You are in: eMedicine Specialties > Urology > Interstitial Cystitis Interstitial CystitisArticle Last Updated: May 3, 2007AUTHOR AND EDITOR INFORMATIONSection 1 of 11
  Author: Eric S Rovner, MD, Associate Professor, Department of Urology, Medical University of South Carolina Eric S Rovner is a member of the following medical societies: Alpha Omega Alpha, American Association of Clinical Urologists, American College of Surgeons, American Urological Association, International Continence Society, Société Internationale d'Urologie (International Society of Urology), and Society of Pelvic Reconstructive Surgeons Coauthor(s): Matthew Eskridge, MD, Resident Physician, Department of Urology, Medical University of South Carolina; Ricardo Sanchez-Ortiz, MD, Assistant Professor of Urologic Oncology, University of Puerto Rico School of Medicine; Adjunct Assistant Professor, Department of Urology, The University of Texas MD Anderson Cancer Center Editors: Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; J Stuart Wolf, Jr, MD, FACS, David A Bloom Professor of Urology, Director, Division of Minimally Invasive Urology, Department of Urology, University of Michigan Medical Center; Stephen W Leslie, MD, FACS, Founder and Medical Director of the Lorain Kidney Stone Research Center, Clinical Assistant Professor, Department of Urology, Medical College of Ohio Author and Editor Disclosure Synonyms and related keywords: interstitial cystitis, painful bladder syndrome, painful bladder disease complex, nonbacterial cystitis, chronic cystitis, pelvic pain, daytime urinary frequency, nighttime urinary frequency, urinary urgency, IC, urinary tract infection, UTI, urethral diverticulum, Bartholin gland infection, Skene gland infection, vulvovestibulitis, tuberculous cystitis, eosinophilic cystitis, vaginitis, schistosomiasis, pelvic malignancy, pelvic mass, fibroid, endometrioma, endometriosis, mittelschmerz, pelvic inflammatory disease, genital atrophy, bladder cancer, carcinoma in situ, CIS, radiation cystitis, overflow incontinence, acontractile detrusor, prostatodynia, chronic pelvic pain syndrome, bladder outlet obstruction, open bladder neck, intrinsic sphincteric deficiency, urolithiasis, urethritis, detrusor hyperreflexia, Parkinson disease, lumbosacral disk disease, spinal stenosis, spinal tumor, multiple sclerosis, cerebrovascular accident, dysfunctional voiding, vulvodynia, pelvic floor myalgia, degenerative jointdisease, hernia, inflammatory bowel disease, gastrointestinal neoplasm, diverticulitis INTRODUCTIONSection 2 of 11
  Interstitial cystitis (IC) is a clinical syndrome characterized by daytime and nighttime urinary frequency, urgency, and pelvic pain of unknown etiology. IC has an unclear etiology and pathophysiology and undefined diagnostic criteria. Despite considerable research, universally effective treatments do not exist, and therapy usually consists of various supportive, behavioral, and pharmacological measures. Surgical intervention is very rarely indicated. History of the ProcedureIn 1887, Skene initially described a condition characterized by inflammation that destroyed the urinary bladder "mucous membrane partly or wholly and extended to the muscular parietes." Guy Hunner popularized the disease with the description of characteristic bladder wall ulcers. The first comprehensive epidemiological description of IC is credited to Hand (1949), who described the widespread, small, submucosal bladder hemorrhages and the significant variation in bladder capacity. ProblemDespite years of intensive research, no specific clinical or urinary markers; radiographic, laboratory, or serologic findings; or biopsy patterns exist that are pathognomonic for IC. IC is a diagnosis of exclusion. One obstacle in the diagnosis and management of IC is the lack of a consensus clinical definition. No universally accepted clinical criteria exist for the diagnosis of IC. The differential diagnosis of urinary frequency, urgency, and/or pain includes the following:
Clinically, the practitioner is somewhat obligated to consider these potential alternative diagnoses prior to conferring the diagnosis of IC on a patient. The implications of a diagnosis of IC are profound in that it is a chronic condition without universally effective therapy. Frequency
EtiologyThe etiology of IC remains unknown and is likely multifactorial. Proposed etiologies include the following:
PathophysiologyThe pathophysiology of IC is poorly understood. Various etiologies have been proposed, none of which adequately explains the variable presentations, clinical courses, or responses to therapies. This may indicate that IC represents a number of as yet undefined disparate pathological conditions that, over time, ultimately present as the clinical syndrome of urinary frequency, urgency, and pelvic pain. Clinically, IC is often divided into 2 distinct subgroups based on intraoperative findings at cystoscopy and bladder overdistension. These categories are the ulcerative (ie, classic) and nonulcerative (ie, Messing-Stamey) types. A diffusely reddened appearance to the bladder surface epithelium associated with one or more ulcerative patches surrounded by mucosal congestion (ie, Hunner ulcer) on the dome or lateral walls of the bladder upon cystoscopic examination is the hallmark of classic IC. These ulcers may become apparent only after overdistension because discreet areas of mucosal scarring rupture during the procedure. Overdistension in this type of IC results in fissures and cracks that bleed in the bladder epithelium. In the United States, this type occurs rarely (<10% of cases), and some authors consider this type to be more resistant to therapy. Biopsy findings show that the ulcerative lesion can be transmural, associated with marked inflammatory changes, granulation tissue, mast cell infiltration, and, in some cases, fibrosis. This classic form of IC can be associated with progressively smaller bladder capacity over time. The nonulcerative type of IC is characterized by similar clinical symptoms (ie, frequency, urgency, pelvic pain), but the cystoscopic findings noted above are absent. However, following overdistension, these patients demonstrate glomerulations that are discreet, tiny, raspberrylike lesions appearing on the dome and lateral walls of the bladder and tiny mucosal tears and submucosal hemorrhages. Bladder biopsy findings in these patients often are unremarkable compared to those found in patients with the classic type. ClinicalBecause IC is a poorly defined entity of unknown etiology, the clinical presentation often is not uniform and the symptoms are variable in severity and nature. The onset of symptoms is often but not invariably acute, and the patient is sometimes able to describe the moment at which symptoms began. Patients often associate the onset of symptoms with a specific UTI, catheterization, or bladder or pelvic surgery. Patients with IC have a high incidence of associated conditions including allergies, irritable bowel syndrome, fibromyalgia and focal vulvitis. IC is characterized by periods of exacerbation followed by variable periods of remission. Symptoms of frequency, urgency, pain, and dysuria may vary daily or weekly or may be constant and unrelenting for months or years and then resolve spontaneously with or without therapy. In females, symptoms may fluctuate relative to the ovulatory cycle. In addition, recent data suggest that some pregnant patients may experience periods of remission during the second and third trimester. Patients may describe pressure, discomfort or pain in the pelvis, a vague sense of incomplete bladder emptying, or a constant sensation or compulsion to void. Furthermore, a substantial emotional and psychological overlay to the complaints due to the duration and severity of symptoms may or may not be present, and patients may have had an incomplete response to prior therapies. Spontaneous remission occurs in as many as 50% of patients at a mean of 8 months. Patients may experience complete and spontaneous relief from the symptoms, may undergo a waxing and waning course, may be completely asymptomatic with intermittent flares, or may have a chronically progressive course of increasing symptoms over several years. The most prevalent feature of IC is irritative lower urinary tract symptoms, including urinary frequency. The exact number of micturitions, daytime or nighttime, is not important; however, according to the National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK) criteria, more than 8 micturitions per day is considered adequate for inclusion into clinical studies. Daytime frequency in the absence of nocturia is not characteristic of IC. The absence of significant nocturia may suggest an alternative diagnosis (eg, sensory urgency). Pain with bladder filling is a common finding that may be reproduced urodynamically or with cystography. Patients may complain of constant pelvic pain or pain related to a full bladder. Dyspareunia is common in as many as 50% of women. Men may report perineal, groin, penile, or scrotal pain; the diagnosis of prostadynia or nonbacterial prostatitis (chronic pelvic pain syndrome) should be entertained. Urinary incontinence is quite rare. Patients with a primary complaint of incontinence may require further evaluation, including urodynamic studies. Patients with IC have a high incidence of associated conditions, including allergies, irritable bowel syndrome (IBS), fibromyalgia, and focal vulvitis. The diagnosis of IC is most often made when the long-standing symptoms of urinary frequency, urgency, and pelvic pain exist in the absence of a readily identifiable etiology such as UTI. Urinalysis and urine culture are mandatory. A voiding diary is helpful in establishing baseline voiding frequency. Cystoscopy is considered by some clinicians to be mandatory in order to make the diagnosis of IC; however, this is somewhat controversial due to the lack of specific or pathognomonic findings (except perhaps the very rare finding of a Hunner ulcer). Urodynamic evaluation is optional, and finding detrusor overactivity or pelvic floor dysfunction may suggest an alternative diagnosis. The International Continence Society prefers the term painful bladder syndrome (suprapubic pain with bladder filling associated with increased daytime and nighttime frequency in the absence of proven urinary infection or other obvious pathology) and reserves the diagnosis of IC for patients with typical cystoscopic and histiologic features. To clarify the criteria for diagnosis, some clinicians prefer the term painful bladder syndrome or interstitial cystitis, defined as a syndrome of chronic pain, pressure, or discomfort associated with the bladder, usually accompanied by urinary frequency in the absence of any identifiable cause. Because no pathognomonic criteria exist for the diagnosis of IC, the modified NIDDK criteria for the inclusion of patients in IC basic and clinical research studies can be used. These criteria, initially developed in 1987, became the de facto definition of the disease; however, a significant number of patients with IC do not meet these criteria. National Institute of Diabetes and Digestive and Kidney Diseases criteria One of the following cystoscopic findings after distension under anesthesia for 1-2 minutes at 80-100 cm water:
One of the following subjective symptoms:
Absence of any of the following criteria, which would exclude the diagnosis:
INDICATIONSSection 3 of 11
Because no discrete pathognomonic pathologic criteria exist for assessing and monitoring disease severity, indications and goals for treatment are based on the degree of patient symptoms. Assessing patient response to treatment is also complicated because of the subjective nature of symptoms and the lack of objective serological, physical, or histopathological findings. Conservative measures and oral or intravesical treatments are considered first-line treatment. Indications for surgical intervention in interstitial cystitis (IC) are limited to (1) cystoscopy for both diagnosis and therapeutic purposes, (2) neuromodulation for urgency or frequency symptoms, and (3) urinary reconstruction, (4) urinary diversion, or both for the rare patient who may benefit from these procedures. Botulinum toxin type A is an emerging therapy for many urologic diseases associated with frequency, urgency, and urge incontinence but is still considered investigational in the treatment of IC. Although somewhat controversial, cystoscopy under anesthesia and bladder overdistension, with or without bladder biopsy, is used by many physicians as an initial diagnostic procedure. A diminished bladder capacity under anesthesia and/or a Hunner ulcer (very rare) are suggestive (and some feel diagnostic) of IC. Furthermore, relief of urinary frequency, urgency, and pain has been reported, at least temporarily, in as many as 60% of patients following bladder overdistension. However, note that initially, many patients find that their symptoms are transiently exacerbated following this procedure. Bladder biopsy is performed to evaluate for carcinoma in situ (CIS) and the presence of mast cells. Some authors have proposed a pathophysiological role for mast cells in the genesis of IC and have suggested that an increased density of mast cells may be present in patients with IC. Furthermore, the finding of mast cells may suggest a potential role for antihistamine compounds in the treatment of the condition. Direct sacral nerve root stimulation, or neuromodulation, has been shown to be effective in treating frequency and urgency associated with IC. In patients taking chronic narcotics for refractory pain associated with IC, sacral neuromodulation has been shown to decrease (but not eliminate) narcotic requirements after implantation. Indications for urinary tract reconstruction or diversion are very limited in patients with IC. Candidates for these procedures should have exhausted all reasonable and available medical, pharmacological, and behavioral therapies for their condition. They should also understand that even technically successful urinary tract reconstruction or urinary diversion still may not relieve the underlying symptoms of pain and urinary urgency. These are large surgical undertakings and, for the most part, are irreversible. Only limited success has been reported, thus, patients should be extensively counseled prior to undergoing this type of surgical therapy for IC. RELEVANT ANATOMYSection 4 of 11
Abdominal, pelvic, and directed neurologic examinations should be performed in all patients with voiding dysfunction; nevertheless, the findings from these examinations often are unrevealing in patients with interstitial cystitis (IC). Women with IC may express some discomfort with palpation over the urethra and bladder base. A correlation has been noted between urethral tenderness and the finding of a Hunner ulcer after cystoscopic examination. Pain upon urethral palpation in the presence of an anterior vaginal wall mass may suggest urethral diverticulum, whereas cervical motion tenderness may suggest pelvic inflammatory disease. Examination with a speculum may reveal prolapse; masses; and evidence of vaginitis, herpes, vestibular adenitis, vulvovestibulitis, vulvodynia, or other pathology. These findings suggest a diagnosis other than IC. Palpation for a full bladder and bimanual examination evaluating for adnexal masses should be part of the complete examination. Rectal examination should always be performed to evaluate for masses, tenderness, and assessment of rectal and pelvic floor (levator) muscle tone. Neurologic examination findings are usually unremarkable, but abnormalities of motor function, sensation, or reflexes may indicate spinal cord or nerve root dysfunction and should prompt further evaluation for other diagnoses. Male patients commonly have no abnormalities upon examination. In male patients with irritative lower urinary tract symptoms, bladder outlet obstruction and chronic nonbacterial prostatitis are important diagnostic considerations. CONTRAINDICATIONSSection 5 of 11
Contraindications to cystoscopy and bladder hydraulic distension include anesthetic risk, history of prior rupture during distension, pregnancy, and urinary tract infection (UTI). WORKUPSection 6 of 11
Lab Studies
Imaging Studies
Other Tests
Diagnostic Procedures
Histologic FindingsNo pathonomic histologic findings exist for IC. TREATMENTSection 7 of 11
Medical therapyThe therapy for interstitial cystitis (IC) begins with extensive patient education regarding the chronic nature of the disease and realistic assessments of the condition, prognosis, and potential responses to therapy. Ongoing reassurance and physical and emotional support are important as the diagnostic evaluation progresses and therapies are applied. Only rarely will patients with IC have an immediate, complete, and durable response to any particular therapy. They must be counseled at length regarding the lack of universally effective therapies. Often, referral to one of the local IC support groups, especially a local chapter of the Interstitial Cystitis Association, can be helpful in providing a continuing network of support for the patient. Ideally, in clinical practice, the treatment of IC should be initiated with the least invasive, least expensive, and most reversible therapy. In general, this consists of a program of dietary and fluid management, time and stress management, and behavioral modification. Thereafter, treatments are applied in a progressively more invasive step-wise fashion until some degree of symptomatic relief is obtained. Interventions might include various pharmacological agents (eg, sodium pentosan polysulfate [Elmiron], antihistamines, tricyclic antidepressants, analgesics, anti-inflammatory agents), intravesical therapy (ie, medications intermittently instilled directly into the bladder via a catheter), electrical stimulation, and complementary therapies such as acupuncture and hypnosis. Following each intervention, the patient is reassessed for response. Unfortunately, therapies are often applied in a haphazard "hit-and-miss" fashion, combining a number of different therapies before truly assessing the patient's response to each therapy. This approach is sometimes partly driven by unrealistic patient demands and expectations regarding the success of various therapeutic interventions. Again, patients must receive extensive counseling regarding the nature and prognosis of their condition and its response to therapy. This is critically important, and such counseling must be initiated prior to embarking on invasive interventions for which no proven overwhelming benefit may be achieved. Biofeedback and pelvic floor rehabilitation (ie, Kegel exercises), bladder training programs (ie, progressively increasing the voiding interval over the course of weeks to months), and other behavioral measures are excellent initial interventions and have been used by some authors with some success. The urinary frequency and urgency components seem to respond better to these interventions than the pelvic pain component. Various dietary measures have been examined as therapy of IC. These dietary measures and the previously mentioned behavioral measures can be effective when used alone, but can also be complementary to virtually all other interventions for IC. Certain foods, including coffee, alcohol, tomatoes, vinegar, spicy foods, chocolate, and particular fruits and vegetables, have been implicated in aggravating symptoms of IC and, in the opinion of some authors, can precipitate symptomatic flares. Avoiding these food items or substituting other food items is often advised. Not uncommonly, patients are instructed to fill out a food diary, recording the relationship between the consumption of various food and drink items and their IC symptoms. In this manner, items that provoke or exacerbate the IC symptom complex can be eliminated from the diet in a methodical fashion. Ultimately, the decision to abandon or augment behavioral therapy and pursue other therapeutic options is made by both the patient and physician when a general lack of progress occurs or when symptoms progress. Very few, if any, studies have looked at the minimal duration of time necessary to assess response to behavioral therapy in patients with IC. Furthermore, an optimal behavioral program has also not been defined. Given the chronic nature of the condition and the possibility of spontaneous improvement or remission, progressively more invasive and expensive treatment should be initiated with caution. Generally, if tolerated by the patient, a trial of 3-6 months of behavioral therapy is warranted prior to proceeding to more invasive or expensive therapies. Managing the pain component can be difficult in patients with IC. The etiology of the pain remains unclear in patients with IC, but the etiology has been postulated by various authors to be mediated centrally, peripherally, or locally, via a neurogenic or inflammatory mechanism. Some patients require pain medications for the long-term, while others rely on these only during periods of symptomatic flares. Anti-inflammatory agents, acetaminophen, Neurontin, tricyclic antidepressants, selective serotonin reuptake inhibitors (SSRIs) and various other agents are used. Most clinicians tend to avoid the extensive use of narcotics in patients with IC. When the pain component becomes unresponsive to nonnarcotic agents, referral to a chronic pain management facility may be helpful. Transcutaneous electrical nerve stimulation (TENS) units, electrical stimulation (intravaginal), acupuncture, and intrathecal and intraspinal infusions have all been used. Topical anesthetics such as lidocaine have been applied directly to the bladder via the intravesical route and have achieved some success. Oral medications should be considered only after the aforementioned conservative measures have failed. With the exception of Elmiron, the drugs listed in Medications are not specific for the treatment of IC; however, all of them have demonstrated some degree of efficacy in controlled or uncontrolled studies. The duration of individual pharmacotherapy is variable. The clinical studies on Elmiron seem to suggest that maximal effects are not observed until the patient has been on drug therapy for 5-6 months. Other medications are dispensed and their effects are reevaluated as per the expected pharmacokinetics. For example, steady-state serum levels of many tricyclic antidepressants are not attained until 6-8 weeks of stable dosing. Only at this time can the drug dose be safely and reasonably adjusted. A National Institutes of Health (NIH)–funded study compared placebo with oral pentosan polysulfate sodium (PPS), hydroxyzine, and a combination of both. Using PPS alone or in combination with hydroxyzine was shown to be slightly beneficial, but this was not significant. In a randomized, double-blind, placebo-controlled study, amitriptyline has been shown to provide statistically significant improvement in the O'Leary-Sant IC symptom and problem index, pain, and urgency intensity when compared to placebo. Common adverse effects include dry mouth, weight gain, constipation, and sedation. Anticholinergic agents such as oxybutynin and tolterodine can be used to treat the urinary frequency component of the condition; however, these agents can impair bladder emptying and thus may exacerbate pelvic pain. They should be used with caution in patients with IC. The authors' algorithm for treatment is largely based on whether the patient has predominantly a pelvic pain component or an urgency/frequency component. In the authors' experience, patients with pelvic pain and minimal voiding symptoms represent a pharmacological challenge, making an early pain clinic referral a useful adjunct. In patients with significant voiding symptoms, the authors suggest an algorithm proposed by Hanno. Conservative treatment may include patient education, dietary manipulation, nonprescription analgesics, and pelvic floor relaxation. If an improvement in symptoms is inadequate, begin oral therapy with either antispasmodics and nonnarcotic analgesics or with amitriptyline for 8 weeks. If amitriptyline fails, a trial of hydroxyzine for 8 weeks is suggested. If no response is observed, follow hydroxyzine with sodium pentosan polysulfate (Elmiron). Although IC has been reported in children, the condition is observed almost exclusively in adults; therefore, pediatric dosages are not included. MedicationsDrug Category: Antihistamines - These agents inhibit binding to H1 histamine receptor. Adult Dose - 25-75 mg/d Contraindications - Documented hypersensitivity; narrow-angle glaucoma Interactions - Potentiates effects of CNS depressants; MAOIs may potentiate anticholinergic effects Pregnancy - C-Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus Precautions - May cause sedation, urinary retention, and dry mouth; may exacerbate narrow-angle glaucoma, hyperthyroidism, and peptic ulcer disease
Adult Dose - 25-75 mg Contraindications - Documented hypersensitivity; MAOIs in past 14 d; history of seizures, cardiac arrhythmias, glaucoma, and urinary retention Interactions - Phenobarbital may decrease effects; coadministration with CYP2D6 enzyme system inhibitors (eg, cimetidine, quinidine) may increase amitriptyline levels; inhibits hypotensive effects of guanethidine; may increase effects of CNS depressants and barbiturates; may increase hypotensive effects of sildenafil Pregnancy - D-Fetal risk shown in humans; use only if benefits outweigh risk to fetus Precautions - May cause cardiac arrhythmias and dry mouth; caution in cardiac conduction disturbances and history of hyperthyroidism, renal impairment, or hepatic impairment; avoid in elderly persons Drug Category: Urinary analgesics - These agents relieve pain locally. Drug Name Pentosan polysulfate sodium (Elmiron) - Negatively charged synthetic sulfated polysaccharide with affinity for mucosal membranes. Repletes defect in glycosaminoglycan layer. Adult Dose 100 mg Contraindications Documented hypersensitivity; hepatic insufficiency (metabolized in liver); history of heparin-induced thrombocytopenia Interactions May increase effect of anticoagulants Pregnancy B-Fetal risk not confirmed in studies in humans but has been shown in some studies in animals Precautions May cause GI upset; risks and benefits of continued use beyond 6 mo in patients that show no response is unknown Other agents used with less success include L-arginine, nalmefene, anticholinergic agents (eg, oxybutynin, oxybutynin XL, tolterodine [Detrol and Detrol LA]), hyoscyamine] corticosteroids, antispasmodics, immunosuppressives, anti-inflammatories, and calcium channel blockers. In addition, a recent report suggests a beneficial role for oral cimetidine. Intravesical agents include the following:
Adult Dose - Instill 50 mL of aqueous 50% solution directly into bladder by catheter or Asepto syringe and allow to remain for 20 min Contraindications - Documented hypersensitivity; UTI; recent bladder biopsy Interactions - May decrease formation of active metabolite of sulindac, possibly resulting in decreased therapeutic effect Pregnancy - X-Contraindicated; benefit does not outweigh risk Precautions - Produces garlic breath odor (approximately 20%); may cause chemical cystitis (5-10%); symptoms may worsen initially (10-15%); severe peripheral neuropathy has occurred when topical DMSO was used concurrently with sulindac Drug Category: Cauterizing agents - These agents are used for the removal of granulation tissue. Adult Dose - Administer concentrations ranging from 1:5000 to 2% intravesically for 2-10 min Contraindications - Documented hypersensitivity; known VUR Interactions - None reported (no controlled clinical trials) Pregnancy - C-Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus Precautions - Not for systemic use; high concentrations require regional or general anesthesia Drug Category: Dermatological Agents - These agents are used for their cleansing and disinfection and for the removal of necrotic debris. Adult Dose - Administer 0.4% solution intravesically for 2-3 min at 60-80 cm water pressure (4-6 treatments qwk) Contraindications - Documented hypersensitivity; known VUR Interactions - None reported Pregnancy - C-Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus Precautions - Requires at least regional anesthesia; results in troublesome suprapubic pain and discomfort for 48-72 h; protect skin from caustic spillage; not for systemic use Drug Category: Polysaccharide glycosaminoglycans - These agents may exert a protective effect on the bladder. Adult Dose - 10,000 U intravesically in 10 mL sterile water monthly Contraindications - Documented hypersensitivity; severe thrombocytopenia, abnormal coagulation test results Interactions - May increase effects of anticoagulants and platelet inhibitors Pregnancy - C-Fetal risk revealed in studies in animals but not established or not studied in humans; may use if benefits outweigh risk to fetus Precautions - May cause hemorrhage and hypersensitivity Patients in whom medical therapy fails may benefit from another bladder hydrodistention if the first hydrodistention was therapeutic earlier. When Hunner ulcers are identified, laser fulguration has been shown to be therapeutic. If patients still do not respond, intravesical therapy may be initiated, beginning with weekly DMSO therapy for 6 courses. Monthly maintenance DMSO instillations have been advocated by some clinicians in order to prevent flares, although data supporting this approach are lacking. DMSO may be combined with steroids, bicarbonate, and heparin. Intravesical lidocaine also may be added. Some patients with refractory IC symptoms self-catheterize at home and instill a variety of these medications intravesically on an as-needed basis for symptom flares or simply for long-term therapy. In patients who respond poorly to DMSO, intravesical heparin or Clorpactin may be tried. Chronic application of capsaicin, a component of hot pepper, has been associated with the desensitization of C fibers, the unmyelinated nerve fibers known for transmitting pain. Intravesical instillation of capsaicin has been limited in its use in IC because of the sensation of severe burning; however, resiniferatoxin, a capsaicin analogue, is 100-10,000 times more potent than capsaicin and is not associated with severe burning. Resiniferatoxin has shown a significant reduction in pain, urgency, and nocturia after one installation, holding great promise for future use, but is currently not commercially available. Patients in whom all forms of noninvasive therapy fail, including a referral to a pain clinic, should be considered candidates for sacral neuromodulation or other investigational protocols. Surgical therapyBladder hydraulic distension Following diagnostic hydrodistention, a therapeutic hydrodistention may be performed. This usually is performed at 80-100 cm water for 8-10 minutes. After draining the bladder from the therapeutic hydrodistention, bladder biopsy may be performed on areas that appear abnormal. Biopsy should be deep enough to sample the detrusor muscle. Unfortunately, no pathognomonic histological findings exist for IC. Biopsies primarily are performed to help rule out other varieties of cystitis or malignant or premalignant (eg, carcinoma in situ [CIS]) lesions. In all cases, biopsy should be performed following hydrodistention. In the authors' opinion, postoperative catheter drainage should be instituted in patients who have deep biopsies to reduce the chance of perforation, extravasation, or both. Although some centers advocate limiting the use of cystoscopy and biopsy in the evaluation and workup of patients thought to have IC, the authors believe these are necessary to help exclude other disorders such CIS and bladder calculi. The mechanism of action of bladder hydraulic distension is unknown. Hypotheses include neurapraxias by mechanical trauma and epithelial damage from mechanical trauma. Emerging surgical therapies Sacral neuromodulation has been approved by the US Food and Drug Administration (FDA) for medically refractory frequency, urgency, and urge incontinence and is showing promising results in patients with IC. Several authors have studied sacral neuromodulation in patients with IC refractory to conservative measures (behavioral modification, diet, medications, hydrodistention). Sacral neuromodulation improved daytime frequency, nocturia, and mean voided volumes and decreased pain and IC symptom and problem index scores. In addition, sacral neuromodulation has been shown to normalize the abnormally high levels of antiproliferative factor (APF) and the abnormally low levels of heparin-binding epidermal growth factor (HB-EGF) in the urine of patients with IC. Transurethral intradetrusor injection of botulinum A toxin is being investigated for use in patients with neurogenic and nonneurogenic causes of urinary frequency, urgency, and urge incontinence due to detrusor overactivity. Many patients show remarkable subjective improvement in incontinence after botulinum A toxin injection, but the effect wanes after 3 months. The use of intradetrusor botulinum A toxin is still investigational, but early results are encouraging. Rarely indicated surgical therapies
Follow-upNo established guidelines exist for monitoring patients with IC. This is not surprising given the wide spectrum of severity of patient symptoms. For excellent patient education resources, visit eMedicine's Kidneys and Urinary System Center. Also, see eMedicine's patient education article Urinary Tract Infections. COMPLICATIONSSection 8 of 11
Although rare, classic interstitial cystitis (IC) may lead to bladder wall scarring that results in a contracted small-capacity bladder. These patients often require augmentation cystoplasty or some form of urinary diversion. Other long-term sequelae of IC are unknown. However, due to the chronic nature of the condition and the significant impact on the patient's quality of life, the psychological impact of the condition can be enormous. Ongoing emotional support is essential. OUTCOME AND PROGNOSISSection 9 of 11
Interstitial cystitis (IC) is a chronic condition with a variable course, which, unfortunately, responds poorly to treatment in many cases. The most important element in treating these patients is education and emotional support. Patients must understand that the disease is characterized by intermittent periods of exacerbations and remissions. Periodic exacerbations are managed as they occur because no long-term therapy has been shown to prevent or delay recurrent episodes. Furthermore, even though only approximately 10% of patients manifest classic or ulcerative IC, no treatment to date has been shown to decrease disease progression; therefore, the purpose of treatment is to palliate and alleviate symptoms. FUTURE AND CONTROVERSIESSection 10 of 11
Diagnosing interstitial cystitis (IC) remains difficult even more than 100 years after it was described by Skene in 1887. No pathognomonic findings exist with regard to patient history, physical examination findings, laboratory findings, or cystoscopy findings. The exclusion of other clinical entities remains the foremost goal of the workup and evaluation of patients thought to have this condition. A careful, complete, and empathetic history and physical examination are critical. Cystoscopy is an adjunctive, although important, study. The classic Hunner ulcer in the setting of a small-capacity bladder (ie, assessed under anesthesia) rarely confirms the diagnosis with certainty. Until IC is defined completely or a definitive marker becomes universally available, the diagnosis remains one of exclusion. Studies at several centers are examining various soluble urinary and serum markers in patients with IC. The goals of this research include identifying the causative agent(s) or at least a marker for case identification and diagnosis. Alternatively, certain other soluble factors are being evaluated as potential surrogates of disease activity and response to therapy. Ongoing studies are investigating the use of intravesical bacille Calmette-Guérin vaccine (ie, an attenuated form of tuberculous bacterium used to treat some forms of bladder cancer) for the treatment of IC. Neuromodulation using implantable stimulators is also being evaluated as a therapy for chronic refractory IC. REFERENCESSection 11 of 11
Article Last Updated: May 3, 2007 |
