Bases del manejo clínico de la intoxicación por humo de incendios «Docohumo Madrid 2010» / Basis for the clinical management of fire smoke poisoning «Docohumo Madrid 2010»

La intoxicación por humo es la principal causa de morbimortalidad en los incendios. El humo es una mezcla de partículas carbonáceas suspendidas en aire caliente y gases tóxicos. De todos ellos, el monóxido carbono (CO) y fundamentalmente el ácido cianhídrico (CNH) son los que van a provocar la anoxia tisular. Las manifestaciones clínicas de la intoxicación por humo son variables. Algunas de las manifestaciones potenciales podrían ser: irritación ocular, dolor de garganta, estridor laríngeo, disfagia, esputo carbonáceo, tos, disnea, laringoespasmo, broncoespasmo, síndrome coronario, coma, hipoxemia, acidosis láctica, cianosis y muerte. En la evaluación de estos enfermos la presencia de hollín en nariz, boca o esputo sugiere intoxicación grave. Niveles de lactato superiores a 10mmol/l indican cifras de cianuro mayores de 40micromol/l. La pulsicooximetría ha supuesto un avance importante para el diagnóstico, valoración y seguimiento de estos pacientes. En el tratamiento será indispensable valorar la necesidad de una intubación temprana. La administración de oxígeno al 100% será esencial. Como antídoto para el cianuro, el de primera elección es la hidroxicobalamina. Su administración ha de ser precoz. Los criterios de administración son: paciente que ha inhalado humo (restos de hollín en boca, faringe o esputo) y que tenga alteraciones neurológicas (confusión, coma, agitación, convulsiones) y además presenta una de las siguiente circunstancias: bradipnea, parada respiratoria, parada cardiorrespiratoria, shock, hipotensión, láctato >8mmol/l o acidosis láctica. Lógicamente el resto del manejo será convencional en función de síntomas o complicaciones (AU)ies

Poisoning by smoke is the main cause of morbidity and mortality in fires. Smoke is a mixture of carbonaceous particles suspended in hot air and toxic gases. Of these, carbon monoxide (CO) and primarily hydrocyanic acid (CNH), are those that provoke tissue anoxia. The clinical manifestations of smoke poisoning are variables. Some of the potential manifestations could be: eye irritation, sore throat, laryngeal stridor, dysphagia, carbonaceous sputum, cough, dyspnea, laryngospasm, bronchospasm, coronary syndrome, coma, hypoxemia, lactic acidosis, cyanosis and death. In the assessment of these patients the presence of soot in the nose, mouth or sputum suggests serious poisoning. Lactate levels higher than 10mmol/L indicates levels of cyanide major than 40micromole/L. The pulse co-oximetry has assumed an important step forward for the diagnosis, appraisal and monitoring of these patients. In the treatment it will be essential to assess the need of an early intubation. The administration of oxygen to the 100% will be essential. As an antidote to the cyanide, the first-choice is the hydroxocobalamin. Its administration has to be early. Its administration criteria are: patient who has inhaled smoke (remnants of soot in the mouth, pharynx or sputum) and has neurological disorder (confusion, coma, agitation, seizures) and also presents one of the following circumstances: bradypnea, respiratory arrest, cardiorespiratory arrest, shock, hypotension, lactate >8mmol/L or lactic acidosis. Logically, the rest of the management will be conventional depending on symptoms or complications (AU)

[Basis for the clinical management of fire smoke poisoning "Docohumo Madrid 2010"]. / Bases del manejo clínico de la intoxicación por humo de incendios «Docohumo Madrid 2010¼

Poisoning by smoke is the main cause of morbidity and mortality in fires. Smoke is a mixture of carbonaceous particles suspended in hot air and toxic gases. Of these, carbon monoxide (CO) and primarily hydrocyanic acid (CNH), are those that provoke tissue anoxia. The clinical manifestations of smoke poisoning are variables. Some of the potential manifestations could be: eye irritation, sore throat, laryngeal stridor, dysphagia, carbonaceous sputum, cough, dyspnea, laryngospasm, bronchospasm, coronary syndrome, coma, hypoxemia, lactic acidosis, cyanosis and death. In the assessment of these patients the presence of soot in the nose, mouth or sputum suggests serious poisoning. Lactate levels higher than 10mmol/L indicates levels of cyanide major than 40micromole/L. The pulse co-oximetry has assumed an important step forward for the diagnosis, appraisal and monitoring of these patients. In the treatment it will be essential to assess the need of an early intubation. The administration of oxygen to the 100% will be essential. As an antidote to the cyanide, the first-choice is the hydroxocobalamin. Its administration has to be early. Its administration criteria are: patient who has inhaled smoke (remnants of soot in the mouth, pharynx or sputum) and has neurological disorder (confusion, coma, agitation, seizures) and also presents one of the following circumstances: bradypnea, respiratory arrest, cardiorespiratory arrest, shock, hypotension, lactate ≥8mmol/L or lactic acidosis. Logically, the rest of the management will be conventional depending on symptoms or complications.

Bases para el manejo clínico de la intoxicación por humo de incendios / Fundamentals in the clinical management of intoxication due to smoke inhalation

La intoxicación por humo es la principal causa de morbimortalidad en los incendios. El humo es una mezcla de partículas carbonáceas suspendidas en aire caliente y gases tóxicos. De todos ellos, el monóxido carbono (CO) y fundamentalmente el ácido cianhídrico(CNH), son los que van a provocar la anoxia tisular. Las manifestaciones clínicas de la intoxicación por humo son variables. Algunas de las manifestaciones potenciales podrían ser: irritación ocular, dolor de garganta, estridor laríngeo, disfagia, esputo carbonáceo, tos, disnea, laringoespasmo, broncoespasmo, síndrome coronario, coma, hipoxemia,acidosis láctica, cianosis y muerte. En la evaluación de estos enfermos la presencia de hollín en nariz, boca o esputo sugiere intoxicación grave. Los valores delactato superiores a 10 mmol/L indican cifras de cianuro mayores de 40 micromol/L. Lapulsicooximetría ha supuesto un avance importante para el diagnóstico, valoración y seguimiento de estos pacientes. En el tratamiento será indispensable valorar la necesidad de una intubación temprana. La administración de oxígeno al 100% será esencial. Como antídoto para el cianuro, el de primera elección es la hidroxicobalamina. Su administración ha de ser precoz. Los criterios de administración son: paciente que ha inhalado humo (restos de hollín en boca, faringe o esputo) y que tenga alteraciones neurológicas (confusión, coma, agitación, convulsiones) y que además presenta una de las siguiente circunstancias: bradipnea, parada respiratoria, parada cardiorrespiratoria, shock, hipotensión, lactato 8 mmol/L o acidosis láctica. Logicamente, el resto del manejo será el convencional en función de síntomas o complicaciones (AU)

Intoxication due to smoke inhalation is the main cause of morbidity and mortality from fires. Smoke is a mixture of carbon particles suspended in hot air containing toxic gases. Carbon monoxide (CO) and cyanuric acid are the gases that are mainly responsible for tissue anoxia. The clinical signs of intoxication due to smoke inhalation vary. They may include eye irritation, sore throat, laryngeal stridor, dysphagia, soot in sputum, cough, breathlessness, laryngeal spasm,bronchospasm, coronary syndrome, coma, hypoxemia, lactic acidosis, cyanosis, and death. A finding of soot in the nostrils, mouth or sputum suggests severe intoxication. Lactate dehydrogenase levels over 10 mmol/L are indicative of cyanuric acid levels over 40 mmol/L. Pulse oximetry has represented an important advance for diagnosis, examination, and follow-up in this setting. The possible need for early intubation must be assessed and oxygen administration (at100%) is essential. The treatment of choice for cyanuric acid poisoning is hydroxocobalamin. This antidote must be administered promptly whenever a patient has inhaled smoke (soot in mouth, throat or sputum), shows neurologic signs(confusion, coma, agitation, convulsions), or has any of the following signs: bradypnea, respiratory arrest, cardiac arrest,shock, hypotension, lactate dehydrogenase over 8 mmol/L, or lactic acidosis. There after, management will be dictated by symptoms or complications (AU)

Reducing time delay in the thrombolysis of myocardial infarction: an internal quality improvement project. ARIAM Project Group. Analisis del Retraso en Infarto Agudo de Miocardio.

The objectives of this study were to improve thrombolytic therapy in acute myocardial infarction by reducing the "door-to-needle" time in a 285-bed university hospital in Spain. A quality management approach was used involving all the relevant staff. Target standard was set at 35 minutes. Baseline data, intervention effect, and continuous monitoring were analyzed using x control charts. Analysis of baseline data showed a wide out-of-control variation and 72 minutes' average delay. Cause analysis revealed organizational and clinical problems that were subjected to intervention. Postintervention data showed a stable process, with an average of 30 minutes. Continuous monitoring showed further improvement in average time and predictable variation. The template of the current control chart has an average of 26 minutes. Quality management methods, particularly staff involvement in problem analysis and intervention design, and the use of control charts were useful to understand, solve, and continuously monitor an important clinical problem whose existence was evident only after it was measured.

Use of the central venous pressure catheter to obtain blood cultures.

The results of aerobic and anaerobic blood cultures obtained from a peripheral venopuncture and from the central venous pressure catheter were compared in critically ill patients admitted to the ICU to determine if pain and anxiety from multiple venopunctures could be alleviated while the physician's task is facilitated. The results were identical in 93.5% of the 92 comparisons. The discrepancies were evaluated and it was concluded that the method was easy, quick, and reliable. We recommend it as a suitable alternative to venopuncture.