Keywords
geo -HSC-BPPV -
apo -HSC-BPPV - otoconial debris - canalolithiasis - cupulolithiasis - supine roll test
- Gufoni maneuver - Appiani maneuver - barbecue roll maneuver - head-shaking maneuver
- geotropic - apogeotropic
Introduction
Benign paroxysmal positional vertigo (BPPV) is a mechanical disorder of the vestibular
labyrinth, characterized by a sudden transient sensation of illusory spinning, when
the head changes its position relative to the gravity. It is diagnosed by characteristic
oculomotor patterns (positional nystagmus) elicited on the positional tests that localize
and lateralize the involved semicircular canal as per the Ewald’s three laws.[1 ] The typical situations triggering the vertigo paroxysms in BPPV are lying in the
bed, taking lateral recumbent positions, getting up from supine to sitting position,
stooping forward (e.g., tying shoelaces), and extending the neck (e.g., placing objects
on a high shelf). The motion of head in a direction normally moves the endolymph within
the semicircular canal aligned in the direction of head movement, bending the cupula
to generate an appropriate nerve impulse, which apprises the brain via vestibulo-ocular
reflex (VOR), the plane and the angle the head has moved. The brain reflexely (via
VOR) makes corrective eye movements equal in angle, but the opposite direction and
the point of fixation thereupon always falls on the fovea centralis. BPPV is frequently
due to the inappropriate entry of the free-floating otoconial debris into one or more
of three semicircular canals from the utricle, which is called canalolithiasis. Infrequently
it is caused by the cupulolithiasis, in which otoconial debris becomes adherent to
the cupula. With such pathologies, there is cupular deflection when the head moves
to a certain position. This is secondary to the hydrodynamic drag of the endolymph
in canalolithiasis and the cupula becoming heavier in cupulolithiasis. Deflection
of cupula by the hydrodynamic drag of the free-floating otoconial debris or a heavy
gravity-dependent cupula causes asymmetrical stimulation of the vestibular labyrinth
in situations when the head moves relative to the gravity, which explains the symptom
of positionally triggered vertigo.
[Table 1 ] shows that 1.94 to 38% of all BPPV patients diagnosed at any specialty clinic have
horizontal semicircular canal BPPV (HSC-BPPV).[2 ]
[3 ]
[4 ]
[5 ]
[6 ]
[7 ]
[8 ]
[9 ]
[10 ]
[11 ]
[12 ] Evidently, HSC-BPPV is less common than the posterior semicircular canal BPPV (PSC-BPPV).
Table 1
Table showing the frequency of different variants of benign paroxysmal positional
vertigo attending a specialty clinic
Authors
No. of patients
PSC-BPPV
HSC-BPPV
ASC-BPPV
Multiple canals
Abbreviations: ASC-BPPV, anterior semicircular canal benign paroxysmal positional
vertigo; HSC-BPPV, horizontal semicircular canal benign paroxysmal positional vertigo;
PSC-BPPV, posterior semicircular canal benign paroxysmal positional vertigo.
De la Meilleure et al[2 ] 1996
287
78.05%
16.38%
–
5.57%
Honrubia et al[3 ] 1999
292
85.62%
5.14%
1.37%
7.87%
Macias et al[4 ] 2000
259
93.02%
1.94%
–
5.04%
Korres et al[5 ] 2002
122
90.16%
8.2%
1.64%
–
Sakaida et al[6 ] 2003
50
56%
38%
6%
Imai et al[7 ] 2005
108
64.82%
33.33%
–
1.85%
Nakayama and Epley,[8 ] 2005
833
66.39%
10.08%
2.28%
21.25%
Cakir et al[9 ] 2006
169
85.21%
11.83%
1.18%
1.78%
Moon et al[10 ] 2006
1,692
60.9%
31.9%
2.2%
5.0%
Jackson et al[11 ] 2007
260
66.9%
11.9%
21.2%
–
Chung et al[12 ] 2009
589
61.8%
35.3%
2.9%
–
The HSC-BPPV is caused by the otoconial debris either free-floating within the arms,
commonly long posterior (nonampullary) arm and less commonly short anterior (ampullary)
arm of HSC (canalolithiasis), or else becoming adherent to the cupula (cupulolithiasis)
on the canal side (Cup-C) or utricular side (Cup-U).[13 ]
The core symptom of HSC-BPPV is severe vertigo on lying supine as well as on rolling
to either of the lateral recumbent positions. The associated autonomic symptoms like
sweating, nausea, and vomiting are more severe in HSC-BPPV as compared with PSC-BPPV.[14 ] The PSC slopes inferiorly and has its cupular barrier at a relatively more dependent
end; any otoconial debris that sequestrates in the ampullary arm of the PSC is liable
to remain trapped for a long time. By comparison, the cupular barrier of the HSC is
relatively higher in location allowing free-floating debris to easily drift back to
the utricle under the effect of gravity, and it is, for this reason, spontaneous remissions
are more frequent in patients with HSC-BPPV compared with those having PSC-BPPV.[7 ]
[15 ]
A nonrandomized prospective interventional study of 20 consecutive patients diagnosed
with HSC-BPPV at an otoneurology center in Udaipur, Rajasthan, India, was undertaken
from December 29, 2018 to November 19, 2019. The patients were reevaluated at a short-term
follow-up (at 1 and 24 hours) after an appropriate therapeutic repositioning maneuver.
The short-term follow-up after therapeutic repositioning maneuver was aimed to minimize
the confounding effects of spontaneous remissions reported in HSC-BPPV.[7 ]
[15 ] To the best of the author’s knowledge, no such study of patients diagnosed with
HSC-BPPV has been reported from India hitherto.
Materials and Methods
This study was approved by the ethics committee of the attending otoneurology center.
The HSC-BPPV was diagnosed as per the following criteria:
Rotational vertigo triggered by changes in the position of head relative to the gravity.
Geotropic or apogeotropic horizontal positional nystagmus elicited by the supine head
roll test, the side with stronger nystagmus in the geotropic variant and with weaker
nystagmus in the apogeotropic variant was considered pathological as per Ewald’s second
law.[1 ]
Vertigo associated with the concomitant elicited positional nystagmus.
Multi-canalicular BPPV cases included provided that one HSC was involved.
Exclusion criteria were: BPPV treated with repositioning maneuvers at any time in
the past, posttraumatic BPPV, diagnosis of other peripheral vestibular disorders (Meniere’s
disease, vestibular neuritis, vestibular paroxysmia, etc.), and vertigo secondary
to central nervous system disorders.
Informed consent was taken from all participants. The pathological side was identified
by the supine head roll test.[16 ] The supine roll test is done with the patient in long-sitting on the examination
table. The patient is positioned supine from long-sitting on the examination table
such that the head lays on a four-inch-thick pillow in 30 degrees of anteflexion.
The supine neutral position is maintained for 30 seconds to look for lying-down nystagmus
(LDN). Thereupon, the patient’s head is briskly rotated first to one side and maintained
until the elicited positional nystagmus lasts. After the maximal head yawing on one
side, the patient’s head is brought to the neutral supine position and then briskly
yawed to the other side, and maintained until the elicited positional nystagmus lasts.
The supine roll test was performed multiple times (average five times at an interval
of 5 minutes) in patients with apogeotropic positional nystagmus to look for any transformation
to the geotropic variant.
Approximately 1 and 24 hours after a therapeutic maneuver, a verifying supine roll
test was repeated to assess its outcome. The recovery was audited in terms of the
disappearance of vertigo as well as the previously observed diagnostic positional
nystagmus. No more than two different therapeutic maneuvers were performed in a single
day, and the patient requiring a third maneuver was instructed to present the very
next day. The applied therapeutic positional maneuvers were as under:
Gufoni maneuver
[17 ] ([Fig. 1 ]) for the geotropic HSC-BPPV is performed by instructing the patient to sit on the
edge of the examination table with both lower limbs hanging down. A brisk positioning
from short-sitting to the contralesional lateral recumbent position is done and maintained
for 1 minute (step 1). Thereupon, the patient’s head is rotated approximately 45 degrees
downwards in the yaw axis and maintained for 2 minutes (step 2), after which upright
positioning to the short sitting is done. Two sequent maneuvers are done in one session
of treatment. Due to ease of performance and benignity, the Gufoni maneuver is the
treatment of choice in the patients with a geotropic variant of HSC-BPPV.
Fig. 1 Gufoni maneuver for the left posterior arm horizontal semicircular canalolithiasis.
(A ) The patient is placed in short sitting on the examination table with lower limbs
hanging down. (B ) Briskly positioned to the contralesional right lateral recumbent on the examination
table and the position maintained for 1 minute. (C ) The head is rotated 45 degrees downwards in the yaw-axis, and this position is maintained
for 2 minutes. (D ) Upright short sitting positioning is done. The lower panels a, b, c, and d show
the transit of otoconial debris (in red ) from the posterior arm of the left horizontal semicircular canal to the utricle
during the maneuver.
Appiani maneuver
[18 ] ([Fig. 2 ]) for the apogeotropic variant of HSC-BPPV is performed by instructing the patient
to sit on the edge of the examination table with both lower limbs hanging down. A
brisk positioning from short-sitting to the ipsilesional lateral recumbent position
is done and maintained for 1 minute (step 1). Thereupon, the patient’s head is rotated
approximately 45 degrees upwards in the yaw axis and maintained for 2 minutes (step
2), after which upright positioning to the short sitting is done. Two sequent maneuvers
are done in one session of treatment. Due to ease of performance and benignity, the
Appiani maneuver is the treatment of choice in patients with an apogeotropic variant
of HSC-BPPV.
Fig. 2 Appiani maneuver for the left anterior arm horizontal semicircular canalolithiasis.
(A ) The patient is placed in short sitting on the examination table with lower limbs
hanging down. (B ) Briskly positioned to the ipsilesional left lateral recumbent on the examination
table and the position maintained for 1 minute. (C ) The head is rotated 45 degrees upwards in the yaw-axis and this position is maintained
for 2 minutes. (D ) Upright short sitting positioning is done. The lower panels a, b, and c, show the
transit of otoconial debris (in red ) from the anterior arm of the left horizontal semicircular canal to the utricle during
the maneuver. The possible outcomes of the Appiani maneuver are either the otoconial
debris is repositioned to the utricle thus clearing the left horizontal semicircular
canal (d-1) or shift of otoconial debris to the posterior arm of the left horizontal
semicircular canal thus transforming to left posterior arm horizontal semicircular
canalolithiasis (d-2).
Barbecue roll maneuver
[19 ]: The patient is first positioned in the lateral recumbent position (the side with
stronger horizontal positional nystagmus in the geotropic variant and with weaker
horizontal positional nystagmus in the apogeotropic variant is the starting side),
for approximately 30 seconds. Thereupon, the patient is rolled sequentially toward
the uninvolved side, maintaining 30 seconds in each of the supine, opposite lateral
recumbent, prone, and finally starting lateral recumbent positions. After completing
one barbecue roll, the patient is positioned to upright sitting with lower limbs hanging
down the long edge of the examination table. Barbecue roll maneuver is performed six
times consecutively (until two successive maneuvers are free of horizontal positional
nystagmus during the right and left lateral recumbent positioning). Because it is
difficult in patients with comorbid conditions like obesity, adhesive capsulitis of
shoulder joint, and osteoarthritis of the knee to roll 360 degrees on the examination
table, the barbecue roll maneuver is a second-choice treatment in patients with HSC-BPPV.
Head-shaking maneuver
[20 ] ([Fig. 3 ]) is performed with the patient in short-sitting and lower limbs hanging along the
long edge of the examination table. The head is anteflexed 30 degrees in the pitch
plane and briskly shaken by the excursions of 30 degrees side-to-side in the yaw axis
for around 30 seconds. Two sequent head-shaking maneuvers are done in one session
of treatment. The head-shaking maneuver is chosen to treat patients with apogeotropic
horizontal positional nystagmus, lasting more than a minute that did not change with
multiple supine roll tests implying cupulolithiasis.
Fig. 3 Head-shaking maneuver is performed with the patient in short-sitting and lower limbs
hanging along the long edge of the examination table. The head is anteflexed 30 degrees
in the pitch plane and is briskly shaken by the excursions of 30 degrees side-to-side
in the yaw axis for around 30 seconds.
Epley maneuver (patient number 5 and 14): For the right Epley maneuver patient is positioned on
the examination table in the long sitting such that the patient’s left side is toward
its free edge. The distance between the bottom of the patient and the head end of
the table leaves a space for the head to hang as the patient is taken to the right
Dix–Hallpike position. The patient’s head is held with both hands and rotated 45 degrees
to his/her right in the yaw axis. Thereupon, the patient is positioned supine in such
a manner that the 45 degrees of right rotated head is extended 20 degrees on the support
of the author’s hands to represent the right Dix–Hallpike position. In the right Dix–Hallpike
position, the head is maintained for 60 seconds. Upon completion of 1 minute with
45 degrees of cervical rotation to the ipsilesional right side, the head is rotated
90 degrees in the rostral–caudal body axis to the patient’s left, maintaining its
20 degrees extension. Positioning 45 degrees of cervical rotation from the sagittal
plane to the contralesional left side with the neck in 20 degrees of an extension
is maintained for 1 minute. Thereupon, left lateral recumbent positioning with nose
oriented almost at right angles to the surface of the treatment table is done and
maintained for 1 minute. Lastly, the patient is instructed to sequentially hang down
lower limbs along the free edge of the examination table, and while maintaining the
left rotated head position, the patient is positioned to the upright sitting completing
Epley maneuver.
A therapeutic maneuver is deemed to have failed if a verifying supine roll test after
1 hour did not eliminate the positional nystagmus and vertigo observed during the
initial diagnostic positional test. At 1-hour follow-up, on supine roll test, a change
in the pattern of positional nystagmus from apogeotropic to geotropic or the other
way around and canal switch to PSC-BPPV may be a harbinger of a favorable or unfavorable
outcome but is deemed a recovery failure in this study.
Results
The demographic data of the patients are shown in [Table 2 ]. Patients included 11 (55%) women and 9 men (45%) with a women-to-men ratio of 1.2:1.
Roughly 45% of patients were in the age group of 10 to 40 years, 50% in the range
41 to 70 years, and 5% above 70 years of age. The right ear was involved in 65% of
cases (13/20), of which 69.23% were geotropic (9/13) and 30.77% (4/13) were apogeotropic
variants. The left ear was involved in 35% of cases (7/20), of which 71.43% were geotropic
(5/7) and 28.57% were apogeotropic (2/7). The supine roll test elicited an asymmetric
horizontal positional nystagmus in all but one patient. The lateralization of the
involved semicircular canal in patient number 3 with symmetrically strong geotropic
horizontal positional nystagmus on the supine roll test was inferred from the direction
of LDN.[21 ] The duration of symptoms was less than a week in 70% (14/20), 1 to 2 weeks in 20%
(4/20), and more than 2 weeks in 10% of patients (2/20). The clinical data of the
patients relating to symptom duration, diagnostic supine roll test results, and the
presence or absence of LDN are shown in [Table 3 ]. The data of the applied therapeutic maneuvers, results of the verifying supine
roll test, and/or Dix–Hallpike test performed after 1 hour and after 24 hours of the
therapeutic maneuver are shown in [Table 4 ].
Table 2
Demographic characteristics of the patients diagnosed with HSC-BPPV
Serial no.
Demographic characteristics of the patients
Abbreviation: HSC-BPPV, horizontal semicircular canal benign paroxysmal positional
vertigo.
1.
Symptom duration
Number of patients
< 1 wk
14
1–2 wk
4
> 2 wk
2
2.
Age (in y)
Number of patients
10–40
9
41–70
10
71–90
1
3.
Sex ratio (M:F)
9:11
4.
Geotropic:Apogeotropic
14:6
5.
Right:Left
13:7
Table 3
The characteristics of diagnostic positional nystagmus elicited on the supine roll
test on yawing the head to the right and left, and lying-down nystagmus (LDN) in the
supine neutral position
Patient number
Age
Sex
Vertigo duration
Supine roll test
Diagnosis
LDN
Geotropic
Apogeotropic
Right
Left
Right
Left
Abbreviations: -, absent; +, weaker; ++, stronger; apo , apogeotropic; F, female; geo , geotropic; HSC-BPPV, horizontal semicircular canal benign paroxysmal position vertigo;
LDN, lying-down nystagmus; M, male.
Note: The symptom duration along with demographic data, localization (diagnosis),
and lateralization are also shown.
1.
17
M
4 d
+
++
–
–
Left geo -HSC-BPPV
–
2.
52
F
7 d
–
–
+
++
Right apo -HSC-BPPV
–
3.
38
M
2 d
++
++
–
–
Left geo -HSC-BPPV
To right
4.
33
M
5 d
++
+
–
–
Right geo -HSC-BPPV
To left
5.
59
F
1 d
–
–
+
++
Right apo -HSC-BPPV
–
6.
50
F
10 d
++
+
–
–
Right geo -HSC-BPPV
–
7.
48
M
1 d
++
+
–
–
Right geo -HSC-BPPV
To right
8.
86
M
3 d
+
++
–
–
Left geo -HSC-BPPV
–
9.
40
F
1 d
–
–
+
++
Right apo -HSC-BPPV
–
10.
29
F
1 d
–
–
++
+
Left apo -HSC-BPPV
To left
11.
56
M
3 mo
–
–
+
++
Right apo -HSC-BPPV
–
12.
46
M
1 d
+
++
–
–
Left geo -HSC-BPPV
–
13.
43
F
3 d
++
+
–
–
Right geo -HSC-BPPV
To left
14.
70
M
1 d
++
+
–
–
Right geo -HSC-BPPV plus Right PSC-BPPV
To left
15.
31
F
2 d
++
+
–
–
Right geo -HSC-BPPV
–
16.
54
F
4 d
++
+
–
–
Right geo -HSC-BPPV
–
17.
34
M
1 d
++
+
–
–
Right geo -HSC-BPPV
–
18.
72
F
10 d
++
+
–
–
Right geo -HSC-BPPV
–
19.
25
F
8 d
–
–
++
+
Left apo -HSC-BPPV
–
20.
32
F
1 mo
+
++
–
–
Left geo -HSC-BPPV
–
Table 4
Efficacy of applied repositioning maneuvers in patients with horizontal semicircular
canal benign paroxysmal positional vertigo at short-term follow-up at 1 hour and after
24 hours
Pt. no.
Diagnosis
Therapeutic maneuver (Day 1)
PN elicited on SRT after 1 h (Day 1)
PN elicited on SRT/DHT at 24 h (Day 2)
Abbreviations: >, stronger than; AM, Appiani maneuver; apo , apogeotropic; DHT, Dix–Hallpike test; EM, Epley maneuver; geo , geotropic; GM, Gufoni maneuver; HSC-BPPV, horizontal semicircular canal benign paroxysmal
position vertigo; HSM, head-shaking maneuver; L, left; PN, positional nystagmus; Pt.
no., patient number; R, right; SRT, supine roll test; UBN, upbeating nystagmus.
a Verifying SRT performed 12 minutes after the diagnostic SRT in the view of previous
experience of transformation to geo -HSC-BBPV in patient number 2.
1.
Left geo -HSC-BPPV
GM
Negative
Negative
2.
Right apo -HSC-BPPV
During 2nd AM transformed to geo -HSC-BPPV followed by GM
Negative
Negative
3.
Left geo -HSC-BPPV
GM
Negative
Negative
4.
Right geo -HSC-BPPV
GM
Negative
Negative
5.
Right apo -HSC-BPPV
AM
UBN; treated with EM
SRT and DHT negative
6.
Right geo -HSC-BPPV
GM
Bilateral apogeotropic PN (L > R); treated with AM
–
7.
Right geo -HSC-BPPV
GM
Negative
Negative
8.
Left geo -HSC-BPPV
GM
Negative
Negative
9.
Right apo -HSC-BPPV
HSM
Negative
Negative
10.
Left apo -HSC-BPPV
AM
Bilateral geotropic (L > R); treated with GMa
Negative
11.
Right apo -HSC-BPPV
AM
Negative
Negative
12.
Left geo -HSC-BPPV
GM
Bilateral apogeotropic,
R > L; treated with AM
Bilateral apogeotropic R > L: treated with barbecue roll maneuver
13.
Right geo -HSC-BPPV
GM
Negative
Negative
14.
Right geo -HSC-BPPV plus right PSC-BPPV
GM followed by Barbecue roll
Right SRT UBN; treated with EM
Negative
15.
Right geo -HSC-BPPV
GM
Negative
Negative
16.
Right geo -HSC-BPPV
GM
Negative
Negative
17.
Right geo -HSC-BPPV
GM
Negative
Negative
18.
Right geo -HSC-BPPV
GM
Negative
Negative
19.
Left apo -HSC-BPPV
HSM
Negative
Negative
20.
Left geo -HSC-BPPV
GM
Negative
Negative
Geotropic Variant (geo -HSC-BPPV)
At the 1-hour follow-up, 78.57% (11/14) patients of geo -HSC-BPPV treated with Gufoni maneuver recovered. Two patients (patient number 6 and
12) of geo -HSC-BPPV treated with Gufoni maneuver transformed to apo -HSC-BPPV ([Fig. 4 ]). Patient number 6 responded to a session of treatment with Appiani maneuver for
the transformed apo -HSC-BPPV, and a verifying supine roll test 24 hours later neither elicited the positional
nystagmus nor vertigo was complained by the patient. The patient number 12 failed
to respond to the session of Appiani maneuver, with the verifying supine roll test
after 1 hour neither suppressing the apogeotropic horizontal positional nystagmus
nor concomitant vertigo. Thereupon, he was treated with a session of barbecue roll
maneuver the following day. A verifying supine roll test after another 24 hours did
not elicit horizontal positional nystagmus and patient was free of vertigo. Patient
number 14 was diagnosed with unilateral multi-canalicular BPPV involving right-sided
horizontal and PSCs. His initial supine roll test elicited a horizontal LDN of 23
seconds duration, beating to the patient’s left in the neutral supine position. The
yawing of the head to the right initially elicited, after a latency of 5 seconds,
a counterclockwise torsional (from examiner’s perspective) upbeating positional nystagmus
lasting approximately 23 seconds. Subsequently, the patient’s head was brought to
the neutral supine position and then briskly yawed to his left, which after a latency
of 2 seconds, elicited a geotropic horizontal positional nystagmus lasting 15 seconds.
A repeat yawing of the head to the right elicited, after a latency of 2 seconds, a
stronger geotropic horizontal positional nystagmus. He was initially treated with
a session of Gufoni maneuver, and the verifying supine roll test performed 1 hour
later neither suppressed the geotropic positional nystagmus nor concomitant vertigo.
Thereupon, a session of barbecue roll maneuver was performed and a supine roll test
to the right, after 1 hour elicited upbeating counterclockwise (from examiner’s perspective)
upbeating positional nystagmus. The residual right posterior semicircular canalolithiasis
was treated with a session of five consecutive right Epley maneuvers the next day.
A verifying supine roll test and Dix–Hallpike test after an hour, and at 24 hours
did not elicit either horizontal or upbeating torsional positional nystagmus.
Fig. 4 Figure depicting the outcomes of therapeutic positioning maneuvers at 1-hour follow-up
in patients of horizontal semicircular canal benign paroxysmal positional vertigo
(HSC-BPPV). The geo -HSC-BPPV showed a higher rate of recovery at 1-hour with the Gufoni maneuver when
compared with some form of physical therapy for the apo -HSC-BPPV. The transformation rate at 1-hour in the two variants was identical.
Apogeotropic Variant (apo -HSC-BPPV)
At the 1-hour follow-up, 66.67% (4/6) patients of apo -HSC-BPPV treated with some form of physical therapy recovered. The initial supine
roll test of patient number 2 and patient number 10 elicited an asymmetric apogeotropic
horizontal positional nystagmus lasting less than a minute, and a diagnosis of right
and left apo -HSC-BPPV was established, based on the elicited weaker nystagmus on the right and
left sides, respectively. Both patients (numbers 2 and 10) underwent therapeutic Appiani
maneuvers with an intent to treat. Patient number 2 during the first step of Appiani
maneuver and the patient number 10 twelve minutes after completion of the session
of Appiani maneuver transformed to the geo -HSC-BPPV. During the step 1 of Appiani maneuver in patient number 10, the otoconial
debris in the anterior arm of the left HSC ([Fig. 2A ]) apparently shifted toward its posterior end ([Fig. 2B ]) owing to the vertical orientation of canal and brisk deceleration. The 45 degrees
upward inclination of the head in the yaw axis in the step 2 of the maneuver ([Fig. 2C ]) places the utricular exit in the nonampullary posterior long-arm of the left HSC
to the most gravity-dependent position. The latter position was anticipated to further
shift the otoconial debris in the posterior nonampullary arm of the left HSC, to facilitate
its exit through the opening to the utricle, resulting in the direct resolution of
the left apo -HSC-BPPV ([Fig. 2 ], d-1), but it did not work the way as it did in patient number 11. Instead, the
Appiani maneuver in patient number 10 transformed the left anterior arm horizontal
semicircular canalolithiasis (apogeotropic) to the left posterior arm horizontal semicircular
canalolithiasis (geotropic), making it treatable by the better-established therapeutic
options ([Videos 1 ]
[2 ]
[3 ]
[4 ]
[5 ]
[6 ]). Likewise, in patient number 2, the step 1 of the second sequent Appiani maneuver
transformed the right anterior arm horizontal semicircular canalolithiasis (apogeotropic)
to the right posterior arm horizontal semicircular canalolithiasis (geotropic). The
transformed geo -HSC-BPPV in patient number 2 and 10 was treated with a session of the Gufoni maneuver
([Fig. 1 ]). A verifying supine roll test at 1 hour, and 24 hours after the Gufoni maneuver
neither elicited positional nystagmus nor any concomitant vertigo. Patient number
5 was diagnosed with right apo -HSC-BPPV (right anterior arm horizontal semicircular canalolithiasis or right horizontal
semicircular cupulolithiasis) based on the oculomotor findings on the supine roll
test. Yawing the head of patient number 5 to the left elicited after a latency of
28 seconds, a stronger apogeotropic horizontal positional nystagmus lasting 30 seconds,
and yawing to the right elicited after a latency of 4 seconds, a weaker apogeotropic
horizontal positional nystagmus lasting 110 seconds. She was treated with a session
of the Appiani maneuver. During the verifying supine roll test after 1 hour, yawing
the head to the right elicited, after a latency of 3 seconds, an upbeating counterclockwise
torsional (from the examiner’s perspective) positional nystagmus implying transformation
to the right PSC-BPPV. The patient was treated with a session of five Epley maneuvers
and a verifying Dix–Hallpike test and supine roll test at 1 hour and after 24 hours
neither elicited positional nystagmus nor concomitant vertigo. Because the patient
number 2, 5, and 10 were either transformable to geotropic variant (patient number
2 and 10) or the PSC-BPPV ([Fig. 4 ]) and the patient number 11 directly resolved with Appiani maneuver (similar to [Fig. 2 ], d-1, but lateralization to right), in all probability, these four patients with
apo -HSC-BPPV were suffering from the short anterior-arm horizontal semicircular canalolithiasis.
Two patients with apo -HSC-BPPV (patient numbers 9 and 19) in all probability suffered from cupulolithiasis
as the horizontal positional nystagmus elicited during the supine roll test lasted
more than a minute and did not change on repeat testing several times. The details
of supine roll test in these two patients are as under:
Positioning the patient number 10 from sitting to the supine neutral position elicits
a strong lying-down nystagmus lasting approximately 30 seconds and beating to the
patient’s left.
Video 2
Supine roll test of patient number 10 elicits an apogeotropic horizontal positional
nystagmus on yawing the head maximally to the right as well as to the left, which
is visibly stronger on the right.
Video 3
Appiani maneuver is performed with the patient number 10 in short-sitting and her
lower limbs hanging down the long edge of the examination table. From the upright
short-sitting, a brisk left (ipsilesional) lateral recumbent positioning is done (step
1), and after a minute, the patient’s head is inclined 45 degrees upwards in the yaw
axis and maintained for 2 minutes (step 2). Thereupon, the patient is positioned upright
in the short sitting, completing the Appiani maneuver.
Video 4
The verifying supine roll test of patient number 10 elicits a geotropic horizontal
positional nystagmus on yawing the head maximally to the right as well as to the left,
which is visibly stronger on the left.
Video 5
Gufoni maneuver for the transformed left geo-HSC-BPPV is performed by instructing
the patient number 10 to be in short sitting with both lower limbs hanging down and
briskly moving the patient to the right (contralesional) lateral recumbent position
and maintaining the latter position for 1 minute (step 1). Thereupon, the patient’s
head is rotated approximately 45 degrees downwards in the yaw-axis and is maintained
for 2 minutes (step 2), after which she is positioned upright to the short sitting.
Video 6
The verifying supine roll test of the patient number 10 twenty-four hours after the
Gufoni maneuver did not elicit any lying down nystagmus or horizontal positional nystagmus
on maximal yawing of the head to the right and left and the patient did not complain
of vertigo either.
Patient number 9 : During the supine roll test, yawing the head of the patient number 9 to the left,
elicited after a latency of 5 seconds stronger apogeotropic horizontal positional
nystagmus that lasted 173 seconds (till the time head remained yawed to the left),
and yawing the head to the right elicited after a latency of 4 seconds, a weaker apogeotropic
horizontal positional nystagmus that lasted 47 seconds.
Patient number 19 ([Videos 7 ]
[8 ]
[9 ]): During the supine roll test ([Video 7 ]), yawing the head of the patient number 19 to the right, elicited after a latency
of 4 seconds, a stronger apogeotropic horizontal positional nystagmus that lasted
190 seconds (till the time head remained yawed to the right), and yawing the head
to the left elicited after a latency of 4 seconds, a weaker apogeotropic horizontal
positional nystagmus that lasted 60 seconds.
Video 7
Supine roll test of patient number 19 elicits an apogeotropic horizontal positional
nystagmus on yawing the head maximally to the right as well as to the left, which
is visibly stronger on the right. The latency of the apogeotropic horizontal positional
nystagmus is 4 seconds on either side, and its duration is 190 seconds on the right
and 60 seconds on the left side. The characteristics of the apogeotropic horizontal
positional nystagmus did not change during several cycles of the diagnostic supine
roll test, implying in all probability a pathology of left horizontal semicircular
cupulolithiasis.
Video 8
Head-shaking maneuver is performed with the patient number 19 in short-sitting and
lower limbs hanging along the long edge of the examination table. The head is anteflexed
30 degrees in the pitch plane and briskly shaken by the excursions of 30 degrees side-to-side
in the yaw axis for around 30 seconds.
Video 9
The verifying supine roll test of patient number 19 performed an hour after the head-shaking
maneuver did not elicit any lying-down nystagmus or horizontal positional nystagmus
on maximal yawing of the head to the right and left and the patient did not complain
of vertigo either.
Both were treated with a session of head-shaking maneuver ([Fig. 3 ]). A verifying supine roll test at 1 hour, and 24 hours after the head-shaking maneuver
neither elicited positional nystagmus nor any concomitant vertigo in patient numbers
9 and 19. Because the supine roll test elicited a very long duration unchanging apogeotropic
horizontal positional nystagmus in the patient number 9 and 19, in all probability,
these two were suffering from cupulolithiasis. The very fact that the long duration
apogeotropic horizontal positional nystagmus disappeared on verifying supine roll
test performed 1 hour after the therapeutic head-shaking maneuver implies that the
cupulolithiasis was to the utricular side of the cupula (Cup-U).
LDN was observed in 30% (6/20) of patients, of which 5 were geo -HSC-BPPV and 1 apo -HSC-BPPV. In 80% (⅘) patients with geo -HSC-BPPV, LDN was directed opposite to the involved side (paradigmatic), and in 20%
(⅕) toward the involved side (nonparadigmatic). Only 16.67% (⅙) patients with apo -HSC-BPPV had LDN, which was paradigmatic.
Discussion
The HSC-BPPV exists in two variants, a much responsive geotropic and a potentially
difficult to treat apogeotropic variant. Since the sole pathology responsible for
the geo -HSC-BPPV is the presence of free-floating otoconial debris, localized exclusively
to the long posterior nonampullary arm of the HSC, the explicit goal of treatment
is repositioning it back to the utricle employing some form of physical therapy. By
comparison, the apo -HSC-BPPV could be due to either short anterior ampullary arm canalolithiasis or cupulolithiasis
(Cup-C or Cup-U), and the exact pathological site cannot be precisely predetermined
by any means. However, in the short anterior arm canalolithiasis, a transformation
from apogeotropic to geotropic positional nystagmus can be observed during diagnostic
positional or therapeutic maneuvers ([Fig. 2 ], [Videos 1 ]
[2 ]
[3 ]
[4 ]
[5 ]
[6 ]).[18 ]
[22 ]
[23 ]
[24 ]
[25 ] The apogeotropic horizontal positional nystagmus, which lasts for more than 1 minute
and does not change even after several cycles of the supine roll test, is in all probability
due to cupulolithiasis.[26 ]
The effects of the therapeutic positional maneuver in this study were audited by two
short-term follow-ups (at 1 hour and 24 hours), to exclude the confounding effect
of spontaneous remission of HSC-BPPV reported in some studies.[7 ]
[15 ] The Gufoni maneuver proved highly effective in the treatment of geo -HSC-BPPV with recovery in 78.57% at 1-hour follow-up, which was maintained at 24
hours. By comparison, 66.67% of patients (patient number 2, 9, 11, and 19) with apo -HSC-BPPV who underwent some form of physical therapy recovered at 1-hour follow-up,
and this was maintained at 24 hours. The heterogeneity in the clinical spectrum of
apo -HSC-BPPV, especially when it comes to the available treatment options, is attributed
to the multitude of pathologies resulting in elicitation of an identical oculomotor
pattern on the diagnostic supine roll test, namely the apogeotropic horizontal positional
nystagmus. The transformation of apo -HSC-BPPV to geo -HSC-BPPV and vice versa was 10% in this study, which is identical to that reported
in one previous study.[27 ] In 33.33% of apo -HSC-BPPV patients, transformation to a variant (to PSC-BPPV in patient number 5 and
the geo -HSC-BPPV in patient number 10) with better-established treatment options resulted
in recovery at 24 hours. The case of unilateral multi-canalicular vestibular lithiasis
of right horizontal and PSCs (patient number 14), due to its inherent nature required
different maneuvers to clear the affected horizontal and PSCs.
Conclusion
This prospective nonrandomized interventional study concludes that the Gufoni maneuver
is an effective and safe treatment for the geo -HSC-BPPV with recovery rate of 78.57% at a short-term follow-up. The physical therapy
for the apo -HSC-BPPV must be tailored according to the purported site of pathology which cannot
be precisely predetermined most of the times. Many patients with apo -HSC-BPPV, especially those with short anterior ampullary arm canalolithiasis are
commutable to either geo -HSC-BPPV or PSC-BPPV with better established treatment options. Offloading the heavy
cupula in the Cup-U variant of the cupulolithiasis, by detaching the otoconial debris
adherent to utricular side of the cupula by briskly shaking the head in yaw axis with
the head pitched 30 degrees in anteflexion ([Fig. 3 ]) can sometimes bring immediate recovery.
