BACKGROUND: Millions of children are hospitalised due to respiratory syncytial virus (RSV) infection every year. Treatment is supportive, and current therapies (e.g. inhaled bronchodilators, epinephrine, nebulised hypertonic saline, and corticosteroids) are ineffective or have limited effect. Respiratory syncytial virus immunoglobulin is sometimes used prophylactically to prevent hospital admission from RSV-related illness. It may be considered for the treatment of established severe RSV infection or for treatment in an immunocompromised host, although it is not licenced for this purpose. It is unclear whether immunoglobulins improve outcomes when used as a treatment for established RSV infection in infants and young children admitted to hospital. OBJECTIVES: To assess the effects of immunoglobulins for the treatment of RSV-proven lower respiratory tract infections in children aged up to three years, admitted to hospital. SEARCH METHODS: We searched the Cochrane Central Register of Controlled Trials (CENTRAL), which contains the Cochrane Acute Respiratory Infections Group's Specialised Register, Ovid MEDLINE, Embase, CINAHL, and Web of Science (from inception to 6 November 2018) with no restrictions. We searched two trial registries for ongoing trials (to 30 March 2018) and checked the reference lists of reviews and included articles for additional studies. SELECTION CRITERIA: Randomised controlled trials comparing immunoglobulins with placebo in hospitalised infants and children aged up to three years with laboratory-diagnosed RSV lower respiratory tract infection. DATA COLLECTION AND ANALYSIS: Two review authors independently selected trials, assessed risk of bias, and extracted data. We assessed evidence quality using GRADE. MAIN RESULTS: We included seven trials involving 486 infants and children aged up to three years. The immunoglobulin preparations used in these trials included anti-RSV immunoglobulin and the monoclonal antibody preparations palivizumab and motavizumab. We assessed the primary outcomes of mortality, length of hospital stay, and adverse events as providing low- or very low-certainty evidence due to risk of bias and imprecision. All trials were conducted at sites in high-income countries (USA, Chile, New Zealand, Australia), with two studies including a site in a middle-income country (Panama). Five of the seven studies were "supported" or "sponsored" by the trial drug manufacturers. We found no evidence of a difference between immunoglobulins and placebo for mortality (risk ratio (RR) 0.87, 95% confidence interval (CI) 0.14 to 5.27; 3 trials; 196 children; 4 deaths; 2 deaths amongst 98 children receiving immunoglobulins, and 2 deaths amongst 98 children receiving placebo. One additional death occurred in a fourth trial, however, the study group of the child was not known and the data were not included in the analysis; very low-certainty evidence), and length of hospitalisation (mean difference -0.70, 95% CI -1.83 to 0.42; 5 trials; 324 children; low-certainty evidence). There was no evidence of a difference between immunoglobulins and placebo in adverse events of any severity or seriousness (reported in five trials) or serious adverse events (four trials) (RR for any severity 1.18, 95% CI 0.78 to 1.78; 340 children; low-certainty evidence, and for serious adverse events 1.08, 95% CI 0.65 to 1.79; 238 children; low-certainty evidence).We found no evidence of a significant difference between immunoglobulins and placebo for any of our secondary outcomes. We identified one ongoing trial. AUTHORS' CONCLUSIONS: We found insufficient evidence of a difference between immunoglobulins and placebo for any review outcomes. We assessed the evidence for the effects of immunoglobulins when used as a treatment for RSV lower respiratory tract infection in hospitalised infants and young children as of low or very low certainty due to risk of bias and imprecision. We are uncertain of the effects of immunoglobulins on these outcomes, and the true effect may be substantially different from the effects reported in this review. All trials were conducted in high-income countries, and data from populations in which the rate of death from RSV infection is higher are lacking.
BACKGROUND: Millions of children are hospitalised due to respiratory syncytial virus (RSV) infection every year. Treatment is supportive, and current therapies (e.g. inhaled bronchodilators, epinephrine, nebulised hypertonic saline, and corticosteroids) are ineffective or have limited effect. Respiratory syncytial virus immunoglobulin is sometimes used prophylactically to prevent hospital admission from RSV-related illness. It may be considered for the treatment of established severe RSV infection or for treatment in an immunocompromised host, although it is not licenced for this purpose. It is unclear whether immunoglobulins improve outcomes when used as a treatment for established RSV infection in infants and young children admitted to hospital. OBJECTIVES: To assess the effects of immunoglobulins for the treatment of RSV-proven lower respiratory tract infections in children aged up to three years, admitted to hospital. SEARCH METHODS: We searched the Cochrane Central Register of Controlled Trials (CENTRAL), which contains the Cochrane Acute Respiratory Infections Group's Specialised Register, Ovid MEDLINE, Embase, CINAHL, and Web of Science (from inception to 6 November 2018) with no restrictions. We searched two trial registries for ongoing trials (to 30 March 2018) and checked the reference lists of reviews and included articles for additional studies. SELECTION CRITERIA: Randomised controlled trials comparing immunoglobulins with placebo in hospitalised infants and children aged up to three years with laboratory-diagnosed RSV lower respiratory tract infection. DATA COLLECTION AND ANALYSIS: Two review authors independently selected trials, assessed risk of bias, and extracted data. We assessed evidence quality using GRADE. MAIN RESULTS: We included seven trials involving 486 infants and children aged up to three years. The immunoglobulin preparations used in these trials included anti-RSV immunoglobulin and the monoclonal antibody preparations palivizumab and motavizumab. We assessed the primary outcomes of mortality, length of hospital stay, and adverse events as providing low- or very low-certainty evidence due to risk of bias and imprecision. All trials were conducted at sites in high-income countries (USA, Chile, New Zealand, Australia), with two studies including a site in a middle-income country (Panama). Five of the seven studies were "supported" or "sponsored" by the trial drug manufacturers. We found no evidence of a difference between immunoglobulins and placebo for mortality (risk ratio (RR) 0.87, 95% confidence interval (CI) 0.14 to 5.27; 3 trials; 196 children; 4 deaths; 2 deaths amongst 98 children receiving immunoglobulins, and 2 deaths amongst 98 children receiving placebo. One additional death occurred in a fourth trial, however, the study group of the child was not known and the data were not included in the analysis; very low-certainty evidence), and length of hospitalisation (mean difference -0.70, 95% CI -1.83 to 0.42; 5 trials; 324 children; low-certainty evidence). There was no evidence of a difference between immunoglobulins and placebo in adverse events of any severity or seriousness (reported in five trials) or serious adverse events (four trials) (RR for any severity 1.18, 95% CI 0.78 to 1.78; 340 children; low-certainty evidence, and for serious adverse events 1.08, 95% CI 0.65 to 1.79; 238 children; low-certainty evidence).We found no evidence of a significant difference between immunoglobulins and placebo for any of our secondary outcomes. We identified one ongoing trial. AUTHORS' CONCLUSIONS: We found insufficient evidence of a difference between immunoglobulins and placebo for any review outcomes. We assessed the evidence for the effects of immunoglobulins when used as a treatment for RSV lower respiratory tract infection in hospitalised infants and young children as of low or very low certainty due to risk of bias and imprecision. We are uncertain of the effects of immunoglobulins on these outcomes, and the true effect may be substantially different from the effects reported in this review. All trials were conducted in high-income countries, and data from populations in which the rate of death from RSV infection is higher are lacking.
Authors: J M Langley; E E Wang; B J Law; D Stephens; F D Boucher; S Dobson; J McDonald; N E MacDonald; I Mitchell; J L Robinson Journal: J Pediatr Date: 1997-07 Impact factor: 4.406
Authors: W J Rodriguez; W C Gruber; R C Welliver; J R Groothuis; E A Simoes; H C Meissner; V G Hemming; C B Hall; M L Lepow; A J Rosas; C Robertsen; A A Kramer Journal: Pediatrics Date: 1997-03 Impact factor: 7.124
Authors: Timothy F Feltes; Allison K Cabalka; H Cody Meissner; Franco M Piazza; David A Carlin; Franklin H Top; Edward M Connor; Henry M Sondheimer Journal: J Pediatr Date: 2003-10 Impact factor: 4.406
Authors: J R Groothuis; E A Simoes; M J Levin; C B Hall; C E Long; W J Rodriguez; J Arrobio; H C Meissner; D R Fulton; R C Welliver Journal: N Engl J Med Date: 1993-11-18 Impact factor: 91.245
Authors: V G Hemming; W Rodriguez; H W Kim; C D Brandt; R H Parrott; B Burch; G A Prince; P A Baron; R J Fink; G Reaman Journal: Antimicrob Agents Chemother Date: 1987-12 Impact factor: 5.191
Authors: Ting Shi; David A McAllister; Katherine L O'Brien; Eric A F Simoes; Shabir A Madhi; Bradford D Gessner; Fernando P Polack; Evelyn Balsells; Sozinho Acacio; Claudia Aguayo; Issifou Alassani; Asad Ali; Martin Antonio; Shally Awasthi; Juliet O Awori; Eduardo Azziz-Baumgartner; Henry C Baggett; Vicky L Baillie; Angel Balmaseda; Alfredo Barahona; Sudha Basnet; Quique Bassat; Wilma Basualdo; Godfrey Bigogo; Louis Bont; Robert F Breiman; W Abdullah Brooks; Shobha Broor; Nigel Bruce; Dana Bruden; Philippe Buchy; Stuart Campbell; Phyllis Carosone-Link; Mandeep Chadha; James Chipeta; Monidarin Chou; Wilfrido Clara; Cheryl Cohen; Elizabeth de Cuellar; Duc-Anh Dang; Budragchaagiin Dash-Yandag; Maria Deloria-Knoll; Mukesh Dherani; Tekchheng Eap; Bernard E Ebruke; Marcela Echavarria; Carla Cecília de Freitas Lázaro Emediato; Rodrigo A Fasce; Daniel R Feikin; Luzhao Feng; Angela Gentile; Aubree Gordon; Doli Goswami; Sophie Goyet; Michelle Groome; Natasha Halasa; Siddhivinayak Hirve; Nusrat Homaira; Stephen R C Howie; Jorge Jara; Imane Jroundi; Cissy B Kartasasmita; Najwa Khuri-Bulos; Karen L Kotloff; Anand Krishnan; Romina Libster; Olga Lopez; Marilla G Lucero; Florencia Lucion; Socorro P Lupisan; Debora N Marcone; John P McCracken; Mario Mejia; Jennifer C Moisi; Joel M Montgomery; David P Moore; Cinta Moraleda; Jocelyn Moyes; Patrick Munywoki; Kuswandewi Mutyara; Mark P Nicol; D James Nokes; Pagbajabyn Nymadawa; Maria Tereza da Costa Oliveira; Histoshi Oshitani; Nitin Pandey; Gláucia Paranhos-Baccalà; Lia N Phillips; Valentina Sanchez Picot; Mustafizur Rahman; Mala Rakoto-Andrianarivelo; Zeba A Rasmussen; Barbara A Rath; Annick Robinson; Candice Romero; Graciela Russomando; Vahid Salimi; Pongpun Sawatwong; Nienke Scheltema; Brunhilde Schweiger; J Anthony G Scott; Phil Seidenberg; Kunling Shen; Rosalyn Singleton; Viviana Sotomayor; Tor A Strand; Agustinus Sutanto; Mariam Sylla; Milagritos D Tapia; Somsak Thamthitiwat; Elizabeth D Thomas; Rafal Tokarz; Claudia Turner; Marietjie Venter; Sunthareeya Waicharoen; Jianwei Wang; Wanitda Watthanaworawit; Lay-Myint Yoshida; Hongjie Yu; Heather J Zar; Harry Campbell; Harish Nair Journal: Lancet Date: 2017-07-07 Impact factor: 79.321