Yao-hua Pan

Bilateral decompressive craniectomy for patients with malignant diffuse brain swelling after severe traumatic brain injury: a 37-case study.

Abstract In this study we retrospectively analyzed the outcome of bilateral decompressive craniectomy (BDC) for 37 patients with bilateral malignant diffuse brain swelling following severe traumatic brain injury (TBI). Our 37 patients (Glasgow Coma Scale [GCS] score </=8) were retrospectively analyzed from September 2005 through September 2008. All patients underwent bilateral frontotemporoparietal decompressive craniectomy followed by duraplasty. The intracranial pressure (ICP) and cerebral perfusion pressure (CPP) were measured before and after BDC, and Glasgow Outcome Scale (GOS) scores were measured after >6 months of follow-up. The mean ICP was 37.7 +/- 6.4 mm Hg, and the mean CPP was 57.6 +/- 7.5 mm Hg before BDC. The ICP significantly decreased to 27.4 +/- 7.2 mm Hg (p < 0.05) after bone removal, and the CPP significantly increased to 63.3 +/- 8.4 mm Hg (p < 0.05). The ICP had a larger decrease, to 11.2 +/- 7.1 mm Hg (p < 0.05), after opening and enlargement of the dura mater (p < 0.05) compared to the levels seen after bone removal, and CPP significantly increased to 77.8 +/- 8.3 mm Hg (p < 0.05). After surgery, the ICP was elevated, but remained lower than the initial ICP (p < 0.05), and was easily controlled by routine medical treatment in the ensuing days, and the CPP remained above the optimal threshold of 70 mm Hg. The mean follow-up time was 9.4 +/- 3.2 months. In total, 20 patients (54.1%) had favorable outcomes, including 12 patients (32.5%; GOS 4) with moderate deficits, and 8 patients (21.6%; GOS 5) showed good recovery and social reintegration. Also, 17 patients (45.9%) had unfavorable outcomes, including 7 patients (18.9%; GOS 1) who died, 4 patients (10.8%; GOS 2) remained in a vegetative state, and 6 patients (16.2%; GOS 3) had severe deficits. The most common complication was hydrocephalus (7 patients, 18.9%). Our data show that BDC offers immediate reductions in intracranial hypertension, and perhaps contributes to satisfactory outcomes in patients with bilateral diffuse brain swelling following severe TBI.

Matrix Metalloproteinase-9 Expression and Protein Levels after Fluid Percussion Injury in Rats: The Effect of Injury Severity and Brain Temperature

The temporal and regional expression profiles of matrix metalloproteinase-9 (MMP-9), after moderate or severe traumatic brain injury (TBI) were measured to investigate the effects of post-traumatic hypothermia (33 degrees C) or hyperthermia (39 degrees C). In the first phase of this study, adult male Sprague-Dawley rats were randomly assigned to groups of moderate TBI (1.8-2.2 atm), severe TBI (2.4-2.7 atm), and sham-injured control. The rats were killed at 4, 6, 12, 24, 48, and 72 h, or 1 week after TBI, for mRNA and protein analysis. In the second phase, rats underwent moderate fluid percussion brain injury, followed immediately by 4 h of post-traumatic normothermia (37 degrees C), hyperthermia (39 degrees C), or hypothermia (32 degrees C). The rats were killed at 12 and 48 h after TBI for mRNA expression analyses, or killed at 24 and 72 h after TBI for protein expression analyses. Brain samples, including the cerebral cortex and hippocampus (both ipsilateral and contralateral hemispheres of each group), were assayed using RT-PCR and Western blot techniques. MMP-9 levels in both the ipsilateral and contralateral hemispheres were significantly increased after TBI compared with those of sham injured animals (p < 0.01). Two expression peaks of MMP-9 were observed in the ipsilateral cortex and hippocampus. An increase in injury severity was associated with an increase in mRNA (12 and 48 h), and protein (24 and 72 h) levels of MMP-9. Post-traumatic hypothermia attenuated the increase in both the mRNA and protein levels of MMP-9, compared with normothermia and hyperthermia (p < 0.01). In contrast, hyperthermia had no significant effect on mRNA (at 12 h) and protein levels (at 24 h) of MMP-9, compared with normothermic values (p > 0.05), but resulted in a significant increase in the levels of MMP-9 mRNA and protein at 24 and 72 h, respectively (p < 0.01). Increases in MMP-9 mRNA and protein after TBI were proportional to injury severity in this model. The effects of post-traumatic hypothermia on the expression of MMP-9 may partially explain the observed effects of post-traumatic temperature on secondary injury after TBI.

Blood–brain barrier permeability is positively correlated with cerebral microvascular perfusion in the early fluid percussion-injured brain of the rat

The blood–brain barrier (BBB) opening following traumatic brain injury (TBI) provides a chance for therapeutic agents to cross the barrier, yet the reduction of the cerebral microvascular perfusion after TBI may limit the intervention. Meanwhile, optimizing the cerebral capillary perfusion by the strategies such as fluid administration may cause brain edema due to the BBB opening post trauma. To guide the TBI therapy, we characterized the relationship between the changes in the cerebral capillary perfusion and BBB permeability after TBI. First, we observed the changes of the cerebral capillary perfusion by the intracardiac perfusion of Evans Blue and the BBB disruption with magnetic resonance imaging (MRI) in the rat subjected to lateral fluid percussion (FP) brain injury. The correlation between two variables was next evaluated with the correlation analysis. Since related to BBB breakdown, matrix metalloproteinase-9 (MMP-9) activity was finally detected by gelatin zymography. We found that the ratios of the perfused microvessel numbers in the lesioned cortices were significantly reduced at 0 and 1 h post trauma compared with that in the normal cortex, which then dramatically recovered at 4 and 24 h after injury, and that the BBB permeability was greatly augmented in the ipsilateral parts at 4, 12, and 24 h, and in the contralateral area at 24 h after injury compared with that in the uninjured brain. The correlation analysis showed that the BBB permeability increase was related to the restoration of the cerebral capillary perfusion over a 24-h period post trauma. Moreover, the gelatin zymography analysis indicated that the MMP-9 activity in the injured brain increased at 4 h and significantly elevated at 12 and 24 h as compared to that at 0 or 1 h after TBI. Our findings demonstrate that the 4 h post trauma is a critical turning point during the development of TBI, and, importantly, the correlation analysis may guide us how to treat TBI.

Traumatic subdural effusion evolves into chronic subdural hematoma: Two stages of the same inflammatory reaction?

Traumatic subdural effusion (TSE) is one of the main associated complications of brain trauma. About half of the asymptomatic TSEs ultimately evolve into chronic subdural hematomas (CSDHs), most of which will be inevitably treated by surgical evacuation. With the emergence of subdural hydroma (SDH), rupture of bridge-veins, bleeding of the hydroma wall, hyperfunction of fibrinolysis and increasing protein content in the hydroma are some of the traditionally cited explanations of the pathogenesis of TSE evolving into CSHD. Despite intensive research and subsequent advances in surgical techniques of CSDH, a single treatment with measurable clinical impact on the evolution interruption has yet to be investigated. Compared with peripheral venous blood, inflammatory cytokines were elevated in TSE and CSDH demonstrated by a number of investigators. Neoformation of capillaries, vascular hyper-permeability, serum protein exudation and other characteristics of aseptic inflammatory reaction were observed. Meanwhile, steroid was applied to treat CSDH in several groups, which was generally used as an effective anti-inflammatory agent. Based on systemic thinking, we hypothesize that TSE and CSDH are different stages, with different appearances, of the same inflammatory reaction. The evolution from TSE into CSDH and propagation of CSDH seem to be the results of local aseptic inflammation. Our hypothesis holds potential as a target for therapeutic intervention.

Global transcriptomic study of atherosclerosis development in rats

Atherosclerosis is a chronic disease of the arterial wall and a leading cause of death worldwide. Though the pathophysiology of atherosclerotic lesion formation has been studied, we still lack evidence of the global changes in the artery during atherosclerosis. In this report, we induced atherosclerosis in rats and conducted GeneChip analysis on carotid arteries with or without plaque formation. We found that molecular pathways underlying plaque formation in atherosclerosis were related to immune response, angiogenesis, cell proliferation, apoptosis and hypoxic microenvironments, suggesting that the pathophysiology of atherosclerosis is varied. In addition, we showed that three lncRNAs, GAS5, SNHG6 and Zfas1, were significantly increased in the plaque of atherosclerosis patients compared to normal people. A complex interaction of mRNA and lncRNA was identified in atherosclerosis. Our results provide a global transcriptomic network of atherosclerosis development in rats and possible targets that could lead to new clinical applications in the future.

MiR-377 Regulates Inflammation and Angiogenesis in Rats After Cerebral Ischemic Injury: MiR-377 REGULATES INFLAMMATION AND ANGIOGENESIS IN RATS

Ischemic stroke is the leading cause of disabilities worldwide. MicroRNA‐377 (miR‐377) plays important roles in ischemic injury. The present study focused on the mechanisms of miR‐377 in protecting ischemic brain injury in rats. Cerebral ischemia was induced by middle cerebral artery occlusion (MCAO) in rats. Primary rat microglial cells and brain microvascular endothelial cells (BMECs) were exposed to oxygen‐glucose deprivation (OGD). The concentrations of cytokines (TNF‐α, IL‐1β, IL‐6, IFN‐γ, TGF‐β, MMP2, COX2, and iNOS) in the culture medium were measured by specific ELISA. Tube formation assay was for the in vitro study of angiogenesis. Luciferase reporter assay was performed to confirm whether VEGF and EGR2 were direct targets of miR‐377. The MCAO rats were intracerebroventricular (ICV) injection of miR‐377 inhibitor to assess its protective effects in vivo. MiR‐377 levels were decreased in the rat brain tissues at 1, 3, and 7 d after MCAO. Both microglia cells and BMECs under OGD showed markedly lower expression levels of miR‐377 while higher expression levels of EGR2 and VEGF compared to those under normoxia conditions. Knockdown of miR‐377 inhibited microglial activation and the release of pro‐inflammatory cytokines after OGD. Suppression of miR‐377 promoted the capillary‐like tube formation and cell proliferation and migration of BMECs. The anti‐inflammation effect of EGR2 and the angiogenesis effect of VEGF were regulated by miR‐377 after OGD. Inhibition of miR‐377 decreased cerebral infarct volume and suppressed cerebral inflammation but promoted angiogenesis in MCAO rats. Knockdown of miR‐377 lessened the ischemic brain injury through promoting angiogenesis and suppressing cerebral inflammation. J. Cell. Biochem. 119: 327–337, 2018.

Multiple Primary Primitive Neuroectodermal Tumours within the Spinal Epidural Space with Non-concurrent Onset

A case of multiple primary primitive neuroectodermal tumours (PNETs), which occurred at different levels of the spinal epidural space successively over a period of 8 months, is reported. A 24-year-old male, presenting with rapidly progressive paralysis, hyperthesia and a posterior epidural mass extending from T8 to T10 revealed by magnetic resonance imaging (MRI), exhibited a good recovery after initial emergency surgery. Lower back pain, chest pain and paralysis were subsequently reported. Spinal MRI in month 7 revealed a mass extending from T12 to L1 and another mass extending from T4 to T5 was detected epidurally in month 8. Additional operations were performed and radiotherapy was given. Pathological findings were consistent with PNETs and symptoms improved with treatment, particularly following each surgical excision.

Endovascular Treatment of the Extracranial Carotid Pseudoaneurysms Resulting From Stab Penetrating Injury Using Overlapping Bare Stents

Injury pertaining to the common carotid artery may result in complete or partial arterial transection, pseudoaneurysms, or arteriovenous connections. Endovascular treatment option of the pseudoaneurysm has already been established with favorable success rate and minimal morbidity. Our purpose is to report one 18-year-old male patient having 2 traumatic pseudoaneurysms as a result of penetrating stab injury in the extracranial common carotid. The patient was successfully treated using 2 overlapping bare-metal stents. The 2 common carotid pseudoaneurysms had different degree inflow angles defined as the space between the lines indicating the direction of blood flow from the parent artery and through the aneurysmal neck to the dome. Computed tomography angiography was utilized to follow the evolution of the pseudoaneurysms until total occlusion was demonstrated. The treatment modality used in this report represents an alternative approach of the endovascular treatment for the extracranial carotid pseudoaneurysm.

Expression of nerve growth factor carried by pseudotyped lentivirus improves neuron survival and cognitive functional recovery of post-ischemia in rats

Nerve growth factor (NGF) has been reported to prevent neuronal damage and contributes to the functional recovery in animal brain injury models and human ischemic disease as well. We aimed to investigate a potential therapeutic effect of NGF gene treatment in ischemic stroke and to estimate the functional recovery both at the cellular and cognitive levels in an ischemia rat model.

Improved neurite outgrowth on central nervous system myelin substrate by siRNA-mediated knockdown of Nogo receptor

Purpose To investigate the in vitro effect of short interfering RNAs (siRNAs) against Nogo receptor (NgR) on neurite outgrowth under an inhibitory substrate of central nervous system (CNS) myelin. Methods Three siRNA sequences against NgR were designed and transfected into cerebellar granule cells (CGCs) to screen for the most efficient sequence of NgR siRNA by using reverse transcription polymerase chain reaction (RT-PCR) and immunofluorescence staining. NgR siRNA sequence 1 was found the most efficient which was then transfected into the CGCs grown on CNS myelin substrate to observe its disinhibition for neurite outgrowth. Results Compared with the scrambled control sequence of siRNA, the NgR siRNA sequence 1 significantly decreased NgR mRNA level at 24 h and 48 h (p < 0.05), which was recovered by 96 h after transfection. NgR immunoreactivity was also markedly reduced at 24 and 48 h after the transfection of siRNA sequence 1 compared with that before transfection (p < 0.05). The NgR immunoreactivity was recovered after 72 h post-transfection. Moreover, the neurite outgrowth on the myelin substrate was greatly improved within 72 h after the transfection with siRNA sequence 1 compared with the scrambled sequence-transfected group or non-transfected group (p < 0.05). Conclusion : siRNA-mediated knockdown of NgR expression contributes to neurite outgrowth in vitro.