2. Definicin
Derrame paraneumnico
DPNC
EMPIEMA DPNC �EMPIEMA Empyema is defined by the presence of intrapleural pus and, for definition purposes, represents an advanced parapneumonic effusion. Complicated parapneumonic effusions (CPE) refer to those fluid collections that require tube thoracostomy or surgery for their resolution.
Empyema is defined by the presence of intrapleural pus and, for definition purposes, represents an advanced parapneumonic effusion. Complicated parapneumonic effusions (CPE) refer to those fluid collections that require tube thoracostomy or surgery for their resolution.
5. hepatizacin roja. Lbulo superior de aspecto normal y lbulo inferior compacto, macizo, rojo vinoso e indurado. hepatizacin roja. Lbulo superior de aspecto normal y lbulo inferior compacto, macizo, rojo vinoso e indurado.
6. Lbulo superior en fase de hepatizacin roja y lbulo inferior en fase de hepatizacin gris. Aspecto compacto, indurado, rojo-grisceo. Lbulo superior en fase de hepatizacin roja y lbulo inferior en fase de hepatizacin gris. Aspecto compacto, indurado, rojo-grisceo.
7. hepatizacin roja. Inflamacin exudativa con relleno alveolar difuso y homogneo. HE. hepatizacin roja. Inflamacin exudativa con relleno alveolar difuso y homogneo. HE.
8. hepatizacin roja. Alvolos ocupados por exudado predominantemente fibrinoso y escasos polimorfonucleares neutrfilos. HE, x 200 hepatizacin roja. Alvolos ocupados por exudado predominantemente fibrinoso y escasos polimorfonucleares neutrfilos. HE, x 200
9. hepatizacin roja. Exudado fibrinoso intraalveolar que forma una red continua a travs de los poros de Kohn. Gram, x 500 hepatizacin roja. Exudado fibrinoso intraalveolar que forma una red continua a travs de los poros de Kohn. Gram, x 500
10. hepatizacin gris. Alvolos ocupados por exudado polimorfonuclear neutrfilo y escasa fibrina. HE, x 200 hepatizacin gris. Alvolos ocupados por exudado polimorfonuclear neutrfilo y escasa fibrina. HE, x 200
11. hepatizacin gris. Exudado alveolar neutroflico con escasos bacilos Gram positivo. Gram, x 1250. hepatizacin gris. Exudado alveolar neutroflico con escasos bacilos Gram positivo. Gram, x 1250.
12. Exudado alveolar reemplazado por tejido granulatorio laxo, sin grmenes. Este aspecto es inespecfico y puede observarse en neumona de variadas causas. HE, x 200 Exudado alveolar reemplazado por tejido granulatorio laxo, sin grmenes. Este aspecto es inespecfico y puede observarse en neumona de variadas causas. HE, x 200
13. Relacin infeccin
Acumulacin de lquido pleural
Liberacin de mediadores inflamatorios
PMNs The accumulation of pleural effusions can rapidly occur in the presence of infection. The pleural surface is a mesothelial membrane that covers the lungs and chest wall. The resultant pleural space is a potential space, containing only small volumes of transudative fluid, with a protein content of less than 1.5 g/dL. This fluid is normally composed of lymphocytes, macrophages, and mesothelial cells, with an absence of neutrophils. Interaction of the mesothelium with the invading bacteria, PMNs, and resultant inflammatory mediators can increase pleural permeability. Further PMN recruitment ensues, which results in the increased production of neutrophil chemotactic mediators, ultimately leading to significant pleocytosis. The accumulation of pleural effusions can rapidly occur in the presence of infection. The pleural surface is a mesothelial membrane that covers the lungs and chest wall. The resultant pleural space is a potential space, containing only small volumes of transudative fluid, with a protein content of less than 1.5 g/dL. This fluid is normally composed of lymphocytes, macrophages, and mesothelial cells, with an absence of neutrophils. Interaction of the mesothelium with the invading bacteria, PMNs, and resultant inflammatory mediators can increase pleural permeability. Further PMN recruitment ensues, which results in the increased production of neutrophil chemotactic mediators, ultimately leading to significant pleocytosis.
15. ���
16. Management of pleural space infections: A population-based analysis
Farhood Farjah, MDa, Rebecca Gaston Symons, MPHa, Bahirathan Krishnadasan, MDb, Douglas E. Wood, MDc, David R. Flum, MD, MPHd,* a Division of General Surgery, Department of Surgery, University of Washington, Seattle, Wash�b Division of Cardiothoracic Surgery, Department of Surgery, Veterans Affairs Puget Sound Health Care System, Seattle, Wash�c Division of Cardiothoracic Surgery, Department of Surgery, University of Washington, Seattle, Wash�d Division of General Surgery, Departments of Surgery and Health Services, University of Washington, Seattle, Wash.
Read at the Thirty-second Annual Meeting of the Western Thoracic Surgical Association, Sun Valley, Idaho, June 21-24, 2006.
Received for publication June 16, 2006; revisions received August 28, 2006; accepted for publication September 29, 2006.
* Address for reprints: David R. Flum, MD, Division of General Surgery, University of Washington, 1959 NE Pacific, Box 356410, Seattle, WA 98195-6310. (Email: daveflum@u.washington.edu).
OBJECTIVE: Management options for pleural space infections have changed over the last 2 decades. This study evaluated trends over time in the incidence of disease and use of different management strategies and their associated outcomes.
METHODS: A retrospective study was performed by using a statewide administrative database of all hospitalizations for pleural space infections between 1987 and 2004.
RESULTS: Four thousand four hundred twenty-four patients (age, 57.1 18.6 years; 67% male; comorbidity index, 1.1 1.9) were hospitalized with pleural space infections. The incidence rate increased 2.8% per year (95% confidence interval, 2.2%-3.4%; P < .001). Overall, 51.6% of patients underwent an operation, and the proportion increased from 42.4% in 1987 to 58.4% in 2004 (P < .001). The risk of death within 30 days was less for patients undergoing operations compared with that for patients not undergoing operations (5.4% vs 16.6%, P < .001); however, patients undergoing operations were younger (52.9 17.6 years vs 61.5 18.6 years, P < .001) and had a lower comorbidity index (0.8 1.6 vs 1.4 2.1, P < .001). After adjusting for age, sex, comorbidity index, and insurance status, patients undergoing operative therapy had a 58% lower risk of death (odds ratio, 0.42; 95% confidence interval, 0.32-0.56; P < .001) than those undergoing nonoperative management.
CONCLUSIONS: The incidence of pleural space infections and the proportion of patients undergoing operative management have increased over time. Patients undergoing operations were younger and had less comorbid illness than those not undergoing operations but had a much lower risk of early death, even after adjusting for these factors.Management of pleural space infections: A population-based analysis
Farhood Farjah, MDa, Rebecca Gaston Symons, MPHa, Bahirathan Krishnadasan, MDb, Douglas E. Wood, MDc, David R. Flum, MD, MPHd,* a Division of General Surgery, Department of Surgery, University of Washington, Seattle, Washb Division of Cardiothoracic Surgery, Department of Surgery, Veterans Affairs Puget Sound Health Care System, Seattle, Washc Division of Cardiothoracic Surgery, Department of Surgery, University of Washington, Seattle, Washd Division of General Surgery, Departments of Surgery and Health Services, University of Washington, Seattle, Wash.
Read at the Thirty-second Annual Meeting of the Western Thoracic Surgical Association, Sun Valley, Idaho, June 21-24, 2006.
Received for publication June 16, 2006; revisions received August 28, 2006; accepted for publication September 29, 2006.
* Address for reprints: David R. Flum, MD, Division of General Surgery, University of Washington, 1959 NE Pacific, Box 356410, Seattle, WA 98195-6310. (Email: daveflum@u.washington.edu).
OBJECTIVE: Management options for pleural space infections have changed over the last 2 decades. This study evaluated trends over time in the incidence of disease and use of different management strategies and their associated outcomes.
METHODS: A retrospective study was performed by using a statewide administrative database of all hospitalizations for pleural space infections between 1987 and 2004.
RESULTS: Four thousand four hundred twenty-four patients (age, 57.1 18.6 years; 67% male; comorbidity index, 1.1 1.9) were hospitalized with pleural space infections. The incidence rate increased 2.8% per year (95% confidence interval, 2.2%-3.4%; P < .001). Overall, 51.6% of patients underwent an operation, and the proportion increased from 42.4% in 1987 to 58.4% in 2004 (P < .001). The risk of death within 30 days was less for patients undergoing operations compared with that for patients not undergoing operations (5.4% vs 16.6%, P < .001); however, patients undergoing operations were younger (52.9 17.6 years vs 61.5 18.6 years, P < .001) and had a lower comorbidity index (0.8 1.6 vs 1.4 2.1, P < .001). After adjusting for age, sex, comorbidity index, and insurance status, patients undergoing operative therapy had a 58% lower risk of death (odds ratio, 0.42; 95% confidence interval, 0.32-0.56; P < .001) than those undergoing nonoperative management.
CONCLUSIONS: The incidence of pleural space infections and the proportion of patients undergoing operative management have increased over time. Patients undergoing operations were younger and had less comorbid illness than those not undergoing operations but had a much lower risk of early death, even after adjusting for these factors.
17. �Management of pleural space infections: A population-based analysis�Farjah et al. J Thorac Cardiovasc Surg.2007; 133: 346-351
Management of pleural space infections: A population-based analysis
Farhood Farjah, MDa, Rebecca Gaston Symons, MPHa, Bahirathan Krishnadasan, MDb, Douglas E. Wood, MDc, David R. Flum, MD, MPHd,* a Division of General Surgery, Department of Surgery, University of Washington, Seattle, Wash�b Division of Cardiothoracic Surgery, Department of Surgery, Veterans Affairs Puget Sound Health Care System, Seattle, Wash�c Division of Cardiothoracic Surgery, Department of Surgery, University of Washington, Seattle, Wash�d Division of General Surgery, Departments of Surgery and Health Services, University of Washington, Seattle, Wash.
Read at the Thirty-second Annual Meeting of the Western Thoracic Surgical Association, Sun Valley, Idaho, June 21-24, 2006.
The most controversial area in the management of parapneumonic effusions is the identification of patients who would benefit from pleural drainage and the selection of the appropriate drainage intervention.
No clinical studies have effectively contrasted antibiotic treatment without drainage to currently available drainage techniques. However, long-term follow-up studies show no differences in pulmonary function or exercise capacity between the groups. The therapeutic discussion rests on available clinical, radiologic, and laboratory evidence; host factors; and individualization to make the appropriate decision.
The pulmonologist, intensivist, interventional radiologist, or surgeon can perform simple tube thoracostomy with an underwater seal.
Diagnostic thoracentesis and chest tube drainage are effective therapies in more than 50% of patients. Prompt drainage of a free-flowing effusion prevents the development of loculations and a fibrous peel.
Remove the tube when the lung re-expands and drainage ceases. If the fluid is not free flowing, undertake further radiologic imaging to better define the pleural space disorder.
The most controversial area in the management of parapneumonic effusions is the identification of patients who would benefit from pleural drainage and the selection of the appropriate drainage intervention.
No clinical studies have effectively contrasted antibiotic treatment without drainage to currently available drainage techniques. However, long-term follow-up studies show no differences in pulmonary function or exercise capacity between the groups. The therapeutic discussion rests on available clinical, radiologic, and laboratory evidence; host factors; and individualization to make the appropriate decision.
The pulmonologist, intensivist, interventional radiologist, or surgeon can perform simple tube thoracostomy with an underwater seal.
Diagnostic thoracentesis and chest tube drainage are effective therapies in more than 50% of patients. Prompt drainage of a free-flowing effusion prevents the development of loculations and a fibrous peel.
Remove the tube when the lung re-expands and drainage ceases. If the fluid is not free flowing, undertake further radiologic imaging to better define the pleural space disorder.
18. Efficacy and Complications of Small-Bore, Wire-Guided Chest Drains*
Alex Horsley, MRCP; Llinos Jones, MRCP; John White, FRCP and Michael Henry, FRCP * From Western General Hospital (Dr. Horsley), Edinburgh; Leeds General Infirmary (Drs. Jones and Henry), Leeds; and York District Hospital (Dr. White), York, UK.
(Chest. 2006;130:1857-1863.)� 2006 American College of Chest Physicians �Efficacy and Complications of Small-Bore, Wire-Guided Chest Drains*
Alex Horsley, MRCP; Llinos Jones, MRCP; John White, FRCP and Michael Henry, FRCP * From Western General Hospital (Dr. Horsley), Edinburgh; Leeds General Infirmary (Drs. Jones and Henry), Leeds; and York District Hospital (Dr. White), York, UK.
Correspondence to: Alex Horsley, MRCP, Molecular Medicine Centre, Western General Hospital, Crewe Rd South, Edinburgh, EH4 2XU, UK; e-mail: alex.horsley@ed.ac.uk(Chest. 2006;130:1857-1863.) 2006 American College of Chest Physicians Efficacy and Complications of Small-Bore, Wire-Guided Chest Drains*
Alex Horsley, MRCP; Llinos Jones, MRCP; John White, FRCP and Michael Henry, FRCP * From Western General Hospital (Dr. Horsley), Edinburgh; Leeds General Infirmary (Drs. Jones and Henry), Leeds; and York District Hospital (Dr. White), York, UK.
Correspondence to: Alex Horsley, MRCP, Molecular Medicine Centre, Western General Hospital, Crewe Rd South, Edinburgh, EH4 2XU, UK; e-mail: alex.horsley@ed.ac.uk
19. Ready for the Frontline: Is Early Thoracoscopic Decortication the New Standar...
Adam M Suchar; Amer H Zureikat; Loretto Glynn; Mindy B Statter; et al
The American Surgeon; Aug 2006; 72, 8; ProQuest Medical Library
pg. 688
29. 11/04/2012 ESTREPTOQUINASA INTRAPLEURAL:�UNA OPCION TERAPEUTICA
30. Historia
31. 11/04/2012 Planteo Cambio conceptual de mentalidad
Explorar otras opciones teraputicas
Elegir un grupo de pacientes
Mtodo de referencia o Gold Standard
Sin aumentar los costos teraputicos
32. 11/04/2012 Aspectos a resolver Drenajes
Sistemas colectores
33. 11/04/2012 Objetivos Primario
Determinar efectividad del uso de STK intrapleural
DPNC
EP
Procesos tabicados o multiloculados
34. 11/04/2012 Objetivos Secundario
Demostrar superioridad del manejo conservador
Disminuir la morbimortalidad que la ciruga agrega a la propia enfermedad
35. 11/04/2012 Objetivos Tercer objetivo
Demostrar que los principios teraputicos se pueden cumplir
Con drenajes finos
Asociados a STK
Con los medios adecuados
36. 11/04/2012 Objetivos Cuarto objetivo
Demostrar que mediante el uso de la teraputica propuesta se disminuyen los costos asistenciales en nuestro medio.
37. Diferencias No nos propusimos demostrar que el uso STK logra en forma directa un descenso de la mortalidad
Mortalidad esta determinada por la gravedad de la neumonia o del proceso que di origen a la patologa pleural
38. Material y mtodos Protocolo Julio 2000 a Mayo 2005
Pacientes con
DPNC Tabicados
EP Multiloculados
39. Material y Mtodos�Clasificacin ASA II. Paciente con enfermedad sistmica leve, controlada y no incapacitante. Puede o no relacionarse con la causa de la intervencin.
III. Paciente con enfermedad sistmica grave, pero no incapacitante. Por ejemplo: cardiopata severa o descompensada, diabetes mellitus no compensada acompaada de alteraciones orgnicas vasculares sistmicas (micro y macroangiopata diabtica), insuficiencia respiratoria de moderada a severa, angor pectoris, infarto al miocardio antiguo, etc. IV. Paciente con enfermedad sistmica grave e incapacitante, que constituye adems amenaza constante para la vida, y que no siempre se puede corregir por medio de la ciruga. Por ejemplo: insuficiencias cardiaca, respiratoria y renal severas (descompensadas), angina persistente, miocarditis activa, diabetes mellitus descompensada con complicaciones severas en otros rganos, etc.
40. Criterios diagnsticos
Clnica
RxTx
TAC
Bioqumicos
Bacteriolgicos Material y mtodos
41. Dosis de STK: 250000 U
Diluida en SF
Volumen variable
Volumen estimado por TAC
Volumen evacuado en primer drenaje
Clampeo del drenaje 2 horas Material y mtodos
42. Sistema colector variable
Frasco de vaco
Trampa de agua convencional
Nmero de dosis 6
Algunos pacientes se resolvieron con menos dosis
Posibilidad de reiterar la serie Material y mtodos
43. Hemograma
Tiempo de protrombina / INR
Hemocultivos al inicio
RxTx
TAC de trax Material y mtodos
44. CONTROLES DIARIOS
Gasto diario del drenaje
Curva trmica
Control clnico CONTROLES PERIODICOS
RxTx
TAC
Material y mtodos
46. Resultados
47. Resultados
48. Resultados Resolucin parcial : 7 pacientes
3 Toracotomas
1 Videotoracoscopa
3 drenajes de 6 Fr. Resolucin
49. Ineficaz: 3 pacientes
2 Toracotomas
1 Videotoracoscopa
Recidiva: 1 paciente
Toracotoma Resultados
50. 7.69 % requirieron Anestesia general y ciruga
91.4 % resueltos sin anestesia general Resultados
51. Resultados
52. Costos
56. Puntos en discusin
Oportunidad
Tipo de procedimiento
Calibre del drenaje a utilizar
Uso de fibrinolticos
