Belcaro G, Ippolito E, Dugall M, Hosoi M, Cornelli U, Ledda A, Scoccianti M, Steigerwalt R D, Cesarone M R, Pellegrini L, Luzzi R, Corsi M
Department of Biomedical, Experimental and Surgical Sciences, Irvine3 Circulation Sciences, G. D'Annunzio University, Pescara, Italy -
Int Angiol. 2015 Apr;34(2):150-7. Epub 2014 Dec 18.
The aim of the study was to evaluate the effect of the nutritional supplements Pycnogenol® and total triterpenic fraction of Centella asiatica (TTFCA) on atherosclerosis progression in low-risk asymptomatic subjects with carotid or femoral stenosing plaques.
This was an observational pilot, substudy of the San Valentino epidemiological cardiovascular study. The study included 824 subjects aged 45-60 without any conventional risk factors who had a stenosing atherosclerotic plaque (>50-60%) in at least one carotid or common femoral bifurcation, allocated into 6 groups: Group 1 (Controls): management was based on education, exercise, diet and lifestyle changes. This same management plan was used in all other groups; group 2: Pycnogenol® 50 mg/day; group 3: Pycnogenol® 100 mg/day; group 4: Aspirin® 100 mg/day or ticlopidine 250 mg/day if intolerant to aspirin; group 5: Aspirin® 100 mg/day and Pycnogenol® 100 mg/day; group 6: Pycnogenol® 100 mg/day plus TTFCA 100 mg/day. The follow-up lasted 42 months. Plaque progression was assessed using the ultrasonic arterial score based on the arterial wall morphology and the number of plaques that progressed and on the number of subjects that had cardiovascular events. A secondary endpoint was to evaluate the changes in oxidative stress at baseline and at 42 months.
The ultrasonic score increased significantly in groups 1, 2, and 4 (>1%) but not in groups 3, 5 and 6 (<1%) suggesting a beneficial effect of Pycnogenol® 100 mg. Considering the percent of patients that progressed from class V (asymptomatic) to VI (symptomatic) there was a progression of plaques in 48.09% of controls. In the Pycnogenol® 100 (group 3, 10.4%) and in the Aspirin®+ Pycnogenol® (group 5, 10.68%) progression was half of what observed with antiplatelet agent (group 4, 20.93%); in the TTFCA+ Pycnogenol®group (group 6) progression was 7.4 times lower than in controls; 3.22 times lower than in the antiplatelet agents group (4). Events (hospital admission, specialized care) were observed in 16.03% of controls; there were 8.83% of subjects with events with Pycnogenol® 50 mg and 8% in group 3 (Pycnogenol® 100 mg). In group 4 (antiplatelets), 8.52% of subjects had events; in group 5, 6.87% of subjects had events and in group 6 (TTFCA+ Pycnogenol®) only 4.41% had events (this was the lowest event rate; P<0.05). All treatment groups had a significantly lower event rate (P<0.05) in comparison with controls. Considering treatments groups 2, 3, 5, 6 had a lower number (P<0.05) of subjects in need of cardiovascular management in comparison with controls. The need for risk factor management was higher in controls and lower in group 6 (P<0.05). In groups 2 to 6 the need for risk factor management was lower than in controls (P<0.05). Including all events (hospital admission, need for treatment or for risk management) 51.9% of controls were involved. In the other groups there was a reduction (from a -9.28% reduction in group 2 to a -26% in group 6) (P<0.002). The most important reduction (higher that in all groups; P<0.05) was in group 6. At 42 months, oxidative stress in all the Pycnogenol® groups was less than in the control group. In the combined group of Pycnogenol® and TTFCA the oxidative stress was less than with Pycnogenol® alone (P<0.001).
Pycnogenol® and the combination of Pycnogenol® +TTFCA appear to reduce the progression of subclinical arterial plaques and the progression to clinical stages. The reduction in plaque and clinical progression was associated with a reduction in oxidative stress. The results justify a large, randomized, controlled study to demonstrate the efficacy of the combined Pycnogenol® and TTFCA prophylactic therapy in preclinical atherosclerosis.
本研究旨在评估营养补充剂碧萝芷(Pycnogenol®)和积雪草总三萜组分(TTFCA)对患有颈动脉或股动脉狭窄斑块的低风险无症状受试者动脉粥样硬化进展的影响。
这是一项观察性试点研究,是圣瓦伦丁心血管流行病学研究的子研究。该研究纳入了824名年龄在45 - 60岁之间、无任何传统风险因素且至少在一个颈动脉或股总动脉分叉处有狭窄性动脉粥样硬化斑块(>50 - 60%)的受试者,分为6组:第1组(对照组):管理基于教育、运动、饮食和生活方式改变。所有其他组均采用相同的管理方案;第2组:每天服用50毫克碧萝芷(Pycnogenol®);第3组:每天服用100毫克碧萝芷(Pycnogenol®);第4组:每天服用100毫克阿司匹林(Aspirin®),若对阿司匹林不耐受则服用250毫克噻氯匹定;第5组:每天服用100毫克阿司匹林(Aspirin®)和100毫克碧萝芷(Pycnogenol®);第6组:每天服用100毫克碧萝芷(Pycnogenol®)加100毫克TTFCA。随访持续42个月。使用基于动脉壁形态、进展斑块数量以及发生心血管事件的受试者数量的超声动脉评分来评估斑块进展。次要终点是评估基线和42个月时氧化应激的变化。
第1、2和4组的超声评分显著增加(>1%),而第3、5和6组未增加(<1%),表明每天服用100毫克碧萝芷(Pycnogenol®)有有益作用。考虑从V级(无症状)进展到VI级(有症状)的患者百分比,对照组中有48.09%的斑块进展。在每天服用100毫克碧萝芷(Pycnogenol®)组(第3组,10.4%)和阿司匹林(Aspirin®) + 碧萝芷(Pycnogenol®)组(第5组,10.68%)中,进展率是抗血小板药物组(第4组,20.93%)的一半;在TTFCA + 碧萝芷(Pycnogenol®)组(第6组)中,进展率比对照组低7.4倍;比抗血小板药物组(第4组)低3.22倍。在对照组中观察到16.03%的患者发生事件(住院、专科护理);服用50毫克碧萝芷(Pycnogenol®)的受试者中有8.83%发生事件,第3组(服用100毫克碧萝芷(Pycnogenol®))中有8%发生事件。在第4组(抗血小板药物组)中,8.52%的受试者发生事件;在第5组中,6.87%的受试者发生事件,在第6组(TTFCA + 碧萝芷(Pycnogenol®))中只有4.41%的受试者发生事件(这是最低的事件发生率;P<0.05)。与对照组相比,所有治疗组的事件发生率均显著较低(P<0.05)。与对照组相比,考虑到治疗组2、3、5、6中需要进行心血管管理的受试者数量较少(P<0.05)。对照组中危险因素管理的需求较高,而第6组较低(P<0.05)。在第2至6组中,危险因素管理的需求低于对照组(P<0.05)。包括所有事件(住院、治疗需求或风险管理需求),对照组中有51.9%的患者涉及。在其他组中有所减少(从第2组减少9.28%到第6组减少26%)(P<0.002)。减少最多的(高于所有组;P<0.05)是第6组。在42个月时,所有碧萝芷(Pycnogenol®)组的氧化应激均低于对照组。在碧萝芷(Pycnogenol®)和TTFCA联合组中,氧化应激低于单独使用碧萝芷(Pycnogenol®)组(P<0.001)。
碧萝芷(Pycnogenol®)以及碧萝芷(Pycnogenol®) + TTFCA组合似乎可减少亚临床动脉斑块的进展以及向临床阶段的进展。斑块和临床进展的减少与氧化应激的降低相关。这些结果证明有必要进行一项大型、随机、对照研究,以证明碧萝芷(Pycnogenol®)和TTFCA联合预防性治疗在临床前动脉粥样硬化中的疗效。
