High-Frequency Percussive Ventilation in Viral Bronchiolitis

Benjamin R White; Noelle Cadotte; Eric B McClellan; Angela P Presson; Erin Bennett; Andrew G Smith; Salim Aljabari

doi:10.4187/respcare.09350

References

1.↵
1. Fujiogi M,
2. Goto T,
3. Yasunaga H,
4. Fujishiro J,
5. Mansbach JM,
6. Camargo CA,
7. Hasegawa K
. Trends in bronchiolitis hospitalizations in the United States: 2000–2016. Pediatrics 2019;144(6):e20192614.
OpenUrl Abstract/FREE Full Text
2.↵
1. Cruces P,
2. González-Dambrauskas S,
3. Quilodrán J,
4. Valenzuela J,
5. Martínez J,
6. Rivero N,
7. et al
. Respiratory mechanics in infants with severe bronchiolitis on controlled mechanical ventilation. BMC Pulm Med 2017;17(1):129.
OpenUrl CrossRef PubMed
3.↵
1. Rizkalla NA,
2. Dominick CL,
3. Fitzgerald JC,
4. Thomas NJ,
5. Yehya N
. High-frequency percussive ventilation improves oxygenation and ventilation in pediatric patients with acute respiratory failure. J Crit Care 2014;29(2):314.e1–314.e7.
OpenUrl
4.↵
1. Paviotti G,
2. Bua J,
3. De Cunto A,
4. Travan L,
5. Demarini S
. High-frequency percussive ventilation as rescue treatment in severe hypoxemic respiratory failure in term neonates. J Crit Care 2014;29(4):662–663.
OpenUrl
5.
1. Yehya N,
2. Dominick CL,
3. Connelly JT,
4. Davis DH,
5. Minneci PC,
6. Deans KJ,
7. et al
. High-frequency percussive ventilation and bronchoscopy during extracorporeal life support in children. Asaio J 2014;60(4):424–428.
OpenUrl
6.↵
1. Tawfik D,
2. Bennett T,
3. Welch B,
4. Poss W
. Use of high-frequency ventilation in the pediatric intensive care unit. J Pediatr Intensive Care 2016;5(1):12–20.
OpenUrl
7.↵
1. Butler AD,
2. Dominick CL,
3. Yehya N
. High-frequency percussive ventilation in pediatric acute respiratory failure. Pediatr Pulmonol 2020. doi: 10.1002/ppul.25191.
OpenUrl CrossRef
8.↵
1. Gullo A
1. Lucangelo U,
2. Fontanesi L,
3. Bird F
. High Frequency Percussive Ventilation. In: Gullo A, editor. Anaesthesia, pain, intensive care emergency medicine — A.P.I.C.E. Milano: Springer Milan; 2002:163–171.
9.
1. Miller AC,
2. Ferrada PA,
3. Kadri SS,
4. Nataraj-Bhandari K,
5. Vahedian-Azimi A,
6. Quraishi SA
. High-frequency ventilation modalities as salvage therapy for smoke inhalation–associated acute lung injury: a systematic review. J Intensive Care Med 2018;33(6):335–345.
OpenUrl
10.↵
1. Cortiella J,
2. Mlcak R,
3. Herndon D
. High-frequency percussive ventilation in pediatric patients with inhalation injury. J Burn Care Rehabil 1999;20:232–235.
OpenUrl PubMed Web of Science
11.↵
1. Miller AG,
2. Haynes KE,
3. Gates RM,
4. Kumar KR,
5. Cheifetz IM,
6. Rotta AT
. High-frequency jet ventilation in pediatric acute respiratory failure. Respir Care 2021;66(2):191–198.
OpenUrl Abstract/FREE Full Text
12.↵
1. de Jager P,
2. Kamp T,
3. Dijkstra SK,
4. Burgerhof JGM,
5. Markhorst DG,
6. Curley MAQ,
7. et al
. Feasibility of an alternative, physiologic, individualized, open-lung approach to high-frequency oscillatory ventilation in children. Ann Intensive Care 2019;9:9.
OpenUrl
13.↵
1. Miller AG,
2. Bartle RM,
3. Feldman A,
4. Mallory P,
5. Reyes E,
6. Scott B,
7. Rotta AT
. A narrative review of advanced ventilator modes in the pediatric intensive care unit. Transl Pediatr 2021;10(10):2700–2719.
OpenUrl
14.↵
1. Ralston SL,
2. Lieberthal AS,
3. Meissner HC,
4. Alverson BK,
5. Baley JE,
6. Gadomski AM,
7. Johnson DW,
8. et al
; American Academy of Pediatrics. Clinical practice guideline: the diagnosis, management, and prevention of bronchiolitis. Pediatrics 2014;134(5):e1474–e1502.
OpenUrl Abstract/FREE Full Text
15.↵
Pediatric Acute Lung Injury Consensus Conference Group. Pediatric acute respiratory distress syndrome: consensus recommendations from the Pediatric Acute Lung Injury Consensus Conference. Pediatr Crit Care Med 2015;16:428–439.
OpenUrl CrossRef PubMed
16.↵
1. Allan PF,
2. Osborn EC,
3. Chung KK,
4. Wanek SM
. High-frequency percussive ventilation revisited. J Burn Care Res 2005;31:510–520.
OpenUrl
17.↵
1. Velmahos GC,
2. Chan LS,
3. Tatevossian R,
4. Cornwell EE,
5. Dougherty WR,
6. Escudero J,
7. Demetriades D
. High-frequency percussive ventilation improves oxygenation in patients with ARDS. Chest 1999;116(2):440–446.
OpenUrl CrossRef PubMed Web of Science
18.↵
1. Wong I,
2. Worku B,
3. Weingarten JA,
4. Ivanov A,
5. Khusid F,
6. Afzal A,
7. et al
. High-frequency percussive ventilation in cardiac surgery patients failing mechanical conventional ventilation. Interact Cardiovasc Thorac Surg 2017;25(6):937–941.
OpenUrl
19.↵
1. Cioffi WG,
2. Graves TA,
3. McManus WF,
4. Pruitt BA
. High-frequency percussive ventilation in patients with inhalation injury. J Trauma 1989;29(3):350–354.
OpenUrl PubMed Web of Science
20.
1. Reper P,
2. Wibaux O,
3. Van Laeke P,
4. Vandeenen D,
5. Duinslaeger L,
6. Vanderkelen A
. High-frequency percussive ventilation and conventional ventilation after smoke inhalation: a randomized study. Burns 2002;28(5):503–508.
OpenUrl CrossRef PubMed
21.↵
1. Cioffi WG,
2. Rue LW,
3. Graves TA,
4. McMANUS WF,
5. Mason AD,
6. Pruitt BA
. Prophylactic use of high-frequency percussive ventilation in patients with inhalation injury. Ann Surg 1991;213(6):575–582.
OpenUrl CrossRef PubMed Web of Science
22.↵
1. Spapen H,
2. Borremans M,
3. Diltoer M,
4. Gorp V,
5. Nguyen D,
6. Honoré P
. High-frequency percussive ventilation in severe acute respiratory distress syndrome: a single-center experience. J Anaesthesiol Clin Pharmacol 2014;30(1):65.
OpenUrl
23.↵
1. Salim A,
2. Miller K,
3. Dangleben D,
4. Cipolle M,
5. Pasquale M
. High-frequency percussive ventilation: an alternative mode of ventilation for head-injured patients with adult respiratory distress syndrome. J Trauma - Inj Infect Crit Care 2004;57:542–546.
OpenUrl
24.↵
1. Khemani RG,
2. Parvathaneni K,
3. Yehya N,
4. Bhalla AK,
5. Thomas NJ,
6. Newth CJL
. Positive end-expiratory pressure lower than the ARDS Network protocol is associated with higher pediatric acute respiratory distress syndrome mortality. Am J Respir Crit Care Med 2018;198(1):77–89.
OpenUrl
25.↵
1. Oribabor C,
2. Gulkarov I,
3. Khusid F,
4. Fischer E,
5. Esan A,
6. Rizzuto N,
7. et al
. The use of high-frequency percussive ventilation after cardiac surgery significantly improves gas exchange without impairment of hemodynamics. CJRT 2018;54(3):58–61.
OpenUrl
26.
1. Korzhuk A,
2. Afzal A,
3. Wong I,
4. Khusid F,
5. Worku B,
6. Gulkarov I
. High-frequency percussive ventilation rescue therapy in morbidly obese patients failing conventional mechanical ventilation. J Intensive Care Med 2020;35(6):583–587.
OpenUrl
27.↵
1. Paulsen SM,
2. Killyon GW,
3. Barillo DJ
. High-frequency percussive ventilation as a salvage modality in adult respiratory distress syndrome: a preliminary study. Am Surg 2002;68(10):852–856. discussion 856.
OpenUrl PubMed Web of Science

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Cited By...

Keywords

[1] 1.↵
Fujiogi M,
Goto T,
Yasunaga H,
Fujishiro J,
Mansbach JM,
Camargo CA,
Hasegawa K
. Trends in bronchiolitis hospitalizations in the United States: 2000–2016. Pediatrics 2019;144(6):e20192614.
OpenUrl Abstract/FREE Full Text

[2] Fujiogi M,

[3] Goto T,

[4] Yasunaga H,

[5] Fujishiro J,

[6] Mansbach JM,

[7] Camargo CA,

[8] Hasegawa K

[9] 2.↵
Cruces P,
González-Dambrauskas S,
Quilodrán J,
Valenzuela J,
Martínez J,
Rivero N,
et al
. Respiratory mechanics in infants with severe bronchiolitis on controlled mechanical ventilation. BMC Pulm Med 2017;17(1):129.
OpenUrl CrossRef PubMed

[10] Cruces P,

[11] González-Dambrauskas S,

[12] Quilodrán J,

[13] Valenzuela J,

[14] Martínez J,

[15] Rivero N,

[16] et al

[17] 3.↵
Rizkalla NA,
Dominick CL,
Fitzgerald JC,
Thomas NJ,
Yehya N
. High-frequency percussive ventilation improves oxygenation and ventilation in pediatric patients with acute respiratory failure. J Crit Care 2014;29(2):314.e1–314.e7.
OpenUrl

[18] Rizkalla NA,

[19] Dominick CL,

[20] Fitzgerald JC,

[21] Thomas NJ,

[22] Yehya N

[23] 4.↵
Paviotti G,
Bua J,
De Cunto A,
Travan L,
Demarini S
. High-frequency percussive ventilation as rescue treatment in severe hypoxemic respiratory failure in term neonates. J Crit Care 2014;29(4):662–663.
OpenUrl

[24] Paviotti G,

[25] Bua J,

[26] De Cunto A,

[27] Travan L,

[28] Demarini S

[29] 5.
Yehya N,
Dominick CL,
Connelly JT,
Davis DH,
Minneci PC,
Deans KJ,
et al
. High-frequency percussive ventilation and bronchoscopy during extracorporeal life support in children. Asaio J 2014;60(4):424–428.
OpenUrl

[30] Yehya N,

[31] Dominick CL,

[32] Connelly JT,

[33] Davis DH,

[34] Minneci PC,

[35] Deans KJ,

[36] et al

[37] 6.↵
Tawfik D,
Bennett T,
Welch B,
Poss W
. Use of high-frequency ventilation in the pediatric intensive care unit. J Pediatr Intensive Care 2016;5(1):12–20.
OpenUrl

[38] Tawfik D,

[39] Bennett T,

[40] Welch B,

[41] Poss W

[42] 7.↵
Butler AD,
Dominick CL,
Yehya N
. High-frequency percussive ventilation in pediatric acute respiratory failure. Pediatr Pulmonol 2020. doi: 10.1002/ppul.25191.
OpenUrl CrossRef

[43] Butler AD,

[44] Dominick CL,

[45] Yehya N

[46] 8.↵
Gullo A
Lucangelo U,
Fontanesi L,
Bird F
. High Frequency Percussive Ventilation. In: Gullo A, editor. Anaesthesia, pain, intensive care emergency medicine — A.P.I.C.E. Milano: Springer Milan; 2002:163–171.

[47] Gullo A

[48] Lucangelo U,

[49] Fontanesi L,

[50] Bird F

[51] 9.
Miller AC,
Ferrada PA,
Kadri SS,
Nataraj-Bhandari K,
Vahedian-Azimi A,
Quraishi SA
. High-frequency ventilation modalities as salvage therapy for smoke inhalation–associated acute lung injury: a systematic review. J Intensive Care Med 2018;33(6):335–345.
OpenUrl

[52] Miller AC,

[53] Ferrada PA,

[54] Kadri SS,

[55] Nataraj-Bhandari K,

[56] Vahedian-Azimi A,

[57] Quraishi SA

[58] 10.↵
Cortiella J,
Mlcak R,
Herndon D
. High-frequency percussive ventilation in pediatric patients with inhalation injury. J Burn Care Rehabil 1999;20:232–235.
OpenUrl PubMed Web of Science

[59] Cortiella J,

[60] Mlcak R,

[61] Herndon D

[62] 11.↵
Miller AG,
Haynes KE,
Gates RM,
Kumar KR,
Cheifetz IM,
Rotta AT
. High-frequency jet ventilation in pediatric acute respiratory failure. Respir Care 2021;66(2):191–198.
OpenUrl Abstract/FREE Full Text

[63] Miller AG,

[64] Haynes KE,

[65] Gates RM,

[66] Kumar KR,

[67] Cheifetz IM,

[68] Rotta AT

[69] 12.↵
de Jager P,
Kamp T,
Dijkstra SK,
Burgerhof JGM,
Markhorst DG,
Curley MAQ,
et al
. Feasibility of an alternative, physiologic, individualized, open-lung approach to high-frequency oscillatory ventilation in children. Ann Intensive Care 2019;9:9.
OpenUrl

[70] de Jager P,

[71] Kamp T,

[72] Dijkstra SK,

[73] Burgerhof JGM,

[74] Markhorst DG,

[75] Curley MAQ,

[76] et al

[77] 13.↵
Miller AG,
Bartle RM,
Feldman A,
Mallory P,
Reyes E,
Scott B,
Rotta AT
. A narrative review of advanced ventilator modes in the pediatric intensive care unit. Transl Pediatr 2021;10(10):2700–2719.
OpenUrl

[78] Miller AG,

[79] Bartle RM,

[80] Feldman A,

[81] Mallory P,

[82] Reyes E,

[83] Scott B,

[84] Rotta AT

[85] 14.↵
Ralston SL,
Lieberthal AS,
Meissner HC,
Alverson BK,
Baley JE,
Gadomski AM,
Johnson DW,
et al
; American Academy of Pediatrics. Clinical practice guideline: the diagnosis, management, and prevention of bronchiolitis. Pediatrics 2014;134(5):e1474–e1502.
OpenUrl Abstract/FREE Full Text

[86] Ralston SL,

[87] Lieberthal AS,

[88] Meissner HC,

[89] Alverson BK,

[90] Baley JE,

[91] Gadomski AM,

[92] Johnson DW,

[93] et al

[94] 15.↵
Pediatric Acute Lung Injury Consensus Conference Group. Pediatric acute respiratory distress syndrome: consensus recommendations from the Pediatric Acute Lung Injury Consensus Conference. Pediatr Crit Care Med 2015;16:428–439.
OpenUrl CrossRef PubMed

[95] 16.↵
Allan PF,
Osborn EC,
Chung KK,
Wanek SM
. High-frequency percussive ventilation revisited. J Burn Care Res 2005;31:510–520.
OpenUrl

[96] Allan PF,

[97] Osborn EC,

[98] Chung KK,

[99] Wanek SM

[100] 17.↵
Velmahos GC,
Chan LS,
Tatevossian R,
Cornwell EE,
Dougherty WR,
Escudero J,
Demetriades D
. High-frequency percussive ventilation improves oxygenation in patients with ARDS. Chest 1999;116(2):440–446.
OpenUrl CrossRef PubMed Web of Science

[101] Velmahos GC,

[102] Chan LS,

[103] Tatevossian R,

[104] Cornwell EE,

[105] Dougherty WR,

[106] Escudero J,

[107] Demetriades D

[108] 18.↵
Wong I,
Worku B,
Weingarten JA,
Ivanov A,
Khusid F,
Afzal A,
et al
. High-frequency percussive ventilation in cardiac surgery patients failing mechanical conventional ventilation. Interact Cardiovasc Thorac Surg 2017;25(6):937–941.
OpenUrl

[109] Wong I,

[110] Worku B,

[111] Weingarten JA,

[112] Ivanov A,

[113] Khusid F,

[114] Afzal A,

[115] et al

[116] 19.↵
Cioffi WG,
Graves TA,
McManus WF,
Pruitt BA
. High-frequency percussive ventilation in patients with inhalation injury. J Trauma 1989;29(3):350–354.
OpenUrl PubMed Web of Science

[117] Cioffi WG,

[118] Graves TA,

[119] McManus WF,

[120] Pruitt BA

[121] 20.
Reper P,
Wibaux O,
Van Laeke P,
Vandeenen D,
Duinslaeger L,
Vanderkelen A
. High-frequency percussive ventilation and conventional ventilation after smoke inhalation: a randomized study. Burns 2002;28(5):503–508.
OpenUrl CrossRef PubMed

[122] Reper P,

[123] Wibaux O,

[124] Van Laeke P,

[125] Vandeenen D,

[126] Duinslaeger L,

[127] Vanderkelen A

[128] 21.↵
Cioffi WG,
Rue LW,
Graves TA,
McMANUS WF,
Mason AD,
Pruitt BA
. Prophylactic use of high-frequency percussive ventilation in patients with inhalation injury. Ann Surg 1991;213(6):575–582.
OpenUrl CrossRef PubMed Web of Science

[129] Cioffi WG,

[130] Rue LW,

[131] Graves TA,

[132] McMANUS WF,

[133] Mason AD,

[134] Pruitt BA

[135] 22.↵
Spapen H,
Borremans M,
Diltoer M,
Gorp V,
Nguyen D,
Honoré P
. High-frequency percussive ventilation in severe acute respiratory distress syndrome: a single-center experience. J Anaesthesiol Clin Pharmacol 2014;30(1):65.
OpenUrl

[136] Spapen H,

[137] Borremans M,

[138] Diltoer M,

[139] Gorp V,

[140] Nguyen D,

[141] Honoré P

[142] 23.↵
Salim A,
Miller K,
Dangleben D,
Cipolle M,
Pasquale M
. High-frequency percussive ventilation: an alternative mode of ventilation for head-injured patients with adult respiratory distress syndrome. J Trauma - Inj Infect Crit Care 2004;57:542–546.
OpenUrl

[143] Salim A,

[144] Miller K,

[145] Dangleben D,

[146] Cipolle M,

[147] Pasquale M

[148] 24.↵
Khemani RG,
Parvathaneni K,
Yehya N,
Bhalla AK,
Thomas NJ,
Newth CJL
. Positive end-expiratory pressure lower than the ARDS Network protocol is associated with higher pediatric acute respiratory distress syndrome mortality. Am J Respir Crit Care Med 2018;198(1):77–89.
OpenUrl

[149] Khemani RG,

[150] Parvathaneni K,

[151] Yehya N,

[152] Bhalla AK,

[153] Thomas NJ,

[154] Newth CJL

[155] 25.↵
Oribabor C,
Gulkarov I,
Khusid F,
Fischer E,
Esan A,
Rizzuto N,
et al
. The use of high-frequency percussive ventilation after cardiac surgery significantly improves gas exchange without impairment of hemodynamics. CJRT 2018;54(3):58–61.
OpenUrl

[156] Oribabor C,

[157] Gulkarov I,

[158] Khusid F,

[159] Fischer E,

[160] Esan A,

[161] Rizzuto N,

[162] et al

[163] 26.
Korzhuk A,
Afzal A,
Wong I,
Khusid F,
Worku B,
Gulkarov I
. High-frequency percussive ventilation rescue therapy in morbidly obese patients failing conventional mechanical ventilation. J Intensive Care Med 2020;35(6):583–587.
OpenUrl

[164] Korzhuk A,

[165] Afzal A,

[166] Wong I,

[167] Khusid F,

[168] Worku B,

[169] Gulkarov I

[170] 27.↵
Paulsen SM,
Killyon GW,
Barillo DJ
. High-frequency percussive ventilation as a salvage modality in adult respiratory distress syndrome: a preliminary study. Am Surg 2002;68(10):852–856. discussion 856.
OpenUrl PubMed Web of Science

[171] Paulsen SM,

[172] Killyon GW,

[173] Barillo DJ

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