Peripherin: A proposed biomarker of traumatic axonal injury triggered by mechanical force.

Traumatic axonal injury (TAI) is one of the most common pathological features of severe traumatic brain injury (TBI). Our previous study using proteomics suggested that peripherin (PRPH) should be a potential candidate as a biomarker for TAI diagnosis. This study is to further elucidate the role and association of PRPH with TAI. In the animal study, we performed immunohistochemistry, ELISA and morphological analysis to evaluate PRPH level and distribution following a severe impact. PRPH-positive regions were widely distributed in the axonal tract throughout the whole brain. Axonal injuries with PRPH inclusion were observed post-TBI. Besides, PRPH was significantly increased in both cerebral spinal fluid and plasma at the early phase post-TBI. Colocalization analysis based on microscopy revealed that PRPH represents an immunohistological biomarker in the neuropathological diagnosis of TAI. Brain samples from patients with TBI were included to further test whether PRPH is feasible in the real practice of neuropathology. Immunohistochemistry of PRPH, NFH, APP and NFL on human brain tissues further confirmed PRPH as an immunohistological biomarker that could be applied in practice. Collectively, we conclude that PRPH mirrors the cytoskeleton injury of axons and could represent a neuropathological biomarker for TAI.

Progress in functional magnetic resonance imaging of emotion dysregulation due to traumatic brain injury / 中华行为医学与脑科学杂志

Patients with brain injury are often accompanied by emotional disorders, which can cause a variety of mental disorders, and mental disorders will continue to exist after rehabilitation, seriously affecting the ability of patients to adapt and integrate into society, greatly reducing the quality of life.Therefore, the research on the mechanism of emotional disorders after brain injury is of great significance to the clinical prevention and treatment of mental disorders related to emotional disorders.Functional magnetic resonance imaging (fMRI) provides a more intuitive and accurate research method for the study of emotional regulation, so many scholars have conducted in-depth research on emotional disorders after craniocerebral injury from different perspectives.In this paper, the functional MRI studies of emotional disorders were reviewed after craniocerebral injury in the past decade and most of the resting MRI studies showed that the mechanism of emotional disorders after craniocerebral injury is related to the imbalance of interaction among the resting default network, executive network and salience network, while the task MRI studies found that the amygdala, dorsolateral prefrontal lobe and anterior Cingulate gyrus and right inferior frontal gyrus played an important role in attention distribution, cognitive reappraisal, expression inhibition and other emotional regulation strategies, and the damage of these brain regions will cause corresponding emotional regulation disorders.In this paper, the neural mechanism and research progress of emotional disorders after brain injury were systematically reviewed, summarize the existing problems, and propose possible solutions from the perspective of resting and task state functional MRI.