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2007 Presentation
• CJD Support Organisations
• Transmissible Spongiform Encephalopathy (TSE’s)
• The Nature of TSE Disease Transmission The Nature of TSE Disease Transmission
• Overall Prognosis in Overall Prognosis in PrPd termsterms
• CJD Support Organisations
• Transmissible Spongiform Encephalopathy (TSE’s)
• The Nature of TSE Disease Transmission The Nature of TSE Disease Transmission
• Overall Prognosis in Overall Prognosis in PrPd termsterms
• 1992 CJD Support Group Network Inc. - Australia • 1993 CJD Foundation – United States• 1994 Association of Victims of Growth Hormone - France• 1994 CJD Support Network – United Kingdom• 1995/6 Human BSE Foundation – United Kingdom• 1997 CJD Voice – United States• 1998 CJD Watch – United States• 2001 CJD Aware – United States• 2002 CJD Support Network – Japan• 2003 FFI Families Association• 2005 CJD Alliance• 2006 CJD International Support Alliance
CJD Support Groups - Timeline
• For a variety of reasons, across the World, several Support Groups/Organisations and Individuals have emerged over the last decade or so
• Many challenges exist in an area with a number of uncertainties in this rare group of invariably fatal neurodegenerative diseases
• Ignorance of these unusual properties led to inadvertent outbreaks of iatrogenic (surgically-induced, accidentally transmitted) CJD through fledgling experiments on humans from the 1950s with pituitary infertility drugs (hPH), human growth hormone (hGH) injections in children, grafts of Dura mater in brain and spinal operations, Corneal transplantation and the re-use of surgical
instruments after procedures on people with CJD.
The Formation, Growth and Roles of CJD Support Groups
Background
The biggest TSE killer in humans is CJD, first identified in the 1920s by German neuropsychiatrists Alfons Jakob and Hans Creutzfeldt. Since then, painstaking detective work by scientists in the United States, Europe, Australia and Japan has followed the zigzag course of the disease.
TSEs, or prion diseases, are not only infectious, they are also inheritable in a very small number of cases. They have no cure and no validated pre-mortem test, so absolute confirmation cannot be made until a post-mortem examination of the brain.
However, developments over the last few years provide much encouragement.
The most common form of the disease - Classical CJD - occurs at a rate of about one to two per million people in many countries annually, mainly (but not always) in older people. It has no known cause to date.
As of Dec 2003 – vCJD has been proven to be transmitted via blood.
Whatever the cause - a yet-to-be identified virus, Virino, or "prion" (a corrupted naturally occurring protein) - TSEs are among the worst diseases yet identified. The infective agent appears to bind to alcohol-based disinfectants and resists heating to phenomenal temperatures, freezing, burial underground for years, the strongest of chemicals and conventional surgical sterilisation.
Background and Current Day Issues
CJD collectively was generally an “unheard of” condition until the advent of the emergence of vCJD in 1996 in the UK which “changed the landscape” of CJD
Over the last few years, the level and depth of contact between a number of SupportGroups has evolved, namely due to use of the Internet
Many Support Groups are now linked to each other from their respective websites
Sharing our experiences, knowledge, aspirations, concerns, achievements and goals should be encouraged
Collaboration amongst researchers and scientists should be encouraged
Background and Current Day Issues
Through the global unity that continues to grow,I firmly believe that by forming such a Global Alliance, these groups combined
voice and strength for those who have lost, those current suffering from,
and those sadly still to come in the future is and willalways be really important.
Graham Steel, 2005
vCJD and It's Effect on the Brain
• Frontal Lobe - behavioural changes, personality changes, psychosis, hallucinations and
other forms of dementia • Cerebellum - tremors, muscle spasms, loss of
ability to walk and involuntary movements
• Parietal Lobe - spatial orientation, voluntary movement and touch perception
• Brain Stem - blood pressure, heart rate, breathing, body temperature and ability to sleep
• Temporal Lobe - the ability to understand speech, hear and remember
• Occipital Lobe - abnormal or loss of vision
FLAIR MR(I) IMAGING
cCJD compared with vCJD
Detection results on patient data. Left (1 and 2 ) a cCJD case with stronger hyperintensities in the head of caudate and putamen.
Right (3 and 4) a vCJD case with stronger hyperintensities in the pulvinar. We present for each case an original cross-section of the FLAIR MR image
with abnormal hyperintensities in the internal nuclei and next the same cross-section superimposed with the CJD detection map
Thalamus
• Diffusion weighted MRI findings are not included among the major diagnostic
criteria, although DWI is more sensitive than EEG and can detect lesions at an early
stage.
• Even in cases of sCJD without the classical triad, we can make a correct diagnosis more
easily if we know the specific imaging finding for a specific subtype.
• In the case of sCJD with VV2, which does not show prominent myoclonic jerks or
PSWCs (Periodic sharp wave complexes) in the EEG, the characteristic thalamic lesions
demonstrated in DWI may lead to an exact diagnosis.
• These characteristic thalamic lesions can also be an important clue to distinguish sCJD with VV2 from vCJD, because the
major differential diagnosis of vCJD is sCJD without PSWCs.
Neuropathologic characteristics of brainstem lesions in Classical Creutzfeldt-Jakob disease.
Iwasaki Y, Hashizume Y, Yoshida M, Kitamoto T, Sobue G. Acta Neuropathol (2005) 109: 557–566
DOI 10.1007/s00401-005-0981-0
The density of PrP deposition in the sCJD brainstem was not associated with disease duration or neuronal degeneration until the late stage. Our results show that atrophy, neuronal loss, and pyramidal tract degeneration occur in the sCJD brainstem, particularly in patients with an unusually prolonged disease course.
These findings are not associated directly with PrP deposition and may reflect end-stage sCJD.
No VV1, VV2, or MV2 cases were included in our study; however, we suggest that widespread and relatively stereotypic PrP deposition is a consistent pathologic feature of sCJD, at least in MM1 sCJD patients.
Although accumulation of PrP in the brainstem appears to be an early pathologic event in sCJD, and may remain into the late disease stage, the brainstem remains relatively resistant to the pathologic process of sCJD.
COMMENT- Apart from specific blood tests (genotype) for inherited forms of Prion disease, reliable tests for TSEs before the onset of clinical symptoms is an ultimate goal.
Peripheral Nerve's (PN’s) and Dorsal Root Ganglion (DRG)
Conditioned medium enhances axonal outgrowth from PN-DRGs. PN-DRGs afterculture in collagen gels for 3 d, labeled with an antibody to PGP 9.5 (visualized with HRP conjugated
avidin) taken using dark-ground illumination to make it easier to see fine axons atlow magnification. In a control preparation (A) cultured in RPMI medium, only a few axons have
grown out of the cut end of the peripheral nerve, whereas extensive axonal outgrowth hasoccurred from a preparation cultured inmedium conditioned by lesioned sciatic nerve segments
(B). Scale bar, 200_m.
DOI:10.1523/JNEUROSCI.5089-06.2007Copyright©2007 Society for Neuroscience 0270-6474/07/271190-10$15.00/0
CNS -> Brain
• New Scientist © 2006
Neuropathologic characteristics of brainstem lesions in Classical Creutzfeldt-Jakob disease.
Neuropathologic characteristics of brainstem lesions in Classical Creutzfeldt-Jakob disease.
• This paper states that that the Dorsal Vagal Nucleus (DVN) was positive for PrPd in 27 out of 33 victims. This is much the same as cattle with BSE, sheepwith Scrapie and deer/cervids with CWD.
• This strongly suggests that heart rate variability (HRV) may be a useful testfor cCJD since HRV indicates activity in the dorsal vagal nucleus (DVN) (it is comprised of the cell bodies from the same neurones that make up the vagus nerve).
Iwasaki Y, Hashizume Y, Yoshida M, Kitamoto T, Sobue G. Acta Neuropathol (2005) 109: 557–566DOI 10.1007/s00401-005-0981-0
Neuropathologic characteristics of brainstem lesions in Classical Creutzfeldt-Jakob disease.
• How did PrPHow did PrPdd get there? The possibilities are: get there? The possibilities are:
1.1. The “spontaneous event” The “spontaneous event” (“n” of 33)(“n” of 33) that gave these victims that gave these victims of cCJD also lead to the of cCJD also lead to the
Prion spreading to the dorsal vagal by an unknown route in 27 Prion spreading to the dorsal vagal by an unknown route in 27 casescases
2.2. Blood, in which case sCJD is carried in the blood. Blood, in which case sCJD is carried in the blood. If so, why If so, why didn’t all the didn’t all the
patients get a stained dorsal vagal nucleus?patients get a stained dorsal vagal nucleus?
3. Cerebrospinal fluid (CSF), 3. Cerebrospinal fluid (CSF), in which case why didn’t all the in which case why didn’t all the patients get a patients get a
stained dorsal vagal nucleus and everywhere else since the stained dorsal vagal nucleus and everywhere else since the whole brain is whole brain is
bathed in CSF?bathed in CSF?
4.4. Vagal infection from food ingested in the gut (as in BSE and Vagal infection from food ingested in the gut (as in BSE and CWD). ThisCWD). This
would suggest that 27 got sCJD from food/orally, and the would suggest that 27 got sCJD from food/orally, and the remaining 6 from other causesremaining 6 from other causes
Chronic Wasting Disease (CWD)Epidemic in cervids (e.g. deer) of USA & Canada
From:
Sigurdson et al (2001) PrPcwd in the myenteric plexus, vasosympathetic trunk and endocrine glands of deer with chronic wasting disease. J.Gen.Virol. 82: 2327-34
Vagus nerve positive for infectious prion
ORAL SCRAPIE SPREADS ALONG SPLANCHNIC AND VAGUS NERVESPATRICIA A. MCBRIDE,1* WALTER J. SCHULZ-SCHAEFFER,2† MAURA DONALDSON,1MOIRA BRUCE,1 H. DIRINGER,3 HANS A. KRETZSCHMAR,2 AND MICHAEL BEEKES3
Blood Transfusion
Sheep PrPd in brainstem after blood transfusion
Neuropathologic characteristics of brainstem lesions in Classical Creutzfeldt-Jakob disease.
• How did PrPd get there? The possibilities are:How did PrPd get there? The possibilities are:
If 4 is correct, this is very new and alarming. Prof Collinge If 4 is correct, this is very new and alarming. Prof Collinge et alet al has suggested that has suggested that
inoculating mice with BSE sometimes leads to cCJD as well as inoculating mice with BSE sometimes leads to cCJD as well as vCJD likevCJD like
conditions conditions Bearing in mind the increasing incidence of CJD world-wide, Bearing in mind the increasing incidence of CJD world-wide,
perhaps this perhaps this should be investigated further?should be investigated further?
Collinge and colleagues described transmission of BSE to humanised transgenic mice and the occurrence of a distinct type of PrPSc in VV mice inoculated with vCJD. These differing findings are probably due to the fact that the mice used in the previous studies, which were generated by introducing multiple copies of the human gene into a PrP knockout mouse, expressed twice to fourfold the physiological concentrations of PrP found in human brain. However, the major finding of both Collinge’s group and the current study by Bishop and colleagues is the existence of subclinical infections in all codon-129 genotypes.
Predicting susceptibility and incubation time human-to-human transmission of vCJD
Interpretation
Transmission of BSE to human beings is probably restricted by the presence of a significant species barrier. However, there seems to be a substantially reduced barrier for human-to-human transmission of vCJD. Moreover, all individuals, irrespective of codon-129 genotype, could be susceptible to secondary transmission of vCJD through routes such as blood transfusion. A lengthy preclinical disease is predicted by these models, which may represent a risk for further disease transmission and thus a significant public-health issue.
M T Bishop, P Hart, L Aitchison, H N Baybutt, C Plinston, V Thomson, N L Tuzi, M W Head, J W Ironside, R G Will, J C Manson
http://neurology.thelancet.com Published online March 27, 2006 DOI: 10.1016/S1474-4422(06)70413-6
Prions and their lethal journeyto the brain
Abstract | Prion diseases are neurodegenerative conditions that cause extensive damage to nerve cells within the brain and can be fatal. Some prion disease agents accumulate first in lymphoid tissues, as they make their journey from the site of infection, such as the gut, to the brain. Studies in mouse models have shown that this accumulation is obligatory for the
efficient delivery of prions to the brain. Indeed, if the accumulation of prions in lymphoid tissues is blocked, disease susceptibility is reduced. Therefore, the identification of the cells and molecules that are involved in the delivery of prions to the brain might identify targets for therapeutic intervention. This review describes the current understanding of the mechanisms involved in the delivery of prions to the brain.
Neil A. Mabbott* and G. Gordon MacPherson‡
FURTHER INFORMATIONNeil Mabbott’s homepage: http://www.iah.bbsrc.ac.uk/primary_index/current_research/groups/TSE_Division/TSEImmPathGp.htmGordon MacPherson’s homepage: http://users.path.ox.ac.uk/~ggmScottish TSE Network: http://www.stn.ed.ac.ukUK Creutzfeldt-Jakob disease Surveillance Unit:http://www.cjd.ed.ac.uk/index.htmThe inquiry into BSE and vCJD in the United Kingdom:http://www.bseinquiry.gov.ukChronic Wasting Disease alliance:http://www.cwd-info.orgImmunoTSE:http://immunotse.vitamib.comNeuroPrion: a network of excellence on prion diseases:http://www.neuroprion.org/home.html
Figure 4 | Initial pathways of transmissible spongiform encephalopathy (TSE) agent neuroinvasion from the intestine. Analysis of the progression of disease-specific prion protein (PrP) accumulation within the nervous system of experimentally inoculated rodents indicates that the scrapie agent spreads from the intestine to the central nervous system (CNS) through two distinct neuroanotomical pathways95. In each case, the initial spread occurs in a retrograde direction along efferent (motor) pathways in a stepwise manner between synaptically linked sets of nerves. One route to the CNS occurs along sympathetic fibres of the splanchnic nerve to the intermediolateral cell column (IML) of the mid-thoracic spinal cord. Subsequently, the agent spreads to the brain in a caudal-to-cranial direction along the spinal cord. Neuroinvasion from the intestine can also occur independently of the spinal cord. In this case, the agent spreads along parasympathetic fibres of the vagus nerve to the dorsal motor nucleus of the vagus nerve (DMNV) within the medulla oblongata of the brain. GALT, gut-associated lymphoid tissues.
© 2006 Nature Publishing Group
The Nature of TSE Disease Transmission
Although critical to the understanding of TSE diseases, the most fundamental aspect of such is still
controversial: i.e. What is the nature of the agent that transmits these
debilitating diseases?The scientific community is divided namely between
two possibilities * :
* Other theories also exist (Prof Laura Manuelidis, Prof Alan
Ebringer, Mark Purdey etc)
PrP
• From microbes to prions the final proof of the prion hypothesis?
Zou WQ, Gambetti P.
Division of Neuropathology, Department of Pathology, National Prion Disease Pathology Surveillance Center, Case Western
Reserve University, Cleveland, OH 44106, USA.
Much like the "microbe hypothesis" put forth over 150 years ago, the "prion hypothesis" can be definitely proven only if a prion disease is engendered in a natural host from an infectious prion produced in vitro. In this issue of Cell, they come very close to accomplishing
this goal by producing a prion disease in a natural host from a prion entirely generated in vitro using a PCR-like amplification system.
A letter written by Dr. A.G.Dickinson, a world expert on Scrapie, to the Chairman of the Select Committee on Agriculture in January
2001
The misleading word that has been most popular with the media in recent years to describe BSE being transferred to another species is that it "jumped". I am certain
that a more accurate term is that it was "pushed".
In order to "push" one of these types of agents across to another species, the greater the amount of infective agent involved, the more likely it is to achieve infection of the
other species.
My assessment of the current situation with the transfer of BSE to humans, is that the whole picture could be explained solely in terms of the enormous scale of the BSE
epidemic having massively exposed people to the otherwise very small risk of being
infected.
The simplified layout shown below, using A or B for the two variants of Sinc (Scrapie Inclusive), illustrates
these points but does not refer to actual strains: dose and route of infection are the samefor all the examples. Different scrapie strains were distinguishable because they differed
in their relative incubation periods between the 3 Sinc genotypes of the inbred mice.
scrapie• strain 1 AA AB BB• strain 2 AA AB BB• strain 3 AA BB AB• strain 4 AA AB BB• strain 5 AA BB |->
• strain 6 BB AA AB• strain 7 BB AA AB• strain 8 BB AA AB• |<---/ /-------------------------------------- LIFESPAN ----------------------------------------------|
Sinc = Scrapie Inclusive
Conclusion
Obviously, one allele could not be described as producing short incubation, and the other one long incubation because this was reversed for some strains of agent. All except two types of pattern have been found. The two relevant variables - dose and route - can be varied so that clinical disease for some genotypes tends to be displaced beyond the lifespan by increasing the incubation period, namely
[1] by lower doses, or [2] by routes with lower efficiencies than intracerebral injection.
It is reasonable to expect that this general diagram and comments apply to all TSE’s, in all species.
The details for any untested combinations are unpredictable in our present state of knowledge.
These basic findings posed the question of how the Sinc gene could be operating at the molecular level. They prompted the proposal in 1971 that the gene was producing a protein (now called PrP) which grouped to form the replication sites for TSE agents.
Embargoed until the publication of the BSE Inquiry’s Report
The BSE Inquiry and the vCJD Families
Press Briefing September 2000 Irwin Mitchell Solicitors
“Insufficient research was undertaken into means of ameliorating the progress of vCJD. In particular, the Families are concerned that the work on Dextran Sulphate 500 and Pentosan Polysulphate undertaken at the ARC Neuropathogenesis Unit [NPU] during the 1970's was not immediately revisited once vCJD had been identified in 1996”.
Polyanions and the Proteome
From the Department of Pharmaceutical Chemistry, University ofKansas, Lawrence, KS 66047-3729 “Polyanions and the Proteome” (2004)Molecular & Cellular Proteomics 3.8 doi:10.1074/mcp.R400008-MCP200
Polyanions and the Proteome“Crowded House”
From the Department of Pharmaceutical Chemistry, University ofKansas, Lawrence, KS 66047-3729 “Polyanions and the Proteome” (2004)Molecular & Cellular Proteomics 3.8 doi:10.1074/mcp.R400008-MCP200
The very crowded environment of the cell. Actin (red),macromolecules, primarily ribosomes (green), and membranes (blue)are represented. Reprinted with permission from Medalia, O., Weber,I., Frangakis, A. S., Nicastro, D., Gerisch, G. and Baumeister, W.(2002) Macromolecular architecture in eukaryotic cells visualized bycryoelectron topography. Science 298, 1209–1213. Copyright 2002,AAAS.
Prions and their partners in crime
Prions, the infectious agents of transmissible spongiform encephalopathies (TSEs), have defied full
characterization for decades. The dogma has been that prions lack nucleic acids and are composed of
a pathological, self-inducing form of the host’s prion protein (PrP). Recent progress in propagating TSE
infectivity in cell-free systems has effectively ruled out the involvement of foreign nucleic acids. However,
host-derived nucleic acids or other non-PrP molecules seem to be crucial. Interactions between TSE associated
PrP and its normal counterpart are also pathologically important, so the physiological functions of
normal PrP and how they might be corrupted by TSE infections have been the subject of recent research.
From: Caughey B & Baron GS (2006) “Prions and their partners in crime” Nature 443 doi:10.1038/nature05294
Prions and their partners in crime
From: Caughey B & Baron GS (2006) “Prions and their partners in crime” Nature 443 doi:10.1038/nature05294
PrPc
Prions and their partners in crime
From: Caughey B & Baron GS (2006) “Prions and their partners in crime” Nature 443 doi:10.1038/nature05294
Prions and their partners in crime
From: Caughey B & Baron GS (2006) “Prions and their partners in crime” Nature 443 doi:10.1038/nature05294
Transport of PrPd within neurones
From extracellular matrix into the “Crowded House”
The Journal of Infectious Diseases 2006; 194:702–90022-1899/2006/19405-0024
Sabine Gauczynski, Daphne Nikles, Susanne El-Gogo, Dulce Papy-Garcia, Clemence Rey, Susanne Alban,Denis Barritault, Corinne Ida Lasmezas, and Stefan Weiss
GAG = Glycosaminoglycan’s
Polyanionic therapeutics directed toward the protein-solubilitydiseases are in development. The
Canadian-based company Neurochem (Laral, Quebec,Canada) has two “GAG mimetic” drug candidates [Fibrillex™(phase II/III) and Azhemed™ (phase II completed, extendedphase II underway) in advanced clinical trials. Fibrillex™ is
directed toward AA amyloidosis, a fatal disorder with characteristicamyloid deposits in the liver, spleen, and kidney. Similar
to Alzheimer’s disease, GAGs have also been isolated inthe amyloid deposits of AA amyloidsis patients. The
rationale for using GAG mimetics in the treatment of bothconditions is that these small GAG analogues can competitively
inhibit the binding of endogenous GAGs to AA or Aproteins, thereby preventing fibrillation. The company’sdrug candidate for the treatment of Alzheimer’s disease
similarly is designed to prevent the formation of fibrils bybinding to soluble A and to inhibit the deposition of brainA fibrils. The success of these approaches in humans
remains to be determined, but studies in animal models arepromising.
From the Department of Pharmaceutical Chemistry, University ofKansas, Lawrence, KS 66047-3729 “Polyanions and the Proteome” (2004)Molecular & Cellular Proteomics 3.8 doi:10.1074/mcp.R400008-MCP200
Polyanions
It is in terms of proteomics that the global role of polyanions both within and without cells might have its greatest immediate consequences.
What at first appears to be a series ofunrelated phenomena whose only common features are theinvolvement of polyanionic substances, may actually reflect abroad underlying role for highly negatively charged macromoleculesin diverse cellular functions and environments. Theelucidation of these roles will require that polyanions be takeninto account as they relate to the spatial, structural, andtemporal behavior of the proteome. Tools now exist to beginto ask to what extent protein/polyanion interactions are presentin cells and to probe their biological roles.
Pentosan polysulphate MW 3- 8kDa
From the Department of Pharmaceutical Chemistry, University ofKansas, Lawrence, KS 66047-3729 “Polyanions and the Proteome” (2004)Molecular & Cellular Proteomics 3.8 doi:10.1074/mcp.R400008-MCP200
D, microtubule. Reprinted with permission from Baker, N. A., Sept, D.,Joseph, S., Holst, M. J., and McCammon, J. A. (2001) Electrostatics of nanosystems: Applications to microtubules and the ribosome. Proc.Natl. Acad. Sci. U. S. A. 98, 10037–10041. Copyright 2001, National Academy of Sciences, U.S.A. E, 50S ribosome. Reprinted with permissionfrom Baker, N. A., Sept, D., Joseph, S., Holst, M. J., and McCammon, J. A. (2001) Electrostatics of nanosystems: Applications to microtubulesand the ribosome. Proc. Natl. Acad. Sci. U. S. A. 98, 10037–10041. Copyright 2001, National Academy of Sciences, U.S.A.
Heparan sulfate proteoglycan involvement in other amyloidoses and in prion diseases
Heparan sulfate proteoglycans in amyloidoses:
GAGs have consistently been found in all kinds of amyloid (e.g. AA or AL amyloidosis), regardless the type of amyloidogenic protein deposited
Heparan sulfate proteoglycans in prion diseases:
Immunohistochemical surveys revealed that protease-resistant prion protein (PrPres) plaques contain HSPGs as a common constituent. Polysulfated compounds inhibit deposition of PrP in scrapie-infected neuroblastoma cells, suggesting that these inhibitors were capable of blocking the interaction between PrP and endogenous HS/HSPG
Jack van Horssen, MSc Dept. of Pathology University Medical Center Nijmegen The Netherlands
Heparan sulfate proteoglycan involvement in other amyloidoses and in prion diseases
Heparan sulfate proteoglycans in -synucleinopathies and tauopathies
GAGs, in particular heparan sulfate, have the ability to induce the formation of -synuclein fibrils in vitro. We were unable to confirm an association of HSPGs/HS with Lewy bodies and Lewy neurites (unpublished data),
HSPGs and HS are present in a variable fraction of tangles associated with progressive supranuclear palsy, Pick’s disease and other tauopathies
Jack van Horssen, MSc Dept. of Pathology University Medical Center Nijmegen The Netherlands
Therapy approaches
Both in vitro and in vivo studies demonstrated a protective activity of small polysulfated compounds against A-induced effects
Several underlying mechanisms can be responsible for the protective actions of these sulfated GAG mimetics They may:
• inhibit the binding of heparan sulfate to A • inhibit the formation of -pleated sheets and• block the adherence of A to the cell surface.
Type Median
Age of onset
range N studies Median
Duration of illness
range N studies PPS Patients.
Duration of illness
GSS
P102L
44yrs 22-71yrs
38 7 48m 2-84m
21 6 52m(d)
60m(a)
iCJD (HGH)
26yrs 10-37yrs
121
3 16m 3-30m
111 3 30m(a)
29m(d)
vCJD 28yrs 12-74yrs
145
2 14m 6-40m
145 2 36m(a)
42m(a)
61m(a)
16m(d)
Age of onset Illness duration (survival)
Individuals in this study have had some form of Pentosan inducement (mainly i.c.)
Human Prion Disease: Natural history.
From Lesley Stewart et al .2006.
The Families of Control Cases for access to records and those who did not participate in the prospective study but agreed to data being used.
.Dr Sarah Walker and Laura Belton MRC Clinic Trials Unit for statistical advice and data
handling.General Practitioners and Consultants for their interest and in helping provide records and
agreeing access to patients.Also:
Janet Darbyshire (MRC Clinical trials Unit). Sheila Bird (MRC Biostatistics Unit Cambridge).
Margaret Leitch, Richard Knight, Bob Will (CJDSU).Ian Whittle ( Dept Clinical Neurosciences Western General Hospital Edinburgh).
Steve Wroe, John Collinge (National Prion Unit. National Hospital Queen Square).Christine Farquhar (Instititute of Animal Health. Neuropathogenesis Unit Edinburgh).
Leah Davidson (Institute of Child Health).Alan Dickinson (Edinburgh).
Chris Pomfrett (University Dept of Anaesthetics University of Manchester)Nikolai Rainov (Walton Centre for Neurology and Neurosurgery Liverpool).
Graham Steel (Glasgow).Also Lester Firkins (NTSG) and Fiona Russell, Declan Mulkeen and Graham Cadwallader
(MRC) for their support.
The Persons and Families suffering human prion disease who allowed Prof Ian Bone into their homes to carry out this study.
Embargoed until the publication of the BSE Inquiry’s Report
The BSE Inquiry and the vCJD Families
Press Briefing September 2000 Irwin Mitchell Solicitors
“Insufficient research was undertaken into means of ameliorating the progress of vCJD. In particular, the Families are concerned that the work on Dextran Sulphate 500 and Pentosan Polysulphate undertaken at the ARC Neuropathogenesis Unit [NPU] during the 1970's was not immediately revisited once vCJD had been identified in 1996”.
Research will now assess CJD drug By Karen Allen
BBC Health Correspondent March 1st 2005
• The parents of a young woman with the brain disease vCJD have persuaded government researchers to consider the drug their daughter is taking.
• The High Court gave the go-ahead for the first patient (Jonny Simms) with vCJD to undergo treatment with PPS in December 2002. That patient, Jonathan Simms is now the longest surviving with vCJD.
• In both the cases of Holly Mills and Jonathan Simms, PPS seems to have slowed the progress of the disease.
But without thorough research it is not clear whether this is the normal course of vCJD, about which so little is known, or some effect of the drug.
• The BBC understands that at least eight UK patients are on the same therapy.
Potential diagnostic methods
• Finding a simple non-invasive technique for accurately confirming diagnosis of BSE and CJD is an ultimate goal. Brain stem function is often measured by monitoring obvious changes in heart rate variability (HRV).
One study (2002 – 2004) looked at whether measurements of HRV can be found to be a reliable indicator of disease. This non-invasive measuring technique could offer an inclusive diagnostic approach at the point suspected cases are assessed.
Heart Rate Variability (HRV) measurements on CJD patients
Chris Pomfrett Lecturer in Neurophysiology applied to Anaesthesia (Clinical Scientist)
The University of Manchester
Manchester Royal Infirmary
M13 9WL
Co-Workers:
Professor Brian Pollard M.D., FRCA, David Glover, B.Sc.
vCJD study DoH funded 2002 - June 04vCJD study DoH funded 2002 - June 04
BSE study funded by UK Dept. of Health BSE study funded by UK Dept. of Health (£112,000)(£112,000)
vCJD Time Domain AnalysisHRV interval histograms
Woolfson, L.A.M., Glover D.G., Pollard B.J., Pomfrett C.J.D. (2003) Symptomatic vCJD alters heart rate variability. J. Physiol. 551P: C47 Dublin meeting 10 July 2003.
Conclusions for 2005
• HRV may form the basis for a live test for brainstem dysfunction
• HRV appears to show changes in brainstem function in patients receiving putative therapies for vCJD and GSS
• In conjunction with DWI, EEG, 14-3-3, PET Scans and MRI, diagnostic methodologies continue to provide clearer indications of the onset and development/progression of TSE’s.
Diagnosis of asymptomatic individuals
Prophylactic treatment
An in-vivo test will be essential once anti-prion prophylactic treatments are discovered
Prophylactic treatments will only be useful in the presence of a simple and efficient in-vivo test.
Effective treatment of prion diseases - Effective treatment of prion diseases - Is it possible?Is it possible?
Clinical symptoms diagnosis
Treatment partiallyineffective
due to already established
brain damage
Screening of population
at risk
Diagnosis of asymptomatic
individuals
Prophylactic treatment
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