Helping you make better health choices

In shops now or delivered to your home from only £3.50 an issue!

Subscribe!

Research into Post-Polio syndrome and ME has made the astounding discovery that the virus that most often triggers ME is closely related to the one that causes polio

Research into Post-Polio syndrome and ME has made the astounding discovery that the virus that most often triggers ME is closely related to the one that causes polio.

Just a few decades ago, hospital wards were full of children in iron lungs as a result of polio. No longer. The horrific spectacle appeared to abate with the advent of vaccination, but nothing is without its price.

The public breathed a sigh of relief and even the medical profession believed, and still seems to believe, that the dreaded scourge of polio was at last being vanquished. We read predictions that it will be wiped out by the year 2000.

But a body of evidence is growing linking myalgic encephalomyelitis (ME) to this terrible disease largely caused by attempts to eradicate polio. An alternative polio seems to be upon us.

The proceedings of the first international scientific conference on the Post-Polio Syndrome in the US have been collated in the Annals of the New York Academy of Science. It includes 50 papers written by 118 contributors from a wide range of specialties, including clinical neurology, neuroscience, electrophysiology, brain imaging, histology, virology, immunology, epidemiology and rehabilitation.

In particular, papers by Dr Richard Bruno, assistant professor at the New Jersey Medical School's department of physical medicine and rehabilitation and director of Post-Polio Rehabilitation and Research Service at the Kessler Institute for Rehabilitation in New Jersey, and four other specialists compare in graphic detail ME now often called Chronic Fatigue Syndrome and Post-Polio Syndrome (Dalakas, et al, ed. The Post Polio Syndrome: Advances in the Pathogenesis and Treatment, Annals, NY Academy, Sciences, 1995: 273: 1-409). Post-Polio is developing in those who had polio 25-30 years previously. Clinically, it is indistinguishable from ME.

Other researchers demonstrate that ME is just another form of polio, which has increased with the advent of polio vaccination. As one type of gut virus has been eradicated, so other forms have had the space to proliferate.

To understand the link one needs to understand the microbiological habits of both polio and other enterovirus disease that is, gut bugs.

A historical accident has led to various names being given to viruses, all of which share physical, chemical and epidemiological characteristics of what we consider the classic polio virus, which science refers to as polio viruses 1,2 and 3 (Dowsett: Journal of Hospital Infection, 1988; 11: 103-15). In 1948 a polio-like illness in New York state prompted scientists to culture the virus. But what grew looked to them at that time like a new virus.

They called it "Coxsackie" after the small town up the Hudson River where it was found. And they called the disease "Atypical Polio" because its symptoms identified it as a kind of polio, despite the virus being apparently different.

This kind of polio, "Atypical Polio", has since been renamed "ME" and even more recently, "Chronic Fatigue Syndrome". But it remains a kind of polio despite the change of name, and newer technology has shown up the generic similarities of the most frequent agent that causes it.

These techniques place Coxsackie, the virus most often implicated in ME, in the polio family tree, along with so-called Echo viruses. Coxsackie has been further divided into Coxsackie type A (with 24 viruses) and Coxsackie type B (six viruses). There are 34 Echo viruses. In total, there are at least 72 enteroviruses in all, with new ones still being discovered.

All this has been unnecessarily confusing and complicated, even for doctors. These days newly discovered enteroviruses are just given a new number, not a new name, since their inter-relationship is recognized.

Had the techniques been available that we now have at our disposal, all these viruses might simply have been called "Polio 1 through 72".

There are several angles from which to investigate the hypothesis that ME is a type of polio. One is its clinical symptoms. Dr Elizabeth Dowsett , consultant microbiologist of the Southeast Essex NHS Trust who is in the forefront of ME research, explains that true ME (as opposed to fatigue states with other etiologies) strikes one clinically as being polio-like, and it has often been diagnosed as a "non-paralytic polio". "These patients have weakness, pain down their spines and are systemically ill," she says.

She feels that it has been an unfortunate mistake to turn to the label "Chronic Fatigue" because true ME is a neurological condition that usually originates with a gut virus infection like Coxsackie.

Apart from clinical examination, in some cases of ME you can actually demonstrate the presence of gut virus infection in the patient. The requirement to put off diagnosing ME for six months after the patient falls ill has unwittingly militated against this. If tests are not done very rapidly after the onset of infection, it is too late to identify the virus.

A blood screening test called the IGM, which shows up recent infection, is an NHS procedure. This can be positive up to three months after infection in adults. As the enteroviruses are characterized by their relapsing nature (on average, three-week intervals), it could also be identified on relapse.

Apart from modern techniques, a research procedure called the acid elution test can remove antibody from circulating virus and can be applied to viruses multiplying in the bowel. Years ago it was difficult to diagnose polio, and it was this very test which was used.

A third way to compare ME with polio is by looking at studies of actual outbreaks which identified the viruses causing it. Here the evidence is particularly striking.

A recent paper by Richard T Johnson, at the Department of Neurology, John Hopkins University School of Medicine, in Baltimore, Maryland, published in the 1995 Annals of the New York Academy of Sciences mentioned above, sets out evidence that has been available since the 1950s. "In the spring of 1957, " he wrote," we investigated an epidemic of poliomyelitis in Hawaii. . . of the 39 cases of nonparalytic poliomyelitis, only four were related to type 1 poliovirus. There were 16 cases of echovirus 9, seven cases of Coxsackie, and four to five other enteroviruses."

The very enteroviruses known to be implicated in so-called ME were here identified as causing "non-paralytic polio". ME has often been diagnosed as "non-paralytic polio". And even more interestingly, two of the 38 cases of paralytic disease were not caused by the polio virus at all, but by one of the Coxsackie viruses.

So we know that enteroviruses in general can cause varying forms of the disease we call polio.

Other parallels between ME and polio concern neurological damage.

In the November 1991 edition of Orthopedics, Dr Bruno says that "all the evidence available shows conclusively that every case of poliomyelitis, human or experimental, exhibits lesions of the brain. In the experimental animal this included non-paralytic and abortive cases as well as paralytic cases." ME has been diagnosed by both italicized names. In fact, brain abnormalities can now be demonstrated in the brains of people with ME using SPECT and MRI scans.

One would expect there to be differences in the diseases caused by different viruses, but if these viruses are all of the same family and use the same receptor sites in the body, one would also expect there to be similarities. This is just what we find.

Dr Bruno says: "Despite the differences between poliomyelitis and ME, an association with the polio virus was suggested by the fact that, of the more than one dozen ME outbreaks before the introduction of the Salk vaccine, nine occurred during or immediately after outbreaks of polio, and several involved hospital staff who cared for polio patients" (Annals, NY Academy of Sciences ,1995).

There is also the case of a woman who fell ill with classical ME/CFS while nursing a lady friend with acute paralytic polio (Hyde et al: Epidemiological Aspects of ME/CFS, Nightingale Research Foundation, Ottowa, Canada, 1994).

But if ME is a type of polio, why doesn't everyone exposed to the relevant viruses develop ME just as they did polio?

It has been forgotten that, as Dr Thomas Stuttaford of The Times explains, ". . .only a small number of those infected with the polio virus became paralyzed; about 90 per cent didn't even realize that they had anything more threatening than a cold." With polio and ME, the state of your immune system governs whether you will be susceptible.

By altering the population's resistance to a particular organism, we alter the balance of infectious agents in the environment. The circulation of wild polio viruses 1-3 has declined through vaccination. However, this has left us open to the other 69 polio-related viruses, which have thrived (see box, this page).

It is therefore not surprising that since the late 1950s the incidence of ME has risen and risen, and experts predict that it will be the neurological disease of the 21st century. By suppressing the spread of three enteroviruses we have opened the door to the rest.

The argument about whether enterovirus infection persists over many years is still raging. In her 1995 review of the proceedings of the 1994 Post-Polio Conference, Dr Dowsett draws attention to new evidence of persistent enterovirus infection in the central nervous system

of Post-Polio patients.

She concluded: "Three separate groups of virologists from the USA, UK and France have found fragments of enteroviral RNA in the spinal cord, cerebrospinal fluid and blood of some patients with Post-Polio syndrome. The fragments are identified as polio virus by some and as Coxsackie virus by others," she said.

It is thought that the emergence of late-onset Post-Polio fatigue may result from age-related changes in brain cells that survived the original polio infection (Bruno, Annals, NY Academy of Sciences 1995).

But it can be observed through case histories that just as we see Post-Polio Syndrome 30 years after initial infection, so we are seeing "Post-ME" as well. The Nightingale Research Foundation in Ottawa proposes that in fact they are one and the same condition others believe they may be variations of each other.

What has arisen is "two new diseases with different names, with different degrees of acceptance and exactly the same set of symptoms at exactly the same time. It is unrealistic to believe that we are dealing with two different disease processes and two different causes," the researchers concluded.

A paper investigating the epidemiological aspects of ME/CFS has revealed further convincing parallels between the behaviour of this disease and polio. It describes the onset of ME as mainly being ushered in by a "minor illness" which has "recently been described as a flu-like illness. . ." The researchers continue: ". . .in reality it is identical to and has all of the features and variability of the 'minor illness' of missed or abortive poliomyelitis."

In comparisons with epidemic polio going back to 1916, they note that "we see the same two typical features" in a typical year with an epidemic of ME : "a decreasing incidence from January to reach a summer low; then . . . the strong late summer increased incidence, peaking in the August to October period." (Hyde etal: Nightingale Research Foundation,Ottowa, 1994).

ME, or Atypical Polio, is a serious and devastatingly debilitating multi-system malfunction leading to such profound weakness in some children that they are unable to speak and have to be tube-fed. But they can breathe; enteroviruses have an affinity for certain tissues and many do not attack the respiratory centre causing its paralysis, as in polio itself.

Children with polio were given intensive physiotherapy and exercised. Now, up to a half of survivors have gone on to develop Post-Polio. It has been predicted that this will eventually rise to 100 per cent.

What are we doing to our teenage ME sufferers when we force them back to school, deny home tuition and tell them to exercise as a form of therapy?

The "treatment of choice" for those with Post-Polio is "adequate rest, energy conservation, the pacing of activities, and reducing physical and emotional stress" (Bruno: Annals NY Academy of Sciences 1995).

What on earth will happen in 30 years' time to children now getting ME in a climate where they are disbelieved and told to push themselves through the pain barrier? The condition "Post-ME", which we are already seeing in adults, may well await them with a vengeance.

We have to ask ourselves the disturbing question: if polio victims had been able to breathe, would we ever have taken that disease seriously?

Jane Colby

!AJane Colby is author of ME: The New Plague (First and Best in Education Ltd, 34 Nene Valley Business Park, Oundle, Peterborough, PE 8 4HL)


The very best of intentions

Case study: Chemotherapy - The side effects

You may also be interested in...

Sign up for free today

Sign up now to get your FREE 17-point Plan to Great Health

Free membership gives you access to our latest news reports, use of our community area, forums, blogs, readers' health tips and our twice-weekly
e-news letter.

WDDTY Recommends

Latest Tweet

About

Since 1989, WDDTY has provided thousands of resources on how to beat asthma, arthritis, cancer, depression and many other chronic conditions.

Start by looking in our fully searchable database, active and friendly community forums and the latest health news.

Positive SSL Wildcard

Facebook Twitter

Most Popular Health Website of the Year 2014

© 2010 - 2016 WDDTY Publishing Ltd.
All Rights Reserved