Keywords
normal pressure hydrocephalus - progressive supranuclear palsy - neurodegenerative
disease
Introduction
Idiopathic normal pressure hydrocephalus (iNPH) is a neurological condition clinically
characterized by the triad of gait dysfunction, cognitive abnormalities, and urinary
incontinence. In addition to these clinical manifestations, the diagnosis can be made
with the aid of neuroimaging evidence of ventriculomegaly by excluding secondary hydrocephalic
disorders. However, it is a diagnosis without definitive pathological findings, and
there are many pitfalls associated with the diagnosis of iNPH.[1] First, the full clinical triad is not present in considerable number of patients;
also, the components of this trial are separately nonspecific for the diagnosis of
iNPH as they can be present in high rates of the general elderly population.2-4
Second, the comorbidity of a possible neurodegenerative disorder in normal pressure
hydrocephalus (NPH) has been reported multiple times previously. The existence of
these comorbidities in NPH has been defined as “dual” pathology. However, some authors
explained the existence of the high-incidence of the neurodegenerative disorders in
NPH by a hypothesis that NPH may predispose to neurodegenerative diseases.[5]
[6]
[7] On the other hand, there are also other authors suggesting the consideration that
some neurodegenerative phenotypes may present with ventriculomegaly, which was proposed
as “neurodegenerative NPH” in a recent crucial report by Espay et al.[1]
[4] Remarkably, in their study, Espay et al suggested that the response to shunt surgery
might not be sufficient to base the argument for diagnosis of a disease and they have
reported a big rate of patients developing a neurodegenerative disorder in the long-term
follow-up, leading to poor long-term postshunt benefits. They remarked to the lack
of a randomized, placebo-controlled, double-blind clinical trial to show that the
improvement seen after shunting procedures for patients with iNPH was present in the
long-term follow-ups. In the light of these discussions, herein, I illustrate two
remarkable cases who were initially diagnosed with iNPH. However, long-term follow-up
of the patients revealed the final diagnosis of progressive supranuclear palsy (PSP).
Via the illustration of these cases, I draw attention to this neurodegenerative pathology
of PSP to be kept in mind in NPH-like presentations. I also postulate some crucial
discussions regarding the association of these two entities as well as diagnostic
pitfalls and definition of iNPH.
Case 1
A 75-year-old male patient was attended to due to walking impairment and urinary incontinence
that had started over the previous 1 year. Upon questioning of the history, it was
also learned that newly onset memory impairment was recognized during this period.
On neurological examination, the patient was fully orientated and cooperative. Cranial
nerve examinations revealed mildly slow saccades. Motor, sensory, and cerebellar examinations
were within normal ranges. Extrapyramidal examinations revealed slight rigidity in
the upper extremities. However, his walking was characterized with small steps and
he experienced significant difficulty, particularly during turning which was compatible
with severe lower body Parkinsonism. Besides, severe postural instability was found,
such that the patient could not mobilize without a support and he had several falls
over the last few months. Cranial tomography revealed enlarged ventricles, dilatated
Sylvian fissures out of proportion to sulcal enlargement, and crowding of the gyri
at the vertex which was compatible with NPH ([Fig. 1A]). The standardized mini-mental test (SMMT) examinations score was evaluated as 22
points. Lumbar puncture opening pressure was 16 cm H20, and 40 mL cerebrospinal fluid (CSF) was drained, which yielded a significant improvement
in the patient’s walking and mobility. Ergo, the patient and his relatives were informed
about the disease and ventriculoperitoneal shunt (VP) shunt was recommended. After
obtaining approval, the VP shunt was inserted, which yielded a moderate improvement
in this walking and urinary incontinence at evaluation soon after the operation. The
patient could mobilize without support and perform activities of daily living at home.
However, he was reattended to 6 months after the operation due to worsening of the
symptoms over the past 2 months. With a preliminary consideration of malfunction of
the shunt, he was hospitalized for performing the CSF tap test. However, the CSF tap
test did not provide an improvement in the patient’s clinic. Besides, the neurosurgeon
evaluation confirmed that the VP shunt was working properly. Hence, the patient was
discharged with suggestions of the physical therapy and rehabilitation department
including balance exercises. Nevertheless, the patient did not attendthe routine polyclinic
visits after discharge. However, neurological examination when he visited our center
3 years later revealed remarkable results. His neurological condition was found to
worsen devastatingly. The patient was orientated; however, he was only moderately
cooperative due to severe cognition impairment. The SMMT score was 10. He could count
three digits forward and could not count backward, showing severe impairment in attention
and executive functions. Besides, significant deterioration in visuospatial functions
was determined (he scored 0 in a clock drawing test and he could not copy objects).
Cranial nerve examinations revealed severe disturbances in saccadic eye movements
in all directions. In addition, vertical eye movement of the upright position was
nearly totally restricted. As far as it can be assessed (due to cooperation problems
and severe rigidity), motor and sensory examinations were within the normal ranges.
Extrapyramidal examinations revealed severe rigidity and tonus increase in all of
the extremities. Tonus changes in the upper extremities were compatible with oppositional
paratonia (gegenhalten) and were evaluated as dystonic and spastic in the lower extremities.
Severe postural instability was present such that the patient could not stand upright
on his own. Cranial magnetic resonance imaging (MRI) showed overall, severe cerebral
atrophy developing in the interval period. However, midbrain atrophy was prominent
and sagittal T1 images revealed concave midbrain at its cranial margin, which was
compatible with hummingbird sign. In [Fig. 1B]
[C], Cranial MRIs, at 19-month intervals, demonstrate the progressive brain stem atrophy.
Taken together, the diagnosis of PSP was established, and the patient’s relatives
were informed about the disease and prognosis.
Fig. 1 (A), Cranial CT of patient 1 (recorded on 10.06.2016, 1 month after VP shunt), showing
enlarged ventricles (b) and crowding of the gyri at the vertex (a), which were compatible
with NPH. Brain stem atrophy was not substantive initially (c, d). B–C, cranial MRI images recorded on 16.08.2017 (B) and 17.03.2019 (C), showing progressive brain stem atrophy. CT, computed tomography; MRI, magnetic
resonance imaging; NPH, normal pressure hydrocephalus; VP, ventriculoperitoneal.
Case 2
A 64-year-old female patient was attended to due to progressive gait difficulty and
recurring falls which had redeveloped in the past 2 years. Upon questioning, her medical
history revealed that she was diagnosed with iNPH 4 years ago in the movement disorder
clinic of a tertiary care hospital, based on the neuroimaging findings and positive
CSF tap test response; besides, a clinic of progressive gait difficulty, and cognitive
impairment developing in the last one-year period prior to the admission to their
center. Ergo, a VP shunt was inserted which had provided a significant improvement
in the patient’s symptoms, such that she could mobilize without a support and perform
some of her daily living activities without support (these were learned from the hospital
discharge report). On neurological examination at admission to our clinic, she was
found to be moderately orientated and cooperative and her SMMT score was 18. However,
cranial nerve examinations revealed supranuclear gaze palsy. Extrapyramidal examinations
revealed mild rigidity in the upper extremities and tonus increment in the lower extremities
compatible with dystonia. On the other hand, the patient experienced severe postural
instability and could not mobilize without support. Cranial MRI revealed severe midbrain
atrophy and sagittal T1 images revealed concave midbrain at its cranial margin, which
was compatible with hummingbird sign. In [Fig. 2A]
[B], Cranial MRIs, at 18-month intervals, are illustrated. PSP was diagnosed, nonetheless,
based on the possible contributory role of progression of NPH pathophysiology (in
the setting of the malfunction of VPshunt?); the CSF tap test was also performed which
did not provide any improvement in the clinic.
Fig. 2 (A) Enlarged ventricles (c, d), dilatated Sylvian fissures out of proportion to sulcal
enlargement (c, d) and crowding of the gyri at the vertex (a, b). Moderate midbrain
atrophy (e) and sagittal T1 images revealed concave midbrain at its cranial margin
which was compatible with hummingbird sign (f). (B) Enlarged ventricles (b, c), dilatated Sylvian fissures out of proportion to sulcal
enlargement (b, c) and progressive atrophy at the vertex in the interval period (a).
Callosal narrowing (d), severe (progressive) midbrain atrophy (e), and sagittal T1
images revealed concave midbrain at its cranial margin which was compatible with hummingbird
sign (f).
Discussion
In this report, I have illustrated the detailed clinic and neuroimaging findings of
two patients presenting with NPH clinic and evidence of ventriculomegaly, who improved
moderately in the acute period after VP shunt surgery. However, follow-up of the patients
revealed the development of PSP clinically as well as the inclusion of neuroimaging
signs. As far as we know, reports of detailed illustrations of these remarkable samples
have not been reported to date. I would like to state that serial neuroimaging data,
showing progressive atrophy of the midbrain in both of our patients, is strictly rare
in literature. Hence, I think that the clinical presentations of these patients may
provide substantial perspectives to be kept in mind in clinical practice.
NPH and PSP are distinct causes of Parkinsonism; however, they share some common clinical
features including gait dysfunction, postural instability with retropulsion, and cognitive
impairment.[8] Besides, in terms of the underlying pathophysiology, dysfunction of the frontal
lobe–basal ganglia and thalamo–mesencephalic loops have been suggested to be involved
in both of the disease.[8] However, although their clinical presentations may mimic each other in some circumstances,
the classical knowledge regarding the perception of these diseases are strictly different.
Such that, while NPH is evaluated as a condition of abnormality of CSF dynamics, PSP
can be classified under the head of tau protein which is associated neurodegenerative
diseases. On the other hand, the concurrences of NPH and neurogenerative diseases
have been reported in recent reports were initially preferred to be defined as “dual”
pathology. However, with the help of the recent reports including pathological examinations,
many discussions and hypotheses have been suggested about this topic.[1]
[9]
[10] For instance, Starr et al postulated that previously reported cases of “dual” pathology
(e.g., NPH and PSP) actually represent the hydrocephalic presentation of selected
neurodegenerative disorders.[9] Moreover, in his crucial report, Saper remarked the controversies regarding the
definition of iNPH.[10] He mentioned that in many related studies on shunting for iNPH had required only
two or even one of these symptoms to include the patient in the series. In addition,
CSF pressure was not mentioned in many of them. In conclusion, he emphasized that
the data regarding the response to surgery was the sole defining characteristic of
this supposed disorder. However, in a recent report, Espay et al.[1] summarized their long-term institutional experience, in which postshunt benefits
in patients with initial diagnosis of idiopathic NPH persist in only 32% of patients
at 36 months. They also reported that in over 25% of the patients, revised diagnoses
of Alzheimer’s disease, dementia with Lewy bodies, and PSP were made. Taken together,
they suggested that the response to shunt surgery in the short-term might not be sufficient
to base the argument for diagnosis of iNPH, which further complicated the knowledge
regarding the NPH physiology. In accordance with these results, Magdalinou et al had
reported remarkable results in conclusion of the postmortem pathological examinations
of four patients who had received a diagnosis of iNPH during life.[11] The pathological examinations had shown that one patient had Parkinson’s disease
(PD), while the other three had PSP. They drew attention to the importance of awareness
that PSP or Parkinson’s disease can mimic the clinical symptoms of iNPH to avoid invasive
and futile CSF shunting procedures. Besides, the authors also remarked that the absence
of urinary incontinence and the presence of a supranuclear gaze palsy in a suspected
case of iNPH should lead to a reconsideration of the diagnosis and raise the possibility
of the PAGF (pure akinesia with gait freezind) variant of PSP. I would like to state
that in all of these patients reported, at least a transient response had been achieved
by CSF diversion method (LP or VP shunt). Accordingly, VP shunt had also provided
a short-term improvement in both patients from my experience. However, the clinical
course of the patients worsened in the follow-up and the clinic of PSP had developed
in the long-term course.
A major discussion may involve the potential role of VP shunt in the long-term in
these patients with a final diagnosis of PSP. Remarkably, it is a known hypothesis
that cognitive impairment in NPH might also be a result of a combination of CSF dynamic
disturbance and its resulting biochemical abnormalities.[12] In accordance with this view, a combination of Aβ1–42 and total tau levels in ventricular
CSF was found to predict favorable surgical outcomes with high-sensitivity and specificity
in a large group of patients with NPH.[13] In another report, VP shunting in 35 patients with NPH had led to a reduction in
CSF neurofilament protein.[14] Ergo, it can also be hypothesized that VP shunt surgery might also influence positively
the clinical course of PSP via a mechanism of reduction in CSF tau protein. It can
also be considered that the VP shunt surgery might have a positive influence via eliminating
the contributory effect of hydrocephalus in the clinical course of the patients, other
than interacting with neurogenerative processes of PSP. Taken together, giving a suggestions
of avoiding VP shunt surgery in this subgroup of hydrocephalic patients with PSP,
as there is no randomized, controlled study showing inefficaciousness of VP shunting
on long-term follow-up. However, surely, determination of this subgroup of patients
of PSP presenting with hydrocephalus would be critical while predicting the prognosis
of the patients as well as planning a possible shunt surgery in a more deliberative
manner. More importantly, identification of these rare subgroups may provide substantial
contributions to our understanding of the unknown aspects of NPH as well as possible
distinct mechanisms underlying PSP. Future reports including large case series of
these samples may give crucial perspectives in this regard. Finally, I also think
that the possible utility of CSF diversion methods, even in the treatment of some
neurodegenerative pathologies (without hydrocephalic presentations?), may constitute
an interesting point of discussion to be clarified in these future studies.
