PurposeTraumatic cardiac injury (TCI) is a challenge for trauma surgeons as it provides a short therapeutic window and the management is often dictated by the underlying mechanism and hemodynamic status. The current study is to evaluate the factors influencing the outcome of TCI.MethodsProspectively maintained database of TCI cases admitted at a Level-1 trauma center from July 2008 to June 2013 was retrospectively analyzed. Hospital records were reviewed and statistical analysis was performed using the SPSS version 15.ResultsOut of 21 cases of TCI, 6 (28.6%) had isolated and 15 (71.4%) had associated injuries. Ratio between blunt and penetrating injuries was 2:1 with male preponderance. Mean ISS was 31.95. Thirteen patients (62%) presented with features suggestive of shock. Cardiac tamponade was present in 12 (57%) cases and pericardiocentesis was done in only 6 cases of them. Overall 19 patients underwent surgery. Perioperatively 8 (38.1%) patients developed cardiac arrest and 7 developed cardiac arrhythmia. Overall survival rate was 71.4%. Mortality was related to cardiac arrest (p = 0.014), arrhythmia (p = 0.014), and hemorrhagic shock (p = 0.04). The diagnostic accuracy of focused assessment by sonography in trauma (FAST) was 95.24%.ConclusionHigh index of clinical suspicion based on the mechanism of injury, meticulous examination by FAST and early intervention could improve the overall outcome.
Context:Over ordering of blood is a common practice in elective surgical practice. Considerable time and effort is spent on cross-matching for each patient undergoing a surgical procedure.Aims:The aim of this study was to compile and review the blood utilization for two key departments (Neurosurgery and Surgery) in a level 1 trauma center. A secondary objective was to formulate a rational blood ordering practice for elective procedures for these departments.Materials and Methods:Analysis of prospectively compiled blood bank records of the patients undergoing elective surgical, neurosurgical procedures was carried out between April 2007 and March 2009. Indices such as the cross-matched/transfused ratio (C/T ratio), transfusion index and transfusion probability were calculated. The number of red cell units required for each procedure was calculated using the equation proposed by Nuttall et al, using preoperative hemoglobin and postoperative hemoglobin for each elective surgical procedure.Results:There were 252 surgery patients (age range: 2-80 years) in the study. One thousand and eighty-eight units of blood were cross-matched, 432 were transfused (CT ratio 2.5). 44.0% patients did not require transfusion during entire hospital stay. Three (50%) elective procedures had CT ratio >2.5and 4 (66.6%) elective procedures had TI <0.5. There were 200 neurosurgery patients (age range: 2-62 years) in the study. Total 717 units of blood were cross-matched and 161 transfused (CT ratio 4.5). Nine elective procedures had CT ratio >2.5, with five of them exceeding 4. In procedures like spinal instrumentation the CT ratio was <2.5 and 10 (90.9%) of elective procedures had TI <0.5.Conclusions:In this study 40% and 22% of cross-matched blood was being utilized for elective general surgery and neurosurgical procedures, respectively. The calculated required blood units for all elective Trauma surgery procedures were more than 2 units. The calculated required blood units were less than 0.5 units in four of the 11 neurosurgical procedures, and hence only one unit should be arranged for them. It is crucial for every institutional blood bank to formulate a blood ordering schedule. Regular auditing and periodic feedbacks are also vital to improve the blood utilization practices.
Chest trauma is an important public health problem accounting for a substantial proportion of all trauma admissions and deaths. It directly account for 20-25 % of deaths due to trauma. Therefore, this study was conducted to analyze the presentation, patterns, and outcome of chest trauma in a level-1 urban trauma center. It was a prospective observational study of all patients presented with chest trauma to an urban level 1-trauma center over a period of 3 years. Demographic profile, mechanism of injury, injury severity scores (ISS), associated injuries, hospital stay, etc. were recorded. Morbidity and mortality rates were analyzed and compared with the published literature. Chest injuries comprised 30.9 % of all trauma admissions and the mechanism was blunt in majority (83.5 %) of the cases. Vehicular crashes (59.7 %) followed by assault were the most common modes of injury. Rib fracture was the most common chest injury seen in 724 of the 1258 patients while abdominal visceral injuries were the commonest associated injuries in polytrauma cases. Majority of the patients were managed non-operatively. Inter costal tube drainage (ICD) was the main stay of treatment in 75 % of the cases, whereas, thoracotomy was required only in 5.56 % of the patients. Overall mortality was 11 % and it was found to be significantly higher following blunt chest trauma. We observed that associated extra thoracic injuries resulted in higher mortality as compared to isolated chest injuries. Thoracic injuries can be readily diagnosed in the emergency department by meticulous and repeated clinical evaluation and majority require simple surgical procedures to prevent immediate mortality and long-term morbidity.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.