Objective
To explore the procedure and effectiveness of sequential reduction and fixation for zygomatic complex fractures.
Methods
Between March 2004 and February 2012, 32 patients with zygomatic complex fractures were treated. There were 28 males and 4 females with a median age of 29 years (range, 17-55 years). Fractures were caused by traffic accident in 29 cases and by tumble in 3 cases. The time between injury and admission was 1-12 days (mean, 3 days) in 28 fresh fractures and 22-60 days (mean, 40 days) in 4 old fractures. All patients were diagnosed by clinical symptom and CT scan. Coronal scalp incision, lower eyelid aesthetic incision, and intraoral incision were used to expose the zygomatic bone segments. The sequence of fractures reduction and fixation was horizontal first, and then longitudinal. In horizontal orientation, reduction and simultaneous fixation started from the root of the zygoma, to zygomatic arch, body of the zygoma, and inferior orbital rim in turn. Longitudinally, fracture reduction of zygomatico-frontal suture and orbital posterolateral walls was done first, followed by fracture reduction of zygomaticomaxillary buttress.
Results
Primary healing of incision was obtained in all 32 cases, without complications of maxillary sinus fistula and infection. Eighteen patients were followed up 6 months to 6 years with a median time of 32 months. All the patients gained satisfactory results with normal zygomatic contour and symmetric midface. All patients restored normal mouth opening. No eye and vision damage occurred. Frontal disappearance and brow ptosis were observed in 2 cases. Hair loss (2-3 mm) was seen at the site of coronal scalp incision, without scar hyperplasia; there was no obvious scar at lower eyelid. CT and X-ray films showed bony healing at 6 months after operation.
Conclusion
Sequential reduction and fixation is accord with the mechanical characters of complicated zygomatic fractures. It is very easy to achieve anatomic reduction of the bone segments and facial symmetry.
ObjectiveTo evaluate the predictive value of critical illness scores for hospital mortality of severe respiratory diseases in respiratory intensive care unit (ICU).MethodsThe clinical data of the patients who needed intensive care and primary diagnosed with respiratory diseases from June, 2001 to Octomber, 2012 were extracted from MIMIC-Ⅲ database. The Acute Physiology Score (APS) Ⅲ, Simplified Acute Physiology Score (SAPS) Ⅱ, Oxford Acute Severity of Illness Score (OASIS), Logistic Organ Dysfunction System (LODS), Systemic Inflammatory Response Syndrome (SIRS) and Sequential Organ Failure Assessment (SOFA) were calculated according to the requirements of each scoring system. ICU mortality was set up as primary outcome and receiver operating characteristic (ROC) analysis was performed to evaluate the predictive performances by comparing the areas under ROC curve (AUC). According to whether they received invasive mechanical ventilation during ICU, the patients were divided into two groups (group A: without invasive mechanical ventilation group; group B: with invasive mechanical ventilation group). The AUCs of six scoring systems were calculated for groups A and B, and the ROC curves were compared independently.ResultsA total of 2988 patients were recruited, male accounted for 49.4%, median age was 67 (55, 79), and ICU mortality was 13.2%. The AUCs of SAPSⅡ, LODS, APSⅢ, OASIS, SOFA and SIRS were 0.73 (0.70, 0.75), 0.71 (0.68, 0.73), 0.69 (0.67, 0.72), 0.69 (0.67, 0.72), 0.67 (0.64, 0.70) and 0.58 (0.56, 0.62). Subgroup analysis showed that in group A, the AUCs of OASIS, SAPSⅡ, LODS, APSⅢ, SOFA and SIRS were 0.81 (0.76, 0.85), 0.80 (0.75, 0.85), 0.77 (0.72, 0.83), 0.75 (0.70, 0.80), 0.73 (0.68, 0.78) and 0.63 (0.56, 0.69) in the prediction of ICU mortality; in group B, the AUCs of SAPSⅡ, APSⅢ, LODS, SOFA, OASIS and SIRS were 0.68 (0.64, 0.71), 0.67 (0.63, 0.70), 0.65 (0.62, 0.69), 0.62 (0.59, 0.66), 0.62 (0.58, 0.65) and 0.57 (0.54, 0.61) in the prediction of ICU mortality. The results of independent ROC curve showed that the AUC differences between groups A and B were statistically significant in terms of OASIS, SAPSⅡ, LODS, APSⅢ and SOFA, but there were no significant differences in SIRS.ConclusionsThe predictive values of six critical illness scores for ICU mortality in respiratory intensive care are low. Lack of ability to predict ICU mortality of patients with invasive mechanical ventilation should hold primary responsibility.
Abstract: Objective To compare the midterm patency rates of individual and sequential saphenous vein grafts (SVG) as coronary bypass conduits of offpump coronary artery bypass grafting (OPCAB) and evaluate the impact of the grafting techniques (individual or sequential grafts) on the graft patencyafter OPCAB. Methods The clinical data of 398 patients in General Hospital of the People’s Liberation Army receiving OPCAB with individual and sequential grafts from June 2005 to March 2009 were retrospectively analyzed. There were 301 males and 97 females with their age ranged from 53 to 82 years (63.6±10.3 years). A total of 714 distal coronary anastomoses on 448 SVG were assessed by using 64multislice computed tomography (64MSCTA) at an average of 19.8±23.6 months (3 months to 5 years) after OPCAB procedure. The blood flow of grafts in the proximal segment of individual and sequential SVG and the patency rates of grafts and anastomoses were compared, and the effect of different locations on the patency rate of the anastomoses was analyzed. Results The mean blood flow in double SVG (37.11±16.70 ml/min vs. 25.15±14.24 ml/min, P0.042) and in triple SVG (37.56±19.58 ml/min vs. 25.15±14.24 ml/min, P=0.048) were both significantly higher than the flow in single SVG. The anastomoses on the sequential conduits had better patency (95.1% vs. 90.1%, P=0.013). The patency of sideto side anastomoses was better than that of endtoside anastomoses (97.0% vs. 93.1%, P=0.002) and that of the individual endtoside anastomoses (97.0% vs. 90.1%, P=0.041). There was no significant difference between distal anastomoses in sequential and those in single grafts (P=0.253). No significant difference was observed between the two methods in regard to the three major coronary systems (including the anterior descending branch, the right coronary artery, and the circumflex branch). However, anastomoses on sequential grafts had superior patency to those on individual grafts in the right coronary system (P=0.008). Conclusion The midterm patency of a sequential SVG conduit after OPCAB is excellent and generally superior to that of an individual one. The best runoff coronary artery should be placed at the distal end and the poor coronary vessels should be arranged in the middle of the grafts.
Objective To evaluate the clinical efficacy of integrated treatment ( sequential noninvasive following invasive mechanical ventilation, bronchoscope suction, combined inhalation) in patients with acute respiratory failure induced by chronic obstructive pulmonary disease ( COPD) . Methods 59 elderly patients with COPD and acute respiratory failure in ICU fromJuly 2006 to July 2009 were enrolled in the study. The patients were randomized into three groups, ie. a non-invasive mechanical ventilation group ( NIV group) , a sequential non-invasive following invasive mechanical ventilation group ( SV group) , a integrated treatment group ( IT group) . APACHEⅡ score, clinical pulmonary infection score ( CPIS) ,arterial blood gas analysis, respiratory rate ( RR) , heart rate ( HR) , and mean artery blood pressure ( MAP)at 0 h, 3 h, 3 d, 12 d after treatment were recorded. Results With the extension of treatment time,APACHEⅡ score, CPIS score, RR, HR, PaCO2 , and white blood cells gradually reduced, while pH and PaO2 gradually increased in the three groups ( P lt;0. 05) . The differences in RR, HR, PaCO2 , and PaO2 at the time of 3 d and 12 d were significant between the three groups( P lt;0. 05) . The occurrence of pulmonary infection control ( PIC) window and ventilation associated pneumonia ( VAP) had no difference among the three groups( P gt;0. 05) . The duration of total mechanical ventilation, durations of ICU stay and hospital stay were shorter in SV group than those in NIV group( P lt;0. 05) . The duration of total mechanical ventilation,duration of invasive mechanical ventilation, durations of ICU stay and hospital stay were shorter in IT group than those in SV group( P lt;0. 05) . The incidence of VAP was higher in SV group than NIV group, but lower in IT group than SV group( P lt;0. 05) . Hospital mortality was lower in SV group than NIV group, and higher in IT group than SV group( P lt; 0. 05) . Conclusion In elderly COPD patients with acute respiratory failure, integrated treatment given early can reduce the duration of mechanical ventilation, the length of ICU and hospital stay, and decrease the morbidity of VAP and mortality.
Abstract: Objective To compare the multiple organ dysfunction score (MODS), the sequential organ failure assessment (SOFA), the acute physiology, age, and chronic health evaluation system Ⅱ(APACHE Ⅱ), the acute physiology, age, and chronic health evaluation system Ⅲ(APACHE Ⅲ) in evaluating risks for patients after cardiac surgery, in order to provide better treatment and prediction of prognosis after cardiac operation. Methods A prospective study was carried out on 1 935 cardiac postoperative patients, including 1 050 males and 885 females, enrolled in cardiac postoperative intensive care unitof Anzhen hospital between October 2007 and April 2008. The age of the patients ranged from 18 to 86 years with the mean age of 53.96 years. The patients underwent the surgery because of various cardiac diseases including coronary heart disease, valve disease, congenital heart disease, aortic aneurysm, pericardial disease, atrial fibrillation, and pulmonary embolism. We used MODS, SOFA, APACHE Ⅱ, and APACHE Ⅲ respectively to calculate the value of the first day after operation, the maximum value during the first three days, the maximum value, and the change of the value between the third day and the first day for every patient, and then we compared the calibration and discrimination of these different systems using HosmerLemeshow goodnessoffit analysis and Receiver Operating Characteristic (ROC) curve. Results There were 47 perioperative deaths because of circulating system failure, respiration failure, kidney failure, liver failure or nervous system diseases. The death rate was 2.43%. In discrimination analysis, the area under the curve (AUC) in ROC of the first day value after operation, the maximum value, the maximum value during the first three days, and the change of value between the third day and the first day for MODS were respectively 0.747, 0.901, 0.892, and 0.786; for SOFA were respectively 0.736, 0.891, 0.880, and 0.798; for APACHE Ⅱ were respectively 0.699, 0.848, 0,827, and 0.562; for APACHE Ⅲ were respectively 0.721, 0.872, 0.869, and 0.587. In calibration analysis, we compared the χ2 value of the first day value, the maximum value, the maximum value during the first 3 days, and the change of value between the third day and the first day of these systems. χ2 value of MODS was 4.712, 5.905, 5.384, and 13.215; χ2 value of SOFA was 8.673, 3.189, 3.111, and 14.225; χ2 value of APACHE Ⅱ was 15.688, 10.132, 8.061, and 42.253; χ2 value of APACHE Ⅲ was 13.608, 11.196, 19.310, and 47.576. AUC value of MODS and SOFA were all larger than those of APACHE Ⅱ and APACHE Ⅲ (Plt;0.05); AUC value of APACHE Ⅱ was smaller than that of APACHE Ⅲ (Plt;0.05). Conclusion MODS, SOFA, APACHE Ⅱ and APACHE Ⅲ are all applicable in evaluating risks for patients after cardiac surgery. However, MODS and SOFA are better than APACHE Ⅱ、APACHE Ⅲ in predicting mortality after cardiac surgery. In cardiac surgery, the complicated APACHE Ⅱ and APACHE Ⅲ systems can be replaced by MODS and SOFA systems which are simpler for use.
ObjectiveTo analyze the treatment effect of sequential noninvasive following invasive mechanical ventilation in chronic obstructive pulmonary disease (COPD) patients with respiratory failure.MethodsA review of randomized controlled trials with meta-analysis performed by searching databases of PubMed, the Cochrane Library, Embase, Chinese BioMedical Literature Database, China National Knowledge Infrastructure, and WanFang data. Randomized controlled trials by using sequential noninvasive following invasive mechanical ventilation in COPD patients with respiratory failure were eligible for inclusion.ResultsEleven trials were included, involving 553 COPD patients with respiratory failure. Meta-analysis showed that sequential noninvasive following invasive mechanical ventilation reduced the mortality rate [RR=0.37, 95%CI(0.22 to 0.61), P=0.000 1], the incidence of ventilator-associated pneumonia (VAP) [RR=0.20, 95%CI(0.13 to 0.32), P<0.000 01], reintubation rate [RR=0.40, 95%CI(0.23 to 0.68), P=0.0008]; it also decreased the duration of invasive mechanical ventilation [MD=–10.47, 95%CI(–13.80 to –7.14), P<0.000 01] and duration of mechanical ventilation [MD=–4.54, 95%CI(–7.01 to –2.06), P=0.000 3], which also shortened the lengths of stay in an intensive care unit (ICU) [MD=–8.75, 95%CI(–13.49 to –4.01), P=0.000 3], as well as length of hospital stay [MD=–9.11, 95%CI(–11.68 to –6.55), P<0.000 01].ConclusionSequential noninvasive following invasive mechanical ventilation can significantly reduce the incidence of VAP, the duration of invasive mechanical ventilation, the length of hospital stay in COPD patients with respiratory failure, and reduce the mortality, reintubation rate, the duration of mechanical ventilation and the length of ICU stay as well.
The modern clinical research evaluation systems have increasingly emphasized the evaluation of individual patients' clinical characteristics, diagnosis and treatment plans, and complex intervention measures. Traditional randomized controlled trials evaluate fixed interventions and non-adaptive treatment plans, which cannot meet the needs of evaluating adaptive interventions. This has made researchers more inclined to explore an individualized and adaptive clinical trial design, and sequential multiple assignment randomized trial (SMART) has emerged as needed. This article introduces the principles, key elements, and implementation points of SMART design, further explores the limitations of the mismatch between traditional Chinese medicine clinical trial design and syndrome differentiation treatment, and proposes that SMART design can meet the needs of traditional Chinese medicine clinical trials to inspire researchers in designing their plans.
ObjectiveTo investigate the prognostic value of high mobility group protein 1 (HMGB1) in patients with ventilator-associated pneumonia (VAP).
MethodsA total 118 VAP patients admitted between March 2013 and March 2015 were recruited in the study. The patients were divided into a death group and a survival group according to 28-day death. Baseline data, HMGB1, C-reactive protein (CRP), clinical pulmonary infection score (CPIS), acute physiology and chronic health evaluation Ⅱ (APACHEⅡ) and sepsis-related organ failure assessment (SOFA) scores were collected on 1st day (d1), 4th day (d4), and 7th day (d7) after VAP diagnosis. The possible prognostic factors were analyzed by univariate and logistic multivariate analysis.
ResultsThere were 87 cases in the survival group and 31 cases in the death group. Age, female proportion, body mass index, HMGB1 (d1, d4, d7), APACHEⅡ (d1, d4, d7) and SOFA (d1, d4, d7) scores were all higher in the death group than those in the survival group (all P < 0.05). HMGB1 (d4, P=0.031), APACHEⅡ (d4, P=0.018), SOFA (d4, P=0.048), HMGB1(d7, P=0.087), APACHEⅡ(d7, P=0.073) and SOFA (d7, P=0.049) were closely correlated with 28-day mortality caused by VAP. Multivariate analysis revealed that HMGB1 (d4, HR=1.43, 95%CI 1.07 to 1.78, P=0.021), SOFA (d4, HR=1.15, 95%CI 1.06 to 1.21, P=0.019) and HMGB1 (d7, HR=1.27, 95%CI 1.18 to 1.40, P=0.003) were independent predictors of death in the VAP patients. ROC curve revealed HMGB1 (d4, d7) and SOFA (d4) with area under ROC curve of 0.951, 0.867 and 0.699.
ConclusionIndividual HMGB1 level can be used as a good predictor of the short-outcomes of VAP.
Objective
To evaluate the predicting effect of quick Sequential Organ Failure Assessment (qSOFA) on septic shock, and investigate the probability of improving the predicting effect.
Methods
Patients with sepsis diagnosed in Emergency Department from July 2015 to June 2016 were enrolled. They were divided into shock group and non-shock group based on whether or not they had septic shock during 72 hours after admission. The multivariate logistic regression analysis was used to find out the independent risk factors affecting the incidence of septic shock. Receiver operating characteristic (ROC) curve was used to analyze those risk factors. Modified Early Warning Score (MEWS), Mortality in Emergency Department Sepsis Score (MEDS), Sequential Organ Failure Assessment (SOFA), Acute Physiology and Chronic HealthEvaluation (APACHE)Ⅱ and qSOFA were also compared with ROC curve analysis. The possibility of improvement of qSOFA predicting effect was discussed.
Results
A total of 821 patients were enrolled, with 108 in septic shock group and 713 in non-septic shock. The result of multivariate logistic regression analysis indicated that respiratory rate, systolic blood pressure, pH value, oxygenation index, lactate, albumin, Glasgow Coma Score and procalcitonin were the independent risk factors (P<0.05). The result of ROC analysis showed that the area under curve (AUC) of pH value, lactate and procalcitonin was 0.695, 0.678 and 0.694, respectively. Lactate had the highest value of specificity (0.868), positive predictive value (0.356) and positive likelihood ratio (3.644), while the sensitivity (0.889) and negative predictive value (0.961) of procalcitonin were the highest. MEWS, MEDS, SOFA, APACHEⅡ and qSOFA were compared with ROC. SOFA had the best predicting effect with the statistical results of AUC (0.833), sensitivity (0.835), specificity (0.435), positive predictive value (0.971), negative predictive value (0.971), and positive likelihood ratio (5.048); and MEWS had the highest negative likelihood ratio (0.581). qSOFA did not show a best predicting value.
Conclusion
qSOFA is not the best choice to predict the possibility of septic shock, but its predicting value might be improved when combined with pH value, lactate and procalcitonin.
Objective To investigate the use of intraoperative transit time flow measurement (TTFM) to accuratelyevaluate graft patency during sequential coronary artery bypass grafting (CABG). Methods Clinical data of 131 patientsundergoing sequential off-pump coronary artery bypass grafting (OPCAB) with the great saphenous vein (with or without internal mammary artery) as graft vessels in Beijing Anzhen Hospital from April 2012 to January 2013 were retrospectivelyanalyzed. There were 92 male and 39 female patients with their age of 61.35±8.24 years. During the operation,2 methods were used to measure mean blood flow volume,pulsatility index (PI) and diastolic filling (DF) of the graft vessels. For thenon-blocking method,blood flow in graft vessels was maintained,and TTFM was applied 2 cm proximal to the anastomoticsite in graft vessels to record above parameters. For the blocking method,blood flow in graft vessels was temporally blockedby clipping distal graft vessels with an atraumatic bulldog clamp,and TTFM was applied 2 cm proximal to the anastomotic site in graft vessels to record above parameters. Results Blood flow volumes of the diagonal branch (27.43±15.22 ml/minvs. 59.28±30.13 ml/min),obtuse marginal branch (26.14±19.74 ml/min vs. 47.19±24.27 ml/min) and posterior left ventr-icular branch (19.16±8.92 ml/min vs. 38.83±20.11 ml/min) measured by the blocking method were significantly smallerthan those measured by the non-blocking method (P<0.05) . PI values of the diagonal branch (2.93±1.30 vs. 2.31±0.91),obtuse marginal branch (2.62±1.17 vs. 2.01±0.87) and posterior left ventricular branch (2.33±0.92 vs. 1.80±0.73) meas-ured by the blocking method were significantly higher than those measured by the non-blocking method (P<0.05). There was no statistical difference in DF values measured by 2 methods at respective anastomotic sites,and all DF values were higher than 50%. Non-blocking method identified 1 anastomotic site and blocking method identified 3 anastomotic sites that were not patent,and these anastomotic sites became patent after graft reconstruction. Conclusion Blood flow velocity of sequential grafts is higher than that of single grafts,indicating that sequential grafts have the advantages of high blood flow volume and low risk of thrombosis. Blocking method can more accurately evaluate graft patency at the anastomotic sites and sensitively identify graft vessels that are not patent,which is helpful for anastomotic site reconstruction in time and enhancement of successful rate of CABG.
