Objective:To explore the value of intraoperative multimodal monitoring in superficial temporal artery-middle cerebral artery (STA-MCA) bypass surgery in evaluating hemodynamic parameters and blood-brain barrier disruption, as well as their correlations with postoperative perfusion changes.Methods:A retrospective case series study was performed; 60 patients with ischemic cerebrovascular diseases admitted to Department of Neurosurgery, Lianyungang Clinical Medical College of Nanjing Medical University (Lianyungang First People's Hospital) from March 2023 to October 2024 were selected, including 17 patients with moyamoya disease and 43 patients with chronic internal carotid artery occlusion and/or chronic symptomatic MCA stenosis/occlusion. All patients were confirmed by CTA or DSA and underwent STA-MCA M4 segment bypass surgery. Intraoperatively, microvascular Doppler ultrasound (MDU), sodium fluorescein angiography, and indocyanine green angiography combined with Flow800 (ICG-Flow800) were used to monitor the blood-brain barrier disruption grade, as well as the peak systolic velocity (PSV) and blood flow direction of the STA and recipient artery before and after arterial anastomosis. Cerebral blood perfusion improvement was reexamined by CT perfusion (CTP) 7 days and 1 month after surgery. These 60 patients were divided into a group with blood flow into the sylvian fissure (inflow group, n=27) and a group with blood flow out of the sylvian fissure (outflow group, n=33) according to the direction of recipient artery blood flow before arterial anastomosis, and further subdivided into subgroups with PSV≤10 cm/s and >10 cm/s based on the recipient artery PSV. Clinical and imaging data of these patients were collected and analyzed as follows: (1) CTP parameters such as cerebral blood volume, cerebral blood flow, mean transit time, and time to peak before surgery, 7 days after surgery, and 1 month after surgery were compared; (2) differences between the recipient artery PSV before arterial anastomosis and recipient artery exiting sylvian fissure velocity (RA.EXV) or recipient artery entering sylvian fissure velocity (RA.ESV) of the recipient artery after anastomosis were compared; (3) differences in ICG-Flow800 fluorescence intensity curve parameters such as delay time, rise time, curve slope, time to peak, and maximum fluorescence intensity of the cerebral surface veins before and after arterial anastomosis were compared; (4) spearman rank correlation was used to analyze the correlation of recipient artery PSV before arterial anastomosis with preoperative CTP parameters in all patients, the correlations of RA.ESV in the inflow group or RA.EXV in the outflow group with CTP parameters 7 days after surgery, and the correlations of blood-brain barrier disruption grade with preoperative CTP parameters, recipient artery PSV before arterial anastomosis, and RA.ESV or RA.EXV after arterial anastomosis in all patients. Results:(1) The blood flow direction of all recipient arteries became bidirectional after surgery. Cerebral blood perfusion improved to varying degrees after surgery: the mean transit time 7 days and 1 month after surgery, and cerebral blood flow 1 month after surgery were significantly higher compared with those before surgery ( P<0.05). (2) Regardless of the blood flow direction (into or out of the sylvian fissure), the RA.ESV or RA.EXV after anastomosis was significantly higher than the recipient artery PSV before anastomosis when the recipient artery PSV≤10 cm/s ( P<0.05). (3) For all patients, the ICG-Flow800 fluorescent intensity curve parameters of cerebral surface veins after anastomosis improved significantly compared with that before anastomosis ( P<0.05). (4) Preoperative recipient artery PSV was positively correlated with preoperative CBF in all patients ( rs=0.445, P=0.020). In the inflow group, postoperative RA.ESV was positively correlated with Tmax 7 days after surgery ( rs=0.490, P=0.009). The blood-brain barrier disruption grade was positively correlated with preoperative Tmax in all patients ( rs=0.478, P=0.012). Conclusion:Intraoperative multimodal monitoring in STA-MCA bypass surgery can provide surgeons with detailed hemodynamic parameters and blood-brain barrier disruption data, enabling real-time evaluation of surgical outcomes to optimize operative decision-making.

Objective:To evaluate the effect of superficial temporal artery to middle cerebral artery (STA-MCA) bypass on cognitive function, cerebral perfusion, and integrity of white matter tracts by comparing cognitive function scores, fractional anisotropy (FA), time to maximum (T max), and cerebral blood flow (CBF) at different time points before and after STA-MCA bypass, and analyze the relations of cognitive function with cerebral perfusion and white matter tract integrity so as to provide evidences for treatment of moyamoya disease (MMD) patients with mild cognitive impairment. Methods:A retrospective analysis was performed; 30 MMD patients with mild cognitive impairment received STA-MCA bypass at Department of Neurosurgery, Lianyungang Hospital Affiliated to Xuzhou Medical University (Lianyungang First People's Hospital) from January 2023 to August 2024 were enrolled. Before and 1, 3, and 6 months after STA-MCA bypass, all patients accepted Montreal cognitive assessment (MoCA), CT perfusion imaging, and diffusion tensor imaging (DTI). Differences in MoCA score, CBF, T max, and FA at different time points before and after surgery were compared. Spearman rank correlation was used to analyze the correlation of MoCA score with cerebral perfusion parameters and FA. Results:(1) In these MMD patients with mild cognitive impairment, CBF 3 and 6 months after STA-MCA bypass was significantly increased compared with that before STA-MCA bypass, and CBF 6 months after STA-MCA bypass was significantly higher than that 1 and 3 months after STA-MCA bypass ( P<0.05); T max 1, 3 and 6 months after STA-MCA bypass was significantly shortened compared with that before STA-MCA bypass, and T max 6 months after STA-MCA bypass was significantly shortened than that 1 and 3 months after STA-MCA bypass ( P<0.05); FA 6 months after STA-MCA bypass was significantly increased compared with that before, and 1 and 3 months after STA-MCA bypass ( P<0.05); MoCA score 6 months after STA-MCA bypass was significantly increased compared with that before and 1 month after STA-MCA bypass ( P<0.05). (2) In MMD patients with mild cognitive impairment, the preoperative MoCA score was positively correlated with preoperative CBF and FA ( r s=0.428, P=0.018; r s=0.438, P=0.015) and negatively correlated with preoperative T max ( r s=-0.380, P=0.039); 6 months after STA-MCA bypass, the MoCA score was positively correlated with CBF and FA ( r s=0.365, P=0.047; r s=0.400, P=0.028) and negatively correlated with T max ( r s=-0.371, P=0.043). Conclusion:STA-MCA bypass can improve cerebral perfusion, white matter fiber tract repair and cognitive function in MMD patients with mild cognitive impairment, and improvement of cognitive function is related to cerebral perfusion and white matter fiber tract repair.

Objective:To explore the value of intraoperative multimodal monitoring in superficial temporal artery-middle cerebral artery (STA-MCA) bypass surgery in evaluating hemodynamic parameters and blood-brain barrier disruption, as well as their correlations with postoperative perfusion changes.Methods:A retrospective case series study was performed; 60 patients with ischemic cerebrovascular diseases admitted to Department of Neurosurgery, Lianyungang Clinical Medical College of Nanjing Medical University (Lianyungang First People's Hospital) from March 2023 to October 2024 were selected, including 17 patients with moyamoya disease and 43 patients with chronic internal carotid artery occlusion and/or chronic symptomatic MCA stenosis/occlusion. All patients were confirmed by CTA or DSA and underwent STA-MCA M4 segment bypass surgery. Intraoperatively, microvascular Doppler ultrasound (MDU), sodium fluorescein angiography, and indocyanine green angiography combined with Flow800 (ICG-Flow800) were used to monitor the blood-brain barrier disruption grade, as well as the peak systolic velocity (PSV) and blood flow direction of the STA and recipient artery before and after arterial anastomosis. Cerebral blood perfusion improvement was reexamined by CT perfusion (CTP) 7 days and 1 month after surgery. These 60 patients were divided into a group with blood flow into the sylvian fissure (inflow group, n=27) and a group with blood flow out of the sylvian fissure (outflow group, n=33) according to the direction of recipient artery blood flow before arterial anastomosis, and further subdivided into subgroups with PSV≤10 cm/s and >10 cm/s based on the recipient artery PSV. Clinical and imaging data of these patients were collected and analyzed as follows: (1) CTP parameters such as cerebral blood volume, cerebral blood flow, mean transit time, and time to peak before surgery, 7 days after surgery, and 1 month after surgery were compared; (2) differences between the recipient artery PSV before arterial anastomosis and recipient artery exiting sylvian fissure velocity (RA.EXV) or recipient artery entering sylvian fissure velocity (RA.ESV) of the recipient artery after anastomosis were compared; (3) differences in ICG-Flow800 fluorescence intensity curve parameters such as delay time, rise time, curve slope, time to peak, and maximum fluorescence intensity of the cerebral surface veins before and after arterial anastomosis were compared; (4) spearman rank correlation was used to analyze the correlation of recipient artery PSV before arterial anastomosis with preoperative CTP parameters in all patients, the correlations of RA.ESV in the inflow group or RA.EXV in the outflow group with CTP parameters 7 days after surgery, and the correlations of blood-brain barrier disruption grade with preoperative CTP parameters, recipient artery PSV before arterial anastomosis, and RA.ESV or RA.EXV after arterial anastomosis in all patients. Results:(1) The blood flow direction of all recipient arteries became bidirectional after surgery. Cerebral blood perfusion improved to varying degrees after surgery: the mean transit time 7 days and 1 month after surgery, and cerebral blood flow 1 month after surgery were significantly higher compared with those before surgery ( P<0.05). (2) Regardless of the blood flow direction (into or out of the sylvian fissure), the RA.ESV or RA.EXV after anastomosis was significantly higher than the recipient artery PSV before anastomosis when the recipient artery PSV≤10 cm/s ( P<0.05). (3) For all patients, the ICG-Flow800 fluorescent intensity curve parameters of cerebral surface veins after anastomosis improved significantly compared with that before anastomosis ( P<0.05). (4) Preoperative recipient artery PSV was positively correlated with preoperative CBF in all patients ( rs=0.445, P=0.020). In the inflow group, postoperative RA.ESV was positively correlated with Tmax 7 days after surgery ( rs=0.490, P=0.009). The blood-brain barrier disruption grade was positively correlated with preoperative Tmax in all patients ( rs=0.478, P=0.012). Conclusion:Intraoperative multimodal monitoring in STA-MCA bypass surgery can provide surgeons with detailed hemodynamic parameters and blood-brain barrier disruption data, enabling real-time evaluation of surgical outcomes to optimize operative decision-making.

Objective:To evaluate the effect of superficial temporal artery to middle cerebral artery (STA-MCA) bypass on cognitive function, cerebral perfusion, and integrity of white matter tracts by comparing cognitive function scores, fractional anisotropy (FA), time to maximum (T max), and cerebral blood flow (CBF) at different time points before and after STA-MCA bypass, and analyze the relations of cognitive function with cerebral perfusion and white matter tract integrity so as to provide evidences for treatment of moyamoya disease (MMD) patients with mild cognitive impairment. Methods:A retrospective analysis was performed; 30 MMD patients with mild cognitive impairment received STA-MCA bypass at Department of Neurosurgery, Lianyungang Hospital Affiliated to Xuzhou Medical University (Lianyungang First People's Hospital) from January 2023 to August 2024 were enrolled. Before and 1, 3, and 6 months after STA-MCA bypass, all patients accepted Montreal cognitive assessment (MoCA), CT perfusion imaging, and diffusion tensor imaging (DTI). Differences in MoCA score, CBF, T max, and FA at different time points before and after surgery were compared. Spearman rank correlation was used to analyze the correlation of MoCA score with cerebral perfusion parameters and FA. Results:(1) In these MMD patients with mild cognitive impairment, CBF 3 and 6 months after STA-MCA bypass was significantly increased compared with that before STA-MCA bypass, and CBF 6 months after STA-MCA bypass was significantly higher than that 1 and 3 months after STA-MCA bypass ( P<0.05); T max 1, 3 and 6 months after STA-MCA bypass was significantly shortened compared with that before STA-MCA bypass, and T max 6 months after STA-MCA bypass was significantly shortened than that 1 and 3 months after STA-MCA bypass ( P<0.05); FA 6 months after STA-MCA bypass was significantly increased compared with that before, and 1 and 3 months after STA-MCA bypass ( P<0.05); MoCA score 6 months after STA-MCA bypass was significantly increased compared with that before and 1 month after STA-MCA bypass ( P<0.05). (2) In MMD patients with mild cognitive impairment, the preoperative MoCA score was positively correlated with preoperative CBF and FA ( r s=0.428, P=0.018; r s=0.438, P=0.015) and negatively correlated with preoperative T max ( r s=-0.380, P=0.039); 6 months after STA-MCA bypass, the MoCA score was positively correlated with CBF and FA ( r s=0.365, P=0.047; r s=0.400, P=0.028) and negatively correlated with T max ( r s=-0.371, P=0.043). Conclusion:STA-MCA bypass can improve cerebral perfusion, white matter fiber tract repair and cognitive function in MMD patients with mild cognitive impairment, and improvement of cognitive function is related to cerebral perfusion and white matter fiber tract repair.

Objective:To investigate the treatment and prognosis of acute carotid artery occlusion during perioperative period of carotid endarterectomy (CEA).Methods:The clinical data of 112 carotid artery stenosis patients who underwent CEA from January 2017 to December 2021 in Lianyungang Hospital Affiliated to Xuzhou Medical University were retrospectively analyzed. The patients were followed up at 6 to 9 months after surgery, the clinical prognosis was evaluated by Glasgow outcome score (GOS), and the head and neck CT angiography (CTA) was performed.Results:Among the 112 patients, 5 patients underwent acute carotid artery occlusion during the perioperative period, including 1 case of intraoperative acute occlusion of internal carotid artery and 1 case of intraoperative internal carotid artery combined with external carotid artery cute occlusion, both of them were re-sutured, and multi-mode monitoring showed that each carotid artery was unobstructed; 2 cases of intraoperative external carotid artery occlusion, no re-suture was performed during the operation; 1 case of intraoperative monitoring showed no obvious abnormality, and the contralateral limb hemiplegia was observed after surgery, and the muscle strength was grade 1, the carotid color Doppler ultrasound showed the occlusion of the internal carotid artery on the operation side. The CT and CTA examination showed focal infarction and common carotid artery on the operation side, and drugs and conservative treatment were given. The follow-up result: GOS 5 scores was in 4 cases, and 4 scores in 1 case; the muscle strength of hemiplegia patient recovered to grade 4; head and neck CTA examination, except for 1 case of common arterial occlusion, the other 4 cases showed no special abnormality.Conclusions:Intraoperative acute carotid artery occlusion can be detected timely by intraoperative multi-mode hemodynamic monitoring during CEA. Vascular recanalization after acute occlusion is possible by adopting active and effective treatment methods, the occurrence of postoperative ischemic stroke can be effectively prevented and the prognosis of patients can be improved.

Moyamoya disease is a cerebrovascular disease characterized by progressive stenosis of the distal end of the internal carotid artery, followed by the formation of an abnormal vascular network in the skull base. At present, the main treatment approach is to perform superficial temporal artery to middle cerebral artery bypass grafting to increase cerebral blood flow and improve the symptoms of patients. Cerebral hyperperfusion syndrome (CHS) is a common complication after revascularization, which can lead to more severe complications such as transient neurological events and intracranial hemorrhage. Therefore, predicting the occurrence of CHS through multimodal intraoperative monitoring is crucial for improving the outcomes of patients. This article reviews various common intraoperative monitoring techniques for predicting CHS.

Objective:To investigate the application value of indocyanine green videoangiography (ICG-VA) in microsurgical clipping of ruptured posterior communicating artery aneurysms (PCoAA).Methods:Patients with ruptured PCoAA underwent microsurgical clipping and intraoperative ICG-VA at the Department of Neurosurgery, Lianyungang First People's Hospital from January 2020 to July 2022 were included retrospectively. Head CT was reviewed 3 days after operation to determine perioperative complications. CT angiography (CTA) or digital subtraction angiography (DSA) were used to evaluate the monitoring effect of ICG-VA. Glasgow Outcome Scale (GOS) was used to evaluate the clinical outcomes.Results:Thirty-two patients with ruptured PCoAA (a total of 38 aneurysms) were enrolled, including 7 males (21.9%), aged 57.97±8.91 years (range, 40~73). Twenty-seven patients (84.4%) had single aneurysm and 5 (15.6%) had multiple aneurysms (4 patients with 2 aneurysms and 1 with 3 aneurysms). Twenty-four patients (75.0%) had no or mild consciousness disorder, and 8 (25.0%) had moderate to severe consciousness disorder. The aneurysms of all patients were successfully clipped and ICG-VA was performed for a total of 40 times. Five patients with multiple aneurysms underwent precise localization of the parent artery and aneurysmal body using ICG-VA before clipping. After initial clipping, ICG-VA found 3 cases of residual aneurysms. After adjusting or adding aneurismal clips, ICG-VA showed that the residues were eliminated. Three days after the surgery, CT scan showed that 1 patient had right subdural effusion with periventricular infarction, and 1 had subdural effusion. At the final follow-up, CTA or DSA showed no residual aneurysms; the GOS score of 18 patients (56.3%) were 5, 5 patients (15.6%) were 4, and 9 (28.1%) were 3. There were no cases of vegetative state or death.Conclusion:ICG-VA assisted microsurgical clipping of ruptured PCoAA can effectively avoid residual aneurysms and the clinical application value is significant.

Objective:To analyze the characteristics of medical imaging and surgical procedure of the lateral orbital keyhole (LOK) approach in treatment of ruptured internal carotid artery bifurcation aneurysms (ICABifAs) originated from different aneurysmal necks, therefore to provide a clinical guidance for the treatment.Methods:A retrospective analysis was carried out based on the clinical data and pre-, intra- and post-operative images of 23 patients with ICABifAs that were diagnosed and treated in the Department of Neurosurgery, Lianyungang Clinical Medical College of Nanjing Medical University from January 2017 to June 2023. All patients were treated with craniotomy and clipping through the LOK approach. According to different origins, the aneurysmal necks were divided into type A1 (A1), type M1 (M1) and type ICA (ICA). Ratios of angle and diameter between A1 (M1) and ICA were measured on 3D CTA images, and the correlation analysis was performed. Postoperative follow-ups were conducted at 2 weeks and 1, 3, and 6 months after surgery, together with reviews of head CT, CTA or DSA and physical examinations. The surgical outcomes were evaluated by Glasgow Outcome Scale (GOS). Microsoft Excel and SPSS 27.0 statistical software were used to analyse the data. The diameter of the end of A1, M1, ICA and the angle between ICA, the diameter of tumor neck, and the paired sample t- test were used to analyse the size differences, and correlation analysis was used to explore the relationships with them. P<0.05 was considered a statistically significant different. Results:In this study, 12 patients (52.2%) were found with A1 aneurysmal neck, 1 (4.3%) with M1 and 10 (43.5%) with ICA. The diameter of A1 and the angle between A1 and ICA were found both smaller than those of M1. The angle between A1 and ICA was positively correlated with the angle between M1 and ICA. The angle between A1 and ICA was negatively correlated with the diameter of A1 aneurysms. All of 23 patients of ICABifAs were successfully clipped. One patient had a ptosis on the operated side and returned to normal (GOS=5) at 3 months after surgery; Postoperative hemiplegia occurred on the opposite site (Grade Ⅰ for upper limb muscle strength and Grade Ⅱ for lower limb muscle strength) in 1 patient who had Hunt-Hess grade IV before surgery, however, GOS 3 was found at 6 months after surgery (of contralateral limbs, Grade Ⅱ for upper limb strength and Grade Ⅲ for lower limb muscle strength); One patient had contralateral limb movement impairment after surgery (Grade Ⅲ for upper limb muscle strength and Grade IV for lower limb muscle strength), with GOS 5 at 6 months after surgery; One patient with preoperative Fisher classification IV developed secondary hydrocephalus at 2 months after surgery, with GOS 4 at 6 months after surgery. The other 20 patients were all in stable condition after surgery.Conclusion:Among the ICABifAs, A1 aneurysmal neck is the most common type, while ICA is slightly less and M1 is the least type. The angle between A1 and ICA is positively related to the angle between M1 and ICA. The angle between A1 and ICA is negatively correlated with the diameter of A1 aneurysm. Treatment of ruptured ICABifAs through a LOK approach is a feasible and effective minimally invasive procedure.

Objective:To analyze the characteristics of medical imaging and surgical procedure of the lateral orbital keyhole (LOK) approach in treatment of ruptured internal carotid artery bifurcation aneurysms (ICABifAs) originated from different aneurysmal necks, therefore to provide a clinical guidance for the treatment.Methods:A retrospective analysis was carried out based on the clinical data and pre-, intra- and post-operative images of 23 patients with ICABifAs that were diagnosed and treated in the Department of Neurosurgery, Lianyungang Clinical Medical College of Nanjing Medical University from January 2017 to June 2023. All patients were treated with craniotomy and clipping through the LOK approach. According to different origins, the aneurysmal necks were divided into type A1 (A1), type M1 (M1) and type ICA (ICA). Ratios of angle and diameter between A1 (M1) and ICA were measured on 3D CTA images, and the correlation analysis was performed. Postoperative follow-ups were conducted at 2 weeks and 1, 3, and 6 months after surgery, together with reviews of head CT, CTA or DSA and physical examinations. The surgical outcomes were evaluated by Glasgow Outcome Scale (GOS). Microsoft Excel and SPSS 27.0 statistical software were used to analyse the data. The diameter of the end of A1, M1, ICA and the angle between ICA, the diameter of tumor neck, and the paired sample t- test were used to analyse the size differences, and correlation analysis was used to explore the relationships with them. P<0.05 was considered a statistically significant different. Results:In this study, 12 patients (52.2%) were found with A1 aneurysmal neck, 1 (4.3%) with M1 and 10 (43.5%) with ICA. The diameter of A1 and the angle between A1 and ICA were found both smaller than those of M1. The angle between A1 and ICA was positively correlated with the angle between M1 and ICA. The angle between A1 and ICA was negatively correlated with the diameter of A1 aneurysms. All of 23 patients of ICABifAs were successfully clipped. One patient had a ptosis on the operated side and returned to normal (GOS=5) at 3 months after surgery; Postoperative hemiplegia occurred on the opposite site (Grade Ⅰ for upper limb muscle strength and Grade Ⅱ for lower limb muscle strength) in 1 patient who had Hunt-Hess grade IV before surgery, however, GOS 3 was found at 6 months after surgery (of contralateral limbs, Grade Ⅱ for upper limb strength and Grade Ⅲ for lower limb muscle strength); One patient had contralateral limb movement impairment after surgery (Grade Ⅲ for upper limb muscle strength and Grade IV for lower limb muscle strength), with GOS 5 at 6 months after surgery; One patient with preoperative Fisher classification IV developed secondary hydrocephalus at 2 months after surgery, with GOS 4 at 6 months after surgery. The other 20 patients were all in stable condition after surgery.Conclusion:Among the ICABifAs, A1 aneurysmal neck is the most common type, while ICA is slightly less and M1 is the least type. The angle between A1 and ICA is positively related to the angle between M1 and ICA. The angle between A1 and ICA is negatively correlated with the diameter of A1 aneurysm. Treatment of ruptured ICABifAs through a LOK approach is a feasible and effective minimally invasive procedure.

Carotid artery stenosis is an important cause of ischemic stroke. Carotid endarterectomy and carotid artery stenting are the effective methods for treating carotid artery stenosis, but postoperative restenosis remains a challenge. The pathogenesis of postoperative restenosis is currently not fully understood. However, multiple factors, including biomarkers, imaging features, and surgical related factors, have been proven to be associated with postoperative restenosis and can predict the occurrence of postoperative restenosis. This article reviews the predictors of restenosis after carotid endarterectomy and carotid artery stenting.