ObjectiveTo explore a method of three-dimensional (3D) printing technology for preparation of personalized rat brain tissue cavity scaffolds so as to lay the foundation for the repair of traumatic brain injury (TBI) with tissue engineered customized cavity scaffolds.
MethodsFive male Sprague Dawley rats[weighing (300±10) g] were induced to TBI models by electric controlled cortical impactor. Mimics software was used to reconstruct the surface profile of the damaged cavity based on the MRI data, computer aided design to construct the internal structure. Then collagen-chitosan composite was prepared for 3D bioprinter of bionic brain cavity scaffold.
ResultsMRI scans showed the changes of brain tissue injury in the injured side, and the position of the cavity was limited to the right side of the rat brain cortex. The 3D model of personalized cavity containing the internal structure was successfully constructed, and cavity scaffolds were prepared by 3D printing technology. The external contour of cavity scaffolds was similar to that of the injured zone in the rat TBI; the inner positive crossing structure arranged in order, and the pore connectivity was good.
ConclusionCombined with 3D reconstruction based on MRI data, the appearance of cavity scaffolds by 3D printing technology is similar to that of injured cavity of rat brain tissue, and internal positive cross structure can simulate the topological structure of the extracellular matrix, and printing materials are collagen-chitosan complexes having good biocompatibility, so it will provide a new method for customized cavity scaffolds to repair brain tissue cavity after TBI.
Objective To analyze the influencing factors of prognosis of patients with traumatic brain injury (TBI), and explore the influence of hemoglobin (Hb) level combined with blood pressure variability (BPV) on the quality of prognosis of patients with TBI. Methods The data of 186 TBI patients who received systemic treatment in the Affiliated Zhangjiagang Hospital of Soochow University between January 2020 and December 2021 were retrospectively analyzed. According to the Glasgow Outcome Scale (GOS) 3 months after treatment, they were divided into group A (GOS 4-5, 159 cases) and group B (GOS 1-3, 27 cases). The general clinical data, BPV indexes and Hb levels of the two groups were analyzed by single factor analysis and multiple logistic regression analysis, and the predictive value of the logistic regression model was evaluated by receiver operating characteristic (ROC) curve, sensitivity, specificity and area under the curve (AUC). Results There was no statistical significance in gender, age, body mass index, blood urea nitrogen, prothrombin time, fasting blood glucose level, or smoking history (P>0.05); the patients’ Glasgow Coma Scale at admission in group A was higher than that in group B (P<0.05), and the constituent ratio with a history of hypertension of group A was significantly lower than that of group B (P<0.05). The between-group differences in systolic blood pressure (SBP), diastolic blood pressure (DBP), mean arterial pressure (MAP), and Hb at admission, and SBP, DBP, and MAP 72 h after treatment were not statistically significant (P>0.05); the SBP-standard deviation (SD), DBP-SD, SPB-coefficient of variation (CV) and DBP-CV of group B 72 h after treatment were significantly higher than those of group A (P<0.05), and the level of Hb was significantly lower than that of group A (P<0.05). Hb [odds ratio (OR)=0.787, 95% confidence interval (CI) (0.633, 0.978), P=0.031], SBP-CV [OR=1.756, 95%CI (1.073, 2.880), P=0.023] and DBP-CV [OR=1.717, 95%CI (1.107, 2.665), P=0.016] were all independent prognostic factors of TBI patients. The ROC showed that the combined index of BPV and Hb was more valuable than that of single prediction, with an AUC of 0.896 [95%CI (0.825, 0.935), P<0.05]. Conclusions Both BPV and Hb are independent factors affecting the prognosis of TBI patients, and their combined application can more effectively predict the prognosis of TBI patients. Therefore, when treating and evaluating the prognosis of TBI patients, closely monitoring the changes in blood pressure and Hb levels can timely and effectively control the development of the disease, and provide scientific reference for subsequent treatment.
In recent years, although the mortality rate caused by traumatic brain injury has declined, the disability rate has remained high, which has a serious impact on patients and their families. Therefore, solving the complications and sequelae caused by traumatic brain injury is the focus and difficulty of current clinical research. Integration of traditional and western medicine rehabilitation is an effective method for the treatment of the central nervous system at home and abroad, and it also fully reflects its therapeutic advantages in the application of traumatic brain injury. Based on this, this paper will mainly introduce the clinical characteristics of patients with traumatic brain injury, and systematically expound the commonly used clinical rehabilitation treatment methods of integration of traditional and western medicine, aiming to provide a certain guidance for the rehabilitation treatment of traumatic brain injury.
Objectives To assess the efficacy and safety of standard trauma craniectomy (STC), compared with limited craniectomy (LC) for severe traumatic brain injury (sTBI) with refractory intracranial hypertension. Methods We searched the Cochrane Central Register of Controlled Trials-Central (The Cochrane Library Issue 3, 2008), MEDLINE (1966 to October 2008), EMbase (1984 to October 2008), CMB-disc (1979 to October 2006) and CNKI (1979 to October 2008) for completed studies, as well as clinical trial registries for ongoing studies and completed studies with unpublished data. The reference of included studies and relevant supplement or conference abstracts were handsearched. The search results were extracted, and then the quality of included studies was assessed using RevMan 5.0. Meta-analysis was conducted if the data was similar enough. Results Two randomized controlled trials (RCTs) involving 716 participants were identified. Compared with the LC group, the STC group had statistically significant, more favorable outcome on the basis of the Glasgow Outcome Scale, using measures such as mortality, efficiency, and survival, compared with those of LC group, which had statistic difference. The mean ICP fell more rapidly and to a lower level in the STC group than in the LC group. There was no statistically significant difference on the incidence of postoperative complications, including delayed hematoma, incision cerebrospinal fluid fistula, encephalomyelocele, traumatic epilepsy, and intracranial infection as well. Conclusion The efficacy of STC is superior to LC for severe TBI with refractory intracranial hypertension resulting from unilateral frontotemporoparietal contusion with or without intracerebral or subdural hematoma.
ObjectiveTo investigate the clinical feature, prognosis and prognostic factors of early post-traumatic seizures in children.
MethodsRetrospective review was performed on 101 individuals with early post-traumatic seizures (EPTS) who were diagnosed in Department of Neurosurgery in Children's Hospital of Chongqing Medical University from January 2008 to June 2013. The record was collected, which included patient's demographics, clinical and radiological presentation, management, and follow-up results of 12 months. The individuals were divided into late post-traumatic seizures (LPTS) group and control group according to the occurrence of LPTS or not. The SAS 9.2 was used for statistical analysis.
ResultsDuring 101 cases in our study, male accounted for 60.4%, female accounted for 39.6%, and the ratio was 1.5 to 1. The percentage of patients who were under 6 years old was 74.3%, and the number of cases decreased with age. The peak time of EPTS was within 24 hours after traumatic brain injury. 55.4% of EPTS was the generalized seizures, 34.7% was the partial seizures, and 9.9% was the partial seizures and evolved to secondarily generalized seizures. The incidence of LPTS observed in our study was 26.7% within 12 months follow-up. The electroencephalogram displayed epileptiform discharges in 3 individuals who were without epileptic seizures. There was statistically significant difference in group LPTS compared to control group on these factors which included GSC score≤8(P=0.0064), complicated necrencephalus and/or encephalatrophy(P < 0.0001), multiple brain injuries(P=0.0210), subdural hemorrhage(P=0.0151) and intracranial operation(P=0.0029). The age, history, epileptic seizure type of EPTS, brain contusion, skull fracture and the early use of antiepileptic drugs (AEDs) had no statistically significant difference between LPTS group and control group(P > 0.05).
ConclusionsEPTS is prone to occur in children under 6 years old. Male is obviously more than female, and the ratio is 1.5:1. The peak time of EPTS is within 24 hours after traumatic brain injury and most of EPTS are generalized seizures. The incidence of LPTS in children with EPTS exceeds those previously reported. Periodical electroencephalogram examination is essential to decrease the missed diagnosis of LPTS. The GSC score≤8 and complicated necrencephalus and/or encephalatrophy will dramaticlly increase the risk of LPTS. Multiple brain injuries, subdural hemorrhage and intracranial operation are also risk factors for the prognosis of EPTS. Although the use of AEDs is unable to decrease the incidence of LPTS after 12 months follow-up, it is probably beneficial to improving the cognition and brain development. The controversial finding in our study is whether intracranial operation can influence the prognosis of EPTS or not.
ObjectiveTo build core items of database for traumatic brain injury (TBI) in rehabilitation medical database.MethodsRelevant factors in TBI database were summarized through database search in combination of acknowledged relevant items of TBI in rehabilitation medical database. Delphi method was used for experts to determine which items should be included by two rounds of questionnaires.ResultsThe average authority coefficient of experts was 0.94. After two rounds of questionnaires, 73 were included. Its contents include: general conditions, brain damage and disposal, relevant rehabilitation assessment scales, previous rehabilitation treatment, treatment expenses, and contents that require attention during re-evaluation.ConclusionsAfter two rounds of Delphi evaluation, the core items of database for TBI are identified with high recognition and consistency from experts.
Patients with severe traumatic brain injury (TBI) have a higher mortality rate, often dying within a few hours after injury. The management of trauma site, transportation, and early hospital stay is closely related to the outcome of TBI patients. The final success rate of TBI patients varies after different prehospital treatments, and the quality of prehospital treatment for TBI needs to be further improved. Therefore, the TBI prehospital management guideline emerged, and the third version of the guideline was released in April 2023. In order to provide better advice and guidance on the treatment of prehospital TBI, this article interprets the key points of updating the third edition of the prehospital TBI management guideline.
ObjectiveTo investigate the mechanism of Semaphorin 3A (Sema3A) in fracture healing after nerve injury by observing the expression of Sema3A in the tibia fracture healing after traumatic brain injury (TBI).
MethodsA total of 192 Wistar female rats, 8-10 weeks old and weighing 220-250 g, were randomly divided into tibia fracture group (group A, n=48), TBI group (group B, n=48), TBI with tibia fracture group (group C, n=48), and control group (group D, n=48). The tibia fracture model was established at the right side of group A; TBI model was made in group B by the improved Feeney method; the TBI and tibia fracture model was made in group C; no treatment was given in group D. The tissue samples were respectively collected at 3, 5, 7, 14, 21, and 28 days after operation; HE staining, immunohistochemistry staining, and Western blot method were used for the location and quantitative detection of Sema3A in callus tissue.
ResultsHE staining showed that no obvious changes were observed at each time point in groups B and D. At 3 and 5 days, there was no obvious callus growth at fracture site with inflammatory cells and fibrous tissue filling in groups A and C. At 7 and 14 days, fibrous tissue grew from periosteum to fracture site in groups A and C; the proliferation of chondrocytes in exterior periosteum gradually formed osteoid callus at fracture site in groups A and C. The chondrocyte had bigger size, looser arrangement, and more osteoid in group C than group A. Group B had disorder periosteum, slight subperiosteal bone hyperplasia, and no obvious change of bone trabecula in group B when compared with group D. At 21 and 28 days, cartilage callus was gradually replaced by new bone trabecula in groups A and C. Group C had loose arrange, disorder structure, and low density of bone trabecula, big callus area and few chondrocyte and osteoid when compared with group A; group B was similar to Group D. Immunohistochemistry staining showed that Sema3A expression in chondrocytes in group C was higher than that in group A, particularly at 7, 14, and 21 day. Sema3A was significantly higher in osteoblasts of new bone trabecula in group A than group C, especially at 14 and 21 days (P<0.05). Western blot results showed that the Sema3A had the same expression trend during fracture healing in groups A and C. However, the expression of Sema3A protein was significantly higher in group C than group A (P<0.05) and in group B than group D (P<0.05) at 7, 14, 21, and 28 days.
ConclusionAbnormal expression of Sema3A may play a role in fracture healing after nerve injury by promoting the chondrocytes proliferation and reducing the distribution of sensory nerve fibers and osteoblast differentiation.
Objective To set up and to evaluate an acute closed brain injury model in rats. Methods The acute closed brain injury was produced in rats by using an impactor consisting of a stand, a guide tube, a weight and a footplate. Ninetysix SD rats were divided into a control group(n=32, no impact), a mild injury group(n=32, impact once at force level of 400 g·cm) and a severe injury group(n=32, impact once at force level of 800 g·cm) to elucidate the physiological responses, the pathophysiological changes and brain edema after brain injury at different injury levels. Results In the mild injury group and the severe injury group, a sudden rise or reduction of blood pressure, deep and fast breath apnea, and pain reflects inhibition were observed. The responses were more obvious in the severe injury group than in the mild injury group. The water content of the brain increased after 6 hours of injury. The pathological contusion and edema of brain were noted or above the impact force level of 800 g·cm. When the impact force rose to or over 1200g·cm, the animals died of persistent apnea mostly. Conclusion Although the established closed brain injury model with different biomechanical mechanisms as the clinical brain injury, it is in conformity with pathological changes and pathophysiological characteristics of acute clinical brain injury, it can be utilized extensively because of its convenient and practice.
Objective
To review the current status and advances of the correlation between traumatic brain injury (TBI) and fracture healing.
Methods
The related domestic and abroad literature about the correlation between TBI and fracture healing was extensively reviewed and analyzed.
Results
There are a variety of studies on the correlation between TBI and fracture healing, which can be divided into two major aspects: revascularization and osteogenesis; the local and systemic changes of the neuropeptide and hormone after TBI.
Conclusion
TBI facilitates callus formation, the further research is needed to clarify the exact mechanism.
