Multiple Sclerosis Clinical Trial
Official title:
Cerebrovascular Changes in Multiple Sclerosis Patients
Multiple sclerosis (MS) MS is a chronic disease containing the inflammatory, demyelinating,
anddegenerative processes of the central nervous system. The inflammation, microglial
activation, astrocyticgliosis, demyelination, and somewhat axonal loss inwhite matter and
grey matter was present in the brainsof the patients with MS . Moreover, MS patientspresented
a reduction in the cerebral blood flow (CBF)affecting both grey and white matter in
positronemission tomography (PET) studies.
MS is the most common autoimmune disorder of the central nervous system. As of 2010, the
number of people with MS was 2-2.5 million (approximately 30 per 100,000) globally, with
rates varying widely in different regions. MS affects approximately 1000000 people between 17
and 65 years old world wide, the projected prevalence rate of MS for the white US population
was 191 per 1000000 and the incidence rate was 7.3 per 1000000 persons .
the contribution of neurodegenerative processes in the disease pathogenesis has been
increasingly recognized, especially with respect to possible mechanisms of progression. These
may include axonal degeneration, mitochondrial injury, energy failure, hypoxia, oxidative
damage, iron accumulation or global cerebral hypoperfusion . Interestingly, Cerebral
vasomotor reactivity (CVMR) in MS may be impaired as well.
Although the cause of CVMR impairment in MS is not clear, several potential factors
mightcontribute to this phenomenon.
For the purpose of clarity,we divide them into (1) vascular factors, (2) glial factors, and
(3)neuronal factors:
1. Vascular factor
Blood-brain barrier (BBB) disruption might be anotherfactor contributing to CVMR
impairment in neurodegenerative disorders. CVMR impairment could also be caused by an
increase inthe concentration of vasoconstrictive agents. For instance,endothelin-1
(ET-1) - a potent vasoconstrictor, is overexpressed in the cerebral vessels of MS and
elevated in both serumand cerebrospinal fluid of patients with MS.
2. Glial factors
Reactive astrocytes, i.e. hypertrophied astrocytes that overexpress GFAP (glial
fibrillary acidic protein) have been described in virtually all CNS disorders including
MS . they could also contribute to CVMR impairment through the production of ET-1 and
possibly other vasoconstrictors Another way in which glial cells could contribute to the
impairment of CVMR might be associated with their involvement in oxidative stress
pathways. Glial pathology may also cause BBB dysfunction.
3. Neuronal factors
It has been shown that cholinergic projections originating from the nucleus basalis induce
cerebral vasodilation directly through the release of acetylcholine and indirectly through
the stimulation of NO-releasing interneurons . there is evidence of a cholinergic deficit in
MS.
From a clinical point of view, reduced white and gray matter CBF in patients with MS has thus
far been associated with cognitive manifestations.
Cognitive impairment occurs in 40 to 65% of patients with MS and can have a considerable
impact on occupational and social life. also reduced deep gray matter perfusion in MS
negatively correlated with fatigue.
Cerebrovascular reactivity (CVR) is an inherent indicator of the dilatory capacity of
cerebral arterioles for a vasomotor stimulus for maintaining a spontaneous and instant
increase of CBF) in response to neural activation. The integrity of this mechanism is
essential to preserving healthy neurovascular coupling. Transcranial Doppler ultrasound (TCD)
is defined as a non-invasive ultrasound procedure to evaluate the changes in cerebral blood
flow velocity (CBFV) . The high temporal resolution and non-invasive nature of TCD make it a
useful tool in the assessment of integrative cerebrovascular function in terms of cerebral
reactivity, autoregulation and neurovascular coupling (NVC).
Multiple sclerosis (MS) MS is a chronic disease containing the inflammatory, demyelinating,
anddegenerative processes of the central nervous system[FrischerJMet al, 2009]. The
inflammation, microglial activation, astrocyticgliosis, demyelination, and somewhat axonal
loss inwhite matter and grey matter was present in the brainsof the patients with MS [Wegner
C et al, 2006]. Moreover, MS patientspresented a reduction in the cerebral blood flow
(CBF)affecting both grey and white matter in positronemission tomography (PET) studies [Sun X
et al, 1998].
MS is the most common autoimmune disorder of the central nervous system[Berer K et al,2014].
As of 2010, the number of people with MS was 2-2.5 million (approximately 30 per 100,000)
globally, with rates varying widely in different regions. [Milo R et al ,2010] MS affects
approximately 1000000 people between 17 and 65 years old world wide, the projected prevalence
rate of MS for the white US population was 191 per 1000000 and the incidence rate was 7.3 per
1000000 persons [Mayr WTet al, 2003]. Another study of prevalence of Multiple Sclerosis in
Egypt in age group >17years in a population number 21774 was about 13.74 per 100000
[El-Tallawy HNet al, 2013].
The contribution of neurodegenerative processes in the disease pathogenesis has been
increasingly recognized, especially with respect to possible mechanisms of progression. These
may include axonal degeneration, mitochondrial injury, energy failure, hypoxia, oxidative
damage, iron accumulation or global cerebral hypoperfusion [Mahad DH et al, 2015, D'haeseleer
M et al, 2015]. Interestingly, Cerebral vasomotor reactivity (CVMR) in MS may be impaired as
well.
Although the cause of CVMR impairment in MS is not clear, several potential factors
mightcontribute to this phenomenon.
For the purpose of clarity,we divide them into (1) vascular factors, (2) glial factors, and
(3) neuronal factors:
1. Vascular factor
Blood-brain barrier (BBB) disruption might be anotherfactor contributing to CVMR
impairment in neurodegenerative disorders [Alvarez JI, et al, 2013]. CVMR impairment
could also be caused by an increase inthe concentration of vasoconstrictive agents. For
instance,endothelin-1 (ET-1) - a potent vasoconstrictor, is overexpressed in the
cerebral vessels of MS and elevated in both serumand cerebrospinal fluid of patients
with MS [Haufschild T, et al,2001, D'haeseleer M, et al,2013].
2. Glial factors
Reactive astrocytes, i.e. hypertrophied astrocytes that overexpress GFAP (glial
fibrillary acidic protein) have been described in virtually all CNS disorders including
MS [Ben Haim L, et al, 2015]. they could also contribute to CVMR impairment through the
production of ET-1 and possibly other vasoconstrictors Another way in which glial cells
could contribute to the impairment of CVMR might be associated with their involvement in
oxidative stress pathways [Haider L et al, 2011]. Glial pathology may also cause BBB
dysfunction [Alvarez JI, et al, 2013].
3. Neuronal factors
It has been shown that cholinergic projections originating from the nucleus basalis induce
cerebral vasodilation directly through the release of acetylcholine and indirectly through
the stimulation of NO-releasing interneurons [Hamel E. et al, 2006] there is evidence of a
cholinergic deficit in MS [Kooi E-J, et al, 2011].
From a clinical point of view, reduced white and gray matter CBF in patients with MS has thus
far been associated with cognitive manifestations [-Inglese M, et al, 2008, D'Haeseleer M et
al, 2013].
Cognitive impairment occurs in 40 to 65% of patients with MS and can have a considerable
impact on occupational and social life [Amato MP, et al, 2001]. also reduced deep gray matter
perfusion in MS negatively correlated with fatigue [Vucic S, et al, 2010].
Cerebrovascular reactivity (CVR) is an inherent indicator of the dilatory capacity of
cerebral arterioles for a vasomotor stimulus for maintaining a spontaneous and instant
increase of CBF) in response to neural activation. The integrity of this mechanism is
essential to preserving healthy neurovascular coupling. Transcranial Doppler ultrasound (TCD)
is defined as a non-invasive ultrasound procedure to evaluate the changes in cerebral blood
flow velocity (CBFV) [Powers J et al,2009]. The high temporal resolution and non-invasive
nature of TCD make it a useful tool in the assessment of integrative cerebrovascular function
in terms of cerebral reactivity, autoregulation and neurovascular coupling (NVC).
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