[Analysis of contents of different kinds of fatty acids in carotid atherosclerotic plaques].

Objective: To analyze the contents of different kinds of fatty acids in carotid atherosclerotic plaques. Methods: A total of 24 patients who underwent carotid endarterectomy at the Second Affiliated Hospital of Naval Medical University from October 2021 to September 2022 due to moderate and severe carotid artery stenosis were retrospectively enrolled, including 20 males and 4 females, with a median age[M(Q1, Q3)] of 68.5 (63.5, 72.3) years. According to the symptoms of cerebral ischemia, the patients were divided into a symptomatic group (12 cases) and an asymptomatic group (12 cases). Regarding the pathological characteristics, the patients were divided into a stable group (14 cases) and a vulnerable group (10 cases) according to carotid plaque pathology scores. The expression differences of different types of fatty acids in carotid plaques were analyzed by targeted fatty acid metabolomics technology based on ultra-performance liquid chromatography-mass spectrometry (UPLC-ESI-MS/MS) analysis. Results: In the 24 samples, the median amount of fatty acids [M (Q1, Q3)] was 1 113 (330, 5 897) ng/g. A total of 13 medium and long-chain fatty acids were detected, including saturated fatty acids, monounsaturated fatty acids and polyunsaturated fatty acids. The content of saturated fatty acids was 584 (290, 9 888) ng/g, accounting for the highest proportion of 51.8%. The content of polyunsaturated fatty acids was 1 444 (393, 4 264) ng/g, accounting for 44.4%. The content of monounsaturated fatty acids was 2 793 (1 558, 3 247) ng/g, accounting for 3.8%. The contents of linoleic acid, α-linolenic acid and oleic acid in carotid plaques in the symptomatic group were 1 760 (581, 3 006), 682 (527, 886) and 2 081 (1 358, 2 907) ng/g, respectively, which were lower than those in the asymptomatic group 3 149 (2 226, 4 683), 1 423 (964, 2 270) and 3 178 (2 352, 3 993) ng/g (all P<0.05). The contents of linoleic acid, α-linolenic acid and oleic acid in carotid plaques in the vulnerable group were 1 537 (588, 2 921), 649 (477, 850) and 2 081 (1 129, 2 831) ng/g, respectively, which were lower than those in the stable group 3 149 (2 047, 4 416), 1 423 (940, 2 184) and 3 091 (2 201, 3 973) ng/g (all P<0.05). There were no significant differences in the contents of 11, 14-eicosadienoic acid, γ-linolenic acid, eicosapentaenoic acid, arachidonic acid, erucic acid, margaric acid, pentadecanoic acid, stearic acid, dodecanoic acid and palmitic acid (all P>0.05). Conclusions: Saturated fatty acids are the main type in carotid plaques. The contents of oleic acid, α-linolenic acid and linoleic acid decrease in vulnerable plaques.

[Evaluation of the level of carotid bifurcation and the morphology of extracranial internal carotid artery in patients with carotid stenosis by color doppler ultrasound and digital subtraction angiography].

Objective: To evaluate the value of color Doppler ultrasound and digital subtraction angiography (DSA) in evaluating the level of carotid bifurcation and the morphology of extracranial internal carotid artery in patients with atherosclerotic carotid stenosis. Methods: The carotid artery examination data of 186 patients with atherosclerotic carotid stenosis who underwent carotid DSA and color Doppler ultrasound in Shanghai Changzheng Hospital from July 2017 to June 2019 were retrospectively analyzed, including 154 males and 32 females, with ages ranging from 36 to 84 (66±8) years old. The correlation between the position of carotid bifurcation and the level of cervical spine, the distance from the position of carotid bifurcation to mandibular angle, the correlation of the level of bifurcation with the length of neck, and the incidence of carotid distortion were analyzed. Results: DSA showed that the most common position of carotid bifurcation was at C3 level on the left [37.3% (56/150)], and at C3-C4 level on the right [33.6% (42/125)], and the highest position was at C2 level on the left, and at C2-C3 levels on the right, while the lowest level on both sides was at C5 level. The incidence of high bifurcation of left carotid artery (C3 and above) was 46% (69/150), which was higher than that of right carotid artery [21.6% (27/125), P<0.001]. The incidence of high carotid bifurcation in men and women was 33.2% (76/229) and 43.5% (20/46), respectively, with no significant difference (P = 0.182). Carotid ultrasound showed that the distance between the left carotid bifurcation and the mandibular angle was (3.0±1.3) cm, which was shorter than that on the right [(3.4±1.2) cm] (P<0.001). The distance between carotid bifurcation and mandibular angle in men and women was (3.2±1.2) cm and (3.3±1.0) cm, respectively, with no significant difference (P = 0.093). There was no significant correlation between carotid bifurcation level and carotid length (right: r = 0.02, P = 0.091; left: r = 0.01, P = 0.927). The incidence of carotid artery distortion was 28.1% (9/32) in women and 15.6% (24/154) in men, with no significant difference (P = 0.091). The incidence of right carotid artery distortion in high bifurcation group was 59.3% (16/27), which was higher than that in non-high bifurcation group [3.1% (3/98)] (P<0.001). Likewise, the incidence of left carotid artery distortion in high bifurcation group was 30.4% (21/69), which was higher than that in non-high bifurcation group [2.5% (2/81)] (P<0.001). Conclusions: The bifurcation position of left carotid artery in patients with atherosclerotic carotid stenosis is higher than that of the right. Patients with high bifurcation of carotid artery are more likely to be complicated with carotid distortion. Preoperative color doppler ultrasound combined with DSA can evaluate the distortion of extracranial carotid artery, thereby providing reference for the selection of surgical methods.

[The new classification and treatment of neck hemorrhage].

Neck is an important and complex region of the human body. Once injury occurs, it often leads to a high mortality rate and complication rate, among which vascular injury and massive hemorrhage are the main causes. However, due to the particularity of neck structure, there is a lack of effective control methods for cervical vascular hemorrhage, and there is still no consensus on the diagnosis and treatment of cervical vascular hemorrhage. Combined with the newest researches, this paper tries to explore and summarize the experience of the new classification and management principle of vascular massive hemorrhage.

[Analysis of types and treatment methods of cervical massive hemorrhage].

Objective: To summarize the classification and clinical treatment experience of cervical massive hemorrhage in multiple centers. Methods: From April 2012 to October 2020, clinical data of 42 patients with cervical massive hemorrhage were retrospectively analyzed, including 27 cases from Shanghai Changzheng Hospital, 7 cases from Hunan Provincial People's Hospital, 4 cases from Longkou People's Hospital and 4 cases from Laizhou People's Hospital. According to bleeding position (P), bleeding vessel (V), cerebral blood supply (C), and the presence or absence of associated injury (A), 42 patients were classified as "PVCA", and summarize the methods of pre-hospital emergency and in-hospital treatment based on the "ABC" treatment principles: airway rebuild (A), effective arterial hemostasis and bleeding stop (B), and cerebral blood flow reconstruction within the time window (C). Results: Within the 42 cases of cervical massive hemorrhage, there were 3 cases of type P1 (below cricoid cartilage), 28 cases of type P2 (cricoid cartilage-mandibular angle), 11 cases of type P3 (mandibular angle-skull base); 22 cases of type V1 (arterial hemorrhage), 11 cases of type V2 (main venous hemorrhage), 7 cases of type V3 (simple superficial vein or small artery hemorrhage), 2 cases of type V4 (mixed arteriovenous hemorrhage); 5 cases of type C0 (no symptoms of cerebral ischemia and neurological dysfunction), 33 cases of type C1 (transient cerebral ischemia without sensory disturbance), 4 cases of type C2 (symptoms of cerebral ischemia and neurological dysfunction); 39 cases of type A0 (no other system damage was involved) and 3 cases of type A1 (combined with other system damage). All 42 patients received operations, 25 patients received open surgery of vascular reconstruction+hematoma/foreign body removal (7 cases of vascular ligation, 14 cases of direct suture repair, 4 cases of vascular interposition), 17 patients received hybrid surgery (carotid angiography+covered stent repair+hematoma/foreign body removal). The surgical technique success rate the was 100%. All the hemorrhagic shock was corrected, hematoma compression was relieved, and the symptoms of cephalic ischemia were improved. There were 4 cases of local cranial nerve injury, 1 case of incision hematoma and 6 cases of postoperative hyper perfusion. During the average 14.3 months follow-up, there was no operation related myocardial infarction, stroke or death, no re-rupture or re-dissection, and 50% asymptomatic restenosis was found in 1 case one year after received covered stent endovascular repair. Conclusion: Based on the "PVCA" classification and "ABC" treatment principle, it is safe and effective to rescue cervical massive hemorrhage.

[Clinical application of three cases of transcarotid artery revascularization].

Objective: To investigate the surgical indications, preoperative evaluation, technical points, perioperative management and effect of transcarotid artery revascularization (TCAR) in the treatment of carotid stenosis. Methods: From March to April 2019, three patients with carotid stenosis undergoing TCAR in the Second Affiliated Hospital of Naval Military Medical University. With the common carotid artery approach, under the protection of the carotid-femoral vein reverse blood flow, the balloon dilatation of the internal carotid artery stenosis and stent implantation to achieve the purpose of carotid revascularization.The patient's general condition, preoperative evaluation, intraoperative operation, postoperative management and complications were recorded in detail. The clinical safety, efficacy and efficacy of TCAR in the treatment of carotid stenosis were evaluated. Results: All three operations were successful, including 2 cases of left carotid artery revascularization and 1 case of right carotid artery revascularization. A total of 3 carotid stents were implanted. The operation time was 65, 59, and 55 min,the intraluminal operation time was 13, 18, and 11 min, the common carotid artery blocked time was 15, 20, and 13 min, the contrast agent was 20, 25,15 ml, respectively. There was no death, no nervous system and other related complications during the perioperative period. Three patients were followed up for 7, 7, and 6 months without death, there were no nervous system diseases and other complications. All patients with ultrasound indicated that the carotid artery stent was patency. Conclusion: TCAR adopts the neuroprotection system of carotid-femoral vein continuous reverse blood flow to prevent transient ischemic attack (TIA) and stroke, and it is a safe and effective treatment for carotid artery stenosis.

[The timing and surgical choice of surgical treatment for carotid stenosis after radiotherapy].

Objective: To evaluate the safety and efficacy of carotid endarterectomy (CEA) and carotid angioplasty with stenting(CAS) for carotid artery stenosis after radiotherapy. Methods: The clinical data of 73 cases with carotid artery stenosis after radiotherapy from October 2007 to September 2017 were analyzed retrospectively. Among them, 36 cases underwent CEA and 37 cases underwent CAS. Results: No complications occurred during the perioperative period in both groups. During the follow-up period, transient cerebral ischemia occurred in 1 case in the CEA group. There was no in-stent restenosis or adverse events such as stroke or myocardial infarction. In the CAS group, transient cerebral ischemia occurred in 2 cases, postoperative restenosis occurred in 2 cases, and myocardial infarction occurred in 1 case. The restenosis rate and incidence of adverse events were lower in the CEA group. Conclusions: Both surgical methods are safe and effective in the treatment of carotid artery stenosis after radiotherapy. CEA surgery can be more beneficial to long-term outcome, and it is supposed to be the preferred surgical method.

[A modified mouse model of instable carotid atherosclerotic plaque].

Objective: To explore a modified method for constructing a mouse model of instable carotid plaque and provide the mouse model for simulating the development of human instable carotid plaque. Methods: Twenty-four low density lipoprotein receptor deficiency (LDLr-/-), C57BL/6, male mice were randomized into two groups according to computer-generated table, tandem constriction of carotid artery+ high cholesterol diet (tandem surgery group, n=12); sham surgery+ high cholesterol diet(sham surgery group, n=12). After 12 weeks of consecutive feeding, murine carotid artery were collected and analyzed by carotid ultrasound, pathological examination to assess the formation and stability of atherosclerotic plaque. Results: No statistical difference in body weight and blood lipid level between the two groups was observed (all P>0.05). After surgery, through ultrasound biomicroscopy, obvious stenosis at the two sites of tandem constriction and atherosclerotic plaque between the two sites were observed in tandem surgery group. By pathological examination, no plaque was formed in carotid artery in sham surgery group. The lipid area in the stable plaque of innominate artery in sham surgery group and the plaque of carotid artery in tandem surgery group were (4.8±0.6) ×10(4),(10.2±1.1)×10(4) µm(2), respectively. The difference was statistically significant between the two groups (t=12.023,P<0.001). In addition, the thickness of fibrous cap in the above groups were (122.4±17.8), (41.3±20.2) µm, respectively. The difference was statistically significant either (t=9.224, P<0.001). The region of necrotic core were (3.3±0.4)×10(4),(8.1±0.9)×10(4) µm(2).The difference was statistically significant as well (t=13.456, P<0.001). The percentage of macrophages in innominate artery of sham surgery group and in carotid artery of tandem surgery group were (20.8±5.2)%, (38.6±6.4)%, respectively.The percentage of vascular smooth muscle cells were (32.5±7.3)%,(21.2±5.1)%, respectively (t=6.114,3.585, all P<0.05). The results indicated that the plaque in tandem surgery group had severer inflammatory response. Conclusion: Through tandem constriction surgery upon carotid artery in LDL-/-mouse, instable carotid atherosclerotic plaque can be induced, which is less time-consuming, replicable and effective.