No pain, if you’ve got game

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No pain, if you’ve got game

ILLUSTRATIVE CASE

An 8-year-old girl with congenital heart disease (status: post repair) arrives at your clinic for a routine appointment. Since the age of 12 months, she has experienced significant anxiety during medical visits, especially with blood draws and injections. She enjoys playing video games on her new tablet computer. Her parents want to know what you can do to reduce her anxiety and pain during today’s scheduled blood draw. Should you recommend that she continue playing video games during the venipuncture?

Adequately managing pain while performing venipuncture in children can improve the quality of the experience, reduce children’s fear of going to the doctor, and increase efficiency in medical practice.2 Since pharmacologic pain-control methods may have adverse effects, distraction techniques—engaging the child in another activity during a procedure—are commonly used instead to help reduce a child’s pain. These techniques can be active or passive.

Studies have demonstrated that both active and passive distraction techniques reduce children’s pain during medical procedures, including venipuncture. Passive techniques, such as nurse coaching3 and watching cartoons,4 have been found to reduce distress and pain. Active distraction techniques, such as playing video games while undergoing a painful procedure (eg, dressing a wound), have been shown to be more effective than passive techniques.5,6

A Cochrane review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children demonstrated reduced pain, but the quality of evidence was low and the review recommended improved methodological rigor and trial reporting.7 Another systematic review and analysis showed strong support for distraction for reducing pain; however, the quality of evidence was low and the researchers cited problems with characteristics of the distraction interventions, child age, and risk of bias in the studies.8

There has been a lack of RCTs comparing the effectiveness and superiority of active vs passive distraction techniques. The first high-quality RCT to directly compare 3 of the most common distraction techniques to a control group was recently conducted in a large training and research hospital in Turkey.1

STUDY SUMMARY

Pain and anxiety levels were lowest in actively distracted children

The RCT included 180 children ages 6 to 10 years randomly assigned to 1 of 3 intervention groups or a control group.1 Phlebotomy was performed while children watched a cartoon, played a video game, were distracted by parental interaction, or had no distraction (control group).

Investigators independently measured pain and anxiety in the patient and perceived pain and anxiety according to both a family member and a health care worker (medical observer). Researchers used the previously validated Children’s Fear Scale and the Wong-Baker Pain Scale.9,10 The Children’s Fear Scale was used to assess anxiety in children on a scale of 0 (picture of a calm face) to 4 (picture of the most fearful face). The Wong-Baker Pain Scale was used to assess pain on a scale of 0 (no hurt: happy face) to 10 (hurts worst: saddest face).

Continue to: Results

 

 

Results. The pain and anxiety scores were significantly lower in all of the intervention groups compared with the control group (P < .05). The video game (active distraction) group had the lowest levels of both pain and anxiety. The self-reported Children’s Fear Scale scores of children in the video game group were 0.27, compared with 0.76 in the cartoon group, 1.24 in the parental distraction group, and 2.22 in the control group. The anxiety scores recorded by the family member and the medical observer showed similar significant differences.

Allow children to play a video game during procedures such as venipuncture; doing so reduces pain and anxiety.

The Wong-Baker Pain Scale scores showed similar differences in self-reported pain for the video game group (1.42) compared with the cartoon group (3.02), the parental distraction group (2.89), and the control group (5.11). Pain scores reported by the family member and the medical observer (respectively) also reflected benefit from any type of distraction, with active game-playing as the most effective type of distraction (video game: 1.69 and 1.96; cartoon: 3.07 and 3.20; parental distraction: 3.56 and 4.22; and control: 5.29 and 6.13).

In addition, the intraclass correlation coefficient was 0.67 to 0.924 (P < .01), suggesting that the reports from the child, parent, and medical observer about the child’s pain and anxiety were highly correlated.

WHAT'S NEW

All distraction techniques provide benefit, but there’s a clear winner

In this RCT of children undergoing phlebotomy, both active and passive distraction techniques were superior to no distraction in terms of perceived pain and anxiety by the child, a health care provider, or a parent. The active-distraction group played a video game, while the passive-distraction groups watched a cartoon or interacted with a parent. Active distraction was superior to passive distraction.

CAVEATS

Procedure time was short; intervention not blinded

One potential weakness of this study is that it was not a double-blinded trial. Blinding was not possible for much of the study as the patient, parent, and medical observer were fully aware of the intervention or lack thereof. However, the parent and medical observer were blinded to each other’s assessments of the child’s pain and anxiety.

Continue to: Furthermore, the study...

 

 

Furthermore, the study was conducted at a single institution in Turkey. There could be cultural differences in reporting of pain and anxiety compared to Western cultures.

Finally, the average duration of the procedure in this study was 3 minutes, with a range of 1 to 5 minutes. It is unclear if the findings can be extrapolated to more time-consuming procedures.

CHALLENGES TO IMPLEMENTATION

Technology is not available to all

The use of tablet computers may seem increasingly ubiquitous, but not all families have access to these devices. Another challenge is that phlebotomy/clinic personnel must learn to work around the device.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.

Files
References

1. Inan G, Inal S. The impact of 3 different distraction techniques on the pain and anxiety levels of children during venipuncture: a clinical trial. Clin J Pain. 2019;35:140-147.

2. Fein JA, Zempsky WT, Cravero JP, Committee on Pediatric Emergency Medicine and Section on Anesthesiology and Pain Medicine; American Academy of Pediatrics. Relief of pain and anxiety in pediatric patients in emergency medical systems. Pediatrics. 2012;130:e1391-e1405.

3. Cohen LL, Blount RL, Panopoulos G. Nurse coaching and cartoon distraction: an effective and practical intervention to reduce child, parent, and nurse distress during immunizations. J Pediatr Psychol. 1997;22:355-370.

4. Downey VA, Zun LS. The impact of watching cartoons for distraction during painful procedures in the emergency department. Pediatr Emerg. 2012;28:1033-1035.

5. Hussein H. Effect of active and passive distraction on decreasing pain associated with painful medical procedures among school aged children. World J Nurs Sci. 2015;1:13-23.

6. Nilsson S, Enskär K, Hallqvist C, et al. Active and passive distraction in children undergoing wound dressing. J Pediatr Nurs. 2013;28:158-166.

7. Birnie KA, Noel M, Chambers CT, et al. Psychological interventions for needle-related procedural pain and distress in children and adolescents. Cochrane Database Syst Rev. 2018;10:CD005179.

8. Birnie KA, Noel M, Parker JA, et al. Systematic review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children and adolescents. J Pediatr Psychol. 2014;39:783-808.

9. McMurtry CM, Noel M, Chambers CT, et al. Children’s fear during procedural pain: preliminary investigation of the Children’s Fear Scale. Health Psychol. 2011;30:780-788.

10. Wong DL, Baker CM. Pain in children: comparison of assessment scales. Pediatric Nurs. 1988;14:9-17.

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ILLUSTRATIVE CASE

An 8-year-old girl with congenital heart disease (status: post repair) arrives at your clinic for a routine appointment. Since the age of 12 months, she has experienced significant anxiety during medical visits, especially with blood draws and injections. She enjoys playing video games on her new tablet computer. Her parents want to know what you can do to reduce her anxiety and pain during today’s scheduled blood draw. Should you recommend that she continue playing video games during the venipuncture?

Adequately managing pain while performing venipuncture in children can improve the quality of the experience, reduce children’s fear of going to the doctor, and increase efficiency in medical practice.2 Since pharmacologic pain-control methods may have adverse effects, distraction techniques—engaging the child in another activity during a procedure—are commonly used instead to help reduce a child’s pain. These techniques can be active or passive.

Studies have demonstrated that both active and passive distraction techniques reduce children’s pain during medical procedures, including venipuncture. Passive techniques, such as nurse coaching3 and watching cartoons,4 have been found to reduce distress and pain. Active distraction techniques, such as playing video games while undergoing a painful procedure (eg, dressing a wound), have been shown to be more effective than passive techniques.5,6

A Cochrane review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children demonstrated reduced pain, but the quality of evidence was low and the review recommended improved methodological rigor and trial reporting.7 Another systematic review and analysis showed strong support for distraction for reducing pain; however, the quality of evidence was low and the researchers cited problems with characteristics of the distraction interventions, child age, and risk of bias in the studies.8

There has been a lack of RCTs comparing the effectiveness and superiority of active vs passive distraction techniques. The first high-quality RCT to directly compare 3 of the most common distraction techniques to a control group was recently conducted in a large training and research hospital in Turkey.1

STUDY SUMMARY

Pain and anxiety levels were lowest in actively distracted children

The RCT included 180 children ages 6 to 10 years randomly assigned to 1 of 3 intervention groups or a control group.1 Phlebotomy was performed while children watched a cartoon, played a video game, were distracted by parental interaction, or had no distraction (control group).

Investigators independently measured pain and anxiety in the patient and perceived pain and anxiety according to both a family member and a health care worker (medical observer). Researchers used the previously validated Children’s Fear Scale and the Wong-Baker Pain Scale.9,10 The Children’s Fear Scale was used to assess anxiety in children on a scale of 0 (picture of a calm face) to 4 (picture of the most fearful face). The Wong-Baker Pain Scale was used to assess pain on a scale of 0 (no hurt: happy face) to 10 (hurts worst: saddest face).

Continue to: Results

 

 

Results. The pain and anxiety scores were significantly lower in all of the intervention groups compared with the control group (P < .05). The video game (active distraction) group had the lowest levels of both pain and anxiety. The self-reported Children’s Fear Scale scores of children in the video game group were 0.27, compared with 0.76 in the cartoon group, 1.24 in the parental distraction group, and 2.22 in the control group. The anxiety scores recorded by the family member and the medical observer showed similar significant differences.

Allow children to play a video game during procedures such as venipuncture; doing so reduces pain and anxiety.

The Wong-Baker Pain Scale scores showed similar differences in self-reported pain for the video game group (1.42) compared with the cartoon group (3.02), the parental distraction group (2.89), and the control group (5.11). Pain scores reported by the family member and the medical observer (respectively) also reflected benefit from any type of distraction, with active game-playing as the most effective type of distraction (video game: 1.69 and 1.96; cartoon: 3.07 and 3.20; parental distraction: 3.56 and 4.22; and control: 5.29 and 6.13).

In addition, the intraclass correlation coefficient was 0.67 to 0.924 (P < .01), suggesting that the reports from the child, parent, and medical observer about the child’s pain and anxiety were highly correlated.

WHAT'S NEW

All distraction techniques provide benefit, but there’s a clear winner

In this RCT of children undergoing phlebotomy, both active and passive distraction techniques were superior to no distraction in terms of perceived pain and anxiety by the child, a health care provider, or a parent. The active-distraction group played a video game, while the passive-distraction groups watched a cartoon or interacted with a parent. Active distraction was superior to passive distraction.

CAVEATS

Procedure time was short; intervention not blinded

One potential weakness of this study is that it was not a double-blinded trial. Blinding was not possible for much of the study as the patient, parent, and medical observer were fully aware of the intervention or lack thereof. However, the parent and medical observer were blinded to each other’s assessments of the child’s pain and anxiety.

Continue to: Furthermore, the study...

 

 

Furthermore, the study was conducted at a single institution in Turkey. There could be cultural differences in reporting of pain and anxiety compared to Western cultures.

Finally, the average duration of the procedure in this study was 3 minutes, with a range of 1 to 5 minutes. It is unclear if the findings can be extrapolated to more time-consuming procedures.

CHALLENGES TO IMPLEMENTATION

Technology is not available to all

The use of tablet computers may seem increasingly ubiquitous, but not all families have access to these devices. Another challenge is that phlebotomy/clinic personnel must learn to work around the device.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.

ILLUSTRATIVE CASE

An 8-year-old girl with congenital heart disease (status: post repair) arrives at your clinic for a routine appointment. Since the age of 12 months, she has experienced significant anxiety during medical visits, especially with blood draws and injections. She enjoys playing video games on her new tablet computer. Her parents want to know what you can do to reduce her anxiety and pain during today’s scheduled blood draw. Should you recommend that she continue playing video games during the venipuncture?

Adequately managing pain while performing venipuncture in children can improve the quality of the experience, reduce children’s fear of going to the doctor, and increase efficiency in medical practice.2 Since pharmacologic pain-control methods may have adverse effects, distraction techniques—engaging the child in another activity during a procedure—are commonly used instead to help reduce a child’s pain. These techniques can be active or passive.

Studies have demonstrated that both active and passive distraction techniques reduce children’s pain during medical procedures, including venipuncture. Passive techniques, such as nurse coaching3 and watching cartoons,4 have been found to reduce distress and pain. Active distraction techniques, such as playing video games while undergoing a painful procedure (eg, dressing a wound), have been shown to be more effective than passive techniques.5,6

A Cochrane review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children demonstrated reduced pain, but the quality of evidence was low and the review recommended improved methodological rigor and trial reporting.7 Another systematic review and analysis showed strong support for distraction for reducing pain; however, the quality of evidence was low and the researchers cited problems with characteristics of the distraction interventions, child age, and risk of bias in the studies.8

There has been a lack of RCTs comparing the effectiveness and superiority of active vs passive distraction techniques. The first high-quality RCT to directly compare 3 of the most common distraction techniques to a control group was recently conducted in a large training and research hospital in Turkey.1

STUDY SUMMARY

Pain and anxiety levels were lowest in actively distracted children

The RCT included 180 children ages 6 to 10 years randomly assigned to 1 of 3 intervention groups or a control group.1 Phlebotomy was performed while children watched a cartoon, played a video game, were distracted by parental interaction, or had no distraction (control group).

Investigators independently measured pain and anxiety in the patient and perceived pain and anxiety according to both a family member and a health care worker (medical observer). Researchers used the previously validated Children’s Fear Scale and the Wong-Baker Pain Scale.9,10 The Children’s Fear Scale was used to assess anxiety in children on a scale of 0 (picture of a calm face) to 4 (picture of the most fearful face). The Wong-Baker Pain Scale was used to assess pain on a scale of 0 (no hurt: happy face) to 10 (hurts worst: saddest face).

Continue to: Results

 

 

Results. The pain and anxiety scores were significantly lower in all of the intervention groups compared with the control group (P < .05). The video game (active distraction) group had the lowest levels of both pain and anxiety. The self-reported Children’s Fear Scale scores of children in the video game group were 0.27, compared with 0.76 in the cartoon group, 1.24 in the parental distraction group, and 2.22 in the control group. The anxiety scores recorded by the family member and the medical observer showed similar significant differences.

Allow children to play a video game during procedures such as venipuncture; doing so reduces pain and anxiety.

The Wong-Baker Pain Scale scores showed similar differences in self-reported pain for the video game group (1.42) compared with the cartoon group (3.02), the parental distraction group (2.89), and the control group (5.11). Pain scores reported by the family member and the medical observer (respectively) also reflected benefit from any type of distraction, with active game-playing as the most effective type of distraction (video game: 1.69 and 1.96; cartoon: 3.07 and 3.20; parental distraction: 3.56 and 4.22; and control: 5.29 and 6.13).

In addition, the intraclass correlation coefficient was 0.67 to 0.924 (P < .01), suggesting that the reports from the child, parent, and medical observer about the child’s pain and anxiety were highly correlated.

WHAT'S NEW

All distraction techniques provide benefit, but there’s a clear winner

In this RCT of children undergoing phlebotomy, both active and passive distraction techniques were superior to no distraction in terms of perceived pain and anxiety by the child, a health care provider, or a parent. The active-distraction group played a video game, while the passive-distraction groups watched a cartoon or interacted with a parent. Active distraction was superior to passive distraction.

CAVEATS

Procedure time was short; intervention not blinded

One potential weakness of this study is that it was not a double-blinded trial. Blinding was not possible for much of the study as the patient, parent, and medical observer were fully aware of the intervention or lack thereof. However, the parent and medical observer were blinded to each other’s assessments of the child’s pain and anxiety.

Continue to: Furthermore, the study...

 

 

Furthermore, the study was conducted at a single institution in Turkey. There could be cultural differences in reporting of pain and anxiety compared to Western cultures.

Finally, the average duration of the procedure in this study was 3 minutes, with a range of 1 to 5 minutes. It is unclear if the findings can be extrapolated to more time-consuming procedures.

CHALLENGES TO IMPLEMENTATION

Technology is not available to all

The use of tablet computers may seem increasingly ubiquitous, but not all families have access to these devices. Another challenge is that phlebotomy/clinic personnel must learn to work around the device.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center for Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center for Research Resources or the National Institutes of Health.

References

1. Inan G, Inal S. The impact of 3 different distraction techniques on the pain and anxiety levels of children during venipuncture: a clinical trial. Clin J Pain. 2019;35:140-147.

2. Fein JA, Zempsky WT, Cravero JP, Committee on Pediatric Emergency Medicine and Section on Anesthesiology and Pain Medicine; American Academy of Pediatrics. Relief of pain and anxiety in pediatric patients in emergency medical systems. Pediatrics. 2012;130:e1391-e1405.

3. Cohen LL, Blount RL, Panopoulos G. Nurse coaching and cartoon distraction: an effective and practical intervention to reduce child, parent, and nurse distress during immunizations. J Pediatr Psychol. 1997;22:355-370.

4. Downey VA, Zun LS. The impact of watching cartoons for distraction during painful procedures in the emergency department. Pediatr Emerg. 2012;28:1033-1035.

5. Hussein H. Effect of active and passive distraction on decreasing pain associated with painful medical procedures among school aged children. World J Nurs Sci. 2015;1:13-23.

6. Nilsson S, Enskär K, Hallqvist C, et al. Active and passive distraction in children undergoing wound dressing. J Pediatr Nurs. 2013;28:158-166.

7. Birnie KA, Noel M, Chambers CT, et al. Psychological interventions for needle-related procedural pain and distress in children and adolescents. Cochrane Database Syst Rev. 2018;10:CD005179.

8. Birnie KA, Noel M, Parker JA, et al. Systematic review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children and adolescents. J Pediatr Psychol. 2014;39:783-808.

9. McMurtry CM, Noel M, Chambers CT, et al. Children’s fear during procedural pain: preliminary investigation of the Children’s Fear Scale. Health Psychol. 2011;30:780-788.

10. Wong DL, Baker CM. Pain in children: comparison of assessment scales. Pediatric Nurs. 1988;14:9-17.

References

1. Inan G, Inal S. The impact of 3 different distraction techniques on the pain and anxiety levels of children during venipuncture: a clinical trial. Clin J Pain. 2019;35:140-147.

2. Fein JA, Zempsky WT, Cravero JP, Committee on Pediatric Emergency Medicine and Section on Anesthesiology and Pain Medicine; American Academy of Pediatrics. Relief of pain and anxiety in pediatric patients in emergency medical systems. Pediatrics. 2012;130:e1391-e1405.

3. Cohen LL, Blount RL, Panopoulos G. Nurse coaching and cartoon distraction: an effective and practical intervention to reduce child, parent, and nurse distress during immunizations. J Pediatr Psychol. 1997;22:355-370.

4. Downey VA, Zun LS. The impact of watching cartoons for distraction during painful procedures in the emergency department. Pediatr Emerg. 2012;28:1033-1035.

5. Hussein H. Effect of active and passive distraction on decreasing pain associated with painful medical procedures among school aged children. World J Nurs Sci. 2015;1:13-23.

6. Nilsson S, Enskär K, Hallqvist C, et al. Active and passive distraction in children undergoing wound dressing. J Pediatr Nurs. 2013;28:158-166.

7. Birnie KA, Noel M, Chambers CT, et al. Psychological interventions for needle-related procedural pain and distress in children and adolescents. Cochrane Database Syst Rev. 2018;10:CD005179.

8. Birnie KA, Noel M, Parker JA, et al. Systematic review and meta-analysis of distraction and hypnosis for needle-related pain and distress in children and adolescents. J Pediatr Psychol. 2014;39:783-808.

9. McMurtry CM, Noel M, Chambers CT, et al. Children’s fear during procedural pain: preliminary investigation of the Children’s Fear Scale. Health Psychol. 2011;30:780-788.

10. Wong DL, Baker CM. Pain in children: comparison of assessment scales. Pediatric Nurs. 1988;14:9-17.

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Inside the Article

PRACTICE CHANGER

Employ active distraction, such as playing a video game, rather than passive distraction (eg, watching a video) to reduce pain and anxiety during pediatric venipuncture.

STRENGTH OF RECOMMENDATION

B: Based on a single, high-quality, randomized controlled trial (RCT). 1

Inan G, Inal S. The impact of 3 different distraction techniques on the pain and anxiety levels of children during venipuncture: a clinical trial. Clin J Pain. 2019;35:140-147.

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Can drinking more water prevent urinary tract infections?

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Can drinking more water prevent urinary tract infections?

ILLUSTRATIVE CASE

A 23-year-old nonpregnant woman, whom you treated 3 times in the past year for cystitis, comes to you for follow-up. She wants to know what she can do to prevent another urinary tract infection other than taking prophylactic antibiotics. Should you recommend that this patient increase her daily water intake to prevent recurrent cystitis?

Urinary tract infection (UTI) is the most common bacterial infection encountered in the ambulatory setting. Half of all women report having had at least 1 UTI by the time they are 32 years old.2 Recurrence is also common, with 27% of women having 1 recurrence within 6 months of their first episode.2

Because of growing antimicrobial resistance, the World Health Organization has urged using novel antimicrobial-sparing approaches to infectious diseases.3 Physicians have long recommended behavioral, nonantimicrobial strategies for prevention of recurrent uncomplicated cystitis. Such behavioral recommendations include drinking fluids liberally, urinating after intercourse, not delaying urination, wiping front to back, and avoiding tight-fitting underwear. However, these behavior modification strategies have been studied largely in case-control trials that have yet to find an association between behavior modification and reduced risk of UTI.2 Although unproven as a prevention strategy, increasing daily fluid intake has long been a recommendation because of the belief that it helps to dilute and clear bactiuria.4 This study is the first non–case-control trial to examine the association between increased fluid intake and decreased UTIs.1

 

STUDY SUMMARY

RCT looks at whether more water leads to fewer UTIs

Hooton and colleagues1 conducted an open-label, randomized controlled trial (RCT) of premenopausal women with recurrent UTIs and low baseline fluid intake and compared increased fluid intake (an additional 1.5 L/d) with no additional fluids. Participants were provided three 500-mL bottles of water per day and were followed for 1 year. Screened women were included if they had 3 or more symptomatic UTIs in the previous year, 1 culture-confirmed UTI, self-reported fluid intake < 1.5 L /d, and were otherwise in good health. Fluid intake was verified by 24-hour urine collection, requiring a volume < 1.2 L and urine osmolality of ≥ 500 mOsm/kg. Exclusion criteria included a history of pyelonephritis within the past year, interstitial cystitis, pregnancy, or current symptoms of UTI.

The primary outcome was frequency of UTI during the study period, defined as 1 urinary symptom and at least 103 CFU/mL uropathogens in a urine culture. Secondary outcomes included the number of antimicrobial agents used, time to first UTI, mean time interval between cystitis episodes, and adverse events.1

This is the first RCT to show that increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients with low fluid intake who are at high risk for UTI.

A total of 140 participants were randomized with 70 in the water group and 70 in the control group. The mean age of the participants was 35.7 years, and the mean number of reported cystitis episodes was 3.3 in the 12 months prior to the study. By the end of the 12-month study period, mean daily fluid intake had increased by 1.7 L above baseline in the water group. During the 12-month study period, the mean (SD) number of cystitis episodes was 1.7 (95% confidence interval [CI], 1.5-1.8) in the water group compared with 3.2 (95% CI, 3-3.4) in the control group, with a difference in means of 1.5 (95% CI, 1.2-1.8; P < .001).

The mean number of antimicrobial agents used for UTI was 1.9 (95% CI, 1.7-2.2) in the water group and 3.6 (95% CI, 3.3-4) in the control group. The median time to first UTI episode was 148 days in the water group compared with 93.5 days in the control group (hazard ratio [HR] = 0.51; 95% CI, 0.36-0.74; P < .001) and the difference in means for the time interval between UTI episodes was 58.4 days (95% CI, 39.4-77.4; P < .001). No serious adverse events were reported.1

Continue to: WHAT'S NEW

 

 

WHAT’S NEW

Proof that increased fluid intake reduces the risk of recurrent UTI

Increasing daily fluid intake is a long-held but previously unproven recommendation. This is the first RCT to show increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients at high risk for UTI and with low fluid intake. No additional risk of adverse events was found.

CAVEATS

Is there a risk of overhydration?

The study did not address the effect of increasing water intake in women who do not have low-volume fluid intake. Case reports of overhydration emphasize the need to be cautious when making recommendations to hydrate.5 It is not known if physicians should screen for fluid intake at baseline to identify those (with low intake) who would be eligible for this intervention.

CHALLENGES TO IMPLEMENTATION

It’s unclear whether the strategy will work without monitoring

The intervention is both low-risk and low-cost to the patient. However, the intervention was supported by home delivery of water and monthly monitoring interventions that are not typical in normal care. Although the clinical intervention of drinking more fluids (primarily water) appears sound, it is not known whether a physician’s recommendation would result in the same adherence and risk reduction as water delivery and monitoring.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

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References

1. Hooton TM, Vecchio M, Iroz A, et al. Effect of increased daily water intake in premenopausal women with recurrent urinary tract infections: a randomized clinical trial. JAMA Intern Med. 2018;178:1509-1515.

2. Hooton TM. Clinical practice. Uncomplicated urinary tract infection. N Engl J Med. 2012;366:1028-1037.

3. WHO. Antimicrobial resistance: global report on surveillance. April 2014. www.who.int/drugresistance/documents/surveillancereport/en/. Accessed March 23, 2020.

4. Fasugba O, Mitchell BG, McInnes E, et al. Increased fluid intake for the prevention of urinary tract infection in adults and children in all settings: a systematic review. J Hosp Infect. 2020;104:68-77.

5. Lee LC, Noronha M. When plenty is too much: water intoxication in a patient with a simple urinary tract infection. BMJ Case Rep. 2016. doi:10.1136/bcr-2016-216882.

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ILLUSTRATIVE CASE

A 23-year-old nonpregnant woman, whom you treated 3 times in the past year for cystitis, comes to you for follow-up. She wants to know what she can do to prevent another urinary tract infection other than taking prophylactic antibiotics. Should you recommend that this patient increase her daily water intake to prevent recurrent cystitis?

Urinary tract infection (UTI) is the most common bacterial infection encountered in the ambulatory setting. Half of all women report having had at least 1 UTI by the time they are 32 years old.2 Recurrence is also common, with 27% of women having 1 recurrence within 6 months of their first episode.2

Because of growing antimicrobial resistance, the World Health Organization has urged using novel antimicrobial-sparing approaches to infectious diseases.3 Physicians have long recommended behavioral, nonantimicrobial strategies for prevention of recurrent uncomplicated cystitis. Such behavioral recommendations include drinking fluids liberally, urinating after intercourse, not delaying urination, wiping front to back, and avoiding tight-fitting underwear. However, these behavior modification strategies have been studied largely in case-control trials that have yet to find an association between behavior modification and reduced risk of UTI.2 Although unproven as a prevention strategy, increasing daily fluid intake has long been a recommendation because of the belief that it helps to dilute and clear bactiuria.4 This study is the first non–case-control trial to examine the association between increased fluid intake and decreased UTIs.1

 

STUDY SUMMARY

RCT looks at whether more water leads to fewer UTIs

Hooton and colleagues1 conducted an open-label, randomized controlled trial (RCT) of premenopausal women with recurrent UTIs and low baseline fluid intake and compared increased fluid intake (an additional 1.5 L/d) with no additional fluids. Participants were provided three 500-mL bottles of water per day and were followed for 1 year. Screened women were included if they had 3 or more symptomatic UTIs in the previous year, 1 culture-confirmed UTI, self-reported fluid intake < 1.5 L /d, and were otherwise in good health. Fluid intake was verified by 24-hour urine collection, requiring a volume < 1.2 L and urine osmolality of ≥ 500 mOsm/kg. Exclusion criteria included a history of pyelonephritis within the past year, interstitial cystitis, pregnancy, or current symptoms of UTI.

The primary outcome was frequency of UTI during the study period, defined as 1 urinary symptom and at least 103 CFU/mL uropathogens in a urine culture. Secondary outcomes included the number of antimicrobial agents used, time to first UTI, mean time interval between cystitis episodes, and adverse events.1

This is the first RCT to show that increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients with low fluid intake who are at high risk for UTI.

A total of 140 participants were randomized with 70 in the water group and 70 in the control group. The mean age of the participants was 35.7 years, and the mean number of reported cystitis episodes was 3.3 in the 12 months prior to the study. By the end of the 12-month study period, mean daily fluid intake had increased by 1.7 L above baseline in the water group. During the 12-month study period, the mean (SD) number of cystitis episodes was 1.7 (95% confidence interval [CI], 1.5-1.8) in the water group compared with 3.2 (95% CI, 3-3.4) in the control group, with a difference in means of 1.5 (95% CI, 1.2-1.8; P < .001).

The mean number of antimicrobial agents used for UTI was 1.9 (95% CI, 1.7-2.2) in the water group and 3.6 (95% CI, 3.3-4) in the control group. The median time to first UTI episode was 148 days in the water group compared with 93.5 days in the control group (hazard ratio [HR] = 0.51; 95% CI, 0.36-0.74; P < .001) and the difference in means for the time interval between UTI episodes was 58.4 days (95% CI, 39.4-77.4; P < .001). No serious adverse events were reported.1

Continue to: WHAT'S NEW

 

 

WHAT’S NEW

Proof that increased fluid intake reduces the risk of recurrent UTI

Increasing daily fluid intake is a long-held but previously unproven recommendation. This is the first RCT to show increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients at high risk for UTI and with low fluid intake. No additional risk of adverse events was found.

CAVEATS

Is there a risk of overhydration?

The study did not address the effect of increasing water intake in women who do not have low-volume fluid intake. Case reports of overhydration emphasize the need to be cautious when making recommendations to hydrate.5 It is not known if physicians should screen for fluid intake at baseline to identify those (with low intake) who would be eligible for this intervention.

CHALLENGES TO IMPLEMENTATION

It’s unclear whether the strategy will work without monitoring

The intervention is both low-risk and low-cost to the patient. However, the intervention was supported by home delivery of water and monthly monitoring interventions that are not typical in normal care. Although the clinical intervention of drinking more fluids (primarily water) appears sound, it is not known whether a physician’s recommendation would result in the same adherence and risk reduction as water delivery and monitoring.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

ILLUSTRATIVE CASE

A 23-year-old nonpregnant woman, whom you treated 3 times in the past year for cystitis, comes to you for follow-up. She wants to know what she can do to prevent another urinary tract infection other than taking prophylactic antibiotics. Should you recommend that this patient increase her daily water intake to prevent recurrent cystitis?

Urinary tract infection (UTI) is the most common bacterial infection encountered in the ambulatory setting. Half of all women report having had at least 1 UTI by the time they are 32 years old.2 Recurrence is also common, with 27% of women having 1 recurrence within 6 months of their first episode.2

Because of growing antimicrobial resistance, the World Health Organization has urged using novel antimicrobial-sparing approaches to infectious diseases.3 Physicians have long recommended behavioral, nonantimicrobial strategies for prevention of recurrent uncomplicated cystitis. Such behavioral recommendations include drinking fluids liberally, urinating after intercourse, not delaying urination, wiping front to back, and avoiding tight-fitting underwear. However, these behavior modification strategies have been studied largely in case-control trials that have yet to find an association between behavior modification and reduced risk of UTI.2 Although unproven as a prevention strategy, increasing daily fluid intake has long been a recommendation because of the belief that it helps to dilute and clear bactiuria.4 This study is the first non–case-control trial to examine the association between increased fluid intake and decreased UTIs.1

 

STUDY SUMMARY

RCT looks at whether more water leads to fewer UTIs

Hooton and colleagues1 conducted an open-label, randomized controlled trial (RCT) of premenopausal women with recurrent UTIs and low baseline fluid intake and compared increased fluid intake (an additional 1.5 L/d) with no additional fluids. Participants were provided three 500-mL bottles of water per day and were followed for 1 year. Screened women were included if they had 3 or more symptomatic UTIs in the previous year, 1 culture-confirmed UTI, self-reported fluid intake < 1.5 L /d, and were otherwise in good health. Fluid intake was verified by 24-hour urine collection, requiring a volume < 1.2 L and urine osmolality of ≥ 500 mOsm/kg. Exclusion criteria included a history of pyelonephritis within the past year, interstitial cystitis, pregnancy, or current symptoms of UTI.

The primary outcome was frequency of UTI during the study period, defined as 1 urinary symptom and at least 103 CFU/mL uropathogens in a urine culture. Secondary outcomes included the number of antimicrobial agents used, time to first UTI, mean time interval between cystitis episodes, and adverse events.1

This is the first RCT to show that increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients with low fluid intake who are at high risk for UTI.

A total of 140 participants were randomized with 70 in the water group and 70 in the control group. The mean age of the participants was 35.7 years, and the mean number of reported cystitis episodes was 3.3 in the 12 months prior to the study. By the end of the 12-month study period, mean daily fluid intake had increased by 1.7 L above baseline in the water group. During the 12-month study period, the mean (SD) number of cystitis episodes was 1.7 (95% confidence interval [CI], 1.5-1.8) in the water group compared with 3.2 (95% CI, 3-3.4) in the control group, with a difference in means of 1.5 (95% CI, 1.2-1.8; P < .001).

The mean number of antimicrobial agents used for UTI was 1.9 (95% CI, 1.7-2.2) in the water group and 3.6 (95% CI, 3.3-4) in the control group. The median time to first UTI episode was 148 days in the water group compared with 93.5 days in the control group (hazard ratio [HR] = 0.51; 95% CI, 0.36-0.74; P < .001) and the difference in means for the time interval between UTI episodes was 58.4 days (95% CI, 39.4-77.4; P < .001). No serious adverse events were reported.1

Continue to: WHAT'S NEW

 

 

WHAT’S NEW

Proof that increased fluid intake reduces the risk of recurrent UTI

Increasing daily fluid intake is a long-held but previously unproven recommendation. This is the first RCT to show increased daily water intake can reduce the risk of recurrent cystitis in premenopausal patients at high risk for UTI and with low fluid intake. No additional risk of adverse events was found.

CAVEATS

Is there a risk of overhydration?

The study did not address the effect of increasing water intake in women who do not have low-volume fluid intake. Case reports of overhydration emphasize the need to be cautious when making recommendations to hydrate.5 It is not known if physicians should screen for fluid intake at baseline to identify those (with low intake) who would be eligible for this intervention.

CHALLENGES TO IMPLEMENTATION

It’s unclear whether the strategy will work without monitoring

The intervention is both low-risk and low-cost to the patient. However, the intervention was supported by home delivery of water and monthly monitoring interventions that are not typical in normal care. Although the clinical intervention of drinking more fluids (primarily water) appears sound, it is not known whether a physician’s recommendation would result in the same adherence and risk reduction as water delivery and monitoring.

 

ACKNOWLEDGEMENT

The PURLs Surveillance System was supported in part by Grant Number UL1RR024999 from the National Center For Research Resources, a Clinical Translational Science Award to the University of Chicago. The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Center For Research Resources or the National Institutes of Health.

References

1. Hooton TM, Vecchio M, Iroz A, et al. Effect of increased daily water intake in premenopausal women with recurrent urinary tract infections: a randomized clinical trial. JAMA Intern Med. 2018;178:1509-1515.

2. Hooton TM. Clinical practice. Uncomplicated urinary tract infection. N Engl J Med. 2012;366:1028-1037.

3. WHO. Antimicrobial resistance: global report on surveillance. April 2014. www.who.int/drugresistance/documents/surveillancereport/en/. Accessed March 23, 2020.

4. Fasugba O, Mitchell BG, McInnes E, et al. Increased fluid intake for the prevention of urinary tract infection in adults and children in all settings: a systematic review. J Hosp Infect. 2020;104:68-77.

5. Lee LC, Noronha M. When plenty is too much: water intoxication in a patient with a simple urinary tract infection. BMJ Case Rep. 2016. doi:10.1136/bcr-2016-216882.

References

1. Hooton TM, Vecchio M, Iroz A, et al. Effect of increased daily water intake in premenopausal women with recurrent urinary tract infections: a randomized clinical trial. JAMA Intern Med. 2018;178:1509-1515.

2. Hooton TM. Clinical practice. Uncomplicated urinary tract infection. N Engl J Med. 2012;366:1028-1037.

3. WHO. Antimicrobial resistance: global report on surveillance. April 2014. www.who.int/drugresistance/documents/surveillancereport/en/. Accessed March 23, 2020.

4. Fasugba O, Mitchell BG, McInnes E, et al. Increased fluid intake for the prevention of urinary tract infection in adults and children in all settings: a systematic review. J Hosp Infect. 2020;104:68-77.

5. Lee LC, Noronha M. When plenty is too much: water intoxication in a patient with a simple urinary tract infection. BMJ Case Rep. 2016. doi:10.1136/bcr-2016-216882.

Issue
The Journal of Family Practice - 69(3)
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The Journal of Family Practice - 69(3)
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PRACTICE CHANGER

Advise premenopausal women with recurrent urinary tract infections (UTIs) and low-volume fluid intake to increase their water intake by at least 1.5 liters daily to reduce the frequency of UTIs.1

STRENGTH OF RECOMMENDATION

A: Based on a single, high-quality randomized controlled trial.

Hooton TM, Vecchio M, Iroz A, et al. Effect of increased daily water intake in premenopausal women with recurrent urinary tract infections: a randomized clinical trial. JAMA Intern Med. 2018;178:1509-1515.

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