Recurrent Urinary Tract Infections

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Continuing Education Activity

Recurrent urinary tract infections (UTIs) are defined as ≥2 acute UTIs within 6 months or at least 3 within a year, commonly affecting women. Recurrent UTIs pose a significant health concern, often leading to considerable morbidity. They result from bacterial colonization, often E. coli, and are influenced by anatomical, functional, and lifestyle factors. Risk factors include inadequate bladder emptying, atrophic vaginitis, high-frequency sexual activity, and use of spermicides.

Differentiating between reinfection (new bacteria) and relapse (incomplete treatment) is crucial for management. Diagnosis relies on clinical symptoms and urine cultures, with imaging reserved for complex cases. Prevention includes hygiene improvements, hydration, and vaginal estrogen use. Timely, appropriate antibiotic therapy mitigates resistance and optimizes outcomes. This activity for healthcare professionals is designed to enhance the learner's competence in recognizing the etiologies and risk factors of recurrent UTIs, performing the recommended evaluation, advising preventative hygiene strategies, and implementing an appropriate interprofessional management approach to improve patient outcomes.

Objectives:

  • Identify the etiology of recurrent urinary tract infections based on clinical features.

  • Differentiate the presentation of a patient with recurrent versus relapsing urinary tract infections.

  • Determine the prescribing guidelines of antibiotic regimens for patients with recurrent urinary tract infections.

  • Implement care coordination among the interprofessional team to enhance delivery for patients with recurrent urinary tract infections.

Introduction

Recurrent urinary tract infections (UTIs) are 2 or more episodes of acute bacterial cystitis, associated symptoms within the last 6 months, or at least 3 episodes within the previous year.[1] Recurrent UTIs are more common in women. The cost of treating UTIs in the United States is about 3.5 billion dollars annually.[2] A UTI is traditionally defined as more than 100,000 colony-forming units (CFU/mL) of urine associated with typical acute symptoms of dysuria, urgency, frequency, or suprapubic pain (see Image. Urinary Tract Infection).[3] However, more than 100 CFUs of Escherichia coli with specific acute urinary symptoms have a positive predictive value of about 90%, indicating that a lower CFU threshold is more appropriate in diagnosing simple and recurrent UTIs.[4] 

Etiology

Urinary Tract Infection Risk Factors

Several conditions may predispose both men and women to have an increased risk of developing acute and recurrent UTIs, including:

  • Anatomical defects that lead to stasis, obstruction, or urinary reflux 
  • Atrophic vaginitis 
  • Bladder diverticula, especially those that do not drain well
  • Cystoceles and pelvic organ prolapse in women
  • Functional defects (eg, overactive bladder and urinary incontinence) 
  • Inadequate or incomplete treatment of the initial acute cystitis
  • Increasing bacterial resistance to antibiotics 
  • Older men with outlet obstruction or neurogenic bladder, causing urinary stasis and incomplete bladder emptying
  • Sexually active women without any identifiable structural abnormality or another predisposing condition
  • Intraluminal (eg, bladder stones, neoplasms, indwelling catheters, stents, foreign bodies), intramural (eg, ureteral stenosis/strictures), and extramural (eg, inflammatory mass, fibrosis, extrinsic mass effect, or neoplasm) lesions
  • Ureteroceles, urinary fistula, and urolithiasis 
  • Vesicoureteric reflux (identified in up to 40% of children with a first UTI) [5][6][7][8][9]

Notably, immunodeficiency alone typically does not lead to isolated recurrent UTIs.

Epidemiology

Approximately 1 in 3 women have an uncomplicated UTI before the age of 24. The lifetime prevalence of at least 1 symptomatic UTI in women is estimated to be over 50%, with about 26% of women demonstrating a recurrence during 6 months of follow-up after treatment of the initial UTI. In a study in the primary care setting, 53% of women who were 55 and older and 36% of younger women reported a recurrence within 1 year.[1] 

Pathophysiology

Recurrent UTIs usually involve new infections with different bacterial organisms. If the infection persists after treatment, this may indicate an untreated source, such as an abscess, urinary stone, or prostatitis. The source of these recurrent infections is the same as any uncomplicated cystitis. Typically, the rectal bacterial flora contaminates the periurethral area and urethra. Bacteria can quickly ascend and reach the bladder. Research indicates a complex and poorly understood relationship between the microbiomes of the intestines, vagina, and urinary tract.[10] Three-quarters of recurrent UTIs are caused by Escherichia coli. Other commonly found organisms include Klebsiella, Staphylococcus saprophyticus, Proteus mirabilis, and Enterococcus faecalis.[11]

Differentiating rapid reinfection (a different organism) from a relapse (the same organism not completely treated) is essential. A relapse is further defined as a recurrence within 2 weeks of completing therapy with the same organism. Reinfection occurs if a new infection from the same organism is diagnosed more than 2 weeks after treatment. Most recurrent UTIs typically seen in medical offices and clinics are reinfections and do not warrant an extensive urological evaluation or imaging.

Indications for imaging include persistent hematuria, a history of kidney stones, repeatedly finding Proteus (often associated with urolithiasis), and relapsing infections. Menopause and atrophic vaginitis cause the number of protective vaginal lactobacilli to decrease. Bladder contractions tend to become less forceful, leading to higher postvoid residual volumes predisposing to recurrent UTIs. The numbers of Lactobacilli in the vagina naturally decline. The contraction of the bladder weakens with age, leading to difficulties in complete emptying.

Risk Factors for Recurrent Infections

The most significant risk factors for recurrent UTI include the use of a diaphragm with spermicide, menopause, untreated atrophic vaginitis, and frequent sexual intercourse. Spermicides and lack of estrogen effect will disrupt the normal vaginal flora, while sexual intercourse tends to introduce vaginal bacteria into the urethra and bladder. Genetic factors are likely if a sister or mother has a history of frequent UTIs. Recurrent UTI risk factors include:

  • Bladder diverticula
  • Bladder fistula
  • Chronic diarrhea
  • Cystocele
  • Diabetes
  • First UTI before age 16 
  • Genetic predisposition (usually through bacterial/vaginal mucosal adherence factors)
  • Higher frequency of sexual intercourse (>2 times a week triples the risk of a UTI)
  • History of 5 or more UTIs
  • Inadequate fluid intake (low urinary volumes)
  • Increased post-void residual urine (incomplete bladder emptying >150 mL)
  • Mother or sister with a history of frequent or multiple UTIs
  • New or multiple sexual partners
  • Short anal to urethral meatus distance
  • Urethral diverticula
  • Urinary incontinence
  • Use of spermicide-coated condoms [11][12][13][14][15]

Personal Hygiene Factors

Hygiene risk factors that increase the likelihood of developing recurrent UTIs include:

  • Failing to use a gentle, liquid soap when washing the vaginal area
  • Not cleaning the urethral area first when washing
  • Not using clean, soft washcloths to clean the vaginal area when washing
  • Not using vaginal estrogen, when appropriate, in those who are postmenopausal
  • Not washing hands before wiping the vaginal area after voiding
  • Taking baths instead of showers
  • Wiping and washing the vaginal area (incorrectly) from back to front or more than once

History and Physical

Accurate assessment of a UTI requires a complete history and physical examination. Differentiating the various types of UTIs, their severity, and associated complications also necessitates recognizing characteristic clinical features.

Urinary Tract Infection Clinical Features

Acute simple cystitis presents with urinary frequency or urgency symptoms, dysuria, or suprapubic pain. The probability of cystitis is >90% in women with dysuria and frequency without vaginal discharge or irritation.[16] The presence of fever, chills, rigors, marked fatigue, or malaise suggests that the infection has extended beyond the bladder and is now regarded as acute complicated cystitis. Pyuria and bacteriuria without any urinary symptoms are not urinary tract infections and do not require treatment except in certain circumstances (ie, pregnancy before urological surgery).

Clinical features of pyelonephritis include fever, chills, flank pain, costovertebral angle tenderness, nausea, and vomiting. Symptoms of cystitis are often, but not universally, present in patients with pyelonephritis. Women with recurrent UTIs should have a pelvic examination to check for cystoceles, vaginitis, vaginal atrophy, and prolapse of pelvic organs. The results of a study of 113 women found that hematuria and urgency as symptoms during an initial urinary infection were the strongest predictors of a second UTI.

Men who have recurrent episodes of cystitis should undergo an evaluation for prostatitis. At the same time, older or debilitated patients may present with more generalized symptoms of infection (eg, fever and chills) or a change in mental status without any precise localization to the urinary tract. 

Recurrent Versus Relapsing Urinary Tract Infection

A recurrence is termed reinfection if the interval between the 2 episodes is longer than 2 weeks, if a different uropathogenic strain is documented, or if a sterile culture (with the patient off antibiotics) was documented between the 2 UTI episodes. If the interval between the 2 episodes is less than 2 weeks, this is considered a relapse. Relapsing infections often require additional evaluation with urological imaging, which is rarely indicated in recurrent infections. 

Positive urine cultures should be documented to confirm a diagnosis of recurrent UTIs, and appropriate urinary symptoms should be noted. A catheterized specimen will be needed if clean-catch urine samples are suspicious of contamination (especially in women). In women who have very rapid recurrences of cystitis after treatment, clinical clues and culture results will allow classification of cystitis as a reinfection (ie, a new infection after the previous one was wholly eradicated) or a relapse (ie, the reemergence of the last infection with the same bacteria, which was incompletely eradicated previously.)

Evaluation

Laboratory Studies for Urinary Tract Infection

The typical patient with recurrent UTIs does not require cystoscopy or urological imaging.[1][3][11][17] In women with a history of recurrent UTIs with typical symptoms, urological evaluation primarily involves a urine culture and sensitivity. Furthermore, urine cultures are obtained in patients with severe infection or a high risk of antibiotic resistance (eg, multidrug-resistant isolate, recent inpatient admission, recent antibiotic use, a history of travel to India, Israel, Spain, or Mexico).

Urine cultures are also necessary to differentiate recurrent infections (repeat infections with different organisms) from relapsing (identical organisms on culture). Relapsing infections suggest a persistent source of bacterial inoculation, eg, an abscess, chronic bacterial prostatitis, or an infected stone. The American Urological Association (AUA) guidelines on recurrent UTIs in women recommend obtaining a urinalysis and urine culture with each episode of acute cystitis.[3]

Urological Imaging Studies 

Urological imaging is advised for only a select group of women. Indications for urological imaging include relapsing infections, persistent hematuria after treatment, a history of stone passage, or repeated isolation of Proteus from the urine, often associated with renal stones. Preferred imaging modalities include renal ultrasonography or, ideally, a computed tomography scan of the abdomen and pelvis.

Pediatric Urinary Tract Infection Evaluation 

Various sampling methods have been described to establish the diagnosis of UTI in the pediatric population. Obtaining the urine sample utilizing suprapubic aspiration or catheterization is more invasive but results in lower contamination and more reliable results. If the urine sample is collected through a plastic bag, several steps are required to rule out the possibility of a UTI, including dipstick evaluation and microscopic analysis.

The presence of leukocyte esterase and nitrite on a urinary dipstick and the possibility of pyuria and bacteriuria should be excluded to rule out the impression of a UTI. Utilizing a clean, voided midstream urine sample for the diagnosis is limited to toilet-trained children and individuals.[18] Patients with negative urinary cultures who have persistent symptoms should be evaluated for other causes, including atypical organisms, interstitial cystitis, endometriosis, atrophic vaginitis, trauma, urethral pathology, neoplasms, diverticula, strictures, medication adverse effects, and vaginitis.[19][20][21]

Diagnostic Cystoscopy 

Performing a cystoscopy to diagnose recurrent UTIs is rarely indicated, as this might only induce an ascending lower urinary tract infection and rarely provides any useful clinical information.[3][22][23] While cystoscopy is rarely helpful when utilized routinely, it can be useful in managing selected postoperative cases to identify possible ureteral or bladder injuries, evaluate incomplete bladder emptying, or visualize vesical calculi.

The optimal recommended type of irrigation fluid utilized during cystoscopy has been investigated. For instance, in the 8-month-long study of Cleveland health system clinics, a significantly higher rate of UTIs was found in those patients who had undergone cystoscopy with 10% dextrose and water irrigation compared to normal saline.[24] All cystoscopies were planned to exclude intraoperative ureteral injuries during complicated urogynecology procedures.

Treatment / Management

Treatment for Uncomplicated Urinary Tract Infections

Acute uncomplicated UTIs are primarily managed in the outpatient setting.[6] Women with typical symptoms of acute cystitis can be prescribed antibiotic therapy through telehealth.[25] In cases of initial treatment failure and high-risk patients, a urine culture is recommended to optimize antibiotic therapy. The decision to hospitalize is based on the individual case characteristics. Most patients with persistent fever, pain, inability to take oral medicines, or a history of poor medication adherence should be managed as inpatients.

Management of simple cystitis is relatively straightforward. Urine cultures should be obtained before initiating therapy. The indications for urine culture are recommended in the following cases:

  • For patients treated for cystitis in the past 3 months, urine culture and susceptibility testing should be obtained to guide antibiotic therapy due to the increased risk of antibiotic resistance.
  • Patients with complicated cystitis or pyelonephritis should also have urine cultures before initiating empiric antibiotics.

Antibiotic therapy

The first-line options for empiric antibiotic therapy for uncomplicated cystitis are:

  • Nitrofurantoin: Nitrofurantoin 100 mg twice daily orally for 5 to 7 days. This antibiotic should be avoided in suspected pyelonephritis (due to poor tissue penetration) or if the creatinine clearance is less than 30 mL/min.
  • Sulfamethoxazole-trimethoprim: The recommended dosage for sulfamethoxazole-trimethoprim (SMX-TMP) is 160/800 mg twice daily orally for 3 to 14 days. The antibiotic should be avoided if the local resistance rate exceeds 20% or in patients with an estimated glomerular filtration rate (GFR) of <15 mL/min. 
  • Fosfomycin: This antibiotic should be taken as a single oral dose of 3 g. Fosfomycin is recommended as first-line therapy when other agents have failed or cannot be used.
  • Pivmecillinam: This antibiotic, FDA-approved in April 2024, is now available in the US. Pivmecillinam converted to mecillinam, a unique extended-spectrum β-lactam oral antibiotic, is approved for first-line therapy in uncomplicated urinary tract infections.[26] While not indicated for systemic infections or sepsis due to inadequate tissue penetration, pivmecillinam is very effective in lower urinary tract infections due to susceptible strains of E. coli, Proteus mirabilis, and Staphylococcus saprophyticus.[26][27][28][29][30][31] This medication is recommended for susceptible organisms when other first-line antibiotics are not possible or clinically fail due to bacterial resistance. The standard recommended dose for acute simple cystitis is 185 mg 3 times daily for 3 to 7 days. A dose reduction is recommended if the GFR is <30 mL/min. It should not be used if the GFR is <10 mL/min.[6]

Oral β-lactams are the next best choice if first-line antibiotics cannot be prescribed. Amoxicillin-clavulanate 500 mg twice daily, cefdinir 300 mg twice daily, cefadroxil 500 mg twice daily, and cefpodoxime 100 mg twice daily are each given for 5 to 7 days. Ampicillin or amoxicillin should be avoided due to high rates of resistance.[32][33] If the β-lactams cannot be used, fluoroquinolones such as levofloxacin 250 to 500 mg daily, ciprofloxacin 250 to 500 mg twice daily, or norfloxacin 400 mg twice daily for 3 days are alternatives. Fluoroquinolones are contraindicated in pregnancy and avoided when possible to minimize the development of quinolone resistance. Please see StatPearls' companion resource, "Uncomplicated Urinary Tract Infections," for more information.

To manage inpatient risk factors for multidrug-resistant (MDR) pathogen infections, carbapenems (imipenem 500 mg IV Q6H, meropenem 1 g intravenously (IV), or doripenem 500 mg Q8H) are used. Oral pivmecillinam may also be considered for lower urinary tract infections due to susceptible organisms due to its effectiveness against multidrug-resistant and extended-spectrum beta-lactamase (ESBL)-producing microorganisms, especially E. coli.[26][27][28][29][30][31]

If no risk factors for multidrug resistance are present, ceftriaxone 1 gram IV daily or piperacillin-tazobactam 3.375 grams IV Q6H are prescribed. Fluoroquinolones (ciprofloxacin or levofloxacin), both oral and parenteral, are also alternatives. Carbapenems (as above) and vancomycin are typically prescribed only for critically ill patients. Aminoglycosides may also be prescribed selectively, depending on urine culture, sensitivity results, and local antibiotic susceptibility patterns.

Symptoms should respond to antibiotic therapy within 48 hours of initiation. If no improvement is noticed within the first 48 hours after starting treatment, a repeat urine culture should be obtained along with urologic imaging to rule out complications such as an obstructing urinary stone, hydronephrosis, urinary retention, renal abscess, or pyelonephritis. Clinicians should not generally perform a posttreatment test of cure urinalysis or urine culture in asymptomatic patients with uncomplicated urinary tract infections. Repeat urine cultures should be obtained to guide further management when UTI symptoms persist following antimicrobial therapy.

Preferred agents for UTIs in patients with renal failure include carbapenems, cephalosporins, doxycycline, fosfomycin, penicillins, and quinolones like norfloxacin. Intravesical instillations of an antibiotic solution, eg, gentamicin, may also be prescribed in patients with severe renal impairment.[34][35][36][37][38] For patients with end-stage renal failure, quinolones (ciprofloxacin, levofloxacin) are the first-line agents for UTIs, with cefdinir or cefpodoxime as second-line therapy.[39][40] For prophylaxis in patients with end-stage renal failure, the preferred antimicrobials are trimethoprim alone and fosfomycin.[41] Intravesical therapy may also be used in selected cases.

Treatment for Recurrent UTIs

Recommended treatments for recurrent UTIs include maximizing personal hygiene factors, avoiding spermicides, wiping correctly, increasing fluid intake and hydration, and using vaginal estrogens if appropriate. The effectiveness of lifestyle changes in personal hygiene in reducing recurrent UTIs is inconclusive. However, recommending improved hygiene has no negative consequences and might be of some benefit.[13][42] The use of probiotics is unclear, as clinical trials to date are inconclusive.[43][44][45][46][47][48][49]

When conservative measures fail to control recurrent UTIs, commonly recommended initial nonantibiotic prophylactic therapies include the following:

  • Cranberry products: Although recommended as first-line prophylactic agents, cranberry products' efficacy remains controversial, as a definitive benefit has not yet been established. Cranberries are thought to work by providing proanthocyanidins, which decrease bacterial adherence to the urothelium. While this sounds reasonable and is an attractive hypothesis, commercially available cranberry products have limited amounts of proanthocyanidins. The AUA guidelines suggest using this treatment but advise patients that effectiveness is uncertain and alternative measures may be necessary.
  • D-mannose: Binding to bacterial surface ligands is thought to help reduce the adherence of infecting organisms to the urothelial mucosa in recurrent cystitis. However, evidence of a reduction in recurrent infections is conflicting, and definitive trials have not yet been conducted. The product is relatively costly, and optimal dosages are still undetermined, although 500 mg twice daily is commonly suggested. Recent randomized trials have failed to show any clinical benefit.
  • Methenamine prophylaxis: Along with vitamin C, the treatment acidifies the urine. If the urinary pH remains acidic, preferably <5.5, the bladder converts the methenamine to formaldehyde. A recent systematic review found methenamine to be an effective and well-tolerated prophylactic antimicrobial agent, avoiding the need for systemic antibiotics and their potential adverse effects. A separate multi-institutional, clinical randomized trial study compared methenamine to trimethoprim for UTI prophylaxis and found the same rate of recurrences for both after 1 year. Although some studies have failed to prove a long-term benefit, the majority show efficacy, indicating that further use and research of methenamine is warranted, particularly given recent trends demonstrating increasing antibiotic resistance. A GFR is <10 mL/min is a contraindication.
  • Estrogen vaginal cream: The topical treatment reduces recurrent UTIs in those who are postmenopausal and should be prescribed when appropriate in addition to other prophylactic measures.
  • Lifestyle and behavioral modifications: A study of 47 patients followed for 6 months found probiotics, D-mannose, and cranberry products helpful. Women in the study had a reduced rate of UTIs by 76%, and antibiotic use dropped by over 90%. Such a combination of nonantibiotic therapy appears quite promising as being effective, avoiding the potential adverse effects of antibiotic use, and minimizing bacterial resistance. However, further research with larger sample sizes using different components is needed to confirm and determine the optimal ingredients and dosages.
  • Vaccines: Immunizations to prevent recurrent UTIs are still mostly under development, but several appear promising. The oral vaccine, MV140, has shown good efficacy in preventing recurrent UTIs in several studies with safety data and minimal adverse effects. A preliminary long-term study of MV140 has recently demonstrated efficacy over 9 years following the initial administration. MV140 contains heat-inactivated strains of Escherichia coliKlebsiella pneumoniaeEnterococcus faecalis, and Proteus vulgaris, which induce host antibody production and modify the bladder's local immune response. While not approved for use in the US or Canada, the vaccine is now available in several countries worldwide, including Australia, Chile, the Dominican Republic, Lithuania, Mexico, the Netherlands, New Zealand, Norway, Portugal, Spain, Sweden, and the United Kingdom.
  • Antibiotic prophylaxis: Prophylaxis successfully controls recurrent UTIs, but alternative nonantibiotic means are usually recommended first. This approach limits the development of bacterial resistance, eliminates antibiotic-related adverse effects, and reduces costs. Prophylaxis is reasonable when other more conservative measures fail, or evidence of multiple rapid recurrences is apparent. However, use is inappropriate in patients who have permanent catheters or nephrostomies, as this will rapidly lead to highly resistant organisms.
    • Postcoital prophylaxis is appropriate for women with frequent episodes of cystitis that are associated with sexual activity.
    • Another option is self-directed therapy, where patients start a short course of antibiotics at the first sign or symptom of a UTI. Such an approach is reasonable if the patient is sufficiently educated about infection symptoms and will reliably follow instructions. If possible, a urine culture should still be obtained before starting treatment. Efficacy appears equal to continuous low-dose prophylaxis regimens with fewer gastrointestinal adverse effects. If this fails, then a continuous prophylactic treatment protocol is needed.
    • Long-term low-dose antibiotic prophylaxis is the gold standard method of recurrent UTI prevention. This regimen requires the highest level of patient compliance, has a long duration of therapy (at least 6 months), and risks increasing antibiotic resistance. Prophylaxis is indicated in the most intractable cases where more conservative measures have failed or cannot be effectively utilized.[50][51][52][53][54][55][56]
  • Intravesical therapy: Patients with intractable recurrent urinary tract infections and those already on intermittent self-catheterization can benefit from periodic intravesical prophylactic treatment with gentamicin or other antimicrobial agents such as chlorhexidine, hyaluronic acid, Lactobacillus rhamnosus, Neosporin (but not Neomycin), povidone-iodine solution, and tobramycin may also be used as alternatives.[34][35][37][38][57][58][59][36][60][60][61] Gentamicin is the most commonly used agent for this purpose. The usual dose is 80 mg gentamicin with 50 to 60 cc of normal saline.[59]

Surveillance urine testing and cultures in asymptomatic patients are not recommended. Asymptomatic patients, high-risk patients in nursing homes, and patients with diabetes do not benefit from an additional evaluation, and any bacteriuria should not be treated without symptoms. This recommendation does not apply to pregnant women or patients undergoing urinary tract surgery.[62][63][64][65][66]

If a patient with a recurrent UTI develops an acute UTI, a urine culture should be obtained, and an alternate antibiotic agent should be prescribed to treat the infection. The duration of treatment should generally be no longer than 1 week. If the urine cultures indicate resistance to all available oral agents, parenteral antibiotics may be required. Fosfomycin may be an acceptable agent in such circumstances. An infectious disease consultation is suggested in such situations. The duration of therapy should generally be no more than 1 week.[67][68][69][70][71]

Long-Term, Low-Dose Antibiotic Prophylaxis

Continuous long-term prophylactic antibiotics typically use lower dosages than acute cystitis therapy. Therefore, this approach is called the long-term, low-dose therapy protocol. The antibiotic selection is based on the patient's culture and sensitivity results. Initial evaluation of the effectiveness of prophylaxis is suggested at 3 months. If effective, a 6- to 12-month duration is typical. Unfortunately, many individuals will revert to their prior pattern of infections when prophylaxis stops.[72][73] Some experts will recommend continuing prophylaxis for up to 2 or more years in selected patients. In such cases, nitrofurantoin, SMX-TMP, and trimethoprim are preferred agents.

Fosfomycin and pivmecillinam may be used for long-term low-dose prophylaxis, when appropriate, for otherwise resistant organisms where preferred agents cannot be administered and to help avoid the overuse of fluoroquinolones.[74] Carnitine deficiency is possible with long-term pivmecillinam use.

Quinolones are not preferred for prophylaxis because of the risk of increasing bacterial resistance. If quinolones are the antibiotic of choice, norfloxacin is preferred due to less tissue penetration outside the urinary tract and maintenance of urinary levels. This antibiotic is only selected when other first-line agents cannot be prescribed.[75]

Some patients have continued low-dose prophylaxis for years, but this practice has not been scientifically studied or validated. Potential adverse effects of long-term, low-dose antibiotic usage include gastrointestinal, hepatic, and pulmonary issues. Beta-lactams can be prescribed but tend to rapidly change gastrointestinal flora, carry a risk of pseudomembranous colitis (Clostridia), provoke bacterial resistance, and stimulate yeast overgrowth.

Limited data is available on the use of fosfomycin for UTI prophylaxis, but it may be appropriate in selected situations.[76] Prophylactic regimens are not written in stone; agents can be changed to help maintain efficacy. In patients with chronic, permanent catheters, a short course of 1 to 3 days of antibiotic prophylaxis can reduce the incidence of symptomatic UTIs. This approach may suit severely immunocompromised patients and possibly those with persistent infections after catheter changes. However, prophylaxis is not recommended routinely due to the expected increase in antibiotic use, which will result in worsening bacterial resistance patterns.[77]

Some negative aspects of antibiotic prophylaxis are recognized, including added cost, inconvenience, allergies, and drug-drug interactions. Yeast superinfections and Clostridia overgrowth in the gastrointestinal tract may increase, and continuous prophylaxis promotes the emergence of more resistant urinary pathogens.[78] Long-term, low-dose antibiotic prophylaxis is effective but requires high patient compliance and risks resistance. Patients may relapse when prophylaxis is discontinued, and no data is available on continuing prophylaxis over 1 year.

Extended full-dose therapy for one month was compared to standard long-term low-dose prophylaxis in 246 women with uncomplicated UTIs in a recent study. A significant risk reduction for recurrent infections was noted in the extended full-dose therapy cohort. This interesting study suggests a possible benefit to extended full-dose therapy but requires confirmation by randomized trials.[79]

Antibiotic Agents for Recurrent Urinary Tract Infection Prophylaxis

Preferred antibiotic agents for recurrent UTI prophylaxis include:

  • Nitrofurantoin at 50 to 100 mg before bed (HS) daily
  • SMX-TMP at 40/200 mg HS daily
  • Trimethoprim at 100 mg HS daily

Second-line antibiotic agents for recurrent UTI prophylaxis include:

  • Cephalexin at 125 mg or 250 mg HS daily
  • Cefaclor at 250 mg HS daily
  • Fosfomycin at 3 gm every 10 days
  • Norfloxacin at 400 mg HS daily
  • Pivmecillinam at 185 mg daily 

Urinary Tract Infection Prophylaxis in Renal Failure

Patients with significant renal failure (GFR <30 mL/min) cannot take nitrofurantoin, methenamine, or sulfa medications for prophylaxis. Preferred agents for prophylaxis in such situations include: 

  • Trimethoprim at 100 mg HS daily
  • Fosfomycin at 3 gm every 10 days
  • Quinolone at a reduced dosage (less preferred)
  • Consider intermittent intravesical gentamicin [59][80]

The AUA guidelines are evidence-based recommendations for recurrent UTIs reviewed by an interprofessional expert committee.[3] The current guidelines, published in 2019, have been developed after an exhaustive review of the current medical literature from peer-reviewed journals.[3] The only nonantibiotic-based therapies for recurrent UTIs currently recommended by the AUA guidelines are cranberry prophylaxis and vaginal estrogen.[3]

Differential Diagnosis

Differential diagnosis to consider when evaluating recurrent UTIs include:

  • Atrophic vaginitis: Thinning, drying, and inflammation of the vaginal tissues, frequently leading to urinary symptoms due to loss of estrogen
  • Overactive bladder: Frequency and urgency with no evidence of infection
  • Painful bladder syndrome: Dysuria, frequency, urgency, but no evidence of infection; diagnosis of exclusion
  • Pelvic inflammatory disorder: Lower abdominal or pelvic pain, fever, cervical discharge, and cervical motion tenderness
  • Prostatitis: May present with pain during ejaculation and tender prostate on digital rectal examination
  • Urethritis: Urinalysis shows pyuria, not bacteria (common in sexually active women)
  • Urolithiasis: Bladder or distal ureteral calculi; nephrolithiasis may be an infected focus
  • Vaginitis: Presence of vaginal discharge, odor, pruritus, or dyspareunia with no frequency or urgency

Prognosis

Most recurrent UTIs have no long-term sequelae, and patients recover fully. The mortality associated with acute uncomplicated cystitis in women is negligible. However, in terms of morbidity, each episode of UTI results in a loss of 1.2 days of class or work attendance. Younger patients without preexisting comorbidities have the best prognosis.

Factors associated with a worse prognosis may include older age, recent urinary instrumentation, recent hospitalization or antibiotic therapy, preexisting diabetes mellitus, sickle cell anemia, or chronic renal disease.[81] UTIs occurring in the setting of specific anatomical abnormalities such as renal calculi, obstruction, hydronephrosis, colovesical fistula, neurogenic bladder, renal failure, or bladder exstrophy have a worse prognosis.

Complications

Risk factors for complications include urinary tract obstruction, recent urinary tract instrumentation, older age, and diabetes mellitus (particularly for emphysematous pyelonephritis and papillary necrosis). Acute pyelonephritis can also be complicated by the infection progressing to a renal abscess, perinephric abscess, papillary necrosis, or emphysematous pyelonephritis. This may present a lack of improvement in symptoms after 48 hours of appropriate antibiotic therapy and requires further evaluation with urological imaging. Patients with complicated UTIs can present directly with bacteremia, sepsis, multiple organ system failure, or acute renal failure.

Deterrence and Patient Education

Several preventive measures are recommended to reduce further recurrences of UTIs, although the proven benefit is marginal. Patients should be advised to increase fluid intake to at least 2 liters daily. In a study on 140 women, increased water intake resulted in decreased incidence of cystitis episodes by 1.5 (95% CI, 1.2-1.8) (mean 1.7 versus 3.2) episodes.[82] 

Topical vaginal estrogen is recommended in women who are postmenopausal with vulvovaginal atrophy (ie, genitourinary syndrome of menopause) to reduce the risk of future UTIs, provided no contraindications are noted. Other behavioral modifications include wiping from front to back, using clean liquid soap, avoiding reusable luffas and sponges for soap application when bathing, and early postcoital voiding.[83] Evidence is inconclusive about the beneficial role of cranberry juice in reducing episodes of recurrent UTI.[84]

Antibiotic prophylaxis should be offered only after other preventive modalities and only in women with a confirmed diagnosis of recurrent cystitis. In some situations, the adverse effects of antibiotic prophylaxis may outweigh the risk of recurrent UTIs, as cystitis rarely results in a poor outcome. These may include direct drug toxicity, development of resistance, alteration of the microbiome, and Clostridioides difficile infection.

In women with cystitis episodes associated with sexual activity, postcoital antibiotics may be advised to reduce the risk of adverse effects without compromising the drug’s efficacy or promoting antibiotic resistance.[74] In other cases, continuous prophylaxis is recommended. The drugs prescribed in continuous and postcoital prophylaxis are largely similar. The need for antibiotic prophylaxis should be reevaluated after 6 months.

Summary of Personal Hygiene Recommendations

In many women, recurrent UTIs are caused by inadequate or suboptimal personal hygiene. Controlled studies have not proven significant efficacy in reducing recurrent UTIs from lifestyle modifications. Patient education from female clinicians may be more accepted by female patients who feel uncomfortable hearing this advice from male clinicians.[13][32]

The following information reviews the recommendations for conservative management that clinicians should encourage patients to practice: 

  • Proper wiping practices
    • Wash hands before wiping: Patients should wash their hands before urinating or using the toilet. They should also wash their hands before they get into the shower to avoid passing germs from their hands back to their body near the vaginal area.
    • Wipe front to back: Always wipe from the front to the back after urinating. The patient should start from the front and push down and away towards the rectum. Most urinary infections are from bacteria that normally live around the rectum and anus. Therefore, any wiping motion that starts near the rectum and then approaches the urethral area will move potentially dangerous bacteria closer to the bladder and urinary tract. Patients should also wipe the same way, front to back, after a bowel movement. 
    • When wiping, only wipe once: Using toilet paper after urination is acceptable. However, the patient must wipe once, or they may add more bacteria to the urethral area. Sterile baby wipes are cleaner than toilet paper and can be carried in their purse outside the home. As a general rule, anything safe for babies can also be utilized in the delicate area around the vagina and urethral opening.
  • Bathing practices
    • Avoid baths: Bathwater is full of dirt and bacteria from the skin. Sitting in a tub allows the bacteria to reach the urethra. Remind the patient that the water they wouldn’t drink shouldn’t be used to clean their urethra. If a patient absolutely must take a bath instead of a shower, they should avoid any bubble baths or other cosmetic bath additives, which tend to be irritating to the delicate skin of the vaginal mucosa. Instruct the patient to take showers instead.
    • Avoid luffas and all reusable sponges: Luffas and other reusable sponges, including nylon, cannot be adequately cleaned or sterilized, so they retain bacteria. They are also utilized repeatedly for days, weeks, or months, during which they can accumulate more and more bacteria and germs. Women susceptible to infections, particularly UTIs, should avoid using reusable items that are heavily contaminated.
    • Use a gentle liquid soap when washing: Bar soap will always have bacteria due to exposure to the air and bathroom environment. A body wash is fine for regular skin cleaning, but regular body wash is too harsh for the gentle tissue of the vagina and urethral area. Avoid using products with unnecessary perfumes, astringents, creams, or other irritating chemicals. The patient may use gentle baby soap or shampoo for the urethral area.
    • Use washcloths: The best and cleanest way to apply soap is to use a clean, soft cotton or microfiber washcloth. The washcloths can be placed into a clean, resealable plastic bag immediately after they are washed and dried, as they are cleanest from the dryer. The patient may want a second washcloth to finish their shower after adequately cleaning the urethral area.
    • Clean the urethral area first: Without proper cleaning, the bladder is the only body area that could become infected. The bladder should be washed before a washcloth or hands pick up dirt, germs, or bacteria from other body parts. When surgeons perform surgery, they clean the surgical site before moving to the surrounding area. The same principle applies to cleaning the bladder area. 
    • How to wash: Hands should be washed before showering. Wet the washcloth, add some clean liquid soap, and wipe the urethral area first with a single front-to-back wipe. Rinse well without directly spraying the area. The washcloth to clean the urethral area should be used only once before laundering and not for any other purpose.
  • Douches and other personal hygiene products: In most cases, a vinegar and water douche or a douche with iodine or benzalkonium chloride is helpful if carried out correctly at appropriate intervals. The patient should not use any feminine hygiene sprays, cosmetics, perfumes, medicated towelettes, or similar products in the vagina or urethral area unless approved by the clinician.
  • Use tampons for periods: Tampons are advised rather than sanitary napkins or pads during menstrual periods. Compared to a sanitary pad, a tampon can help maintain better hygiene and reduce bacterial growth.
  • Avoid long intervals between urinations: The patient should try to empty their bladder every 4 hours during the day, even if they don’t feel the urge to void. If possible, the urge to void should be promptly answered. 
  • Don’t wear tight clothes: Patients should avoid wearing pantyhose, bathing suits, or tight slacks for prolonged periods. All of these can cause the skin around the vagina to fold into the body, introducing more bacteria around the urethra.
  • Dietary modifications
    • Drink more water: Recommend starting with 1 extra glass with each meal. If the patient’s urine appears any darker than a very pale yellow, this could mean that they are not drinking enough and should increase their fluid intake. Cranberry juice is helpful in patients with UTIs but can be substituted with other beverages.
    • Take vitamin C and drink cranberry juice: Recommend additional vitamin C. This may help increase the body’s resistance to infection. Extra vitamin C that the system cannot use immediately is released into the urine, which blocks bacterial growth. As noted earlier, cranberry juice or pills may be of benefit in reducing UTIs. 
    • Avoid irritating foods like caffeine: Symptoms of bladder irritation may be aggravated by caffeine, regular coffee, tea, alcohol, “hot” spices, aspartame, chocolate, cola drinks, and high-potassium foods like bananas and oranges.
  • Lifestyle modifications
    • Avoid activities that increase the risk of bladder infections: Prolonged bicycling, motorcycling, horseback riding, and similar physical activities and exercises may increase the risk of bladder infections. When engaging in physical activity and exercise, patients should frequently empty their bladders and drink plenty of water and other fluids. Sexual activity may also increase the risk.
    • Take special precautions after sexual activity: After intercourse, instruct the patient to empty their bladder and drink 2 extra glasses of water. After sexual activity, clinicians may advise some patients to take a urinary antiseptic or antibiotic.
  • Medications
    • An estrogen vaginal cream may increase resistance to bladder infections: Clinicians may suggest an estrogen cream for the vagina if the patient is in menopause. The vaginal cream will help keep the tissues around the urethra healthy and more resistant to infection.
    • Take antibiotics only as prescribed: If the clinician has prescribed medication or antibiotics as prophylaxis, patients should follow their instructions carefully. They must be aware that medications may be necessary for up to 1 year or more, depending on the nature and severity of the UTI. For some patients, a small amount of a urinary antibiotic or antiseptic taken daily at bedtime will prevent most urinary infections, give the bladder a chance to heal, and restore the natural resistance. Other patients may only need antibiotics when they think they are getting an infection. 

If patients follow these suggestions and still get an infection, they should seek medical help promptly if they have an infection. A clinician typically requests a urine specimen. Patients should seek prompt help for excessive vaginal discharge or other signs of vaginal inflammation and infection. Patients may begin an antibiotic at this time, and compliance is crucial. Sometimes, the clinician may request additional tests such as kidney x-rays or a direct bladder examination with a telescope (cystoscopy). Sterilization of washcloths may be the next step where more straightforward measures are inadequate.

Sterilizing Washcloths for Home Use

The clinician may recommend sterilizing washcloths for washing and personal hygiene to help prevent recurrent UTIs. This extra step is probably unnecessary for most patients with recurrent infections but can benefit the more severe or resistant cases. Patients should use only those washcloths purchased for this purpose and remember to wipe correctly from front to back. The following are recommended steps for sterilization:

  1. Wash the washcloths with hot water and soap or detergent. If the patient doesn’t have a washer, they can use soap and hot water in a sink.
  2. Boil the washcloths in water for at least 20 minutes.
  3. Take the washcloths out of the water and allow them to dry, or use the clothes dryer.
  4. When dry, place each washcloth in a separate, sealable, microwave-safe plastic bag such as a ziplock bag.
  5. Leave the bags open and unsealed.
  6. Place the bags in the microwave. In the center of the microwave, put a large glass of cold water. The washcloths should not be placed in the water.
  7. Put the microwave on high for 5 minutes. Replace the glass of cold water (now very hot) with a new glass of cold water and microwave on high for 5 minutes. 
  8. Let the bags cool, then close them. The washcloths are now sterile inside a sterile bag.

This technique kills the germs and bacteria on the washcloths by sterilizing them with microwave radiation. Without the glass of cold water to absorb the heat, the bags would melt, and the washcloths would catch fire.

Pearls and Other Issues

Consider using fosfomycin or pivmecillinam in patients with a history of multidrug-resistant or ESBL-producing infections or when urine cultures show microorganisms. Also, consider intermittent intravesical therapy with gentamicin solution in otherwise intractable cases or for patients with end-stage renal failure.[34][35][37][38][57][58][59]

Experimentally, vaccines to reduce the recurrence of UTIs have been developed from whole bacterial cells. Most have been at least marginally successful, but the beneficial effect disappears after just a few weeks.[85][86] Sublingual mucosal polybacterial vaccines were recently studied in immunocompromised patients and provided promising results in reducing recurrent infections.[87] A bioconjugate vaccine from various E. coli genotypes works better and has a longer-lasting effect. Yet, another promising experimental vaccine focuses on E. coli type 1 fimbrial adhesion protein.[54]

MV140 is an oral vaccine for the prophylaxis of recurrent UTIs that has shown good efficacy over 9 years in a preliminary study and is now clinically available in many countries but not the US or Canada.[63][65][66][67][69] The vaccine should be considered if available. Pilicides and mannosides are also designed to interfere with bacterial adhesion to the urothelium and may be particularly useful in patients with chronic Foley catheters.[88] Another approach uses oral immunostimulants for E coli. This therapy is already commercially available in Europe but not the US and has demonstrated a reduction in E coli recurrences of 95%.[89] 

Nonsteroidal anti-inflammatory agents to modify host defenses are being studied experimentally to reduce recurrent UTIs.[90][91] Fecal microbiota transfer, which transplants metabolites and microorganisms from the fecal material of a healthy donor, appears promising, and bacteriophage therapy, which targets pathogenic bacteria with specific viruses, is also being explored as a possible therapy in the future.[71]

Summary of Preventing Infections

A summary of key practices to prevent urinary infections include:

  • Wipe in the correct direction, from front to back.
  • Wash hands before using washcloths, tissues, or toilet paper for wiping or washing.
  • Use a clean, gentle liquid soap because that is cleaner than bar soap.
  • Only wipe once with each washcloth or tissue. 
  • When washing, clean the bladder area first to prevent bacteria contamination from other body parts.
  • Don’t use these washcloths for anything except to clean the area around the urethra.
  • Drink extra water and take vitamin C. Drink cranberry juice or take cranberry pills. 
  • Consider using an estrogen cream twice a week (or as prescribed by the clinician) if postmenopausal.

Enhancing Healthcare Team Outcomes

Effective management of recurrent UTIs requires an interprofessional approach, where healthcare professionals collaborate to provide patient-centered care, enhance outcomes, and ensure safety. Physicians and advanced practitioners serve as the primary point of contact, conducting thorough history-taking, physical exams, and initiating diagnostic tests like urinalyses and urine cultures. Collaboration with specialists such as urologists, infectious disease experts, and radiologists is essential for evaluating complex cases, particularly when urinary obstruction or atypical presentations are suspected. Obstetricians may manage cases involving pregnant patients, where symptoms can overlap with obstetrical pain.

Nurses play a pivotal role in monitoring vital signs, educating patients and families, and supporting adherence to treatment plans. Pharmacists contribute by ensuring appropriate antibiotic selection, preventing resistance, and managing medication safety. Clear interprofessional communication is vital to bridging gaps in symptom perception and addressing misconceptions, fostering patient trust, and empowering patients to engage in their care. In select cases, motivated and reliable patients may benefit from self-diagnosis and treatment under professional guidance, streamlining care while maintaining efficacy. By coordinating efforts and sharing case information, the team ensures timely, accurate treatment while avoiding unnecessary interventions, promoting optimal outcomes and team performance.



(Click Image to Enlarge)
<p>Urinary Tract Infection. Urinary tract infection-causing bacterial colonies can be seen in clumps.</p>

Urinary Tract Infection. Urinary tract infection-causing bacterial colonies can be seen in clumps.

Contributed by S Bhimji, MD

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