Clinical Response to Procedural Stroke Following Carotid Endarterectomy:A Delphi Consensus Study

Objective: No dedicated studies have been performed on the optimal management of patients with an acute stroke related to carotid intervention nor is there a solid recommendation given in the European Society for Vascular Surgery guideline. By implementation of an international expert Delphi panel, this study aimed to obtain expert consensus on the optimal management of in hospital stroke occurring during or following CEA and to provide a practical treatment decision tree. Methods: A four round Delphi consensus study was performed including 31 experts. The aim of the first round was to investigate whether the conceptual model indicating the traditional division between intra- and post-procedural stroke in six phases was appropriate, and to identify relevant clinical responses during these six phases. In rounds 2, 3, and 4, the aim was to obtain consensus on the optimal response to stroke in each predefined setting. Consensus was reached in rounds 1, 3, and 4 when ≥ 70% of experts agreed on the preferred clinical response and in round 2 based on a Likert scale when a median of 7 – 9 (most adequate response) was given, IQR ≤ 2. Results: The experts agreed (> 80%) on the use of the conceptual model. Stroke laterality and type of anaesthesia were included in the treatment algorithm. Consensus was reached in 17 of 21 scenarios (> 80%). Perform diagnostics first for a contralateral stroke in any phase, and for an ipsilateral stroke during cross clamping, or apparent stroke after leaving the operation room. For an ipsilateral stroke during the wake up phase, no formal consensus was achieved, but 65% of the experts would perform diagnostics first. A CT brain combined with a CTA or duplex ultrasound of the carotid arteries should be performed. For an ipsilateral intra-operative stroke after flow restoration, the carotid artery should be re-explored immediately (75%). Conclusion: In patients having a stroke following carotid endarterectomy, expedited diagnostics should be performed initially in most phases. In patients who experience an ipsilateral intra-operative stroke following carotid clamp release, immediate re-exploration of the index carotid artery is recommended

Histological evaluation disqualifies IMT and calcification scores as surrogates for grading coronary and aortic atherosclerosis

__Background/objectives__ Carotid intimal media thickness (IMT) and coronary calcium scores (CCS) are thought to reflect atherosclerotic burden. The validity of this assumption for IMT is challenged by recent meta-analyses; for CCS by absence of a relationship between negative scores, and freedom of future events. As such, we considered evaluation of the relationship between tissue IMT and CCS, and extend of atherosclerotic disease relevant. __Methods__ Analyses were performed on donor aortas obtained during renal graft procurement, and on coronary arteries collected during heart valve procurement for tissue donation. Movat pentachrome and Hematoxylin staining was performed, and the degree of atherosclerosis histologically graded. IMT and presence of calcium deposits were quantified on graded tissue sections. __Results__ 304 aortas and 185 coronary arteries covering the full atherosclerotic spectrum were evaluated. Aortas and coronaries showed similar relationships between tissue IMT and degree of atherosclerosis, with gradual increase in tissue IMT during earlier phases of atherosclerosis (r = 0.68 and r = 0.30, P < 0.00001 for aorta and coronaries respectively), followed by plateauing of the curve in intermediate and advanced stages. Results for tissue IMT reveal high variability, resulting in wide confidence intervals. Results for CCS are similar for aorta and coronaries, with calcium depositions limited to advanced lesions. __Conclusions__ Histological IMT measurements for the aorta and coronaries show large variations around the trend and plateauing of, and possibly reductions in IMT in late stage atherosclerotic disease. These observations for the aorta and coronaries may (partly) explain the limited benefit of including carotid IMT in risk prediction algorithms

Reticulated Platelets as Predictor of Myocardial Injury and 30 Day Mortality After Non-cardiac Surgery

Objective: A pre-operative marker for identification of patients at risk of peri-operative adverse events and 30 day mortality might be the percentage of young, reticulated platelets (pRP). This study aimed to determine the predictive value of pre-operative pRP on post-operative myocardial injury (PMI) and 30 day mortality, in patients aged ≥ 60 years undergoing moderate to high risk non-cardiac surgery. Methods: The incidence of PMI (troponin I > 0.06 μg/L) and 30 day mortality was compared for patients with normal and high pRP (≥2.82%) obtained from The Utrecht Patient Orientated Database. The predictive pRP value was assessed using logistic regression. A prediction model for PMI or 30 day mortality with known risk factors was compared with a model including increased pRP using the area under the receiving operator characteristics curve (AUROC). Results: In total, 26.5% (607/2289) patients showed pre-operative increased pRP. Increased pRP was associated with more PMI and 30 day mortality compared with normal pRP (36.1% vs. 28.3%, p < .001 and 8.6% vs. 3.6%, p < .001). The median pRP was higher in patients suffering PMI and 30 day mortality compared with not (2.21 [IQR: 1.57–3.11] vs. 2.07 [IQR: 1.52–1.78], p = .002, and 2.63 [IQR: 1.76–4.15] vs. 2.09 [IQR: 1.52–3.98], p < .001). pRP was independently related to PMI (OR: 1.28 [95% CI: 1.04–1.59], p = .02) and 30 day mortality (OR: 2.35 [95% CI: 1.56–3.55], p < .001). Adding increased pRP to the predictive model of PMI or 30 day mortality did not increase the AUROC 0.71 vs. 0.72, and 0.80 vs. 0.81. Conclusion: In patients undergoing major non-cardiac surgery, increased pre-operative pRP is related to 30 day mortality and PMI

A Delphi Consensus Study

Funding Information: We sincerely thank all the experts who participated in this Delphi study for their time and for sharing their expertise. All Delphi experts qualify for authorship based on the fact that they were involved in data collection and all critically appraised the final manuscript for important intellectual content. See Appendix B for the names of the Delphi experts. Publisher Copyright: © 2021 The AuthorsObjective: No dedicated studies have been performed on the optimal management of patients with an acute stroke related to carotid intervention nor is there a solid recommendation given in the European Society for Vascular Surgery guideline. By implementation of an international expert Delphi panel, this study aimed to obtain expert consensus on the optimal management of in hospital stroke occurring during or following CEA and to provide a practical treatment decision tree. Methods: A four round Delphi consensus study was performed including 31 experts. The aim of the first round was to investigate whether the conceptual model indicating the traditional division between intra- and post-procedural stroke in six phases was appropriate, and to identify relevant clinical responses during these six phases. In rounds 2, 3, and 4, the aim was to obtain consensus on the optimal response to stroke in each predefined setting. Consensus was reached in rounds 1, 3, and 4 when ≥ 70% of experts agreed on the preferred clinical response and in round 2 based on a Likert scale when a median of 7 – 9 (most adequate response) was given, IQR ≤ 2. Results: The experts agreed (> 80%) on the use of the conceptual model. Stroke laterality and type of anaesthesia were included in the treatment algorithm. Consensus was reached in 17 of 21 scenarios (> 80%). Perform diagnostics first for a contralateral stroke in any phase, and for an ipsilateral stroke during cross clamping, or apparent stroke after leaving the operation room. For an ipsilateral stroke during the wake up phase, no formal consensus was achieved, but 65% of the experts would perform diagnostics first. A CT brain combined with a CTA or duplex ultrasound of the carotid arteries should be performed. For an ipsilateral intra-operative stroke after flow restoration, the carotid artery should be re-explored immediately (75%). Conclusion: In patients having a stroke following carotid endarterectomy, expedited diagnostics should be performed initially in most phases. In patients who experience an ipsilateral intra-operative stroke following carotid clamp release, immediate re-exploration of the index carotid artery is recommended.publishersversionpublishe

Long-term Outcome of Axillo-axillary Bypass in Patients with Subclavian or Innominate Artery Stenosis

BACKGROUND: Subclavian or innominate artery stenosis (SAS) may cause upper extremity and cerebral ischemia. In patients with symptomatic subclavian or innominate artery stenosis, percutaneous transluminal angioplasty is the treatment of first choice. When percutaneous transluminal angioplasty is technically restricted or unsuccessful, an extrathoracic bypass grafting, such as an axillo-axillary bypass can be considered. The patency rate of axillo-axillary bypass is often questioned. The aim of this study was to assess long-term outcomes of patients undergoing axillo-axillary bypass for subclavian or innominate artery stenosis (SAS) and to provide a literature overview. METHODS: In this single-center study, data from patients who underwent axillo-axillary bypass for symptomatic SAS between 2002 and 2018 were retrospectively analyzed. Bypass material was Dacron® (54%) or polytetrafluoroethylene (PTFE) (46%). Primary outcome was graft patency and secondary outcome was the occurrence of mortality and stroke. In addition, a systematic literature search was performed in MEDLINE and EMBASE databases including all studies describing patency of axillo-axillary bypass. RESULTS: In total, 28 axillo-axillary bypasses had been performed. Cumulative primary, primary-assisted, and secondary patency rates at one year were 89%, 93%, and 96%, respectively. Cumulative primary, primary-assisted, and secondary patency rates at five years were 76%, 84%, and 87%, respectively. The primary-assisted patency rates at five years for Dacron® and PTFE were 93% and 73%, respectively. A total of four primary axillo-axillary bypass occlusions occurred (14%), with a mean of 12 months (range, 0.4-25) after operation. The 30-day mortality was 7%; one patient died after a stroke and one died of a myocardial infarction. At the first postoperative follow-up control, 22 of the 26 remaining patients (85%) had relief of symptoms. The literature search included 7 studies and described a one-year primary patency range of 93-100% (n = 137) and early postoperative adverse events included death (range, 0-13%) and stroke (range, 0-5%). CONCLUSIONS: Patency rates of axillo-axillary bypasses for patients with a symptomatic SAS are good. However, the procedural complication rate in this series is high and attention should be paid to intervention indication

Editor's Choice - Predictors of New Ischaemic Brain Lesions on Diffusion Weighted Imaging After Carotid Stenting and Endarterectomy: A Systematic Review

OBJECTIVES: Peri-procedural ischaemic brain lesions on diffusion weighted imaging (DWI) after carotid endarterectomy (CEA) and carotid artery stenting (CAS) have been related to a higher chance of recurrent cerebrovascular events. This systematic review provides an overview of patient characteristics associated with increased risk of new DWI lesions. METHODS: MEDLINE, EMBASE, and Cochrane library databases were systematically searched (update November 2018) for studies reporting post-procedural DWI lesions after CEA or CAS. Data derived from both procedures were analysed separately. Studies reporting predictive features that were present prior to intervention were assigned to 10 categories: age, gender, cardiovascular risk factors, symptomatology, plaque vulnerability, atherosclerotic burden, cerebrovascular haemodynamics, carotid/arch anatomy, inflammatory markers, and markers of coagulation. A semi-quantitative analysis was performed by plotting studies that found an association between the investigated features and DWI lesions against those that did not find an association. RESULTS: Forty-six studies (5018 patients) were included: 10 reported only CEA, 33 CAS, and three both interventions. 68.0% of 1873 CEA patients and 55.9% of 3145 CAS patients were symptomatic. The weighted prevalence of DWI lesions was 18.1% (95% CI 14.0-22.7%) in CEA patients compared with 40.5% (95% CI 35.4-45.7%) in CAS patients. Studies reporting on CEA patients predominantly found an increased risk in symptomatic patients (two of seven studies, including 848/1661 patients), those with impaired haemodynamics (five of five studies), and increased inflammatory markers (two of three studies). Studies reporting on CAS patients often found a positive association with age (10/26 studies), high plaque vulnerability (25/34 studies), or complex carotid/arch anatomy (three out of five studies). CONCLUSIONS: For patients undergoing CEA, symptomatic status, impeded cerebral haemodynamics, and increased inflammatory markers are associated with increased susceptibility to peri-operative DWI lesions. In CAS patients, higher age, plaque vulnerability and complex carotid/aortic arch anatomy were identified as risk factors. These clinical predictors may assist with decision making on patient selection for medical treatment, CEA or CAS

Histological evaluation disqualifies IMT and calcification scores as surrogates for grading coronary and aortic atherosclerosis

markdownabstract__Background/objectives__ Carotid intimal media thickness (IMT) and coronary calcium scores (CCS) are thought to reflect atherosclerotic burden. The validity of this assumption for IMT is challenged by recent meta-analyses; for CCS by absence of a relationship between negative scores, and freedom of future events. As such, we considered evaluation of the relationship between tissue IMT and CCS, and extend of atherosclerotic disease relevant. __Methods__ Analyses were performed on donor aortas obtained during renal graft procurement, and on coronary arteries collected during heart valve procurement for tissue donation. Movat pentachrome and Hematoxylin staining was performed, and the degree of atherosclerosis histologically graded. IMT and presence of calcium deposits were quantified on graded tissue sections. __Results__ 304 aortas and 185 coronary arteries covering the full atherosclerotic spectrum were evaluated. Aortas and coronaries showed similar relationships between tissue IMT and degree of atherosclerosis, with gradual increase in tissue IMT during earlier phases of atherosclerosis (r = 0.68 and r = 0.30, P < 0.00001 for aorta and coronaries respectively), followed by plateauing of the curve in intermediate and advanced stages. Results for tissue IMT reveal high variability, resulting in wide confidence intervals. Results for CCS are similar for aorta and coronaries, with calcium depositions limited to advanced lesions. __Conclusions__ Histological IMT measurements for the aorta and coronaries show large variations around the trend and plateauing of, and possibly reductions in IMT in late stage atherosclerotic disease. These observations for the aorta and coronaries may (partly) explain the limited benefit of including carotid IMT in risk prediction algorithms