CHAMPS score in predicting mortality of patients with acute nonvariceal upper gastrointestinal bleeding.

OBJECTIVE: The aim of this study was to evaluate the performance of the Charlson Comorbidity Index ≥2, in-hospital onset, albumin <2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥2, steroid use score in predicting mortality in patients with nonvariceal upper gastrointestinal bleeding and compare it with the Glasgow-Blatchford score; the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score; the age, blood tests, and comorbidities score; and Complete Rockall score. METHODS: The data of patients with acute upper gastrointestinal bleeding who visited the emergency department during the study period were obtained from the hospital automation system by using the classification of disease codes and analyzed in this retrospective study. Adult patients with endoscopically confirmed nonvariceal upper gastrointestinal bleeding were included in the study. Patients with bleeding from the tumor, bleeding after endoscopic resection, or missing data were excluded. The prediction accuracy of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score was calculated using the area under the receiver operating characteristic curve and compared with that of Glasgow-Blatchford score, the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score, the age, blood tests, and comorbidities score, and Complete Rockall score. RESULTS: A total of 805 patients were included in the study, and the in-hospital mortality rate was 6.6%. The performance of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score (area under the receiver operating characteristic curve 0.812, 95%CI 0.783-0.839) was better than Glasgow-Blatchford score (area under the receiver operating characteristic curve 0.683, 95%CI 0.650-0.713, p=0.008), and similar to the the age, blood tests, and comorbidities score (area under the receiver operating characteristic curve 0.829, 95%CI 0.801-0.854, p=0.563), the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score (area under the receiver operating characteristic curve 0.794, 95%CI 0.764-0.821, p=0.672), and Complete Rockall score (area under the receiver operating characteristic curve 0.761, 95%CI 0.730-0.790, p=0.106). CONCLUSION: The performance of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score in predicting in-hospital mortality for our study population is better than Glasgow-Blatchford score and similar to the the age, blood tests, and comorbidities score, the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score, and Complete Rockall score.

CHAMPS score in predicting mortality of patients with acute nonvariceal upper gastrointestinal bleeding

SUMMARY OBJECTIVE: The aim of this study was to evaluate the performance of the Charlson Comorbidity Index ≥2, in-hospital onset, albumin <2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥2, steroid use score in predicting mortality in patients with nonvariceal upper gastrointestinal bleeding and compare it with the Glasgow-Blatchford score; the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score; the age, blood tests, and comorbidities score; and Complete Rockall score. METHODS: The data of patients with acute upper gastrointestinal bleeding who visited the emergency department during the study period were obtained from the hospital automation system by using the classification of disease codes and analyzed in this retrospective study. Adult patients with endoscopically confirmed nonvariceal upper gastrointestinal bleeding were included in the study. Patients with bleeding from the tumor, bleeding after endoscopic resection, or missing data were excluded. The prediction accuracy of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score was calculated using the area under the receiver operating characteristic curve and compared with that of Glasgow-Blatchford score, the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score, the age, blood tests, and comorbidities score, and Complete Rockall score. RESULTS: A total of 805 patients were included in the study, and the in-hospital mortality rate was 6.6%. The performance of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score (area under the receiver operating characteristic curve 0.812, 95%CI 0.783-0.839) was better than Glasgow-Blatchford score (area under the receiver operating characteristic curve 0.683, 95%CI 0.650-0.713, p=0.008), and similar to the the age, blood tests, and comorbidities score (area under the receiver operating characteristic curve 0.829, 95%CI 0.801-0.854, p=0.563), the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score (area under the receiver operating characteristic curve 0.794, 95%CI 0.764-0.821, p=0.672), and Complete Rockall score (area under the receiver operating characteristic curve 0.761, 95%CI 0.730-0.790, p=0.106). CONCLUSION: The performance of the Charlson Comorbidity Index ≥ 2, in-hospital onset, albumin < 2.5 g/dL, altered mental status, Eastern Cooperative Oncology Group performance status ≥ 2, steroid use score in predicting in-hospital mortality for our study population is better than Glasgow-Blatchford score and similar to the the age, blood tests, and comorbidities score, the albumin, international normalized ratio; alteration in mental status, systolic blood pressure, and age 65 score, and Complete Rockall score.

Association between Plasma Thiol Parameters and Troponin Levels in Patients with Acute Coronary Syndrome and Prediction of In-Hospital Ventricular Arrhythmia. / Associação entre Parâmetros Plasmático de Tiol e Níveis de Troponina em Pacientes com Síndrome Coronariana Aguda e Predição de Arritmia Ventricular Hospitalar.

BACKGROUND: Ventricular arrhythmias (VAs) are the main cause of in-hospital mortality and morbidity in acute coronary syndrome (ACS) patients and its relationship with thiol is not known. OBJECTIVE: To investigate the relationship between plasma thiol levels and troponin levels in patients with ACS and to estimate in-hospital VA development during hospital stay. METHOD: The study included 231 consecutive ST-segment elevation ACS (STE-ACS) and non-ST-segment elevation ACS (NSTE-ACS) patients. After application of exclusion criteria, 191 patients were included in the statistical analysis. Patients were classified into two groups: STE-ACS group (n=94) and NSTE-ACS group (n=97). Plasma thiol, disulphide and troponin levels were measured and troponin-to-native thiol ratio (TNTR) was calculated. A two-sided p value of less than 0.05 was considered to be statistically significant. RESULTS: Plasma native thiol, total thiol, disulphide and their ratios were similar between the groups. TNTR was significantly higher in the STE-ACS group compared to the NSTE-ACS group. Troponin and thiol levels correlated negatively and significantly. Native thiol was found to be an independent predictor of VA development in STE-ACS patients and in all ACS patients. TNTR was found to be an independent predictor of VA development in NSTE-ACS patients and in all ACS patients. CONCLUSION: Plasma thiol levels can be used to identify ACS patients at high risk for in-hospital VA development. Correlation between troponin and thiol levels may suggest that thiols may be an important marker for diagnosis and prognosis of ACS with the help of future studies.

FUNDAMENTO: As arritmias ventriculares (AVs) são a principal causa de mortalidade e morbidade hospitalar em pacientes com síndrome coronariana aguda (SCA) e sua relação com o tiol é desconhecida. OBJETIVO: Investigar a relação entre os níveis plasmáticos de tióis e os níveis de troponina em pacientes com SCA e estimar o desenvolvimento de AV intra-hospitalar durante a internação. MÉTODO: O estudo incluiu 231 pacientes consecutivos com SCA com supradesnivelamento do segmento ST (SCA-SDST) e pacientes com SCA sem supradesnivelamento do segmento ST (SCA-SSDST). Após a aplicação dos critérios de exclusão, 191 pacientes foram incluídos na análise estatística. Os pacientes foram classificados em dois grupos: grupo SCA-SDST (n=94) e grupo SCA-SSDST (n=97). Os níveis plasmáticos de tiol, dissulfeto e troponina foram medidos e a razão de troponina para tiol nativo (RTTN) foi calculada. Considerou-se estatisticamente significativo um valor de p bilateral inferior a 0,05. RESULTADOS: Tiol nativo plasmático, tiol total, dissulfeto e suas razões foram semelhantes entre os grupos. A RTTN se mostrou significativamente maior no grupo SCA-SDST em comparação com o grupo SCA-SSDST. Houve correlação negativa significativa entre os níveis de troponina e tiol. Verificou-se que o tiol nativo é preditor independente do desenvolvimento de AV em pacientes com SCA-SDST e em todos os pacientes com SCA. Verificou-se que o RTTN é preditor independente do desenvolvimento de AV em pacientes com SCA-SSDST e em todos os pacientes com SCA. CONCLUSÃO: Os níveis plasmáticos de tiol podem ser usados para identificar pacientes com alto risco de desenvolvimento de AV intra-hospitalar em pacientes com SCA. A correlação entre os níveis de troponina e tiol pode sugerir que os tióis possam ser marcadores importantes para o diagnóstico e prognóstico da SCA com a ajuda de estudos futuros.

Efeitos antimicrobianos de cetamina em combinação com propofol: um estudo in vitro / The antimicrobial effects of ketamine combined with propofol: an in vitro study / Efectos antimicrobianos de la cetamina en combinación con el propofol: un estudio in vitro

EXPERIÊNCIA E OBJETIVOS: Cetamina e propofol são os anestésicos gerais que também exibem efeitos antimicrobianos e promotores do crescimento microbiano, respectivamente. Embora esses agentes sejam frequentemente aplicados em combinação durante o uso clínico, não há dados sobre seu efeito total no crescimento microbiano na administração combinada. Nesse estudo, investigamos o crescimento de alguns microrganismos em uma mistura de cetamina e propofol. MÉTODO: Nesse estudo, utilizamos cepas padronizadas: Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa e Candida albicans. Realizamos uma análise de tempo-crescimento para avaliar as taxas de crescimento microbiano em propofol 1%. A atividade antimicrobiana de cetamina, isoladamente e em propofol, foi estudada pelo método de microdiluição. RESULTADOS: Em propofol, as cepas estudadas cresceram de concentrações de 10³-10(4) ufc/mL para > 10(5) ufc/mL, dentro de 8-16 horas, dependendo do tipo de microrganismo. Foram determinadas a concentração inibitória mínima (CIM) e a concentração bactericida mínima (CBM) (para Candida, concentração fungicida mínima) de cetamina, como se segue (CIM, CBM): E. coli 312,5, 312,5 µg/mL; S.aureus 19,5, 156 µg/mL; P. aeruginosa 312,5, 625 µg/mL; e C. albicans 156, 156 µg/mL. Na mistura cetamina + propofol, cetamina exibiu atividade antimicrobiana para E. coli, P. aeruginosa e C. albicans em CBMs a 1250, 625 e 625 µg/mL, respectivamente. O crescimento de S. aureus não foi inibido nessa mistura (concentração de cetamina = 1250 µg/mL). CONCLUSÃO: Cetamina preservou sua atividade antimicrobiana de maneira dose-dependente contra alguns microrganismos em propofol, que é robusta solução promotora de crescimento microbiano. O uso combinado de cetamina e propofol na aplicação clínica de rotina pode diminuir o risco de infecção causada por contaminação acidental. Entretanto, deve-se ter em mente que cetamina não pode reduzir todas as ameaças patogênicas na mistura com propofol.

BACKGROUND AND OBJECTIVES: Ketamine and propofol are the general anesthetics that also have antimicrobial and microbial growth-promoting effects, respectively. Although these agents are frequently applied together during clinical use, there is no data about their total effect on microbial growth when combined. In this study, we investigated some organisms' growth in a ketamine and propofol mixture. METHOD: We used standard strains including Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Candida albicans in this study. Time-growth analysis was performed to assess microbial growth rates in 1% propofol. Antimicrobial activity of ketamine, alone and in propofol was studied with microdilution method. RESULTS: In propofol, studied strains grew from 10³-10(4) cfu/mL to >10(5) cfu/mL concentrations within 8-16 hours depending on the type of organism. Minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC) (for candida, minimal fungicidal concentration) of ketamine were determined as follows (MIC, MBC): E.coli 312.5, 312.5 µg/mL; S.aureus 19.5, 156 µg/mL; P.aeruginosa 312.5, 625 µg/mL; and C.albicans 156, 156 µg/ml. In ketamine+propofol mixture, ketamine exhibited antimicrobial activity to E.coli, P.aeruginosa and C.albicans as MBCs at 1250, 625 and 625 µg/mL, respectively. Growth of S. aureus was not inhibited in this mixture (ketamine concentration=1250 µg/mL). CONCLUSION: Ketamine has sustained its antimicrobial activity in a dose-dependent manner against some organisms in propofol, which is a strong microbial growth-promoting solution. Combined use of ketamine and propofol in routine clinical application may reduce the risk of infection caused by accidental contamination. However, one must keep in mind that ketamine cannot reduce all pathogenic threats in propofol mixture.

EXPERIENCIA Y OBJETIVOS: La Cetamina y el propofol son los anestésicos generales que también tienen efectos antimicrobianos y son los promotores del crecimiento microbiano, respectivamente. Aunque esos agentes sean frecuentemente aplicados en combinación durante el uso clínico, no hay datos sobre su efecto total en el crecimiento microbiano en la administración combinada. En ese estudio, investigamos el crecimiento de algunos microrganismos en una mezcla de cetamina y propofol. MÉTODO: En este estudio, utilizamos cepas estandarizadas: Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa y Candida albicans. Realizamos un análisis de tiempo-crecimiento para evaluar las tasas de crecimiento microbiano en el propofol al 1%. La actividad antimicrobiana de cetamina, aisladamente y en propofol, fue estudiada por el método de microdilución. RESULTADOS: En el propofol, las cepas estudiadas crecieron de concentraciones de 10³-10(4) ufc/mL para #> 10(5) ufc/mL, dentro de 8-16 horas, dependiendo del tipo de microrganismo. Fueron determinadas la concentración inhibitoria mínima (CIM) y la concentración bactericida mínima (CBM) (para Candida, concentración fungicida mínima) de cetamina, como vemos (CIM, CBM): E. coli 312,5, 312,5 µg/mL; S.aureus 19,5, 156 µg/mL; P. aeruginosa 312,5, 625 µg/mL; y C. albicans 156, 156 µg/ml. En la mezcla cetamina + propofol, la cetamina mostró una actividad antimicrobiana para E. coli, P. aeruginosa y C. albicans en CBMs a 1250, 625 y 625 µg/mL, respectivamente. El crecimiento de S. aureus no se inhibió en esa mezcla (concentración de cetamina = 1250 µg/mL). CONCLUSIONES: La cetamina preservó su actividad antimicrobiana de manera dosis-dependiente contra algunos microrganismos en propofol, que es una robusta solución que promueve el crecimiento microbiano. El uso combinado de cetamina y propofol en la aplicación clínica de rutina puede disminuir el riesgo de infección causada por la contaminación accidental. Sin embargo, debemos tener presente que la cetamina no puede reducir todas las amenazas patógenas en la mezcla con el propofol.

Anesthesia management in a child with osteogenesis imperfecta and epidural hemorrhage.

Osteogenesis Imperfecta (OI) results from gene mutation that causes defective or insufficient collagen formation. It may cause various anesthetic complications due to the difficulty in airway management, existence of spinal deformity, respiratory disorders, cardiac anomalies, thrombocyte function disorder, risk of hyperthermia, bacillary invagination, bone deformities and metabolic disorders. The anesthesia management of OI patients should be exercised with caution given certain risks of respiratory disorders. These risks are due to thorax deformity, bone fractures during moving or changing position, mandibular and cervical fractures related with intubation, difficult intubation and malignant hyperthermia. The anesthetic technique using Total Intravenous Anesthesia (TIVA) and laryngeal mask airway is suitable for pediatric patient care with OI. However, these techniques have not yet been reported as useful in neurosurgery case reports. In this study, we present the use of TIVA and ProSeal Laringeal Mask in a child with OI and epidural hemorrhage. We came to the conclusion that LMA and TIVA can safely be used in the anesthetic management of OI patients with severe anesthetic problems.

The antimicrobial effects of ketamine combined with propofol: An in vitro study.

BACKGROUND AND OBJECTIVES: Ketamine and propofol are the general anesthetics that also have antimicrobial and microbial growth-promoting effects, respectively. Although these agents are frequently applied together during clinical use, there is no data about their total effect on microbial growth when combined. In this study, we investigated some organisms' growth in a ketamine and propofol mixture. METHOD: We used standard strains including Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, and Candida albicans in this study. Time-growth analysis was performed to assess microbial growth rates in 1% propofol. Antimicrobial activity of ketamine, alone and in propofol was studied with microdilution method. RESULTS: In propofol, studied strains grew from 10(3)-10(4) cfu/mL to ≥10(5) cfu/mL concentrations within 8-16 hours depending on the type of organism. Minimal inhibitory concentration (MIC) and minimal bactericidal concentration (MBC) (for candida, minimal fungicidal concentration) of ketamine were determined as follows (MIC, MBC): E.coli 312.5, 312.5 µg/mL; S.aureus 19.5, 156 µg/mL; P.aeruginosa 312.5, 625 µg/mL; and C.albicans 156, 156 µg/ml. In ketamine+propofol mixture, ketamine exhibited antimicrobial activity to E.coli, P.aeruginosa and C.albicans as MBCs at 1250, 625 and 625 µg/mL, respectively. Growth of S. aureus was not inhibited in this mixture (ketamine concentration=1250 µg/mL). CONCLUSION: Ketamine has sustained its antimicrobial activity in a dose-dependent manner against some organisms in propofol, which is a strong microbial growth-promoting solution. Combined use of ketamine and propofol in routine clinical application may reduce the risk of infection caused by accidental contamination. However, one must keep in mind that ketamine cannot reduce all pathogenic threats in propofol mixture.

Anesthesia management in a child with osteogenesis imperfecta and epidural hemorrhage.

Osteogenesis Imperfecta (OI) results from gene mutation that causes defective or insufficient collagen formation. It may cause various anesthetic complications due to the difficulty in airway management, existence of spinal deformity, respiratory disorders, cardiac anomalies, thrombocyte function disorder, risk of hyperthermia, bacillary invagination, bone deformities and metabolic disorders. The anesthesia management of OI patients should be exercised with caution given certain risks of respiratory disorders. These risks are due to thorax deformity, bone fractures during moving or changing position, mandibular and cervical fractures related with intubation, difficult intubation and malignant hyperthermia. The anesthetic technique using Total Intravenous Anesthesia (TIVA) and laryngeal mask airway is suitable for pediatric patient care with OI. However, these techniques have not yet been reported as useful in neurosurgery case reports. In this study, we present the use of TIVA and ProSeal Laringeal Mask in a child with OI and epidural hemorrhage. We came to the conclusion that LMA and TIVA can safely be used in the anesthetic management of OI patients with severe anesthetic problems.