Sunday 25 July 2010

Don't let the phoney melanoma scare keep you out of the sun

There are many good reasons why we won't – and shouldn't – give up our tan

- Sam Shuster
- The Guardian, Wednesday 21 July 2010
- Article history

Kira Cochrane asks "why can't we give up the tan?" (Going for the burn, G2, 7 July). The answer is simple: we are not convinced that the alleged harm outweighs the obvious benefits, and we dislike the bullying, fear-mongering campaign against sun exposure.

Skin cancer statistics are used to scare, not educate. Almost all of the 84,000 skin "cancers" that appear each year are in fact benign: they don't spread or kill; their cancerous name is a historical misnomer. Of course, sun exposure increases facial wrinkling, as does smoking, but the black ace in the fear game is melanoma, because the real thing is vicious.

As the article tells us, Cancer Research UK say the incidence of malignant melanoma has "quadrupled in Britain in the last 30 years". But if this were so we would have seen coffin-loads of consequences by now. We haven't, and in a recently published large UK study (British Journal of Dermatology, 2009), I and my colleagues showed that the reason mortality has not increased with incidence is that the tumours reported are actually benign; they are not true malignant melanomas. Our explanation of the phoney melanoma epidemic is "diagnostic drift which classifies benign lesions as … melanoma", a misdiagnosis "driven by defensive medicine, an unsurprising response to its commercialisation".

The recategorisation by the International Agency for Research on Cancer that Cochrane quotes, which gives sunbeds "the same high risk … as cigarettes and asbestos", is absurd. The field is an unreliable mess of conflicting conclusions, and the claim of a special risk for younger people, which the article repeats, is now denied. But critically, since we now know incidence is invalidated by classifying benign disease as malignant, until diagnosis is improved only studies of melanoma mortality are acceptable; and the few that have been done show that melanoma mortality actually decreases after UV exposure!

The poor relationship of melanoma to cumulative UV dose had solarphobics running for cover in the idea the article quotes, that a one-off sunburn "could develop into a melanoma". But that doesn't happen: unlike the benign tumours that really are caused by UV, melanomas do not predominate in sun-exposed skin. There are commonsense reasons to avoid sunburn, and for use of sunscreens – but not, as Cochrane implies, to prevent melanoma, for which they have been shown to be ineffective.

Cochrane wonders why "we still associate tanned skin with good health", but there are many good reasons. Although the medical uses thatgained Niels Ryberg Finsen a Nobel prize have long past, there are newer uses in photo-chemotherapy, dermatology and psychiatry.

Self-image is measurably increased by a tan, and we will learn much from understanding the mechanism of this wellbeing. UV initiates the synthesis of vitamin D, essential for our bones, and sunscreen promotion has led to problems. It also has a profound effect on our immune function. Strangely, the bastard science of descriptive epidemiology that masterminded the melanoma myth now claims that UV lowers the incidence of many internal cancers and melanoma, thereby outweighing any harmful effects.

Plants and animals owe their existence to the sun, and it is hardly surprising that we've learned to adapt and use it. That's why we can't give up our tan, and more importantly why we shouldn't try.

http://www.guardian.co.uk/commentisfree/2010/jul/21/melanoma-myth-skin-cancer-sun

NESTLÉ RELAUNCHES NESQUIK WITH NEW ‘NO–ARTS’ RECIPE

A brand new version of family favourite NESQUIK® will hit the shelves this month with a new and improved recipe. NESQUIK will still have the same great taste loved by families nationwide but will be free from artificial ingredients.

In response to parents’ concerns about artificial ingredients, Nestlé has renovated and improved the NESQUIK recipes so that there are now no added artificial colours, flavours, sweeteners or preservatives, in any of the Strawberry, Chocolate or Banana flavoured products. ‘No arts’ versions of the Strawberry and Chocolate flavours are available now, with new Banana arriving in early autumn.

NESQUIK has always been a good source of vitamin D, which is essential in helping the body absorb the calcium found in milk. Both calcium and vitamin D are important to help the development of strong bones and teeth in children.

Nutritionist for Nestlé UK and Ireland Liz Read said, “We’ve worked really hard to improve the NESQUIK recipe by taking out artificial ingredients. We are giving parents extra assurances and now have a product that families will love.

“The work we’ve done with NESQUIK is a continuation of our work to remove artificial ingredients across Nestlé’s products more broadly and builds on the renovation of our confectionery products such as SMARTIES, MILKYBAR and the ROWNTREE’S brand. “

The launch of new recipe NESQUIK will be backed by a £3 million marketing campaign which sees NESQUIK milkshake powder advertised on TV for the first time in 10 years.

Through emotionally engaging communications, the campaign will connect with a new generation of families. Both TV and digital activity will continue to feature the iconic NESQUIK bunny Quicky, who has been the brand’s mascot since 1973.

Egle Augustinaviciute, NESQUIK Brand Manager said; “The creative idea at the heart of the campaign – ‘They only grow up once’– reminds consumers that NESQUIK is a fun family brand that encourages kids to grow in imagination and learning. It also promotes NESQUIK’s health benefits, both as a source of vitamins and as an imaginative way of making milk an appealing drink choice for kids…and grown–up kids!”

The campaign is backed by strong integrated digital support with the launch of new ‘Nesquik.co.uk’ as well as the exciting new ‘Imagination Station’ (www.nesquik–imaginationstation.co.uk) launched in co–operation with AOL. ‘Nesquik.co.uk’ provides parents with product information as well as general nutritional information and great NESQUIK recipes, while ‘Imagination Station’ acts as an online resource for parents, with exciting playtime ideas and free activity sheets for parents to enjoy with their children.

Additionally, for the first time this year NESQUIK will participate in ‘Get Set, Go Free’, Nestlé’s cross–category family activity promotion which encourages families to get out and try new activities.

For more information: Nestlé UK Press Office
020 8667 6005
nestleukpressoffice@uk.nestle.com

The questionable effectiveness of sunscreen

Adam E Handel a b, Sreeram V Ramagopalan a b

In their Seminar (Feb 20, p 673),1 Vishal Madan and colleagues highlight a rising incidence of non-melanoma skin cancer (NMSC) in several countries. The incidence of NMSC also seems to be increasing in the USA.2 This increase is the reverse of what is expected given the continued increased purchase of sunscreen per head in the USA and UK since the 1990s (figure).3, 4

Figure Full-size image (26K) Download to PowerPoint

Purchase of sunscreen products by volume per head over time in the USA and UK3, 4

The contradiction suggests that increased population exposure to sunscreen does not translate into a reduced risk of skin cancers. This finding is particularly important for public health measures to prevent NMSC (and melanoma). It could be that sunscreens are being improperly used, or that they are ineffective in the prevention of skin cancer, or that other factors not related to ultraviolet (UV) light are leading to an increased risk of NMSC and melanoma.1

Sunscreen has the potential to have negative effects since synthesis of vitamin D relies on UVB radiation.5 Since vitamin D deficiency has been linked to the pathogenesis of many diseases,5 it is crucial that the effectiveness of sunscreens and their use are thoroughly investigated.

We declare that we have no conflicts of interest.

References

1 Madan V, Lear JT, Szeimies RM. Non-melanoma skin cancer. Lancet 2010; 375: 673-685. Summary | Full Text | PDF(932KB) |CrossRef | PubMed

2 Stern RS. The mysteries of geographic variability in nonmelanoma skin cancer incidence. Arch Dermatol 1999; 135: 843-844.CrossRef | PubMed

3 Euromonitor. Cosmetics and toiletries: sun care. http://www.euromonitor.com/Sun_Care. (accessed May 25, 2010).

4 United Nations. World population prospects: the 2008 revision. http://esa.un.org/unpd/wpp2008/index.htm. (accessed May 25, 2010).

5 Holick MF. Vitamin D deficiency. N Engl J Med 2007; 357: 266-281. CrossRef | PubMed

a Wellcome Trust Centre for Human Genetics, University of Oxford, Oxford OX3 7BN, UK

b Department of Clinical Neurology, University of Oxford, John Radcliffe Hospital, Oxford, UK

Multiple sclerosis and vitamin D: a review and recommendations.

Multiple sclerosis and vitamin D a review and recommendations.

Solomon AJ, Whitham RH.

A relationship between vitamin D and several diseases, including multiple sclerosis (MS), has recently received interest in the scientific community. Vitamin D appears to have important actions beyond endocrine function, particularly for the immune system. Risk of development of MS, as well as disease severity, has been associated with vitamin D in a variety of studies. There remains a need for prospective studies to further establish this relationship. Given the current evidence of the potential benefits of vitamin D, it appears to be reasonable and safe to consider vitamin D supplementation at dosing adequate to achieve normal levels in patients with MS and clinically isolated syndrome.

Department of Neurology, Oregon Health Science University, 3181 Southwest Sam Jackson Park Road, CR 120, Portland, OR 97239, USA. solomoan@ohsu.edu

source : http://www.ncbi.nlm.nih.gov/pubmed/20556546

CCSVI – A new paradigm and therapy for multiple sclerosis

Sunday, July 25th, 2010

CCSVI – A new paradigm and therapy for multiple sclerosis CCSVI Venogram

By Salvatore J.A. Sclafani, MD,

Commentary by Michael D. Dake, MD,and Barry T. Katzen, MD

Chronic cerebrospinal venous insufficiency (CCSVI) is a hemodynamic condition in which cerebrospinal venous drainage is altered and inhibited.

Outflow obstructions of the internal jugular veins (IJVs), vertebral veins, and/or azygos vein (AZV) and their tributaries result in stasis or reflux of these outflow veins and redirection of flow through vicarious circuits.

Cerebral blood flow and brain perfusion are retarded and may result in cerebral atrophy, venous microhemorrhage, and cerebral hypertension. Moreover, stasis may evolve into occlusions of these veins or the dural sinuses.¹

The previously reported acute outflow obstructions of the dural sinuses and jugular veins have been due to hypercoagulable states, inflammation, iatrogenic trauma during prolonged catheterization, and compression by neck neoplasms and adenopathy.^2-5 These occlusions and stenoses cause acute manifestations of cerebral venous outflow obstruction. Mental confusion, severe headaches, weakness and lethargy, acute visual disturbances, and facial and glottic edema are clinically obvious and quite severe.

Treatment of the obstructions, by angioplasty, angioplasty and stenting, or thrombolysis and stenting, results in prompt and satisfactory amelioration of these symptoms. It has also been shown that acute jugular incompetence can result in transient global amnesia.⁶

The fact that venous insufficiency can cause acute neurological disturbances was convincingly demonstrated in a case report about a patient with a patent arm dialysis arteriovenous shunt who developed increasing headaches, gait disturbance, and cognitive dysfunction that significantly improved after ligation of that shunt.⁷

The majority of patients with CCSVI appear to have multiple sclerosis (MS), and the majority of patients with MS have CCSVI. MS is an inflammatorydemyelinating disorder of the brain and spine with protean neurological manifestations. It is the most common neurological disorder of young adults. It is quite possible that some of the protean manifestations of MS, including fatigue and lethargy, headaches, and cognitive dysfunction, may actually represent symptoms of CCSVI itself.⁸

CCSVI is more insidious in its onset than acute venous insufficiency. In fact, the association of CCSVI with MS has been largely ignored despite Charcot’s original description of the relationship of the cerebral veins and inflammatory lesions that are the hallmark of MS.⁹

Zamboni proposes that CCSVI has a role in the pathogenesis of MS. He suggests that resistance to cerebrospinal venous outflow causes vicarious redistribution through small collateral veins that cannot handle high flow.¹⁰ He also suggests that tight endothelial junctions widen to allow diapedesis of red blood cells, T cells, and other immune cells into the brain, resulting in inflammation and hemosiderosis that is reminiscent of what is seen with venous insufficiency of the lower extremities. This is supported by iron deposition as seen on susceptibility-weighted magnetic resonance imaging (SW-MRI), which reveals that the inflammatory MS plaques always surround a central venous structure. MRI shows that the central vein and surrounding plaque have abnormal quantities of iron. Pathologically, the basement membranes of these deep veins are thickened, and hemosiderin deposits are present in the wall of and adjacent to the deep cortical veins. T cells and macrophages violating the blood-brain barrier provide a working explanation for the autoimmune cascade that result in demyelination and the neurological manifestations associated with MS.

DIAGNOSIS
Ultrasound
One could argue that the diagnosis of MS is sufficient to justify catheter venography to identify venous abnormalities worthy of angioplasty. However, Zamboni used ultrasound imaging to noninvasively screen patients who might have CCSVI, and this algorithm persists as the route of detection. His protocol includes transcranial and extracranial Doppler to detect deranged hemodynamics and B-mode ultrasound to detect stenoses and changes in cross-sectional diameters in the supine and the upright positions. He states that two of five characteristics lead to a diagnosis of CCSVI. The five characteristics are ⁽¹⁾ reflux within the IJVs or vertebral veins, ⁽²⁾ reflux within any of the deep cerebral veins, ⁽³⁾ no flow in the IJV on activation of the thoracic pump upon inspiration, ⁽⁴⁾ failure of the IJV to increase in diameter in the supine position compared to the erect position, and ⁽⁵⁾any B-mode abnormality such as septum, stenosis, abnormal valve, etc.

MR Venography and Computed Tomographic Venography
Others have used cross-sectional venography to evaluate venous stenosis (Figure 1). The majority of sites use MR venography, but occasionally, computed tomographic venography is also used. To evaluate the dural sinuses and the veins of the neck, two-dimensional and two-dimensional contrast-enhanced imaging is used. These cross-sectional studies show a variety of findings that include venous narrowing and collateral vessels throughout the neck. Occasionally, narrowing or occlusions of the dural sinuses are noted, but for the majority of times, findings are restricted to the neck. However, there is poor correlation between the anatomical findings on MR venography and subsequent catheter venography. Many areas of narrowing on MR venography are not constant and are not reproduced during catheter-based studies.

Hemodynamics of Cerebral Venous Drainage Explain False-Positive Findings on MR Venography
To explain this enigma, one must understand the hemodynamics of cerebral venous outflow. The brain has two methods of venous drainage: blood drains anteriorly through the internal jugular system in the supine position and posteriorly through the vertebral system when erect. In the normal, upright patient, the jugular vein collapses (narrows) because there is not enough blood flow through it to maintain distension. In the supine position, the normal IJVs distend because the supine position favours jugular flow. The same issues apply when there is increased resistance to jugular flow. The alternate vertebral venous outflow system shunts blood away from the jugular veins. Because pressure is normally low and only marginally rises with obstruction, distension of the obstructed system does not occur.

As a result, many of the narrowings seen in CCSVI are caused by compression of a collapsed system by external forces rather than due to stenoses. This may lead to unnecessary angioplasty. The common areas of questionably physiological stenosis seen on MR venography are located at the skull base, adjacent to the carotid bulb, or where strap muscles exert compression.

VENOGRAPHY AND VENOGRAPHIC OBSERVATIONS
Venography remains the gold standard for evaluating the anatomy of the veins draining cerebrospinal blood flow. It should be emphasized that a reliable assessment of the azygos system can only be done by using catheter venography.

Technique
The venographic evaluation is begun by placing a headhunter catheter in the left femoral vein with the purpose of excluding May-Thurner syndrome. The catheter is subsequently placed in the left ascending lumbar vein to assess the lumbar veins for hypoplasia and other abnormalities. The left renal vein is then catheterized to look for abnormalities of the renal vein tributaries. The purpose of these three studies is to look for causes of increased blood flow into lumbar veins that might be compromised by azygos stenosis.

The catheter is then placed in succession into the AZV and both IJVs. The catheter is positioned in the AZV at the junction with the hemiazygos vein. Contrast venography is done twice: first at 3 mL/s for a total volume of 10 mL to look for reflux, followed by a second, fuller injection at 8 to 10 mL/s for a total volume of 20 to 30 mL to delineate all the anatomy. The AZV and its tributaries are imaged to include the chest and abdomen. Some physicians measure pressures, but I have not found this to be helpful. Any stenosis is treated, as will be described later.

The catheter is then withdrawn from the AZV and advanced sequentially into each IJV. Catheterization of the IJV may be challenging because funneled narrowing of stenotic valve leaflets occurs near the origin of the vessel. Occasionally, an incomplete duplication is present posterior to the main ostium. This may make catheterization confusing and difficult. Two contrast injections are performed: one with a slow injection of 3 mL/s for a total volume of 10 mL and one with a fuller injection of 8 to 10 mL/s for a total volume of 20 mL. Film rates of 3 to 6 frames per second are necessary to get sufficient detail of the valves and to detect ostial narrowing that may become obscured as contrast enters the brachiocephalic veins and overlaps the confluens where stenosis is often located. Any stenoses or other outflow obstructions are treated at this time. Diluted contrast abnormalities (50:50 mixture of saline) is helpful in the IJV evaluation because valve abnormalities and some webs may be obscured by very dense contrast media.

Venographic Findings
First, there are numerous collateral veins when outflow obstructions are present (Figure 2). These veins may be wildly abnormal and include hypoplasias and early divisions that reconnect to a larger conduit. The vertebral veins may be enlarged and can be confusing in their appearance. The pathology of this disease is a truncal malformation of the veins that is probably genetically determined; it is not an inflammatory or postphlebitic stenosis. Much of the resistance to blood flow is related to abnormal valve development. Fused, reversed, thickened, and other abnormally located and developed valves cause resistance to flow. Atresias, hypoplasias, duplications, webs, septums, and kinks also occur. Most of these abnormalities are located centrally near the confluens. Challenges occur when more peripheral narrowings are present, which may be physiological.

INTRAVASCULAR ULTRASOUND
Diagnosis by venography can also be subtle. I have found that intravascular ultrasound (IVUS) is very helpful in identifying some of these abnormalities, as well as in differentiating the narrowed veins caused by inadequate volume from the narrowed veins resulting from stenosis (Figure 3). IVUS enables a real-time assessment of the distensibility of collapsed veins. Simple maneuvers, such as slow sustained inspiration by activating the thoracic pump, allow improved distension of the vein and confirms that the narrowing is not fixed. Further, IVUS allows detection of improper or incomplete valve movement. Finally, incomplete duplications of the jugular vein may not be detected without IVUS.

TREATMENT OPTIONS
Treatment of these abnormalities is still in development, and the ideal methodologies for treatment have not yet been established. Essentially, only one team has published an outcomes study.1 Results were encouraging but showed limitations. Angioplasty with high-pressure balloons of diameters 4 mm greater than nominal diameters in 2- to 4-cm lengths is performed with venographic control. Inflations to maximum pressures for 30 to 60 seconds were used several times. Some of these obstructions are very resistant, and Cutting balloons (Boston Scientific Corporation, Natick, MA) are used with increasing frequency. Dr. Sinan Tariq, the leader of the Kuwaiti national trial, has been using valvulotomy devices with some success (personal communication, April 2010). Stenting is performed by some investigators for resistant narrowings. However, no reports have been published about their outcomes. I have not used stents in any cases yet.

AFTERCARE AND FOLLOW-UP
The procedure is performed under local anesthesia in an ambulatory setting. Most patients are kept in the hospital for 1 or 2 hours and then discharged. Most physicians treat patients with clopidogrel or short-term anticoagulation with heparins, enoxaparin, or fondaparinux. Clinical and imaging follow-up varies among investigators. Assessment tools are predominantly clinical and include anexpanded disability status score (EDSS), which is a neurological assessment of eight areas of the central nervous system, along with certain measures of disability and restriction in daily life. These scores are added up to give a rating on the EDSS, which ranges from 0 (normal) to 10 (death due to MS). From step 4 onward, the ability to walk becomes the key factor in determining the EDSS score.

OUTCOMES
It must be emphasized that only one team has published any clinical results, and although promising, they were not overwhelming. Zamboni’s group described an open-label experience of patients with MS who were allowed to stay on disease-modifying drugs for their MS. The results were encouraging, with statistically significant improvements in cognition and motor function and reduced exacerbation rates, and MRI confirmed diminished new brain lesion development. The patients who have shown the most positive results are those in the relapsing-remitting phase of the disease. Patients with primary progressive MS, for whom there is no proven treatment, had the least positive effects.

However, the dilatations are not always durable, with approximately half of the patients developing restenosis between 8 to 14 months. It is interesting that all patients who suffered from an exacerbation of symptoms had a restenosis and that no patients who had durable angioplasty experienced restenosis.

Overall, the procedure is well-tolerated, and patients do not require sedation. The complications reported in Zamboni’s trial were minimal. I have had one early thrombosis that did not respond to thrombolytics and one case of atrial fibrillation that I thought might have been a response to treatment that modified autonomic neural transmission, but resolved within 12 hours. Those interventionists who have used stents have not yet reported outcomes in the literature.

Dr. Zamboni cautions against stents because they are not designed for placement at the confluens of the jugular vein with the subclavian vein where the jugular vein widens. Improved flow is shown to significantly increase the diameter of these veins. He worried about migration in his article, and indeed, one of the early patients treated with stenting by another interventionist is reported in the lay press to have required open heart surgery for stent retrieval.

CAVEATS
CCSVI has not been well-accepted by the neurological community. Many leaders strongly oppose this treatment on the grounds that no randomized prospective trials have taken place, and they describe the procedure as dangerous and invasive. Patients who are not enamored by current treatments find this mechanical solution alluring. They have become activists and are seeking physicians with catheter skills to begin these treatments. The fact that clinical improvements occur cannot be disputed. Although the placebo effect cannot be ignored, some of the anecdotal positive results have been impressive. Even before leaving the procedure room, patients describe improved cognition and a return of sensation and reduction in neuralgia within minutes. One patient, who was confined to a wheelchair because of spasticity, ataxia, and weakness, returned the next morning after a quick run up the stairs to show his ability to stand on one leg without difficulties.

However, these improvements may not persist, and exacerbation may occur within weeks of the procedure. Is this caused by recurrent stenosis or increased reflux? Nonetheless, the improvements warrant further investigation and well thought-out trials. The diagnosis is not always obvious. The current experience is about discovering who, what, and how to treat. Safety studies are needed to develop more information and experience. Additional work and publication of results are also necessary before there is advocacy of the widespread application of venoplasty for CCSVI.

Salvatore J.A. Sclafani, MD, is Professor and Chairman of Radiology and Professor of Surgery and Emergency Medicine, State University of New York Downstate Medical Center in Brooklyn, New York. He has disclosed that he holds no financial interest in any product or manufacturer mentioned herein. Dr. Sclafani may be reached at (718) 245-4447; salvatore.sclafani@downstate.edu.

^1. Zamboni P, Galeotti R, Menegatti E, et al. A prospective open-label study of endovascular treatment of chronic cerebrospinal venous insufficiency. J Vasc Surg. 2009;50:1348-1358.^2. Huang P, Yang YH, Lin WC, et al. Successful treatment of cerebral venous thrombosis associated with bilateral internal jugular vein stenosis using direct thrombolysis and stenting: a case report. Kaohsiung J Med Sci. 2005;21:527-531.^3. Philips MF, Bagley LJ, Sinson GP, et al. Endovascular thrombolysis for symptomatic cerebral venous thrombosis. J Neurosurg. 1999;90:65-71.^4. Chaloupka JC, Mangla S, Huddle D. Use of mechanical thrombolysis via microballoon percutaneous transluminal angioplasty for the treatment of acute dural sinus thrombosis: case presentation and technical report. Neurosurgery. 1999;45:650-6; discussion 656-657.^5. Gurley MB, King TS, Tsai FY. Sigmoid sinus thrombosis associated with internal jugular venous occlusion: direct thrombolytic treatment. J Endovasc Surg. 1999;3:306-314.^6. Schreiber SJ, Doepp F, Klingebiel R, et al. Internal jugular vein valve incompetence and intracranial anatomy in transient global amnesia. J Neurol Neurosurg Psychiatry. 2005;76:509-513.^7. Hartmann A, Mast H, Stapf C, et al. Peripheral hemodialysis shunt with intracranial venous congestion. Stroke. 2001;32:2945-2946.^8. Zamboni P, Galeotti R, Menegatti E, et al. Chronic cerebrospinal venous insufficiency in patients with multiple sclerosis. J Neurol Neurosurg Psychiatry. 2009;80:392-399.^9. Charcot JM. Histology of “sclerose en plaque” (in French). Gazette Hosp (Paris). 1868;41:554-566^10. Zamboni P, Menegatti E, Bartolomei I, et al. Intracranial venous hemodynamics in multiple sclerosis. Curr Neurovasc Res. 2007;4:252-258.

Commentary

The Relationship Between CCSVI and MS
BY MICHAEL D. DAKE, MD, AND BARRY T. KATZEN, MD
In this article, Dr. Salvatore Sclafani presents an introduction to chronic cerebrospinal venous insufficiency (CCSVI) and the current understanding of its association with multiple sclerosis (MS). Much of the initial evidence supporting this possible relationship has been reported by Dr. Paolo Zamboni and colleagues. Using duplex ultrasonography and transcranial Doppler studies, they have documented the frequent association of abnormal venous hemodynamics with MS. In one study of 109 MS patients and 177 age- and gender- matched controls, subjects underwent a blinded transcranial and extracranial color Doppler sonographic assessment (TCCS-ECD) of five parameters related to venous outflow hemodynamics. These five criteria are detailed by Dr. Sclafani in his review. In controls, only 2.7% of the measurements were abnormal, whereas in MS patients, 47% of measurements were anomalous.¹

In a study comparing duplex ultrasound with contrast venography, 40% to 70% of MS patients had evidence of flow disturbances and/or venous stenosis by TCCS-ECD. Of these patients, 86% and 91% had obstructive disease of the azygos or internal jugular veins, respectively, as assessed by traditional catheter venography.²

Some of the symptoms of MS mimic those observed in patients with superior vena cava syndrome. Relief of superior vena cava obstruction with venous angioplasty and stent placement, if required, provides swift and dramatic resolution of the symptoms of impaired cognition and fatigue.³ Thus, it is not surprising that patients with CCSVI associated with MS also report rapid relief of these nonlocalizing symptoms.

It is well-recognized, however, that many symptoms of MS fluctuate and are largely subjective. It is possible that in the initial nonrandomized patient series reported to date, the improvement in symptoms could reflect a strong placebo effect. Nonetheless, the biological plausibility linking cerebral venous congestion to inflammation that is the hallmark of MS requires serious consideration. Whether the relief of the venous obstruction will have an impact on the course of the neurological disease remains to be seen.

Although the initial observations relating CCSVI and MS are interesting and potentially paradigm-shifting, they now need rigorous testing. As Dr. Sclafani correctly points out, there are life-threatening adverse effects that may complicate endovascular management of CCSVI. A randomized clinical trial is needed to assess the risks and benefits of endovascular treatment of this condition. There are many physicians and others who have endovascular skills who are promoting and developing centers for treating these patients without regard for the lack of scientific data to support therapy. Patients with this disease have frequently suffered for long periods of time, often without great relief of symptoms and are often desperate for any alternative that may offer hope.

We remain very concerned about the possibility of misleading these individuals or exposing them to additional risk, outside of scientific efforts to get a better understanding of this potentially exciting therapy. Given the concerns of the neurology community, it would be unfortunate if the attempts to advance this field suffer the consequences of premature promotion of a procedure that could mislead patients, payors, and regulators.

Accordingly, we propose a global initiative to meticulously document the prevalence of venous anomalies in MS, by comparison to age- and gender-matched healthy individuals, as well as those with neurological disease not due to MS. In part, recent grants from the National MS Society awarded to seven investigative groups to study CCSVI will help initiate this effort in the United States and Canada. These observations may provide a basis for a clinical trial in MS to assess the long-term safety and efficacy of endovascular procedures in restoring normal venous hemodynamics, in relieving the nonlocalizing symptoms secondary to venous obstruction, and in slowing or halting the inflammatory and demyelinating processes. In parallel, the development of animal models will advance our understanding of how CCSVI may influence or even initiate the pathophysiology of MS.

Michael D. Dake, MD, is Professor, Department of Cardiothoracic Surgery, Stanford University School of Medicine in Stanford, California. He has disclosed that he receives grant/research funding from Cook Medical. Dr. Dake may be reached atmddake@stanford.edu.

Barry T. Katzen, MD, is Founder and Medical Director of Baptist Cardiac and Vascular Institute and Clinical Professor of Radiology at the University of South Florida College of Medicine in Florida. He has disclosed that he is a member of the scientific advisory board for W. L. Gore & Associates. Dr. Katzen may be reached atbarryk@baptisthealth.net.

1. Zamboni P, Menegatti E, Galeotti R, et al. The value of cerebral Doppler venous hemodynamics in the assessment of multiple sclerosis. J Neurol Sci. 2009;282:21-27.
2. Zamboni P, Galeotti R, Menegatti E, et al. Chronic cerebrospinal venous insufficiency in patients with multiple sclerosis. J Neurol Neurosurg Psychiatry. 2009;80:392-399.
3. Kee ST, Kinoshita L, Razavi MK, et al. Superior vena cava syndrome treatment with catheterdirected thrombolysis and endovascular stent placement. Radiology. 1998;206:187-193.