Carotid Endarterectomy

Neurosurgery ◽  
2014 ◽  
Vol 75 (2) ◽  
pp. 110-116 ◽  
Author(s):  
George A. C. Mendes ◽  
Joseph M. Zabramski ◽  
Ali M. Elhadi ◽  
M. Yashar S. Kalani ◽  
Mark C. Preul ◽  
...  
Keyword(s):  
Carotid Endarterectomy ◽  
Nerve Injury ◽  
Neurological Complication ◽  
Skin Incision ◽  
Nerve Injuries ◽  
Transverse Incision ◽  
Longitudinal Incision ◽  
Marginal Mandibular Nerve ◽  
Increased Risk ◽  
Transverse Skin Incision

Abstract BACKGROUND: Cranial nerve injury (CNI) is the most common neurological complication associated with carotid endarterectomy (CEA). Some authors postulate that the transverse skin incision leads to increased risk of CNI. OBJECTIVE: We compared the incidence of CNI associated with the transverse and longitudinal skin incisions in a high-volume cerebrovascular center. METHODS: We reviewed the charts of 226 consecutive patients who underwent CEAs between January 2007 and August 2009. Pre- and postoperative standardized neurological evaluations were performed by faculty neurologists and neurosurgeons. RESULTS: One hundred sixty nine of 226 (75%) CEAs were performed with the use of a transverse incision. The longitudinal incision was generally reserved for patients with a high-riding carotid bifurcation. Mean patient age was 69 years (range, 45–91 years); 62% were men; 59% of patients were symptomatic and had high-grade stenosis (70%-99%). CNI occurred in 8 cases (3.5%): 5 (3%) in transverse and 3 (5.3%) with longitudinal incisions (P = .42). There were 2 marginal mandibular nerve injuries, 1 (0.6%) transverse and 1 longitudinal; 5 recurrent laryngeal nerve injuries, 4 transverse and 1 longitudinal; and 1 case of hypoglossal nerve injury associated with longitudinal incision. One hematoma was associated with CNI. All injuries were transient. Fourteen wound hematomas required surgical evacuation. CONCLUSION: The transverse skin incision for CEAs is not associated with an increased risk of CNI (P =.42). In this study, the incidence of CNI associated with the transverse incision was 3% (n = 5) vs 5% (n = 3) for longitudinal incisions. All CNIs were temporary.

Risk of persistent cranial nerve injury after carotid endarterectomy

2004 ◽  
Vol 101 (3) ◽  
pp. 445-448 ◽  
Author(s):  
Edwin J. Cunningham ◽  
Rick Bond ◽  
Marc R. Mayberg ◽  
Charles P. Warlow ◽  
Peter M. Rothwell
Keyword(s):  
Carotid Endarterectomy ◽  
Nerve Injury ◽  
Cranial Nerve ◽  
Nerve Injuries ◽  
Content Type ◽  
Before And After ◽  
Cranial Nerve Injury ◽  
Cranial Nerve Injuries ◽  
Fine Print

Object. Cranial nerve injuries, particularly motor nerve injuries, following carotid endarterectomy (CEA) can be disabling and therefore patients should be given reliable information about the risks of sustaining such injuries. The reported frequency of cranial nerve injury in the published literature ranges from 3 to 23%, and there have been few series in which patients were routinely examined before and after surgery by a neurologist. Methods. The authors investigated the risk of cranial nerve injuries in patients who underwent CEA in the European Carotid Surgery Trial (ECST), the largest series of patients undergoing CEA in which neurological assessment was performed before and after surgery. Cranial nerve injury was assessed and recorded in every patient and persisting deficits were identified on follow-up examination at 4 months and 1 year after randomization. Risk factors for cranial nerve injury were examined by performing univariate and multivariate analyses. There were 88 motor cranial nerve injuries among the 1739 patients undergoing CEA (5.1% of patients; 95% confidence interval [CI] 4.1–6.2). In 23 patients, the deficit had resolved by hospital discharge, leaving 3.7% of patients (95% CI 2.9–4.7) with a residual cranial nerve injury: 27 hypoglossal, 17 marginal mandibular, 17 recurrent laryngeal, one accessory nerve, and three Horner syndrome. In only nine patients (0.5%; 95% CI 0.24–0.98) the deficit was still present at the 4-month follow-up examination; however, none of the persisting deficits resolved during the subsequent follow up. Only duration of operation longer than 2 hours was independently associated with an increased risk of cranial nerve injury (hazard ratio 1.56, p < 0.0001). Conclusions. The risk of motor cranial nerve injury persisting beyond hospital discharge after CEA is approximately 4%. The vast majority of neurological deficits resolve over the next few months, however, and permanent deficits are rare. Nevertheless, the risk of cranial nerve injury should be communicated to patients before they undergo surgery.

Comparison of cosmetic ef­fects after short longitudinal and transverse skin incision for carotid endarterectomy

2019 ◽  
Vol 82/115 (2) ◽  
pp. 194-202
Author(s):  
Tomáš Hrbáč ◽  
David Školoudík ◽  
David Otáhal ◽  
Táňa Fadrná ◽  
Roman Herzig
Keyword(s):  
Carotid Endarterectomy ◽  
Skin Incision ◽  
Transverse Skin Incision

scholarly journals The significance of the pharyngeal veins during carotid endarterectomy: description of an anatomical triangle

2018 ◽  
Vol 100 (2) ◽  
pp. 125-128
Author(s):  
J Aldoori ◽  
V Mahadevan ◽  
M Aldoori
Keyword(s):  
Carotid Artery ◽  
Internal Carotid Artery ◽  
Carotid Endarterectomy ◽  
Nerve Injury ◽  
Internal Carotid ◽  
Vagus Nerves ◽  
Nerve Injuries ◽  
Single Nerve ◽  
Threat To Life

Injuries to the hypoglossal and vagus nerves are the most commonly reported injuries during carotid endarterectomy. While unilateral single nerve injury is usually well tolerated, bilateral or combined nerve injuries can pose a serious threat to life. This study aims to increase awareness of the inferior pharyngeal vein, which usually passes posterior to the internal carotid artery but sometimes crosses anterior to it. Injury to either or both hypoglossal and vagus nerves can occur during control of unexpected haemorrhage from the torn and retracted edges of the inferior pharyngeal vein. We recommend careful ligation and division of this vein. In addition, we observed in 9 (17.3%) of the 52 operations that the pharyngeal vein formed a triangle with the vagus and hypoglossal nerves when it passes anterior to the internal carotid artery.

Conservative Neck Rejuvenation

2021 ◽  
Author(s):  
Carlo Gasperoni ◽  
Paolo Gasperoni ◽  
Valentina Pino
Keyword(s):  
Nerve Injury ◽  
Facial Rejuvenation ◽  
Nerve Injuries ◽  
Lower Face ◽  
Less Invasive ◽  
Platysma Muscle ◽  
Redundancy Reduction ◽  
Increased Risk ◽  
Neck Rejuvenation ◽  
Invasive Techniques

AbstractIn the field of facial rejuvenation, among the recurrent topics, one of the most discussed is the return to less invasive techniques. Lower face rejuvenation is best achieved acting on the platysma muscle. Many techniques are used and usually include platysma section, redundancy reduction, and redraping. Platysma plication is also used especially in secondary cases because of the increased risk of nerve injury due to possible anatomical damage caused by previous operations. A technique that preserves the deep planes based on a new plication method is proposed (conservative neck rejuvenation). In this technique, the dissection plane is only subcutaneous to reduce the risk of nerve injuries. An effective neck contouring is possible using a simpler technique with very good results and a lower rate of morbidity.

Comparison of short longitudinal and transverse skin incision for carotid endarterectomy

2017 ◽  
Vol 381 ◽  
pp. 517
Author(s):  
T. Hrbac ◽  
D. Skoloudik ◽  
D. Otahal ◽  
T. Fadrna ◽  
Z. Vecera
Keyword(s):  
Carotid Endarterectomy ◽  
Skin Incision ◽  
Transverse Skin Incision

Thrombin Generation Measured Ex Vivo Following Microvasculor Injury Is Increased in SLE Patients with Antiphospholipid-protein Antibodies

1997 ◽  
Vol 78 (04) ◽  
pp. 1173-1177 ◽  
Author(s):  
Jacek Musiał ◽  
Jakub Swadźba ◽  
Miłosz Jankowski ◽  
Marek Grzywacz ◽  
Stanisława Bazan-Socha ◽  
...  
Keyword(s):  
Lupus Erythematosus ◽  
Thrombin Generation ◽  
Ex Vivo ◽  
Skin Incision ◽  
Anticardiolipin Antibodies ◽  
Small Blood Vessel ◽  
Anionic Phospholipids ◽  
Increased Risk ◽  
High Concentrations

SummaryAntiphospholipid-protein antibodies (APA) include lupus-type anticoagulant (LA) and antibodies recognizing complexes of anionic phospholipids (e.g. cardiolipin) and proteins (e.g. prothrombin and (β2-glycoprotein I). The presence of APA is associated with an increased risk of both arterial and venous thrombosis. However, the pathogenic mechanism leading to thrombosis in patients with APA remains unclear. We studied 32 patients with systemic lupus erythematosus (SLE) who were divided into two groups depending on the presence (n = 19) or absence (n = 13) of APA. Healthy volunteers (n = 12) matched by age and sex served as controls. In all subjects LA and IgG class anticardiolipin antibodies (ACA) were determined. Thrombin generation was monitored ex vivo measuring fibrinopeptide A (FPA) and prothrombin fragment F1 + 2 (F1 + 2) in blood emerging from a skin microvasculature injury, collected at 30 second intervals. In subjects with antiphospholipid antibodies mean FPA and F1 + 2 concentrations were signiF1cantly higher at most blood sampling times than in controls. In some SLE patients with APA the process of thrombin generation was clearly disturbed and very high concentrations of F1brinopeptide A were detected already in the F1rst samples collected. Two minutes after skin incision SLE patients without APA produced slightly more FPA, but not F1 + 2, as compared to healthy subjects. Mathematical model applied to analyze the thrombin generation kinetics revealed that APA patients generated signiF1cantly greater amounts of thrombin than healthy controls (p = 0.02 for either marker). In contrast, in the same patients generation of thrombin in recalciF1ed plasma in vitro was delayed pointing to the role of endothelium in the phenomenon studied. In summary, these data show for the F1rst time that in SLE patients with antiphospholipid-protein antibodies thrombin generation after small blood vessel injury is markedly increased. Enhanced thrombin generation might explain thrombotic tendency observed in these patients.

Human motor endplate remodeling after traumatic nerve injury

2020 ◽  
pp. 1-8
Author(s):  
Ranjan Gupta ◽  
Justin P. Chan ◽  
Jennifer Uong ◽  
Winnie A. Palispis ◽  
David J. Wright ◽  
...  
Keyword(s):  
Peripheral Nerve ◽  
Nerve Injury ◽  
Surgical Intervention ◽  
Linear Regression Analysis ◽  
Motor Endplate ◽  
Nerve Injuries ◽  
Denervated Muscle ◽  
Sequence Of Events ◽  
Human Motor ◽  
Denervated Muscles

OBJECTIVECurrent management of traumatic peripheral nerve injuries is variable with operative decisions based on assumptions that irreversible degeneration of the human motor endplate (MEP) follows prolonged denervation and precludes reinnervation. However, the mechanism and time course of MEP changes after human peripheral nerve injury have not been investigated. Consequently, there are no objective measures by which to determine the probability of spontaneous recovery and the optimal timing of surgical intervention. To improve guidance for such decisions, the aim of this study was to characterize morphological changes at the human MEP following traumatic nerve injury.METHODSA prospective cohort (here analyzed retrospectively) of 18 patients with traumatic brachial plexus and axillary nerve injuries underwent biopsy of denervated muscles from the upper extremity from 3 days to 6 years after injury. Muscle specimens were processed for H & E staining and immunohistochemistry, with visualization via confocal and two-photon excitation microscopy.RESULTSImmunohistochemical analysis demonstrated varying degrees of fragmentation and acetylcholine receptor dispersion in denervated muscles. Comparison of denervated muscles at different times postinjury revealed progressively increasing degeneration. Linear regression analysis of 3D reconstructions revealed significant linear decreases in MEP volume (R = −0.92, R2 = 0.85, p = 0.001) and surface area (R = −0.75, R2 = 0.56, p = 0.032) as deltoid muscle denervation time increased. Surprisingly, innervated and structurally intact MEPs persisted in denervated muscle specimens from multiple patients 6 or more months after nerve injury, including 2 patients who had presented > 3 years after nerve injury.CONCLUSIONSThis study details novel and critically important data about the morphology and temporal sequence of events involved in human MEP degradation after traumatic nerve injuries. Surprisingly, human MEPs not only persisted, but also retained their structures beyond the assumed 6-month window for therapeutic surgical intervention based on previous clinical studies. Preoperative muscle biopsy in patients being considered for nerve transfer may be a useful prognostic tool to determine MEP viability in denervated muscle, with surviving MEPs also being targets for adjuvant therapy.

scholarly journals Establishment of a Sheep Model for Hind Limb Peripheral Nerve Injury: Common Peroneal Nerve

2021 ◽  
Vol 22 (3) ◽  
pp. 1401
Author(s):  
Rui D. Alvites ◽  
Mariana V. Branquinho ◽  
Ana C. Sousa ◽  
Federica Zen ◽  
Monica Maurina ◽  
...  
Keyword(s):  
Peripheral Nerve ◽  
Nerve Injury ◽  
Peripheral Nerve Injury ◽  
Peroneal Nerve ◽  
Common Peroneal Nerve ◽  
Small Sample ◽  
Therapeutic Options ◽  
Nerve Injuries ◽  
Sheep Model ◽  
The Common

Thousands of people worldwide suffer from peripheral nerve injuries and must deal daily with the resulting physiological and functional deficits. Recent advances in this field are still insufficient to guarantee adequate outcomes, and the development of new and compelling therapeutic options require the use of valid preclinical models that effectively replicate the characteristics and challenges associated with these injuries in humans. In this study, we established a sheep model for common peroneal nerve injuries that can be applied in preclinical research with the advantages associated with the use of large animal models. The anatomy of the common peroneal nerve and topographically related nerves, the functional consequences of its injury and a neurological examination directed at this nerve have been described. Furthermore, the surgical protocol for accessing the common peroneal nerve, the induction of different types of nerve damage and the application of possible therapeutic options were described. Finally, a preliminary morphological and stereological study was carried out to establish control values for the healthy common peroneal nerves regarding this animal model and to identify preliminary differences between therapeutic methods. This study allowed to define the described lateral incision as the best to access the common peroneal nerve, besides establishing 12 and 24 weeks as the minimum periods to study lesions of axonotmesis and neurotmesis, respectively, in this specie. The post-mortem evaluation of the harvested nerves allowed to register stereological values for healthy common peroneal nerves to be used as controls in future studies, and to establish preliminary values associated with the therapeutic performance of the different applied options, although limited by a small sample size, thus requiring further validation studies. Finally, this study demonstrated that the sheep is a valid model of peripheral nerve injury to be used in pre-clinical and translational works and to evaluate the efficacy and safety of nerve injury therapeutic options before its clinical application in humans and veterinary patients.

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