The corticospinal tract (CST) is a major neuronal tract of motor function in the human brain (York, 1987; Davidoff, 1990; Jang, 2014). Recovery of an injured CST is one of the motor recovery mechanisms in stroke p...The corticospinal tract (CST) is a major neuronal tract of motor function in the human brain (York, 1987; Davidoff, 1990; Jang, 2014). Recovery of an injured CST is one of the motor recovery mechanisms in stroke patients (Hendricks et al., 2003; Jang et al., 2006, 2007; Swayne et al., 2008; Kwon et al., 2011, 2013; Kwon and Jang, 2012; Yeo and Jang, 2013; Rong et al., 2014). Diffusion tensor tractography (DTT), derived from diffusion tensor imaging (DTI), and transcra- nial magnetic stimulation (TMS) have been widely used in demonstrating the recovery of an injured CST (Hendricks et al., 2003; Jang et al., 2006, 2007; Swayne et al., 2008; Pannek et al., 2009; Kwon et al., 2011, 2013; Kwon and Jang, 2012; Yeo and Jang, 2013; Rong et al., 2014). DTT has the advan- tage of enabling visualization of the architecture and integ- rity of the CST at the subcortical level in three dimensions (Mori et al., 1999; Kunimatsu et al., 2004).展开更多
The corticospinal tract (CST) is a major neural tract for mo- tor function in the human brain. In addition, CST is mainly concerned with execution of movement of the hand (Jang, 2014). However, few studies are rep...The corticospinal tract (CST) is a major neural tract for mo- tor function in the human brain. In addition, CST is mainly concerned with execution of movement of the hand (Jang, 2014). However, few studies are reported on the mecha- nism underlying CST recovery after traumatic brain injury (Seo and Jang, 2015). In this study, we report on a case that showed recovery of an injured CST by traumatic axonal injury (TAI) at subcortical white matter, as detected on fol- low-up diffusion tensor tractography (DTT).展开更多
The corticospinal tract(CST)is an essential motor pathway in the human brain:particularly,it is essential for fine hand movements(Jang,2014).Stroke patients can show more severe weakness when a partial injury of ...The corticospinal tract(CST)is an essential motor pathway in the human brain:particularly,it is essential for fine hand movements(Jang,2014).Stroke patients can show more severe weakness when a partial injury of the CST is combined with apraxia.展开更多
BACKGROUND:Three-dimensional diffusion tensor tract(DTT)is the newest imaging to describe the structure of white matter fiber in three-dimensions,it has great significance in dividing the concrete anatomic site of gra...BACKGROUND:Three-dimensional diffusion tensor tract(DTT)is the newest imaging to describe the structure of white matter fiber in three-dimensions,it has great significance in dividing the concrete anatomic site of gray and white matter lesions,displaying the correlation with fibrous band and judging clinical prognosis,which is incomparable by other imagings.OBJECTIVE:To observe the conditions of corticospinal tract(CST)in acute cerebral ischemic stroke patients,and analyze the relationship between motor function and the severity of CST injury.DESIGN:A case-control observation.SETTING:Department of Medical Imaging,Fuzhou General Hospital of Nanjing Military Area Command of Chinese PLA.PARTICIPANTS:Fifteen patients with acute cerebral infarction were selected from Fuzhou General Hospital of Nanjing Military Area Command of Chinese PLA from February to December in 2005.They all suffered from acute attack and motor disorder of hemiplegic limbs to different extent,and were conformed by CT or MRI.There were 9 males and 6 females,aging 16-87 years old,the median age was 51.7 years,and all were right handed.Fifteen right-handed normal subjects,who were matched by age and sex with the patients in the cerebral infarction group,were selected from the relatives of patients and physicians of the Imaging Department as the control group.All the subjects were informed and agreed with the study.METHODS:The patients with acute cerebral infarction and subjects in the control group received MR diffusion tensor imaging(DTI)with GE 1.5 T nuclear magnetic resonance system,fiber tracking with the software of dTV-Ⅱ.Fractional anisotropy(FA)maps and three-dimensional tractography of bilateral CST of all patients were created.Displacement,continuity and destroy of fibrous bands were observed.At the same time,muscle strength of ipsilateral hand of patients with cerebral infarction was measured with Brunnstrom standard.The correlation between the severity of CST injury and the muscle strength of ipsilateral hand was analyzed with spearman correlation analysis.MAIN OUTCOME MEASURES:①FA values in the infarcted sites and those in the contralateral corresponding sites of patients with cerebral infarction;②CST manifestations in the patients with cerebral infarction and the control group.RESULTS:All the 30 testees were involved in the analysis of results.①The FA values in infarcted sites of white matter were significantly lower than those in the contralateral ones(t=4.570,P<0.001).②In the control group,bilateral CST were reconstructed,they originated from precentral gyrus,went downwards to internal capsule,and extended to pontine and medulla oblongata,each fiber had good uniformity in continuous form.In the patients with cerebral infarction,the forms of contralateral CST were consistent with those in the control group with good continuity.Due to the involvement by the infarcted site to different extents,the ipsilateral CST manifested as continuous interruption and loss of uniformity in anatomic structure and form.The CST involvements were divided into three grades:integrated CST for grade 1(n=2);integrated CST but compressed or displaced for grade 2(n=5);interrupted CST for grade 3(n=8).③The severity of CST injury was obviously correlated with the muscle strength of the ipsilateral hand(r=0.888,P<0.05).CONCLUSION:①CST is injured to different extents in patients with acute cerebral infarction,and the severity of injury is associated with muscle strength.It is indicated that it can be used to judge the prognosis of rehabilitative treatment.②DTT can directly display the status of pyramidal tract more three-dimensionally.展开更多
In clinical practice, it is challenging to elucidate the location of the lesion in a patient's nervous system that is causing the neurologic symptoms, because lesions are often microscopic and cannot be revealed by c...In clinical practice, it is challenging to elucidate the location of the lesion in a patient's nervous system that is causing the neurologic symptoms, because lesions are often microscopic and cannot be revealed by conventional evaluation methods.展开更多
基金supported by the DIGIST R&D Program of the Ministry of Science,ICT and Future Planning(15-BD-0401)
文摘The corticospinal tract (CST) is a major neuronal tract of motor function in the human brain (York, 1987; Davidoff, 1990; Jang, 2014). Recovery of an injured CST is one of the motor recovery mechanisms in stroke patients (Hendricks et al., 2003; Jang et al., 2006, 2007; Swayne et al., 2008; Kwon et al., 2011, 2013; Kwon and Jang, 2012; Yeo and Jang, 2013; Rong et al., 2014). Diffusion tensor tractography (DTT), derived from diffusion tensor imaging (DTI), and transcra- nial magnetic stimulation (TMS) have been widely used in demonstrating the recovery of an injured CST (Hendricks et al., 2003; Jang et al., 2006, 2007; Swayne et al., 2008; Pannek et al., 2009; Kwon et al., 2011, 2013; Kwon and Jang, 2012; Yeo and Jang, 2013; Rong et al., 2014). DTT has the advan- tage of enabling visualization of the architecture and integ- rity of the CST at the subcortical level in three dimensions (Mori et al., 1999; Kunimatsu et al., 2004).
基金supported by the National Research Foundation(NRF) of Korea Grant funded by the Korean Government(MSIP)(No.2015R1A2A2A01004073)
文摘The corticospinal tract (CST) is a major neural tract for mo- tor function in the human brain. In addition, CST is mainly concerned with execution of movement of the hand (Jang, 2014). However, few studies are reported on the mecha- nism underlying CST recovery after traumatic brain injury (Seo and Jang, 2015). In this study, we report on a case that showed recovery of an injured CST by traumatic axonal injury (TAI) at subcortical white matter, as detected on fol- low-up diffusion tensor tractography (DTT).
基金supported by the DGIST R&D Program of the Ministry of Science,ICT and Future Planning(15-BD-0401).SHJ designed this study,collected and analyzed data,and revised the paper.CHC participated in study design and data collection.WHJ participated in data collection and analysis and wrote the paper
文摘The corticospinal tract(CST)is an essential motor pathway in the human brain:particularly,it is essential for fine hand movements(Jang,2014).Stroke patients can show more severe weakness when a partial injury of the CST is combined with apraxia.
文摘BACKGROUND:Three-dimensional diffusion tensor tract(DTT)is the newest imaging to describe the structure of white matter fiber in three-dimensions,it has great significance in dividing the concrete anatomic site of gray and white matter lesions,displaying the correlation with fibrous band and judging clinical prognosis,which is incomparable by other imagings.OBJECTIVE:To observe the conditions of corticospinal tract(CST)in acute cerebral ischemic stroke patients,and analyze the relationship between motor function and the severity of CST injury.DESIGN:A case-control observation.SETTING:Department of Medical Imaging,Fuzhou General Hospital of Nanjing Military Area Command of Chinese PLA.PARTICIPANTS:Fifteen patients with acute cerebral infarction were selected from Fuzhou General Hospital of Nanjing Military Area Command of Chinese PLA from February to December in 2005.They all suffered from acute attack and motor disorder of hemiplegic limbs to different extent,and were conformed by CT or MRI.There were 9 males and 6 females,aging 16-87 years old,the median age was 51.7 years,and all were right handed.Fifteen right-handed normal subjects,who were matched by age and sex with the patients in the cerebral infarction group,were selected from the relatives of patients and physicians of the Imaging Department as the control group.All the subjects were informed and agreed with the study.METHODS:The patients with acute cerebral infarction and subjects in the control group received MR diffusion tensor imaging(DTI)with GE 1.5 T nuclear magnetic resonance system,fiber tracking with the software of dTV-Ⅱ.Fractional anisotropy(FA)maps and three-dimensional tractography of bilateral CST of all patients were created.Displacement,continuity and destroy of fibrous bands were observed.At the same time,muscle strength of ipsilateral hand of patients with cerebral infarction was measured with Brunnstrom standard.The correlation between the severity of CST injury and the muscle strength of ipsilateral hand was analyzed with spearman correlation analysis.MAIN OUTCOME MEASURES:①FA values in the infarcted sites and those in the contralateral corresponding sites of patients with cerebral infarction;②CST manifestations in the patients with cerebral infarction and the control group.RESULTS:All the 30 testees were involved in the analysis of results.①The FA values in infarcted sites of white matter were significantly lower than those in the contralateral ones(t=4.570,P<0.001).②In the control group,bilateral CST were reconstructed,they originated from precentral gyrus,went downwards to internal capsule,and extended to pontine and medulla oblongata,each fiber had good uniformity in continuous form.In the patients with cerebral infarction,the forms of contralateral CST were consistent with those in the control group with good continuity.Due to the involvement by the infarcted site to different extents,the ipsilateral CST manifested as continuous interruption and loss of uniformity in anatomic structure and form.The CST involvements were divided into three grades:integrated CST for grade 1(n=2);integrated CST but compressed or displaced for grade 2(n=5);interrupted CST for grade 3(n=8).③The severity of CST injury was obviously correlated with the muscle strength of the ipsilateral hand(r=0.888,P<0.05).CONCLUSION:①CST is injured to different extents in patients with acute cerebral infarction,and the severity of injury is associated with muscle strength.It is indicated that it can be used to judge the prognosis of rehabilitative treatment.②DTT can directly display the status of pyramidal tract more three-dimensionally.
文摘In clinical practice, it is challenging to elucidate the location of the lesion in a patient's nervous system that is causing the neurologic symptoms, because lesions are often microscopic and cannot be revealed by conventional evaluation methods.
