網誌文章搜尋建議

給多發性硬化症MS病友和親友的建議:
如要搜尋站內相關文章可多利用
"搜尋此網誌的文章內容"的功能,這樣就可以快速的找到你想要得資訊而不需要從第一篇開始看了.
有關CCSVI(靜脈血管窄化及手術的資訊)可在相關連結以及相關MS blog內

推薦頻道:Gimmy a break

2012年3月22日 星期四

病毒, 免疫, 遺傳 還是血管? update

從有這個病至今至少也約半百年的歷史, 但是研究仍然如火如荼的進行著。原因依舊不明,就有如隨時發作的不確定感一般。公說公有理,婆說婆有理。只能夠看相信的人或者是取樣數據的比例如何。

EBV病毒引起多發性硬化症?

2011-01-13

  最新研究發現EBV病毒與多發性硬化症有關美國專家在近期研究中發現,誘發單核細胞增多症的非洲淋巴細胞瘤病毒(Epstein-Barrvirus,EBV會增加患多發性硬化症MS的危險。儘管以往都認為該病與自體免疫功能的異常有關,但相應的常規藥物對於MS患者卻往往無效

  近來已有越來越多的證據表明病毒在MS的誘發中具有重要作用,這可能是因為病毒會直接攻擊神經系統產生的抗體會轉而影響到神經系統自身

  有關研究報告日前發表在《美國醫學會雜誌》上。哈佛公共衛生學院的流行病學專家AlbertoAscherio醫學博士等在該項研究中對六萬多份婦女捐獻的血樣進行了分析測定,其中有144例後來患了多發性硬化症。在與非MS患者的血樣進行比較後發現,她們的血樣中所含的抗EBV抗體量要明顯更高。

  有關專家因此而認為,雖然目前尚不清楚為什麼大多數EBV感染者最終並不會患多發性硬化症,但這卻證實了MS與EBV病毒感染確實是密切相關的。


Neurology:首次證實EBV病毒與多發性硬化症存在關聯 2012-1-11


兩個EBV病毒顆粒,圖片來自維基共享資源

英國倫敦大學研究人員的一篇新研究表明一種特定病毒如何欺騙免疫系統促發炎症,並對大腦中神經細胞造成傷​​害,而這些已知能夠導致多發性硬化症(multiple sclerosis)。

以前的研究提示著愛潑斯坦-巴爾病毒(Epstein-Barr virus, EBV)與多發性硬化症存在關聯,但是它一直充滿爭議,因為科學家一直不能證實這種關聯

這一新研究證實該病毒以一種比以前所想像的更加複雜和更加微妙的方式參與當中,可能提供新的方法來治療或阻止這種疾病。

多發性硬化症乃是中樞神經系統和免疫有關的發炎及去髓鞘疾病。實際上,神經軸突(axon)、神經元(neuron)及寡棘突細胞(oligodedrocyte)亦會受損。它的原因一直沒有完全理解,但是已知基因和環境都發揮著作用。

這篇新研究發表在《Neurology》期刊上,研究人員研究了多發性硬化症病人死後的大腦,檢查了神經傷害最近發生的地區。

該研究通信作者Ute-Christiane Meier博士解釋道,“EBV是受多發性硬化症影響的病人大腦中一種相當聰明的病毒,甚至是當它在細胞中隱藏自己的時候。”

Meier博士和她的合作人員小組發現,儘管該病毒並不主動地傳播,但是它釋放化學信息到附近的大腦區域。這些化學信息---是由小RNA分子組成的---激活身體的免疫系統,導致炎症。這傷害了大腦中神經細胞,導致多發性硬化症產生。

Meier博士繼續說道,“我們不得不謹慎小心,不得不研究更多的多發性硬化症大腦,不過這是一項潛在上非常有趣的研究。如今,我們理解EBV如何通過免疫系統細胞偷運到大腦中,在犯罪現場發現了它,就是在我們神經系統遭受攻擊的地方。如今,我們知道這點,我們可能有許多方法治療或甚至阻止這種疾病。”

一種可能性就是廣泛使用的抗癌藥物美羅華(Rituximab),已知該藥物殺死該病毒所隱藏的免疫系統細胞。如今,它正在用作治療多發性硬化症的臨床試驗中。

另一種可能性就是使用抗病毒治療,也將在Gavin Giovannoni教授和同事們當前準備的臨床試驗中接受測試。

Meier博士補充道,“如果我們能夠查明EBV是疾病引發者,我們就可能改變多發性硬化症的療程,甚至潛在地通過治療該病毒來阻止這種症狀。”

有意義的是,該研究也提示EBV感染和它在免疫系統上的作用可能也在諸如癌症和中風之類的其他大腦疾病中發揮作用。(生物谷:towersimper編譯)

Association of innate immune activati​​on with latent Epstein-Barr virus in active MS lesions

JS Tzartos, DPhil, G. Khan, PhD, A. Vossenkamper, MD, M. Cruz-Sadaba, PhD, S. Lonardi, MSc, E. Sefia, MSc, A. Meager, PhD, A. Elia, PhD, JM Middeldorp, PhD, M. Clemens, PhD, PJ Farrell, PhD, G. Giovannoni, PhD and U.-C. Meier, DPhil

Objective: To determine whether the activation of innate immune responses, which can be elicited by pathogenic and endogenous triggers, is associated with the presence of Epstein-Barr virus (EBV) infection in the multiple sclerosis (MS) brain. Methods: White matter postmortem MS (n = 10) and control tissue (n = 11) was analyzed for the expression of the proinflammatory cytokine interferon α (IFNα) by immunohistochemistry and for EBV by using the highly sensitive method of EBV-encoded RNA (EBER) in situ hybridization . Results: We detected overexpression of IFNα in active areas of white matter MS lesions but not in inactive MS lesions, normal-appearing white matter, or normal brains. The presence of IFNα in macrophages and microglia (expressing human leukocyte antigen class II) is suggestive of local production as part of an acute inflammatory process. Interestingly, EBERs were also specifically detected in areas where IFNα was overexpressed in these preselected active MS lesions. EBER+ cells were also found in CNS lymphoma and stroke cases, but were absent in other control brains. We next addressed a potential mechanism, eg, the role of EBERs in eliciting IFNα production, and transfected EBERs into human embryonic kidney (HEK) cells. We used HEK cells that stably expressed Toll-like receptor-3, which recognizes double- stranded RNAs, associated with many viral infections. EBERs elicited IFNα production in vitro. Conclusion: These findings suggest that latent EBV infection may contribute to the inflammatory milieu in active MS lesions by activating innate immune responses, eg, IFNα production. Unraveling the underlying mechanisms may help in uncovering causal pathways and developing better treatment strategies for MS and other neuroinflammatory diseases.

看完病毒篇,來看看血管篇吧!

第37屆世界介入放射性治療年會3/25在美國舊金山召開, 其中美國 Albany Medical Center in Albany, N.Y.的研究指出:

在4個月中,擴張靜脈,治療了213 個案. (72男性, 141女性; 平均年齡 49 歲) 其中包含了96 復發緩解型, 66 位 次要退化型 , 30位主要退化型. 多數症狀能夠消除

"復發緩解型中和主要退化型大於75%的病人在肢體回復上有明顯的進展. 心理健康指數有70%進步. 次要退化型在肢體和心理健康指數進步比例有 59% 和 50%"

參考連結1,2,3

附上快速圖解 CCSVI 和MS的總整理說明連結 很棒 容易了解

https://www.facebook.com/notes/ccsvi-ivcc/critique-of-the-film-a-visual-lecture-of-multiple-sclerosis-and-ccsvi/313719305358792

還有下一個影片 把過去3年來對於CCSVI的總結做了一個最好的歸納整理

A Visual Lecture about Multiple Sclerosis and

CCSVI



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2012年3月2日 星期五

中樞神經靜脈循環異常CCSVI 三年來的觀察

此篇大致節錄翻譯自一位美國紐約MS病友 (自稱輪椅神風特攻隊)的文章

大意如下:
從我開始在這個部落格寫有關CCSVI的文章已經3年了,
剛開始時,只不過是在網路上由數十位病人在網路論壇上相互辯論這一個醫療發現.
直到今天, CCSVI的議題成為由患者在社會媒介所驅動的一個現象, 已經有2萬到3萬不等的MS病人進行了這一項醫療手術. 世界各地的研究人員都正對此議題如火如荼的研究著.
而這只是揭開神秘面紗的第一步.
上星期International Society for Neurovascular Disease (ISNVD)國際神經靜脈疾病學會在佛羅里達舉行,會中長達106頁論文集中有關於CCSVI的資訊被揭露, 連結在此 (click here)
其中,是給病人最感興趣報導包含幾個CCSVI治療醫生(頁62,79,83,84,86和87的PDF可以找到)顯示出多種治療效果,包含疲勞,認知的問題,熱敏感)而且RRMS(復發緩解型)患者比PPMS或SPMS患者復原更好

下圖右側圓圈所指為血管窄化處

原文如下:

CCSVI: Three Years On, Some Thoughts and Observations

English: MRI image of a patient with CCSVI. Di...
Image via Wikipedia

It seems almost incredible, but it's been nearly 3 years since I wrote my first Wheelchair Kamikaze post on CCSVI (click here). At the time of that first post, CCSVI had hardly been heard of outside of some researchers in Italy and a few dozen patients debating the merits of the hypothesis on an Internet forum. Today, CCSVI has become a patient driven social media medical phenomenon. An estimated 20,000-30,000 patients have already undergone CCSVI treatment, researchers from around the world are investigating the hypothesis, and the surgical treatment of CCSVI has become a thriving industry. CCSVI has certainly come a long way, but in many ways we've only taken the first steps on what could be an epic journey.

Last week, the International Society for Neurovascular Disease (ISNVD) held its second annual scientific meeting, which lasted five full days, in Orlando, Florida. A tremendous amount of information about the nature and treatment of CCSVI was exchanged by researchers and physicians, a compendium of which can be found in a 106 page online PDF publication put out by the Society (click here).

Of most interest to patients are undoubtedly the treatment outcomes reported by several CCSVI treatment practitioners (which can be found on pages 62, 79, 83, 84, 86, and 87 of the PDF), which displayed a wide variety of treatment outcomes, but do seem to suggest several identifiable trends. It appears that quality of life issues (fatigue, cognitive issues, heat sensitivity) saw more benefit post treatment than mobility related issues, and that RRMS patients fared better than patients suffering from SPMS or PPMS. None of these studies was double blinded, all being observational and most relying on self-reported information, which can lead to inaccuracies. Still, the findings generally fall in line with some of the few double blinded studies that have been done, such as a recently completed study done in Italy (click here). CORRECTION:an anonymous reader points out that this Italian study was in fact not double blinded, and just used an independent physician to evaluate EDSS scores. Thanks for the heads up.

The meeting did bring into focus the fact that the CCSVI treatment protocol is far from standardized, with physicians varying in opinion on issues ranging from which veins to treat, whether treatment should concentrate on valves rather than the veins themselves, the use of intravascular ultrasound, and other important issues, a list of which can be found on pages 104-106 of the PDF document linked to above. There were quite a few presentations on the use of noninvasive imaging techniques (Doppler Ultrasound and MRV technology) to diagnose CCSVI, with the consensus appearing to be that neither method was especially accurate, except for extremely specialized MRV protocols that are practiced at only a few facilities. One leading CCSVI practitioner went so far as to state that he no longer requires his patients to undergo Doppler Ultrasound investigations before venoplasty, since the ultrasound results were found to be so prone to error (page 63 of the PDF).

In addition to presentations involving CCSVI treatment techniques, some important observations about the nature of the condition were also presented. The effects of reduced blood flow through the brain were discussed, as was the possible connection between bloodflow disruptions and a breakdown of the blood brain barrier, and the role of iron deposition in the MS disease process. In all, my impression (keeping in mind that I did not attend the meeting) is that the findings presented at this year's ISNVD scientific meeting were more evolutionary than revolutionary, which I suppose is something to be expected. The explosion of interest in CCSVI amongst interventional radiologists and research physicians must logically lead to attempts to fill in the many gaps of knowledge that remain in regards to CCSVI, before more dramatic leaps in understanding can be accomplished.

This eruption of interest in CCSVI within the interventional radiology community is in some ways a double-sided sword. On the plus side, it has given patients access to treatment, which in the early days was extremely hard to come by. Today, patients have their choice of treating physicians, and must do their due diligence when choosing which physician in whose hands to place themselves. As noted above, treatment techniques and philosophies vary widely from physician to physician, and patients exploring the possibility of CCSVI treatment should not be shy about asking questions in an effort to find a doctor whose treatment modality best fits their comfort level.

On the potentially negative side, CCSVI has become big business. With CCSVI treatment procedures costing about $10,000, and somewhere between 25,000-30,000 patients already treated, a little math reveals that treating CCSVI has already generated hundreds of millions of dollars in gross revenue for treating physicians. Yes, those procedures covered by medical insurance probably don't get reimbursed at the full rate charged, but this is likely made up for by patients who have undergone multiple procedures because of CCSVI's ongoing problems with restenosis. Given the fact that the number of treated patients represents only a tiny percentage of the worldwide MS population, it's easy to see that CCSVI treatment could quickly develop into a multibillion-dollar a year enterprise.

The David vs. Goliath narrative that has driven the CCSVI story thus far may soon become obsolete. To be sure, the neurology community still remains incomprehensibly steadfast in its negativity regarding CCSVI, but this is becoming counterbalanced by the enthusiasm of the interventional radiology community, and, I suspect, by the interests of the medical device manufacturers, who also stand to profit greatly should CCSVI become an accepted treatment option for MS patients. Despite the fact that very legitimate issues remain regarding the efficacy of CCSVI treatment and the lack of a consensus as to optimal interventional techniques, CCSVI treatment is being aggressively marketed by several US and international treatment facilities, which should raise some ethical questions.

Until issues with effectiveness and technique are satisfactorily answered, the CCSVI treatment procedure must be considered an experimental one, a fact that should not be lost on patients who are understandably desperate to address their illness but faced with a dizzying array of statistics, patient testimonials, and marketing efforts by for-profit ventures. In a very real way patients who choose to undergo CCSVI treatment at the current time are guinea pigs, a fact that I understood explicitly when I underwent my venoplasty back in the dark ages of CCSVI, almost two years ago. Although we've come a long way since then, in some ways the procedure remains as experimental as ever, as physicians treat a much wider array of veins much more aggressively than they did back when I underwent the procedure. Though the treatment is a minimally invasive one, it is not without risks, as is evidenced by the contingent of patients who have experienced clotting issues and vein thrombosis in the aftermath of their procedures. Indeed, one of the presentations at ISNVD highlighted a patient whose condition worsened after treatment (page 89 of the PDF), a rare occurrence to be sure, but a possibility that must factor into the decision-making process of patients considering venoplasty.

One of the most volatile controversies raging on CCSVI forums and social media sites is whether or not the condition is a cause or effect of multiple sclerosis, with those arguing for CCSVI as cause often citing the fact that the venous abnormalities being found appear to be congenital (developed in the womb) in nature. I am unsure as to the question of cause vs. effect, although I do believe that if CCSVI is a cause of MS, it is only one of many factors involved in the initiation of the disease. Even if the vascular defects being found in the veins of MS patients are congenital, this does not necessarily mean they are a cause of multiple sclerosis. There are many congenital defects that cause no adverse effect whatsoever, and I'd venture to say that many of us have some physical trait somewhere in our bodies that is outside of normal variance.

We've all heard stories of world-class athletes suddenly collapsing during or directly after extreme physical exertion. Quite often, the follow-up story is that the unfortunate athlete was a victim of a congenital heart defect, which would never have been noticed had that person not pushed his body to physical extremes. Had they not been athletes, they very well could have lived a normal life span. Likewise, a person born with congenitally abnormal ligaments in their knees might never know of their condition unless they encounter an environmental element (such as a hit to their knees) that brings their abnormality to the fore, in the form of a knee injury more severe than that which might have been suffered by a person with "normal" ligaments. Given the varied elements that have been linked to MS (infectious agents, exposure to toxins, vitamin deficiencies, genetic markers, etc.), a likely scenario is that vascular abnormalities play a part in predisposing an individual to developing MS when exposed to an unfortunate storm of other factors.

To my mind, it is becoming increasingly clear that, despite our greatest hopes, CCSVI is only a part of a much bigger and more complex MS picture. Precisely how big a part it plays is still open to question. Although CCSVI treatment does appear to benefit many patients, it has also been shown to be of little or no value to many others. CCSVI does not explain some of the factors that have previously been established about MS, such as the geographic distribution of the disease (click here), the male-female ratio that is well known to exist in MS (click here), the existence of "Multiple Sclerosis clusters" (which would seem to point to an infectious cause-click here), or the unmistakable link between MS and Epstein-Barr virus (click here). Nevertheless, CCSVI offers the promise of opening up whole new areas of research into the causes of, and treatments for, multiple sclerosis. Certainly, interested MS patients should investigate the possibility of CCSVI treatment, and make a sober assessment as to whether now is the proper time for them to jump in.

There are several ongoing research projects that should further illuminate the CCSVI picture scheduled to publish results later this year, but further robust and expeditious research is desperately needed. It is essential that we ascertain just how prevalent CCSVI is in the healthy population, gain a better understanding of the role, if any, of vascular abnormalities in the MS disease process, determine which MS patients respond best to CCSVI venoplasty, refine the techniques used to treat CCSVI, reduce the number of patients who experience restenosis, and see the development of surgical implements specifically designed to treat venous abnormalities. Neurologists need to get on board to provide interdisciplinary expertise to CCSVI studies. After all, whatever the results of the research, positive or negative, answering these questions can only be in the best interest of their patients.

CCSVI has come a long way, but there is still a long way to go. Ahankfully, the pace of CCSVI research is gaining momentum, and hopefully we will see answers to many of our questions sooner rather than later. In the meantime, my best advice is to educate yourself to the best of your ability, be your own most powerful advocate, and make treatment decisions based more on reason than emotion.

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