pelvic floor assessments.^[49]

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Feb 20, 2025 · MRI defecography can cause burns or other harmful reactions if you have metal or electronic implants in your body.Missing: exposure | Show results with:exposure
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MRI defecography can be performed either with the patient supine, within a closed-configuration magnet, or upright (sitting) within an open-configuration system ...Missing: phases | Show results with:phases
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The balloon expulsion test (BET) is a simple, office-based clinical test that is indicated as the first-line screening method of defecation physiology in ...
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Apr 26, 2014 · Physiologic tests such as ARM, balloon expulsion test, and imaging such as defecography and MRI play a key role in objective diagnosis.
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Defecography utilizes an intrarectal barium contrast and can involve compression of the rectovaginal space by overdistension of the rectum can. The sensation ...Missing: phases | Show results with:phases
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Available options include self-reported questionnaires, anorectal manometry, electromyography (EMG), defecography, endoanal ultrasonography, magnetic resonance ...Missing: expulsion | Show results with:expulsion
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Comparison of magnetic resonance defecography with pelvic floor ...
Apr 14, 2020 · The dynamic pelvic floor ultrasound and vaginal examination provides excellent results for assessing Pelvic floor disorders. MRI defecography ...
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Clinical relevance of transperineal ultrasound compared with ...
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Integrated total pelvic floor ultrasound can be used for the assessment of any patient presenting with pelvic floor dysfunction from all three pelvic ...