更新于：2024-11-01

Infarction, Middle Cerebral Artery

大脑中动脉梗塞

更新于：2024-11-01

基本信息

别名

Cerebral Infarction, Middle Cerebral Artery、Embolic Infarction, Middle Cerebral Artery、Embolus, Middle Cerebral Artery

+ [61]

简介

NECROSIS occurring in the MIDDLE CEREBRAL ARTERY distribution system which brings blood to the entire lateral aspects of each CEREBRAL HEMISPHERE. Clinical signs include impaired cognition; APHASIA; AGRAPHIA; weak and numbness in the face and arms, contralaterally or bilaterally depending on the infarction.

关联

项与大脑中动脉梗塞相关的药物

ARR-17477

靶点

nNOS

作用机制

nNOS抑制剂

在研机构

Oakland University [+2]

原研机构

AstraZeneca R&D Charnwood [+1]

在研适应症

大脑中动脉梗塞

非在研适应症

肌萎缩侧索硬化 [+1]

最高研发阶段临床前

首次获批国家/地区-

首次获批日期1800-01-20

Arundic acid

靶点

COX-2 x Free radicals x NOS2

作用机制

COX-2抑制剂 [+2]

在研机构-

原研机构

Ono Pharmaceutical Co., Ltd.

在研适应症-

非在研适应症

急性缺血性卒中 [+6]

最高研发阶段终止

首次获批国家/地区-

首次获批日期1800-01-20

Cenplacel-L (Celularity)

靶点-

作用机制

细胞替代物

在研机构-

原研机构

Celgene Cellular Therapeutics

在研适应症-

非在研适应症

克罗恩病 [+5]

最高研发阶段终止

首次获批国家/地区-

首次获批日期1800-01-20

项与大脑中动脉梗塞相关的临床试验

NCT06163547 / Not yet recruitingN/AIIT

Middle Meningeal Artery (MMA) Embolization for cSDH: Rationale and Design for the STOp Recurrence of MMA Bleeding (STORMM) Randomized-Control Trial

Chronic Subdural Hematomas (cSHD) are common, and due to cerebral compression, often result in neurological impairment and reduced consciousness. Surgery is typically performed once neurological symptoms develop. Recent studies suggest that arteries nourished by the middle meningeal artery (MMA) may be responsible for hematoma progression and that MMA embolization is clinically useful. There is less evidence, that embolization of MMA also may be a treatment option for individuals without surgical treatment. The investigators propose a multicentre study to investigate both potentials: (1) Assessment of efficacy of embolization after surgery to reduce recurrence and improve outcomes by conducting a randomized trial (randomization arms; Arms 1 and 2), (2) Assessment of embolization-alone efficacy when surgery is contraindicated or refused (embolization-only arm, Arms 3 and 4).

开始日期2024-07-01

申办/合作机构

Les Hôpitaux Universitaires de Genève

DRKS00034019 / RecruitingN/AIIT

Detection of Intracranial Arterial Stenosis by a Deep Learning (DL) Algorithm designed to identify Intracranial Large Vessel Occlusion (LVO)

开始日期2024-06-05

申办/合作机构-

CTRI/2024/02/063187 / Not yet recruiting临床2期IIT

Effect of Transcranial Direct Current stimulation along with proprioceptive neuromuscular of neuromuscular facilitation on Balance and Gait among stroke individuals. - Nil

开始日期2024-03-06

申办/合作机构-

100 项与大脑中动脉梗塞相关的临床结果

登录后查看更多信息

100 项与大脑中动脉梗塞相关的转化医学

登录后查看更多信息

0 项与大脑中动脉梗塞相关的专利（医药）

登录后查看更多信息

17,074

项与大脑中动脉梗塞相关的文献（医药）

2025-05-01·Neural Regeneration Research

Exercise preconditioning alleviates ischemia-induced memory deficits by increasing circulating adiponectin

Article

作者: Zhang, Borui ; So, Kwok-Fai ; Ou, Haining ; Zheng, Meifeng ; Yau, Sonata S Y ; Zhang, Li

JOURNAL/nrgr/04.03/01300535-202505000-00027/figure1/v/2024-07-28T173839Z/r/image-tiff Cerebral ischemia is a major health risk that requires preventive approaches in addition to drug therapy. Physical exercise enhances neurogenesis and synaptogenesis, and has been widely used for functional rehabilitation after stroke. In this study, we determined whether exercise training before disease onset can alleviate the severity of cerebral ischemia. We also examined the role of exercise-induced circulating factors in these effects. Adult mice were subjected to 14 days of treadmill exercise training before surgery for middle cerebral artery occlusion. We found that this exercise pre-conditioning strategy effectively attenuated brain infarct area, inhibited gliogenesis, protected synaptic proteins, and improved novel object and spatial memory function. Further analysis showed that circulating adiponectin plays a critical role in these preventive effects of exercise. Agonist activation of adiponectin receptors by AdipoRon mimicked the effects of exercise, while inhibiting receptor activation abolished the exercise effects. In summary, our results suggest a crucial role of circulating adiponectin in the effects of exercise pre-conditioning in protecting against cerebral ischemia and supporting the health benefits of exercise.

2025-03-01·Neural Regeneration Research

Maintaining moderate levels of hypochlorous acid promotes neural stem cell proliferation and differentiation in the recovery phase of stroke

Article

作者: Wang, Bin ; Ma, Ju-Yun ; Guo, Xin-Yian ; Li, Peng-Peng ; Pu, Hai-Wei ; Fan, Hai-Di ; Zhang, Yi-De ; Shen, Jian-Gang ; Qi, Su-Hua ; Chen, Jie ; Wang, Wan ; Huang, Lin-Yan

JOURNAL/nrgr/04.03/01300535-202503000-00029/figure1/v/2024-06-17T092413Z/r/image-tiff It has been shown clinically that continuous removal of ischemia/reperfusion-induced reactive oxygen species is not conducive to the recovery of late stroke. Indeed, previous studies have shown that excessive increases in hypochlorous acid after stroke can cause severe damage to brain tissue. Our previous studies have found that a small amount of hypochlorous acid still exists in the later stage of stroke, but its specific role and mechanism are currently unclear. To simulate stroke in vivo, a middle cerebral artery occlusion rat model was established, with an oxygen-glucose deprivation/reoxygenation model established in vitro to mimic stroke. We found that in the early stage (within 24 hours) of ischemic stroke, neutrophils produced a large amount of hypochlorous acid, while in the recovery phase (10 days after stroke), microglia were activated and produced a small amount of hypochlorous acid. Further, in acute stroke in rats, hypochlorous acid production was prevented using a hypochlorous acid scavenger, taurine, or myeloperoxidase inhibitor, 4-aminobenzoic acid hydrazide. Our results showed that high levels of hypochlorous acid (200 μM) induced neuronal apoptosis after oxygen/glucose deprivation/reoxygenation. However, in the recovery phase of the middle cerebral artery occlusion model, a moderate level of hypochlorous acid promoted the proliferation and differentiation of neural stem cells into neurons and astrocytes. This suggests that hypochlorous acid plays different roles at different phases of cerebral ischemia/reperfusion injury. Lower levels of hypochlorous acid (5 and 100 μM) promoted nuclear translocation of β-catenin. By transfection of single-site mutation plasmids, we found that hypochlorous acid induced chlorination of the β-catenin tyrosine 30 residue, which promoted nuclear translocation. Altogether, our study indicates that maintaining low levels of hypochlorous acid plays a key role in the recovery of neurological function.

2025-03-01·Biomaterials

Engineering hirudin encapsulation in pH-responsive antioxidant nanoparticles for therapeutic efficacy in ischemic stroke model mice

Article

作者: Hou, Junling ; Hu, Yifan ; Nagasaki, Yukio ; Xiao, Liman ; Zhang, Peiwen ; Mei, Ting

This study introduces a novel pH-sensitive, hirudin-loaded antioxidant nanoparticle (HD@iNano^AOX) aimed at addressing the challenges of hirudin's short half-life and hemorrhagic transformation. HD@iNano^AOX was engineered to safeguard and prolong hirudin's bioactivity by encapsulating it within antioxidative nanoparticles, facilitating its gradual release in acidic environments. The efficacy of this approach was validated through both ex vivo and in vivo experiments. Ex vivo thrombolytic assays demonstrated that HD@iNano^AOX maintained effective clot lysis activity under acidic conditions. In vivo assessments revealed that HD@iNano^AOX significantly prolonged hirudin's half-life and reduced cerebral infarct volume in a mouse model of middle cerebral artery occlusion (MCAO). Furthermore, HD@iNano^AOX treatment mitigated cerebral oxidative stress, suppressed hemorrhagic transformation, and prevented blood-brain barrier (BBB) disruption. These findings suggest that the combined thrombolytic and antioxidative properties of HD@iNano^AOX offer a promising therapeutic approach for ischemic stroke. Nonetheless, further research is warranted to optimize the formulation and assess its safety and efficacy in clinical settings.

项与大脑中动脉梗塞相关的新闻（医药）

2023-08-15

·BioSpace

Enspire DBS Therapy Announces the Publication of EDEN, an Early Feasibility Trial of Deep Brain Stimulation (DBS) plus Rehab for Stroke Patients, in Nature Medicine

Study participants showed meaningful improvements in both motor impairment and function CLEVELAND, Aug. 15, 2023 /PRNewswire/ -- Enspire DBS Therapy, Inc., (Enspire) a clinical stage company developing an implantable neuromodulation therapy for post-stroke recovery, announced today the publication of the results of The EDEN trial (Electrical Stimulation of the Dentate Nucleus for Upper Extremity Hemiparesis Due to Ischemic Stroke), an early feasibility study led by Cleveland Clinic researchers, in Nature Medicine. The EDEN study was designed to evaluate whether DBS plus rehabilitation therapy (DBS+Rehab) would improve motor function in patients post Ischemic Stroke more effectively than rehab alone. The study demonstrated that the majority of participants (9 out of 12) showed the most significant improvements in both motor impairment and function during the combination therapy, DBS+Rehab. Importantly, participants with at least minimal preservation of distal motor function at enrollment showed clinically significant gains. The safety pro this therapy is similar to other approved DBS therapies. These findings build on more than a decade of preclinical work led by principal investigators Andre Machado, M.D., Ph.D., and Kenneth Baker, Ph.D., at Cleveland Clinic. Dr. Machado patented the DBS method in stroke recovery to which Enspire has an exclusive license. Dr. Machado holds stock options and equity ownership rights with Enspire and serves as the Chief Scientific Officer. "We saw patients in the study regain levels of function and independence they did not have before enrolling in the research," Dr. Machado said. "We look forward to expanding as we have begun the next phase of clinical investigation." Enspire has launched RESTORE, a pivotal study continuing to investigate the safety and effectiveness of DBS+Rehab on patients with chronic upper extremity impairment due to stroke. The study has received IDE approval from the FDA and is actively recruiting patients. About Stroke Approximately 800,000 people in the United States alone suffer strokes every year and is the leading cause of long-term disabilities. While the majority of patients will survive the acute phase, persistent neurological issues will likely jeopardize quality of life and productivity, with approximately 50% of survivors still exhibiting disability severities that require assistance with daily activities. About EDEN The EDEN trial (Electrical Stimulation of the Dentate Nucleus for Upper Extremity Hemiparesis Due to Ischemic Stroke) conducted at Cleveland Clinic, enrolled 12 individuals with chronic, moderate-to-severe hemiparesis of the upper extremity as a result of a unilateral middle cerebral artery stroke 1-3 years prior. Each participant was implanted with a DBS System, which involved the surgical implantation of electrodes into the cerebellum. Following discharge and recovery from the surgery, participants completed several months of physical therapy, first with the DBS device turned off for several weeks and then turned on for four-to-eight months. About RESTORE The RESTORE Stroke Pivotal Study will evaluate the safety and effectiveness of DBS+Rehab for treating arm weakness and reduced function after a stroke to support marketing approval of this therapy. Each participant will be implanted with a commercially available third-party DBS system and receive a five-month outpatient rehabilitation therapy program. After five months of blinded randomized testing, participants assigned to active-control treatment (Ct) (rehab only) will cross over to receive DBS treatment (Tt) and participate in a second five-month therapy program. For more information see ClinicalTrials.gov ID NCT05701280. The RESTORE trial is actively recruiting. DBS for stroke is investigational use; clinical studies for this indication are conducted under Enspire's approved IDE from FDA. About Enspire Enspire DBS Therapy, Inc. headquartered in Cleveland, OH, is a clinical stage medical device company focused on providing neuromodulation solutions to patients suffering with disabilities from stroke. Established in 2010, Enspire is a Cleveland Clinic portfolio company with the goal of commercializing novel technology. For more information, visit

临床研究临床结果

2023-08-14

·Science Daily

Study shows deep brain stimulation encouraging for stroke patients

A first-in-human trial of deep brain stimulation (DBS) for post-stroke rehabilitation patients has shown that using DBS to target the dentate nucleus -- which regulates fine-control of voluntary movements, cognition, language, and sensory functions in the brain -- is safe and feasible. A first-in-human trial of deep brain stimulation (DBS) for post-stroke rehabilitation patients by Cleveland Clinic researchers has shown that using DBS to target the dentate nucleus -- which regulates fine-control of voluntary movements, cognition, language, and sensory functions in the brain -- is safe and feasible. The EDEN trial (Electrical Stimulation of the Dentate Nucleus for Upper Extremity Hemiparesis Due to Ischemic Stroke) also shows that the majority of participants (nine out of 12) demonstrated improvements in both motor impairment and function. Importantly, the study found that participants with at least minimal preservation of distal motor function at enrollment showed gains that almost tripled their initial scores. Published in Nature Medicine, these findings build on more than a decade of preclinical work led by principal investigators Andre Machado, M.D., Ph.D., and Kenneth Baker, Ph.D., at Cleveland Clinic. "These are reassuring for patients as the participants in the study had been disabled for more than a year and, in some cases, three years after stroke. This gives us a potential opportunity for much needed improvements in rehabilitation in the chronic phases of stroke recovery," said Dr. Machado, chair of Cleveland Clinic's Neurological Institute. "The quality-of-life implications for study participants who responded to therapy have been significant." Dr. Machado patented the DBS method in stroke recovery. Boston Scientific owns a license to those patents and provided the Vercise DBS systems used in the trial. In 2010, Cleveland Clinic Innovations established Enspire DBS Therapy, Inc., a Cleveland Clinic portfolio company and is commercializing technology developed at Cleveland Clinic to commercialize the method and it co-funded the study. Dr. Machado holds stock options and equity ownership rights with Enspire and serves as the chief scientific officer. "We saw patients in the study regain levels of function and independence they did not have before enrolling in the research," Dr. Machado said. "This was a smaller study and we look forward to expanding as we have begun the next phase." The completed EDEN trial enrolled 12 individuals with chronic, moderate-to-severe hemiparesis of the upper extremity as a result of a unilateral middle cerebral artery stroke 12-to-36 months prior. There were no major complications throughout the study. Nine of the 12 participants improved to a degree that is considered meaningful in stroke rehabilitation. Each participant underwent DBS surgery, which involved the surgical implantation of electrodes into a part of the brain called the cerebellum. Once connected to a pace-maker-like device, the electrodes were used to deliver small electric pulses to help people recover control of their movements. Following discharge and recovery from the surgery, participants completed months of physical therapy, first with the DBS device turned off for several weeks and then turned on for four-to-eight months. It was after turning the device on that the most significant improvements were observed. "The safety and feasibility data from this early study combined with the potential symptom improvements certainly support the need for additional, larger trials to see if cerebellar DBS is indeed a potential treatment for post-stroke motor impairment," said Brooks Gross, Ph.D., program director, National Institute of Neurological Disorders and Stroke. Stroke is the leading cause of long-term disabilities. Approximately 800,000 people in the United States alone suffer strokes every year. While the majority of patients will survive the acute phase, persistent neurological issues likely will jeopardize quality of life and productivity, with approximately 50% of survivors still exhibiting disability severities that require assistance with daily activities. "There are currently no effective methods to improve the outcomes of physical rehabilitation for the hundreds of thousands of stroke survivors," said Dr. Baker, Cleveland Clinic Lerner Research Institute. "The results of the study found that deep brain stimulation, paired with physical therapy, improved movement in patients who were more than a year out from their stroke and whose motor improvements had largely plateaued. This tells us the research warrants further investigation in larger patient samples." Research reported in this press release was supported by the NIH Brain Research Through Advancing Innovative Neurotechnologies® Initiative, or The BRAIN Initiative®, under award number UH3NS100543. The study was also supported by Enspire DBS Therapy, Inc.

临床结果

2023-08-01

·BioSpace

Enspire DBS Therapy Announces $17.6 Million Series B Financing to Advance the Development of Deep Brain Stimulation (DBS) plus Rehabilitation for Stroke Patients

Financing round led by Cleveland Clinic with participating investors JobsOhio Growth Capital Fund and an undisclosed investor Proceeds will enable the initiation of the pivotal clinical trial RESTORE CLEVELAND, Aug. 1, 2023 /PRNewswire/ -- Enspire DBS Therapy, Inc., (Enspire) a clinical stage company developing an implantable neuromodulation therapy for post-stroke recovery, announced today that it raised $17.6 million of committed capital in a Series B financing led by existing investor, Cleveland Clinic. Also participating in the round were JobsOhio Growth Capital Fund and an undisclosed investor. The company plans to use the proceeds to initiate the RESTORE pivotal clinical trial using deep brain stimulation (DBS) and rehab therapy (DBS + Rehab) to treat patients with chronic upper extremity impairment due to stroke. "The first trial in humans known as EDEN (Electrical Stimulation of the Dentate Nucleus for Upper Extremity Hemiparesis Due to Ischemic Stroke), was a proof-of-concept study combining DBS with Rehab to help stroke patients regain function. The results from EDEN led to this Series B raise," said Scott Kokones, Chief Executive Officer of Enspire, "With RESTORE, the company aims to generate the data necessary to demonstrate the long-term safety and efficacy of DBS+Rehab in Stroke patients to support marketing approval." "Cleveland Clinic Innovations is dedicated to supporting technologies to enhance patient outcomes. Our most recent investment in Enspire DBS aligns with our focus on innovative neuro-stimulation solutions addressing significant clinical challenges," said JD Friedland, Managing Director of Ventures at Cleveland Clinic Innovations. "Enspire's emphasis on operationalizing and advancing new technology matches the mission of Cleveland Clinic Innovations." About Stroke Approximately 800,000 people in the United States suffer strokes yearly, which is the leading cause of long-term disabilities. While most patients will survive the acute phase, persistent neurological issues will likely jeopardize the quality of life and productivity, with approximately 50% of survivors still exhibiting disability severities that require assistance with daily activities. About EDEN The EDEN trial (Electrical Stimulation of the Dentate Nucleus for Upper Extremity Hemiparesis Due to Ischemic Stroke) conducted at The Cleveland Clinic enrolled 12 individuals with chronic, moderate-to-severe hemiparesis of the upper extremity because of a unilateral middle cerebral artery stroke 1-3 years prior. Each participant was implanted with a DBS System, which involved the surgical implantation of electrodes into the cerebellum. Following discharge and recovery from the surgery, participants completed several months of physical therapy, first with the DBS device turned off for several weeks and then turned on for four-to-eight months. DBS for stroke is investigational use; clinical studies for this indication are conducted under Enspire's approved IDE from FDA. About RESTORE The RESTORE Stroke Pivotal Study will evaluate the safety and effectiveness of DBS + Rehab for treating arm weakness and reduced function after a stroke to support marketing approval of this therapy. Each participant will be implanted with a commercially available third-party DBS system and receive a five-month outpatient rehabilitation therapy program. After five months of blinded randomized testing, participants assigned to active-control treatment (Ct) (rehab only) will cross over to receive DBS treatment (Tt) and participate in a second five-month therapy program. For more information, see ClinicalTrials.gov ID NCT05701280. The RESTORE trial is actively recruiting. About Enspire Enspire DBS Therapy, Inc., headquartered in Cleveland, OH, is a clinical-stage medical device company focused on providing neuromodulation solutions to patients suffering from disabilities from stroke. Established in 2010, Enspire is a Cleveland Clinic portfolio company with the goal of commercializing novel therapies. For more information, visit

临床研究