Short Versus Long Antibiotic Course for Pleural Infection Management (SLIM Trial)

Pleural Infection Clinical Trial

— SLIM  

Official title:

Short Versus Long Antibiotic Course for Pleural Infection Management (SLIM Trial): a Randomized Controlled Open Label Trial

Clinical Trial Details — Status: Completed

Administrative data

• NCT number: NCT04615286
• Other study ID #: 3/24/11/10/2020
• Status: Completed
• Phase: N/A
• Start date: September 28, 2020
• Est. completion date: December 6, 2021

Study information

• Verified date: December 2021
• Source: Alexandria University
• Contact: n/a
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Infection of the pleural space is serious condition that requires hospitalization, invasive interventions and long courses of antibiotics[1]. Treatment of pleural infection requires long hospital admission with a median of 19 days[2] and medical treatments fails requiring surgical intervention in up to 30% of cases[3]. The mortality from pleural infection is around 10% at 3 months[4].

Besides drainage of the infected fluid, antibiotics are a core component of management of pleural infection[5] and are typically given intravenously in the first few days of treatment until the condition is stabilized at which stage patients are shifted to oral antibiotics of equivalent spectrum. In almost half of the cases of pleural infection, the choice of antibiotics is entirely empirical due to low yield of microbiological tests on pleural fluid in these cases[6]. International guidelines cite a minimum length of antibiotic course of pleural infection of four weeks[5,7] with antibiotic courses typically lasting six weeks[8]. However, these recommendations are based on expert opinion with no robust evidence to support such durations.

The RAPID (renal function, age, purulence, infection source and dietary factors) score has recently been validated as a robust tool to predict 3-month mortality of patients with pleural infection based on demographic and laboratory data (table 1)[4]. A low score (0-2) is associated with 2-3% mortality, medium score (3-4) 9% mortality and high score (5-7) 30% mortality at three months[9]. The utility for this score in clinical management is yet to be determined and this study will attempt using this score to stratify lengths of antibiotic treatment based on proposed risk of adverse outcomes as stipulated by the RAPID score.

The aim of this study is to investigate the feasibility and safety of prescribing shorter courses of antibiotics (2-3 weeks) versus the standard longer courses (4-6 weeks) in medically-treated patients with pleural infection at lower risk of mortality (RAPID score 0-4) who can be safely discharged home within 14 days of hospitalization and how this impacts success of medical treatment.

Description:

Infection of the pleural space is serious condition that requires hospitalization, invasive interventions and long courses of antibiotics. Treatment of pleural infection requires long hospital admission with a median of 19 days and medical treatments fails requiring surgical intervention in up to 30% of cases. The mortality from pleural infection is around 10% at 3 months.

Besides drainage of the infected fluid, antibiotics are a core component of management of pleural infection and are typically given intravenously in the first few days of treatment until the condition is stabilized at which stage patients are shifted to oral antibiotics of equivalent spectrum. In almost half of the cases of pleural infection, the choice of antibiotics is entirely empirical due to low yield of microbiological tests on pleural fluid in these cases. International guidelines cite a minimum length of antibiotic course of pleural infection of four weeks with antibiotic courses typically lasting six weeks[8]. However, these recommendations are based on expert opinion with no robust evidence to support such durations. A recent trial compared a two-week versus a three-week antibiotic course for parapneumonic pleural infections. The trial that concluded prematurely due to inability to recruit to target sample size and found that the two regimens were equivalent in terms of risk of failure of medical treatment. Besides being an underpowered study, the results are only applicable to parapneumonic effusions but not primary pleural infections.

The RAPID score has recently been validated as a robust tool to predict 3-month mortality of patients with pleural infection based on demographic and laboratory data. A low score (0-2) is associated with 2-3% mortality, medium score (3-4) 9% mortality and high score (5-7) 30% mortality at three months. The utility for this score in clinical management is yet to be determined and this study will attempt using this score to stratify lengths of antibiotic treatment based on proposed risk of adverse outcomes as stipulated by the RAPID score. A shorter antibiotic course that is as effective as the standard long course is desirable given the common occurrence of side effects with antibiotic treatment. The presence of a robust predictive score of outcome seems as an attractive tool to help stratify patients who can be safely treated with shorter antibiotic courses.

The aim of this study is to investigate the feasibility and safety of prescribing shorter courses of antibiotics (2-3 weeks) versus the standard longer courses (4-6 weeks) in medically-treated patients with pleural infection at lower risk of mortality (RAPID score 0-4) who can be safely discharged home within 14 days of hospitalization and how this impacts success of medical treatment.

Recruitment information / eligibility

• Status: Completed
• Enrollment: 50
• Est. completion date: December 6, 2021
• Est. primary completion date: November 10, 2021
• Accepts healthy volunteers: No
• Gender: All
• Age group: 18 Years and older

Eligibility

Inclusion Criteria:

• Adult patients (>18 years old)

• Willing to provide informed consent

• Admitted to hospital for treatment of pleural infection (both parapneumonic and primary pleural infections included). Pleural infection will be defined by the presence of one of the following:

1. the presence of pus in the pleural space;

2. positive pleural fluid gram stain or culture; or

3. pleural fluid pH < 7.2 or pleural fluid glucose < 40 mg/dL in the setting of acute respiratory infection.

• RAPID low or intermediate score (0-4)

• Fit for discharge within 14th day of admission

Exclusion Criteria:

• Failure of medical treatment within 14 days of admission and need for surgical referral

• Need for hospital admission beyond 14 days due to medical reasons

• Admission to recurrent ipsilateral pleural infection within the last three months

• RAPID high score (5 or more)

• Pleural infection not amenable to drainage at time of diagnosis and therefore upfront decision to treat with prolonged antibiotics

• Residual pleural collection (despite attempted drainage) that the managing clinician indicated is for prolonged oral suppressive therapy (i.e. six weeks of oral antibiotics).

Related Conditions & MeSH terms

• Communicable Diseases
• Infections
• Pleural Infection

Intervention

Other:
• Short course (2-3 weeks) of antibiotics
Shorter course of antibiotic than standard care of 4-6 weeks
• Standard (long course) of antibiotics
4-6 weeks of antibiotics

Locations

Country	Name	City	State
Egypt	Alexandria University Faculty of Medicine	Alexandria

Sponsors (1)

Lead Sponsor	Collaborator
Alexandria University

Country where clinical trial is conducted

Egypt, 

References & Publications (9)

Bedawi EO, Hassan M, Rahman NM. Recent developments in the management of pleural infection: A comprehensive review. Clin Respir J. 2018 Aug;12(8):2309-2320. doi: 10.1111/crj.12941. Review. — View Citation

Bhatnagar R, Maskell N. The modern diagnosis and management of pleural effusions. BMJ. 2015 Sep 8;351:h4520. doi: 10.1136/bmj.h4520. Review. — View Citation

Cargill TN, Hassan M, Corcoran JP, Harriss E, Asciak R, Mercer RM, McCracken DJ, Bedawi EO, Rahman NM. A systematic review of comorbidities and outcomes of adult patients with pleural infection. Eur Respir J. 2019 Oct 1;54(3). pii: 1900541. doi: 10.1183/13993003.00541-2019. Print 2019 Sep. — View Citation

Corcoran JP, Psallidas I, Gerry S, Piccolo F, Koegelenberg CF, Saba T, Daneshvar C, Fairbairn I, Heinink R, West A, Stanton AE, Holme J, Kastelik JA, Steer H, Downer NJ, Haris M, Baker EH, Everett CF, Pepperell J, Bewick T, Yarmus L, Maldonado F, Khan B, Hart-Thomas A, Hands G, Warwick G, De Fonseka D, Hassan M, Munavvar M, Guhan A, Shahidi M, Pogson Z, Dowson L, Popowicz ND, Saba J, Ward NR, Hallifax RJ, Dobson M, Shaw R, Hedley EL, Sabia A, Robinson B, Collins GS, Davies HE, Yu LM, Miller RF, Maskell NA, Rahman NM. Prospective validation of the RAPID clinical risk prediction score in adult patients with pleural infection: the PILOT study. Eur Respir J. 2020 Nov 26;56(5). pii: 2000130. doi: 10.1183/13993003.00130-2020. Print 2020 Nov. Erratum in: Eur Respir J. 2020 Dec 17;56(6):. — View Citation

Davies HE, Davies RJ, Davies CW; BTS Pleural Disease Guideline Group. Management of pleural infection in adults: British Thoracic Society Pleural Disease Guideline 2010. Thorax. 2010 Aug;65 Suppl 2:ii41-53. doi: 10.1136/thx.2010.137000. Review. — View Citation

Hassan M, Cargill T, Harriss E, Asciak R, Mercer RM, Bedawi EO, McCracken DJ, Psallidas I, Corcoran JP, Rahman NM. The microbiology of pleural infection in adults: a systematic review. Eur Respir J. 2019 Oct 1;54(3). pii: 1900542. doi: 10.1183/13993003.00542-2019. Print 2019 Sep. — View Citation

Hooper CE, Edey AJ, Wallis A, Clive AO, Morley A, White P, Medford AR, Harvey JE, Darby M, Zahan-Evans N, Maskell NA. Pleural irrigation trial (PIT): a randomised controlled trial of pleural irrigation with normal saline versus standard care in patients with pleural infection. Eur Respir J. 2015 Aug;46(2):456-63. doi: 10.1183/09031936.00147214. Epub 2015 May 28. — View Citation

Maskell NA, Lee YC, Gleeson FV, Hedley EL, Pengelly G, Davies RJ. Randomized trials describing lung inflammation after pleurodesis with talc of varying particle size. Am J Respir Crit Care Med. 2004 Aug 15;170(4):377-82. Epub 2004 May 13. — View Citation

Rahman NM, Kahan BC, Miller RF, Gleeson FV, Nunn AJ, Maskell NA. A clinical score (RAPID) to identify those at risk for poor outcome at presentation in patients with pleural infection. Chest. 2014 Apr;145(4):848-855. doi: 10.1378/chest.13-1558. — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Number of participants with failure of medical treatment	Incidence of failure of treatment as judged by trial clinician requiring further antibiotics and/or tube drainage and/or surgical intervention by six weeks post initial admission. Failure will be determined based on the one or more of the following parameter: clinical (recurrence of symptoms), biochemical (worsening of WCC [by 2000/mm3] or CRP [by > 20%] from discharge values) and radiological (chest X-ray +/- TUS evidence of increasing or new pleural collection).	Outcome assessed at six weeks post diagnosis
Secondary	Length of antibiotic treatment in days	Total length of antibiotic treatment (in days) in the study arms	Outcome assessed at six weeks post diagnosis
Secondary	Number of participants with chest X ray worsening at 6 weeks	Number of participants with worsening in the 6-week chest X-ray as compared to discharge chest X-ray in the study arms. Chest X-ray pairs (discharge vs 6-week) will be read by a respiratory physician blinded to treatment allocation who will judge whether there is worsening (versus stability or improvement)	Outcome assessed at six weeks post diagnosis
Secondary	Time to return to normal daily activities in days	Time (in days) to return to normal daily activities in participants of the study arms	Outcome assessed at six weeks post diagnosis
Secondary	Number of participants requiring readmission within 30 days from discharge	Readmission within 30 days from discharge	30 days from discharge