Redução em transfusões |
7 [88. Fukuda W, Aoki C, Daitoku K, Fukuda I. Vacuum-assisted venous
drainage in tricuspid valve re-replacement. Interact Cardiovasc Thoracic Surg.
2011;13(1)101-3.
9. Gregory SM, Kussman BD, Wagner JW, Boyle SL, Howe RJ, Pigula FA et
al. Massive Air Embolism in a Fontan patient. J Extracorp Technol.
2011;43(2):79-83.
10. Petzina R, Ugander M, Gustafsson L, Engblom H, Sjögren J, Hetzer R,
et al. Hemodynamic effects of vacuum-assisted closure therapy in cardiac surgery:
Assessment using magnetic resonance imaging. J Thorac Cardiovasc Surg.
2007;133(5):1154-62.
11. Kadohama T, Akasaka N, Nagamine A, Nakanishi K, Kiyokawa K, Goh K,
et al. Vacuum-assisted closure for pediatric post-sernotomy mediastinitis: are low
negative pressures sufficient? An Thorac Surg. 2008;85(3):1094-6.-1212. Conquest AM, Garofalo JH, Maziarz DM, Mendelson KG, Su Sun Y, Wooden
WA, et al. Hemodynamic effects of the vacuum-assisted closure device on open
mediastinal wounds. J Surg Res. 2003;115(2):209-13.,1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.,2121. Pappalardo F, Corno C, Franco A, GiardinaG, Scandroglio AM, Landoni
G, et al. Reduction of hemodilution in small adults undergoing open heart surgery: a
prospective randomized trial. Perfusion. 2007;22(5):317-22.]
|
Redução em hemodiluições |
7 [99. Gregory SM, Kussman BD, Wagner JW, Boyle SL, Howe RJ, Pigula FA et
al. Massive Air Embolism in a Fontan patient. J Extracorp Technol.
2011;43(2):79-83.,1212. Conquest AM, Garofalo JH, Maziarz DM, Mendelson KG, Su Sun Y, Wooden
WA, et al. Hemodynamic effects of the vacuum-assisted closure device on open
mediastinal wounds. J Surg Res. 2003;115(2):209-13.,1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.,2020. Hayashi Y, Kagisaki K, Yamaguchi T, Sakaguchi T, Naka Y, Sawa Y, et
al. Clinical application of vacuum-assisted cardiopulmonary bypass with a pressure
relief valve. Eur J Cardiothorac Surg. 2001;20(3):621-6.,2222. Colangelo N, Torracca L, Lapenna E, Moriggia S, Crescenzi G, Alfieri
O. Vacuum-assisted venous drainage in extrathoracic cardiopulmonary bypass management
during minimally invasive cardiac surgery. Perfusion.
2006;21(6):361-5.]
|
Melhor campo operatório |
2 [99. Gregory SM, Kussman BD, Wagner JW, Boyle SL, Howe RJ, Pigula FA et
al. Massive Air Embolism in a Fontan patient. J Extracorp Technol.
2011;43(2):79-83.,2424. Shin H, Yozu R, Maehara T, Matayoshi T, Morita M, Kawai Y, et al.
Vacuum assisted cardiopulmonary bypass in minimally invasive cardiac surgery: its
feasibility and effects on hemolysis. J Artif Organs
2000;24(6):450-3.]
|
Hemólise não significante |
7 [1010. Petzina R, Ugander M, Gustafsson L, Engblom H, Sjögren J, Hetzer R,
et al. Hemodynamic effects of vacuum-assisted closure therapy in cardiac surgery:
Assessment using magnetic resonance imaging. J Thorac Cardiovasc Surg.
2007;133(5):1154-62.,1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.,1919. Nakanishi K, Shichijo T, Shinkawa Y, Takeuchi S, Nakai M, Kato G, et
al. Usefulness of vacuum-assisted cardiopulmonary bypass circuit for pediatric
open-heart surgery in reducing homologous blood transfusion. Eur J Cardiothorac Surg.
2001;20(2):233-8.,2020. Hayashi Y, Kagisaki K, Yamaguchi T, Sakaguchi T, Naka Y, Sawa Y, et
al. Clinical application of vacuum-assisted cardiopulmonary bypass with a pressure
relief valve. Eur J Cardiothorac Surg. 2001;20(3):621-6.,2222. Colangelo N, Torracca L, Lapenna E, Moriggia S, Crescenzi G, Alfieri
O. Vacuum-assisted venous drainage in extrathoracic cardiopulmonary bypass management
during minimally invasive cardiac surgery. Perfusion.
2006;21(6):361-5.,2626. Cirri S, Negri L. Babbini M, Latis G, Khlat B, Tarelli G, et al.
Haemolysis due to active venous drainage during cardiopulmonary bypass: comparison of
two different techniques. Perfusion. 2001;16(4):313-8.]
|
Redução nas complicações pós-cirúrgicas |
2 [1010. Petzina R, Ugander M, Gustafsson L, Engblom H, Sjögren J, Hetzer R,
et al. Hemodynamic effects of vacuum-assisted closure therapy in cardiac surgery:
Assessment using magnetic resonance imaging. J Thorac Cardiovasc Surg.
2007;133(5):1154-62.,1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.]
|
Menor volume de prime |
7
[
1010. Petzina R, Ugander M, Gustafsson L, Engblom H, Sjögren J, Hetzer R,
et al. Hemodynamic effects of vacuum-assisted closure therapy in cardiac surgery:
Assessment using magnetic resonance imaging. J Thorac Cardiovasc Surg.
2007;133(5):1154-62.
11. Kadohama T, Akasaka N, Nagamine A, Nakanishi K, Kiyokawa K, Goh K,
et al. Vacuum-assisted closure for pediatric post-sernotomy mediastinitis: are low
negative pressures sufficient? An Thorac Surg. 2008;85(3):1094-6.
-
1212. Conquest AM, Garofalo JH, Maziarz DM, Mendelson KG, Su Sun Y, Wooden
WA, et al. Hemodynamic effects of the vacuum-assisted closure device on open
mediastinal wounds. J Surg Res. 2003;115(2):209-13.
,
1717. Banbury MK, White JA, Blackstone EH, Cosgrove DM 3rd.
Vacuum-assisted venous return reduces blood usage. J Thorac Cardiovasc Surg.
2003;126(3):680-7.
,
1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.
,
2020. Hayashi Y, Kagisaki K, Yamaguchi T, Sakaguchi T, Naka Y, Sawa Y, et
al. Clinical application of vacuum-assisted cardiopulmonary bypass with a pressure
relief valve. Eur J Cardiothorac Surg. 2001;20(3):621-6.
,
2121. Pappalardo F, Corno C, Franco A, GiardinaG, Scandroglio AM, Landoni
G, et al. Reduction of hemodilution in small adults undergoing open heart surgery: a
prospective randomized trial. Perfusion. 2007;22(5):317-22.
]
|
Menor diâmetro de cânulas |
4
[
1111. Kadohama T, Akasaka N, Nagamine A, Nakanishi K, Kiyokawa K, Goh K,
et al. Vacuum-assisted closure for pediatric post-sernotomy mediastinitis: are low
negative pressures sufficient? An Thorac Surg. 2008;85(3):1094-6.
,
1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.
,
2020. Hayashi Y, Kagisaki K, Yamaguchi T, Sakaguchi T, Naka Y, Sawa Y, et
al. Clinical application of vacuum-assisted cardiopulmonary bypass with a pressure
relief valve. Eur J Cardiothorac Surg. 2001;20(3):621-6.
,
2424. Shin H, Yozu R, Maehara T, Matayoshi T, Morita M, Kawai Y, et al.
Vacuum assisted cardiopulmonary bypass in minimally invasive cardiac surgery: its
feasibility and effects on hemolysis. J Artif Organs
2000;24(6):450-3.
]
|
Alto risco |
2 [1313. Lindstedt S, Malmsjö M, Ingemansson R. Blood flow changes in normal
and ischemic myocardium during topically applied negative pressure. Ann Thorac Surg.
2007;84(2):568-73.,3434. Vandenburgh HH. Mechanical forces and their second messengers in
stimulating cell growth in vitro. Am J Physiol. 1992;262(3 Pt
2):R350-5.]
|
Limitações |
3 [1212. Conquest AM, Garofalo JH, Maziarz DM, Mendelson KG, Su Sun Y, Wooden
WA, et al. Hemodynamic effects of the vacuum-assisted closure device on open
mediastinal wounds. J Surg Res. 2003;115(2):209-13.,1717. Banbury MK, White JA, Blackstone EH, Cosgrove DM 3rd.
Vacuum-assisted venous return reduces blood usage. J Thorac Cardiovasc Surg.
2003;126(3):680-7.,1919. Nakanishi K, Shichijo T, Shinkawa Y, Takeuchi S, Nakai M, Kato G, et
al. Usefulness of vacuum-assisted cardiopulmonary bypass circuit for pediatric
open-heart surgery in reducing homologous blood transfusion. Eur J Cardiothorac Surg.
2001;20(2):233-8.]
|
Embolia aerífera |
5 [1111. Kadohama T, Akasaka N, Nagamine A, Nakanishi K, Kiyokawa K, Goh K,
et al. Vacuum-assisted closure for pediatric post-sernotomy mediastinitis: are low
negative pressures sufficient? An Thorac Surg. 2008;85(3):1094-6.,1313. Lindstedt S, Malmsjö M, Ingemansson R. Blood flow changes in normal
and ischemic myocardium during topically applied negative pressure. Ann Thorac Surg.
2007;84(2):568-73.,16,1818. Bevilacqua S, Matteucci S, Ferrarini M, Kacila M, Ripoli A, Baroni
A, et al. Biochemical evaluation of vacuum-assisted venous drainage: a randomized,
prospective study. Perfusion. 2002;17(1):57-61.,1919. Nakanishi K, Shichijo T, Shinkawa Y, Takeuchi S, Nakai M, Kato G, et
al. Usefulness of vacuum-assisted cardiopulmonary bypass circuit for pediatric
open-heart surgery in reducing homologous blood transfusion. Eur J Cardiothorac Surg.
2001;20(2):233-8.]
|