John P. Langlois, MD

Evidence summary

A consistent definition of frequent PVCs doesn’t exist in the literature. Some studies have found a significant risk of death or acute myocardial infarction associated with >30 PVCs per hour.^1,2 The 2006 American College of Cardiology/American Heart Association/European Society of Cardiology guideline defines frequent PVCs as >10 per hour.³

Despite the association between frequent PVCs and increased risk of death and cardiac events, our review didn’t find studies that indicate the utility of evaluation strategies for higher-risk patients.

Frequent PVCs predict increased mortality

The Framingham study looked at the prognostic implications of frequent PVCs (>30 per hour) in a cohort of symptomatic patients examined over a 6-year period.¹ Men, but not women, had a significant increase in all-cause mortality (relative risk [RR]=2.36; 95% confidence interval [CI], 1.65-3.2) and myocardial infarction or sudden death (RR=2.12; 95% CI, 1.33-3.38). The Copenhagen Holter study of a cohort of healthy patients demonstrated an increased risk of myocardial infarction or cardiovascular death in patients with >30 PVCs per hour (hazard ratio [HR]=2.85, 95% CI, 1.16-7.0).²

Frequent PVCs occurring during recovery from stress testing are also associated with increased mortality. A large prospective cohort study followed more than 29,000 patients with varying degrees of risk for 5 years. After adjusting for confounding variables, frequent PVCs (≥7 per minute or more complex ventricular ectopy) during recovery predicted an increased risk of death (HR=1.5; 95% CI, 1.1-1.9). Frequent PVCs arising during exercise stress testing were not associated with increased risk.⁴

Suppressing PVCs is a bad idea

Studies have evaluated whether suppressing PVCs with antiarrhythmic agents improves prognosis. Both Cardiac Arrhythmia Suppression Trials (CAST I: encainide and flecainide; CAST II: moricizine) showed that suppressing frequent PVCs significantly increased mortality in the treatment groups.^5,6

Recommendations

In 2006, the American College of Cardiology, American Heart Association, and European Society of Cardiology published their Guidelines for Management of Patients with Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death.³

The TABLE summarizes characteristics of patients with PVCs who were at higher risk of underlying cardiac disease and death. All patients with PVCs should have a history and physical examination, electrocardiogram, and electrolyte studies. Higher-risk patients should be considered for further evaluation, including stress testing, echocardiography, and ambulatory electrocardiogram (SOR: C, opinion).

TABLE
Characteristics of patients with PVCs who are at higher risk of cardiac disease/death

Evidence summary

A consistent definition of frequent PVCs doesn’t exist in the literature. Some studies have found a significant risk of death or acute myocardial infarction associated with >30 PVCs per hour.^1,2 The 2006 American College of Cardiology/American Heart Association/European Society of Cardiology guideline defines frequent PVCs as >10 per hour.³

Despite the association between frequent PVCs and increased risk of death and cardiac events, our review didn’t find studies that indicate the utility of evaluation strategies for higher-risk patients.

Frequent PVCs predict increased mortality

The Framingham study looked at the prognostic implications of frequent PVCs (>30 per hour) in a cohort of symptomatic patients examined over a 6-year period.¹ Men, but not women, had a significant increase in all-cause mortality (relative risk [RR]=2.36; 95% confidence interval [CI], 1.65-3.2) and myocardial infarction or sudden death (RR=2.12; 95% CI, 1.33-3.38). The Copenhagen Holter study of a cohort of healthy patients demonstrated an increased risk of myocardial infarction or cardiovascular death in patients with >30 PVCs per hour (hazard ratio [HR]=2.85, 95% CI, 1.16-7.0).²

Frequent PVCs occurring during recovery from stress testing are also associated with increased mortality. A large prospective cohort study followed more than 29,000 patients with varying degrees of risk for 5 years. After adjusting for confounding variables, frequent PVCs (≥7 per minute or more complex ventricular ectopy) during recovery predicted an increased risk of death (HR=1.5; 95% CI, 1.1-1.9). Frequent PVCs arising during exercise stress testing were not associated with increased risk.⁴

Suppressing PVCs is a bad idea

Studies have evaluated whether suppressing PVCs with antiarrhythmic agents improves prognosis. Both Cardiac Arrhythmia Suppression Trials (CAST I: encainide and flecainide; CAST II: moricizine) showed that suppressing frequent PVCs significantly increased mortality in the treatment groups.^5,6

Recommendations

In 2006, the American College of Cardiology, American Heart Association, and European Society of Cardiology published their Guidelines for Management of Patients with Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death.³

The TABLE summarizes characteristics of patients with PVCs who were at higher risk of underlying cardiac disease and death. All patients with PVCs should have a history and physical examination, electrocardiogram, and electrolyte studies. Higher-risk patients should be considered for further evaluation, including stress testing, echocardiography, and ambulatory electrocardiogram (SOR: C, opinion).

TABLE
Characteristics of patients with PVCs who are at higher risk of cardiac disease/death

Evidence summary

A consistent definition of frequent PVCs doesn’t exist in the literature. Some studies have found a significant risk of death or acute myocardial infarction associated with >30 PVCs per hour.^1,2 The 2006 American College of Cardiology/American Heart Association/European Society of Cardiology guideline defines frequent PVCs as >10 per hour.³

Despite the association between frequent PVCs and increased risk of death and cardiac events, our review didn’t find studies that indicate the utility of evaluation strategies for higher-risk patients.

Frequent PVCs predict increased mortality

The Framingham study looked at the prognostic implications of frequent PVCs (>30 per hour) in a cohort of symptomatic patients examined over a 6-year period.¹ Men, but not women, had a significant increase in all-cause mortality (relative risk [RR]=2.36; 95% confidence interval [CI], 1.65-3.2) and myocardial infarction or sudden death (RR=2.12; 95% CI, 1.33-3.38). The Copenhagen Holter study of a cohort of healthy patients demonstrated an increased risk of myocardial infarction or cardiovascular death in patients with >30 PVCs per hour (hazard ratio [HR]=2.85, 95% CI, 1.16-7.0).²

Frequent PVCs occurring during recovery from stress testing are also associated with increased mortality. A large prospective cohort study followed more than 29,000 patients with varying degrees of risk for 5 years. After adjusting for confounding variables, frequent PVCs (≥7 per minute or more complex ventricular ectopy) during recovery predicted an increased risk of death (HR=1.5; 95% CI, 1.1-1.9). Frequent PVCs arising during exercise stress testing were not associated with increased risk.⁴

Suppressing PVCs is a bad idea

Studies have evaluated whether suppressing PVCs with antiarrhythmic agents improves prognosis. Both Cardiac Arrhythmia Suppression Trials (CAST I: encainide and flecainide; CAST II: moricizine) showed that suppressing frequent PVCs significantly increased mortality in the treatment groups.^5,6

Recommendations

In 2006, the American College of Cardiology, American Heart Association, and European Society of Cardiology published their Guidelines for Management of Patients with Ventricular Arrhythmias and the Prevention of Sudden Cardiac Death.³

The TABLE summarizes characteristics of patients with PVCs who were at higher risk of underlying cardiac disease and death. All patients with PVCs should have a history and physical examination, electrocardiogram, and electrolyte studies. Higher-risk patients should be considered for further evaluation, including stress testing, echocardiography, and ambulatory electrocardiogram (SOR: C, opinion).

TABLE
Characteristics of patients with PVCs who are at higher risk of cardiac disease/death

Evidence summary

A 1998 meta-analysis of 35 exploratory cohort studies published between 1966 and 1996 included a total of 5892 women with postmenopausal bleeding.¹ TVUS evaluations were followed by endometrial tissue sampling and results were compared. Using endometrial thickness of ≤5 mm as the threshold, ultrasound was very accurate at ruling out patients with endometrial cancer but only fair at diagnosing cancer (likelihood ratio for a positive test [LR+]=2.5; LR for a negative test [LR–]=0.06). In addition, the 5-mm threshold was accurate at ruling out any endometrial abnormality (cancer, polyp, atypical hyperplasia: LR– = 0.01). The authors suggested that TVUS can reliably rule out significant endometrial disease among postmenopausal women with vaginal bleeding.

A 2002 meta-analysis of 57 cohort studies, without consistently applied reference standards, published between 1966 and 2000 included a total of 9031 women with postmenopausal bleeding.² Because many of the studies were felt to use inadequately stringent criteria for diagnosis, the authors limited their final analysis to only 4 studies. They concluded that a negative result using a 5-mm threshold rules out endometrial pathology with fair certainty (LR– = 0.21).

Recommendations from others

A Consensus Conference Statement from the Society of Radiologists in Ultrasound recommended that either TVUS or endometrial biopsy could be used in the initial evaluation of patients with postmenopausal bleeding.³ Using a threshold of >5 mm as abnormal, they concluded that the sensitivities of TVUS and endometrial biopsy are comparable when “sufficient tissue” is obtained with endometrial biopsy. They felt that data was currently insufficient to clearly state which technique is more effective.

TABLE
Differential diagnosis of postmenopausal bleeding

Evidence summary

A 1998 meta-analysis of 35 exploratory cohort studies published between 1966 and 1996 included a total of 5892 women with postmenopausal bleeding.¹ TVUS evaluations were followed by endometrial tissue sampling and results were compared. Using endometrial thickness of ≤5 mm as the threshold, ultrasound was very accurate at ruling out patients with endometrial cancer but only fair at diagnosing cancer (likelihood ratio for a positive test [LR+]=2.5; LR for a negative test [LR–]=0.06). In addition, the 5-mm threshold was accurate at ruling out any endometrial abnormality (cancer, polyp, atypical hyperplasia: LR– = 0.01). The authors suggested that TVUS can reliably rule out significant endometrial disease among postmenopausal women with vaginal bleeding.

A 2002 meta-analysis of 57 cohort studies, without consistently applied reference standards, published between 1966 and 2000 included a total of 9031 women with postmenopausal bleeding.² Because many of the studies were felt to use inadequately stringent criteria for diagnosis, the authors limited their final analysis to only 4 studies. They concluded that a negative result using a 5-mm threshold rules out endometrial pathology with fair certainty (LR– = 0.21).

Recommendations from others

A Consensus Conference Statement from the Society of Radiologists in Ultrasound recommended that either TVUS or endometrial biopsy could be used in the initial evaluation of patients with postmenopausal bleeding.³ Using a threshold of >5 mm as abnormal, they concluded that the sensitivities of TVUS and endometrial biopsy are comparable when “sufficient tissue” is obtained with endometrial biopsy. They felt that data was currently insufficient to clearly state which technique is more effective.

TABLE
Differential diagnosis of postmenopausal bleeding

Evidence summary

A 1998 meta-analysis of 35 exploratory cohort studies published between 1966 and 1996 included a total of 5892 women with postmenopausal bleeding.¹ TVUS evaluations were followed by endometrial tissue sampling and results were compared. Using endometrial thickness of ≤5 mm as the threshold, ultrasound was very accurate at ruling out patients with endometrial cancer but only fair at diagnosing cancer (likelihood ratio for a positive test [LR+]=2.5; LR for a negative test [LR–]=0.06). In addition, the 5-mm threshold was accurate at ruling out any endometrial abnormality (cancer, polyp, atypical hyperplasia: LR– = 0.01). The authors suggested that TVUS can reliably rule out significant endometrial disease among postmenopausal women with vaginal bleeding.

A 2002 meta-analysis of 57 cohort studies, without consistently applied reference standards, published between 1966 and 2000 included a total of 9031 women with postmenopausal bleeding.² Because many of the studies were felt to use inadequately stringent criteria for diagnosis, the authors limited their final analysis to only 4 studies. They concluded that a negative result using a 5-mm threshold rules out endometrial pathology with fair certainty (LR– = 0.21).

Recommendations from others

A Consensus Conference Statement from the Society of Radiologists in Ultrasound recommended that either TVUS or endometrial biopsy could be used in the initial evaluation of patients with postmenopausal bleeding.³ Using a threshold of >5 mm as abnormal, they concluded that the sensitivities of TVUS and endometrial biopsy are comparable when “sufficient tissue” is obtained with endometrial biopsy. They felt that data was currently insufficient to clearly state which technique is more effective.

TABLE
Differential diagnosis of postmenopausal bleeding

Evidence summary

In a trial of postmenopausal estrogen use, 448 asymptomatic postmenopausal women were monitored with both endometrial biopsy and transvaginal ultrasound.¹ Biopsy detected 11 cases of serious disease. At a threshold of 5 mm for endometrial thickness, ultrasound had a positive predictive value of 9% for detecting any abnormality with 90% sensitivity and 48% specificity. At this threshold, more than half of women evaluated with ultrasound would require endometrial biopsy as well, and only 4% of these patients would have serious disease. This study concludes that transvaginal ultrasound has a poor positive predictive value but a high negative predictive value for detecting serious endometrial disease for this asymptomatic population.

An additional study evaluated 1926 asymptomatic postmenopausal women with transvaginal ultrasound.² Of these, 1833 had endometrial thickness <6 mm and 1750 of this cohort underwent biopsy. Five cases of serious endometrial abnormality were identified in this group (1 adenocarcinoma and 4 atypical hyperplasia). Specificity in this group was 98%, but sensitivity for accurately detecting an abnormality was low at 17%.

The negative predictive value was greater than 99%. An inadequate number of patients with endometrial thickness >6 mm were biopsied (45%) to allow for accurate calculation of positive predictive value in those with a >6 mm stripe. The study concludes that transvaginal ultrasonography may not be an effective screening procedure for this population.

The relevance of several other studies is affected by small sample size (range, 36–85).^3-6 Other studies did not attempt to biopsy all patients screened with ultrasound.^7,8

Recommendations from others

The National Cancer Institute states finds the evidence insufficient to recommend any routine screening for endometrial cancer with either endometrial biopsy or transvaginal ultrasound. The American Cancer Society does not recommend routine screening of asymptomatic patients for endometrial cancer. They recommend prompt recognition and evaluation of abnormal uterine bleeding. The US Preventive Services Task Force and American Academy of Family Physicians have not issued recommendations related to endometrial cancer screening.

Evidence summary

In a trial of postmenopausal estrogen use, 448 asymptomatic postmenopausal women were monitored with both endometrial biopsy and transvaginal ultrasound.¹ Biopsy detected 11 cases of serious disease. At a threshold of 5 mm for endometrial thickness, ultrasound had a positive predictive value of 9% for detecting any abnormality with 90% sensitivity and 48% specificity. At this threshold, more than half of women evaluated with ultrasound would require endometrial biopsy as well, and only 4% of these patients would have serious disease. This study concludes that transvaginal ultrasound has a poor positive predictive value but a high negative predictive value for detecting serious endometrial disease for this asymptomatic population.

An additional study evaluated 1926 asymptomatic postmenopausal women with transvaginal ultrasound.² Of these, 1833 had endometrial thickness <6 mm and 1750 of this cohort underwent biopsy. Five cases of serious endometrial abnormality were identified in this group (1 adenocarcinoma and 4 atypical hyperplasia). Specificity in this group was 98%, but sensitivity for accurately detecting an abnormality was low at 17%.

The negative predictive value was greater than 99%. An inadequate number of patients with endometrial thickness >6 mm were biopsied (45%) to allow for accurate calculation of positive predictive value in those with a >6 mm stripe. The study concludes that transvaginal ultrasonography may not be an effective screening procedure for this population.

The relevance of several other studies is affected by small sample size (range, 36–85).^3-6 Other studies did not attempt to biopsy all patients screened with ultrasound.^7,8

Recommendations from others

The National Cancer Institute states finds the evidence insufficient to recommend any routine screening for endometrial cancer with either endometrial biopsy or transvaginal ultrasound. The American Cancer Society does not recommend routine screening of asymptomatic patients for endometrial cancer. They recommend prompt recognition and evaluation of abnormal uterine bleeding. The US Preventive Services Task Force and American Academy of Family Physicians have not issued recommendations related to endometrial cancer screening.

Evidence summary

In a trial of postmenopausal estrogen use, 448 asymptomatic postmenopausal women were monitored with both endometrial biopsy and transvaginal ultrasound.¹ Biopsy detected 11 cases of serious disease. At a threshold of 5 mm for endometrial thickness, ultrasound had a positive predictive value of 9% for detecting any abnormality with 90% sensitivity and 48% specificity. At this threshold, more than half of women evaluated with ultrasound would require endometrial biopsy as well, and only 4% of these patients would have serious disease. This study concludes that transvaginal ultrasound has a poor positive predictive value but a high negative predictive value for detecting serious endometrial disease for this asymptomatic population.

An additional study evaluated 1926 asymptomatic postmenopausal women with transvaginal ultrasound.² Of these, 1833 had endometrial thickness <6 mm and 1750 of this cohort underwent biopsy. Five cases of serious endometrial abnormality were identified in this group (1 adenocarcinoma and 4 atypical hyperplasia). Specificity in this group was 98%, but sensitivity for accurately detecting an abnormality was low at 17%.

The negative predictive value was greater than 99%. An inadequate number of patients with endometrial thickness >6 mm were biopsied (45%) to allow for accurate calculation of positive predictive value in those with a >6 mm stripe. The study concludes that transvaginal ultrasonography may not be an effective screening procedure for this population.

The relevance of several other studies is affected by small sample size (range, 36–85).^3-6 Other studies did not attempt to biopsy all patients screened with ultrasound.^7,8

Recommendations from others

The National Cancer Institute states finds the evidence insufficient to recommend any routine screening for endometrial cancer with either endometrial biopsy or transvaginal ultrasound. The American Cancer Society does not recommend routine screening of asymptomatic patients for endometrial cancer. They recommend prompt recognition and evaluation of abnormal uterine bleeding. The US Preventive Services Task Force and American Academy of Family Physicians have not issued recommendations related to endometrial cancer screening.

Evidence summary

Overuse of antibiotics is already a problem in nursing homes. A large portion of bacterial pneumonia in the nursing home population results from aspiration of oropharyngeal bacteria, which is more likely to be drug-resistant if the resident has been on antibiotics.¹ We found no studies that testing antibacterial agents for prevention of pneumonia in nursing home patients. However, 3 measures are clearly helpful in preventing pneumonia in nursing home patients:

1. Influenza vaccination of residents: A meta-analysis of 20 cohort studies showed a 53% efficacy (95% confidence interval [CI], 35–66)—defined as 1 minus the odds ratio—for influenza immunization in preventing pneumonia.²
2. Influenza vaccination of caregivers: A cluster randomized trial in British long-term care facilities demonstrated that influenza vaccination of health care workers (61% of 1078 workers) reduced the total nursing home mortality rate (odds ratio [OR]=0.56 [95% CI, 0.4–0.8]) for a drop in mortality rate from 17% to 10% (number needed to treat [NNT]=14.3).³
3. Pneumococcal vaccination of residents: This evidence was reviewed in a prior Clinical Inquiry.⁴ The evidence comes primarily from 2 clinical trials in which the NNT to prevent 1 episode of pneumonia was about 35.

Two other proposed interventions require further study to evaluate their role in prophylaxis. Antiviral prophylaxis to prevent pneumonia during nursing home outbreaks of influenza has not been evaluated in controlled trials. Observational studies strongly suggest that amantadine, rimantadine, and oseltamivir are all effective in reducing spread of influenza during outbreaks in nursing homes (Table). Oseltamivir acts against influenza B as well as A and has fewer side effects, but it is more expensive.^5,6 Presumably, decreasing the rate of influenza also reduces the rate of subsequent pneumonia.

Oral hygiene programs for nursing home residents may also reduce pneumonia. In a single study, 366 patients in 11 Japanese nursing homes were divided into controls (self-care) and those treated with rigorous oral care (by staff). The intervention group had a relative risk of 0.6 (95% CI, 0.36–0.99; NNT=12.5) for pneumonia over a 2-year period.⁷ The NNT for preventing a death by pneumonia was 11 (P<.01). This intriguing result merits follow up in larger groups in US nursing homes to see if this approach is feasible.

TABLE
Available treatment and prophylactic regimens for influenza

Recommendations from others

There are no recommendations about the use of antibiotic prophylaxis for pneumonia in either the nursing home or in the outpatient settings; however, there are clear recommendations against the overuse of antibiotics.⁸

The CDC Advisory Committee on Immunization Practices (ACIP) recommends:

• annual influenza vaccine for persons residing in nursing homes⁹
• annual influenza vaccine for health care workers in long-term care facilities⁹
• pneumococcal vaccine for persons residing in a nursing home (the schedule for an immunocompetent adult is a single dose, followed by a booster after age 65 if the first dose was before age 65, or after 5 years for persons <65 years with compromised immune status)¹⁰
• chemoprophylaxis for influenza outbreaks in nursing homes.¹¹

Evidence summary

Overuse of antibiotics is already a problem in nursing homes. A large portion of bacterial pneumonia in the nursing home population results from aspiration of oropharyngeal bacteria, which is more likely to be drug-resistant if the resident has been on antibiotics.¹ We found no studies that testing antibacterial agents for prevention of pneumonia in nursing home patients. However, 3 measures are clearly helpful in preventing pneumonia in nursing home patients:

1. Influenza vaccination of residents: A meta-analysis of 20 cohort studies showed a 53% efficacy (95% confidence interval [CI], 35–66)—defined as 1 minus the odds ratio—for influenza immunization in preventing pneumonia.²
2. Influenza vaccination of caregivers: A cluster randomized trial in British long-term care facilities demonstrated that influenza vaccination of health care workers (61% of 1078 workers) reduced the total nursing home mortality rate (odds ratio [OR]=0.56 [95% CI, 0.4–0.8]) for a drop in mortality rate from 17% to 10% (number needed to treat [NNT]=14.3).³
3. Pneumococcal vaccination of residents: This evidence was reviewed in a prior Clinical Inquiry.⁴ The evidence comes primarily from 2 clinical trials in which the NNT to prevent 1 episode of pneumonia was about 35.

Two other proposed interventions require further study to evaluate their role in prophylaxis. Antiviral prophylaxis to prevent pneumonia during nursing home outbreaks of influenza has not been evaluated in controlled trials. Observational studies strongly suggest that amantadine, rimantadine, and oseltamivir are all effective in reducing spread of influenza during outbreaks in nursing homes (Table). Oseltamivir acts against influenza B as well as A and has fewer side effects, but it is more expensive.^5,6 Presumably, decreasing the rate of influenza also reduces the rate of subsequent pneumonia.

Oral hygiene programs for nursing home residents may also reduce pneumonia. In a single study, 366 patients in 11 Japanese nursing homes were divided into controls (self-care) and those treated with rigorous oral care (by staff). The intervention group had a relative risk of 0.6 (95% CI, 0.36–0.99; NNT=12.5) for pneumonia over a 2-year period.⁷ The NNT for preventing a death by pneumonia was 11 (P<.01). This intriguing result merits follow up in larger groups in US nursing homes to see if this approach is feasible.

TABLE
Available treatment and prophylactic regimens for influenza

Recommendations from others

There are no recommendations about the use of antibiotic prophylaxis for pneumonia in either the nursing home or in the outpatient settings; however, there are clear recommendations against the overuse of antibiotics.⁸

The CDC Advisory Committee on Immunization Practices (ACIP) recommends:

• annual influenza vaccine for persons residing in nursing homes⁹
• annual influenza vaccine for health care workers in long-term care facilities⁹
• pneumococcal vaccine for persons residing in a nursing home (the schedule for an immunocompetent adult is a single dose, followed by a booster after age 65 if the first dose was before age 65, or after 5 years for persons <65 years with compromised immune status)¹⁰
• chemoprophylaxis for influenza outbreaks in nursing homes.¹¹

Evidence summary

Overuse of antibiotics is already a problem in nursing homes. A large portion of bacterial pneumonia in the nursing home population results from aspiration of oropharyngeal bacteria, which is more likely to be drug-resistant if the resident has been on antibiotics.¹ We found no studies that testing antibacterial agents for prevention of pneumonia in nursing home patients. However, 3 measures are clearly helpful in preventing pneumonia in nursing home patients:

1. Influenza vaccination of residents: A meta-analysis of 20 cohort studies showed a 53% efficacy (95% confidence interval [CI], 35–66)—defined as 1 minus the odds ratio—for influenza immunization in preventing pneumonia.²
2. Influenza vaccination of caregivers: A cluster randomized trial in British long-term care facilities demonstrated that influenza vaccination of health care workers (61% of 1078 workers) reduced the total nursing home mortality rate (odds ratio [OR]=0.56 [95% CI, 0.4–0.8]) for a drop in mortality rate from 17% to 10% (number needed to treat [NNT]=14.3).³
3. Pneumococcal vaccination of residents: This evidence was reviewed in a prior Clinical Inquiry.⁴ The evidence comes primarily from 2 clinical trials in which the NNT to prevent 1 episode of pneumonia was about 35.

Two other proposed interventions require further study to evaluate their role in prophylaxis. Antiviral prophylaxis to prevent pneumonia during nursing home outbreaks of influenza has not been evaluated in controlled trials. Observational studies strongly suggest that amantadine, rimantadine, and oseltamivir are all effective in reducing spread of influenza during outbreaks in nursing homes (Table). Oseltamivir acts against influenza B as well as A and has fewer side effects, but it is more expensive.^5,6 Presumably, decreasing the rate of influenza also reduces the rate of subsequent pneumonia.

Oral hygiene programs for nursing home residents may also reduce pneumonia. In a single study, 366 patients in 11 Japanese nursing homes were divided into controls (self-care) and those treated with rigorous oral care (by staff). The intervention group had a relative risk of 0.6 (95% CI, 0.36–0.99; NNT=12.5) for pneumonia over a 2-year period.⁷ The NNT for preventing a death by pneumonia was 11 (P<.01). This intriguing result merits follow up in larger groups in US nursing homes to see if this approach is feasible.

TABLE
Available treatment and prophylactic regimens for influenza

Recommendations from others

There are no recommendations about the use of antibiotic prophylaxis for pneumonia in either the nursing home or in the outpatient settings; however, there are clear recommendations against the overuse of antibiotics.⁸

The CDC Advisory Committee on Immunization Practices (ACIP) recommends:

• annual influenza vaccine for persons residing in nursing homes⁹
• annual influenza vaccine for health care workers in long-term care facilities⁹
• pneumococcal vaccine for persons residing in a nursing home (the schedule for an immunocompetent adult is a single dose, followed by a booster after age 65 if the first dose was before age 65, or after 5 years for persons <65 years with compromised immune status)¹⁰
• chemoprophylaxis for influenza outbreaks in nursing homes.¹¹