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Treatment of inflammatory, neuropathic and sympathetically maintained pain in a patient with Sjögren's syndrome
Purn,
so(19Y2) ?OS-10x
~(‘8lY92 Elsevier
Science Publishers
B.V.
All rights reserved 0304.39SY/92/$05.00
PAIN 021 In
Treatment
of inflammatory, neuropathic and sympathetically maintained pain in a patient with Sjijgren’s syndrome
Bradley
S. Galer
“, Michael
C. Rowbotham and Howard
“vb,Kurt Von L. Fields
Miller
‘, Anne
Walton
”
h’~rrrtt?lcvfl.s of‘ ” hkurdo~~~ utld ” Anrsthesiu, School of Medrcinr, Unirwsity of Culrfim~w ut Sun Frunctsco. Surt Frunci.sco. C‘A 94143 (IJSA) (Received
I3 December
1991. revision received
I3 March
IYYZ. accepted
I5 March
lYY2)
We present a case of Sjogren’s syndrome with a painful peripheral neuropathy where pain control Summary required both anti-inflammatory and sympatholytic treatments. This case suggests that the pain in some inflammatory disorders with nerve injury may have a component mediated by an alpha adrenergic receptor. Key words:
Sjiigren’s
syndrome;
Sympathetically
maintained
Introduction Sjogren’s syndrome (SS), an auto-immune inflammatory disease, is defined as the simultaneous presence of keratoconjunctivitis sicca (dry eyes) and xerostomia (dry mouth) in the absence of another chronic inflammatory connective tissue disease (Bjerrum and Prause 1990). Lymphocytic and plasmocytic infiltration destroys exocrine glands, resulting in the characteristic dry eyes and mouth. Arthralgias, usually in the finger joints, and myalgias occur in up to 88% of patient’s with SS (Bjerrrum and Prause 1990). Peripheral nervous system abnormalities, typically sensorimotor or pure sensory neuropathy, are present in lo-32c% of SS patients (Alexander et al. 1982; Mellgren et al. 1989) and may occur prior to glandular involvement (Kaplan et al. 1990). Painful paresthesias are common in both types of neuropathies (Griffin et al. 1990; Kaplan et al. 1990, 1991; Mellgren et al. 19891, suggesting that, in addition to pain that may directly result from the inflammatory process, some SS patients may suffer from pain of neuropathic origin. We describe a woman with primary SS and an associated peripheral neuropathy, whose pain descriptions, physical examination and response to various
pain;
Neuropathic
pain;
Case presentation A 3h-year-old 1984 when
attorney
she became
which she was treated treatment hands.
was in excellent
ill with a fever. with penicillin.
was completed,
face and feet.
USA.
Bradley
S. Galer,
of Washington,
M.D.,
RC-95,
Multidisciplinary Seattle,
WA
98145.
until
December
and otitis for
a non-painful
and laryngospasm
and methylprednisolone.
edema of her required
During
treat-
the ensuing
month, the joints of her hands. feet and knees became painful, red. swollen and tender. antibody
Erythrocyte
and rheumatoid
By April mouth
and
a worsening
of
was complaining her
burning pain and hypersensitivity clearly which
distinct
from
her joint
was most pronounced
biopsy was diagnostic From October oral steroid prednisonc
sedimentation
arthritic
of dry eyes and dry
pain.
She
also noticed
of the skin of both hands and feet, pains,
and numbness
in her finger
tips.
A
in her hands. 5alivat-y gland
for Sjogren’s syndrome.
19x5 to February
pulse therapy. (20 mg/day)
19X7 the patient was treated with
NSAIDs,
hydroxychloroquine,
with partial
pain relief.
and daily
A trial of auranofin
(oral gold) was not tolerated.
Her medical
condition
February
intravenous
methylprednisolone
lYX7 and high-dose (I000
mg, 3 times/month)
excellent
worsening regimen
was
initiated,
deteriorated which
(12.5 my/week)
at first
ued to have significant
pain and disahility.
pains.
was begun due to a
physical disability.
a gradual and moderate
in
pulse
pain relief of both her joint and cutaneous
of pain and increasing
produced
stiff.
rate. antinuclear
factor were all normal.
19x5, the patient
In late 19XX oral methotrexate University
health
phatyngitis,
Two days after the penicillin
she developed
Wheezing
ment with epinephrine
therapy
C’orrz~pondencc, to:
infusion
therapeutic interventions strongly suggest that in addition to inflammatory pain there is a pain component that is both neuropathic and sympathetically maintained.
produced
Pain Center.
Phentolamine
Although
improvement.
this
she contin-
206 When
first seen at the UCSF
IYYO, she complained
of two
burning and hypersensitivity pain, tenderness was being day),
with
methotrexate
Her
langeal
joints
present.
were tender,
Cranial
nerve
testing.
Distal
cotton
wisp was present.
marked allodynia pain.
On examination, but no redness,
These
swelling
was normal, sensory
pinprick
infucushln-
or deformity
was
as was motor
and and
loss to pinprick. elicited
She
metatarsopha-
same areas of sensory
and repetitive
No abno~ality
intravenous and
and
(200 mg/
she was mildly
metacarpophalangeal
symmetrical
and feet
sulindac
and a monthly
examination
reflex
m &~4
a symmetrical
of her hands and &I.
(12 mg/day),
(20 mg/week)
in appearance.
Practice
problems:
in the joints
prednisone
sion of 500 mg solumedrol. goid
Faculty
pain
of the skin of her hands
and stiffness
treated
Neurology
severe
cold
loss
severe
in direction sense was detected.
studies
with
revealed
mild inflammation. no other
etiology
Extensive
serologic
for her disorder
underwent
a left stellate
ganglion
block
she became
orthostatic.
better
f3y the fourth lor
pain rchcf
phentolamlnr
pain
(mean.
first
from
1%~
time
in
IO meters
to
VAS
minimum,
following
each
pain relief hcgin.\
scorch
infusion,
tntu~ticm.
I’h~nl,~yhenl;lmlll~.
10 rng
hypot~~u\icu~.
tntu>ion.
11 \\cch\
\cvcraI
I
At
years.
attcr
Ijr
ihr
the
tirsr
\\alkln.ti
to LXI
toler.~n~~c
.‘I phcntolamrnc
arc prescntcd
a plateau
-7 wcrk.k
I ICI
kilomelcr.
for
.I study
of approxlmatrly
po\t-infuGon.
mtuslon\
111FIN. I. III the d+
IIOIC~
she consistently
reache>
Immediately
before
1YOl. a detailed
following before
changes the
her feet
the deficits were
the lack of cold sensation
the
Incrc;tsc ;II
YO’;
pawn thou
111
I uczk
gr,ldu,lll!
InfusIon
the allodynia touch
improved. evident
her palms
pa\t
IX months.
evc~) .1 weeks.
to each
that was prcxrnt
and pmprick
in her legs &lore
and
the Infusion
had
pinprick
and cahes. the
She notes
puticnt not
has had only
the patient
,i phcntolaminc
a plogressivc
of phentolamine
notices
region.
recurrence
improvcInfuGonx.
Several
of Joint
She is now ahlc
to do daily
capacity
for ‘revera/ hours without
hou\chold
tor a non-profit
da)\
ot fatigue.
of her palms and soles of her feet and a minor
in II managerial
111
dcpresscd:
blight burning pain.
111hc!
scnsaiil)n
in the arca> of marked
in the size of Ihe painful
infusion
in
and the
and dccreitsed
hut still slightly
of a11 her pains since the initiation
but also a reduction
ml’uamn
wa\ performed
w;,h ahscnl
in light
within
the
a phentolamlne
examination
No change was ohsewed
summation For
I h after
in her palms
and fingers
normalized.
and
sensory
were documented:
infusion
ICL.I and catvcs:
prior
phcnrolamlnc
,I> 111~ tl~r\c H;I\ InL.r<..1\
wltht)u[
and maximum)
that
11.1(1
,~nd .IH
to rcturnb.
August
walk
chores.
organization.
a
dcgrcc work arid
pain or fatigue.
-7
90
Discussion
80
The triad of arthritis, keratoconjunctivitis sicca and xerostomia in a middle-aged woman is characteristic ot SS. The diagnosis is best confirmed by salivary gland biopsy. Common extraglandular manifestations of SS include fatigue, myalgias, diarrhea, numbness and pain (Bjerrum and Prause 1990). Our patient had all of the aforementioned signs and symptoms of SS and a confirmatory biopsy. Of interest in this patient is lwr response to various therapies aimed at modulating a possible sympathetic nervous system component of her pain. Two distinct pains were described by the patient: disabling joint pain and tenderness and distal symmetrical cutaneous burning and sensitivity. On physical examination, the patient’s joints of her hands and feet were tender but not red, swollen or deformed. Kadiological studies of the hands failed to reveal joint changes or osteopenia. A distal symmetrical sensory polyncuropathv was present on neurological examination.
70 60 s -E ff
the
lncrcased
mcnt
I;IILI
\c’x~ able lo wear her wseddinp ring and MC hci finger5
part-lime
700
the third
to 40 mg daily, produced
3 v.cch\
pat11 r,~t~ng 01 I:
of 5 mm and 5 ,‘I) on Ihc pail1 ICIICI \c.,I~c
for 3 weeks. After
daily.
po+infu\ron.
in April 1YW with 10 ml of 0.25% bupivacaine which, on a loo-mm VAS Pain Rating scale, reduced her pain from 65 mm to 30 mm and resulted in a Horner’s syndrome and warming of her left arm. For 24 h the burning pain in her left hand was decreased by approximately 40%. with the other extremities unaffected. In May IYYO,an intravenous lidocaine infusion was performed (323 mg over 60 min), which reduced her pain from 51 mm to 18 mm on the VAS, with pronounced improvement of the cutaneous pain and hyperalgesia for 4 h. Because of this significant pain relief in response to the intravenous lidocaine, oral mexiletine treatment was initiated. However, the patient only briefly tolerated a daily dose of 600 mg, which produced only modest pain relief. Two weeks following the lidocaine infusion an intravenous infusion of phentolamine was performed (35 mg over 60 min). This infusion markedly reduced both the superficial burning pain and the The patient
rating
VAS
wah initiatctl.
ftmd
of vasculitis.
1r11u~or1 pcrtolmL,cl
a prs-inlu\iorl
treatment
~~rnbulati~~n
and radiologic
lasted
oral guanethidinc
pnttrnt
and no evidence
with
VAS
end-infusIon
displayed
and antaigic. The amplitude of the sural nerve sensory action potential was reduced on the left. Biopsy of this nerve revealed diffuse edema,
phentolammc
result\.
Pain relief
l~)ng-Iasting
was slow
consistent
X\ repeat similar
50 40 30 20 10
-_
~ O-l,
I
Pre-infusion
1
1 hour post-infusion
Fig. 1. Change in pain VAS during the first 5 phentolamine (mean. minimum and rn~rnurn}.
infusions
Besides the inflammatory component to her joint pain. the distribution and quality of her cutaneous pain support additional neuropathic and sympathetic components, as does the response to various therapeutic interventions. Both neuropathic and sympathetically maintained pain may respond to intravenous lidocaine infusion (Edwards et al. 19535; Kastrup et al. 1987; ~~~wb~)tham et al. 1991). In cxper~mentally damaged peripheral nerves, intravenous lidocaine has been shown to inhibit abnormal spontaneous and evoked activity in A-delta and C fibers at doses much lower than required to block normal axonal conduction (Chabal et al. 1989; Maclver and Tanelian 1990; Tanelian and Maclver 1991). Involvement of the sympathetic nervous system in this patient’s pain syndrome is strongly suggested by pain relief obtained from several therapies aimed at selectively reducing sympathetic tone. Stellate ganglion blockade, intravenous phentolamine, and oral guanethidine and phcnoxybenzamine all have produced significant pain relief. Alpha-adrenergic blockade with intravenous phentolamine has been advocated as a sensitive diagnostic test for sympathetically maintained pain (Raja et al. lY91). Interestingly, both the joint and cutaneous pains were significantly alleviated by the addition of a daily oral sympatholytic agent and intravenous phentolamine infusion every 3 weeks to the maintenance anti-inflammatory regimen. In addition, the improvement on sensory examination following a phcnt~)lamine infusion, specifically the loss of allodynia. the n~~rmaiizati~~nof cold sensation and a better sense of light touch and pinprick, may signify a dysfunctional, yet potentially reversible, link between the peripheral and sympathetic nervous systems. Similiar changes were documented in patients with sympathetically maintained pain following regional guanethidine block. with normalization of both thermal and vibratory pain thresholds (Wahren et al. 1991). A contribution of the sympathetic nervous system to inflammatory pain has recently been suggested. It has been demonstrated that postganglionic sympathetic neuron can itself release pro-in~ammat(~~ prostaglandins (Gonzales et al. 1991: Levine et al. 1988). In humans, regional intravenous guanethidine in patients with longstanding rheumatoid arthritis (RA) produced a significant decrease in pain compared to placebo (Levine et al. 1986). Conversely, in patients with reflex sympathetic dystrophy, marked inflammation and pain of the synovial joints is present, which may respond to glucocorticoids (Kozin et al. 1976), guanethidine (Bonica 1979) and other sympatholytic agents (Bcnzon et al. 19X0). In addition to a direct contribution of sympathetic post-~~inglionics and primary afferents to inflammato~ pain, animal models of neuropathic pain have revealed that electrical stimulation of sympathetic efferents acti-
vates primary afferent terminals in experimental neuromas through alpha-adrenergic transmission (Devor and J&rig 1981). Recently, it has been shown that experimental partial nerve injury induces increased responsiveness of C-fiber nociceptors to norepinephrine and sympathetic stimulation which is mediated by alpha2-adrenergic receptors (Sate and Per1 19911. In addition, experimentai painful peripheral neurop~ithy in rats was shown to be alleviated by symp~~thetic blockade (Shir and Seltzer 1991). Similarly, there is clinical evidence in man that sympathetically maintained pain may involve a peripheral alpha-adrenergic mechanism (Treede et al. 1991). Hence, both animal and human studies support a direct link between damage to the peripheral nervous system and catecholamine sensitivity in the development of pain. In summary, both anti-inflammatory and sympatholytic treatments were required to maintain adcquatc pain control in this patient with diagnostically proven SS and an associated sensory neuropathy. This cast suggests that in some in~ammato~ disorders both nerve damage and the activity of the sympathetic ncrvous system are relevant to the etiology of the pain. This multifactorial mechanism of pain raises the possibility of alternative strategies for improving the therapy in these patients.
Acknowledgement The authors would like to thank Dr. Jon D. Levine for his critical review of the manuscript. This work was supported by N.I.H. Pain Research Training Grant NSO7265. References Alexander.
E.L..
Neurologic Medicine, Benzon.
Provost, T.T.,
Stevens. MB.
and Alexander.
of
Sjiigren‘s
complications hl (1982)
H.T.,
GE.
syndrome.
247-257.
Chomka,
sympathetic
primary
CM.
and Bruner.
EA..
Treatment
dystrophy with regional guanethidine.
of reflex
Ane\th.
Analg!..
59 t 1980) 5tX&-502. Bjerrum. tive
K.
and Prause,J.U., PrimarySjiigren‘s
cl~scription
of the
disease,
7 > ‘X.+%X. Bon&. J.J.. C‘ausalgiaand other J.J. Bonica.
J.C.
Lieheskind
vances in Pain Research
Clin.
C.,
Russell,
venous lidocaine.
and Therapy.
tive fibers
L.C.
and Burchiel.
tocainide
originating
Rileurn., 8 (lYY1)r
reflex sympathetic and D.
Vol.
(Eds.1.
In: Ad-
3. Proc. 2nd World 1970. pp. 141-Iho.
K.J..
and mexiletine
in rat sciatic
dystrophicy.
Albe-Fcssard
Congress on Pain, Raven Press, New York. Chahal.
syndrome: a subjec-
Exp.
The
effect
of tntra-
on spontaneously
neuromac.
Pain.
3X
ac-
( 19XY)
3.33-33x. Devor.
M. and JEnig, W., Activation
in a neuroma
by stimulation
of myelinated
of the sympathetic
Neurosci. Lett., 24 (1981)43-47. Edwards.W.T.. Habib, F., Burney. R.G. lidocaine
in the management
review of 211 cases, Regional
ending
and Begin. G.. intravenous
of various Anesth..
afferents
supply in the rat.
ltl
chronic
pain states: a
(lW.5) 1--CL
208 Gonzales, R., Sherbourne, C.D., Goldyne, ME. and Levine, J.D.. Noradrenaline-induced prostaglandin production by sympathetic postganglionic neurons is mediated by alpha,-adrenergic receptors, J. Neurochem., 57 (1991) 1145-l 150. Griffin, J.W., Cornblath, D.R., Alexander. E., Campbell, J., Low, P.A., Bird, S. and Feldman, E.L., Ataxic sensory neuropathy and dorsal root ganglionitis associated with Sjiigren’s syndrome, Ann. Neurol., 27 (1990) 304-315. Kaplan, J.G., Rosenberg, R., Reinitz, E., Buchbinder, S. and Schaumburg. H.H., Peripheral neuropathy in Sjiigren’s syndrome. Muscle Nerve, 13 (1990) 570-579. Kaplan, J.G. and Schaumburg, H.H., Predominantly unilateral neuronopathy in Sjogren’s syndrome, Neurology. 41 (1991) 948949. Kastrup, J., Petersen, P., Dejgard, A., Angelo, H.R. and Hilstead, J., Intravenous lidocaine infusion - a new treatment of chronic painful diabetic neuropathy?, Pain. 28 (1987) 69-75. Kozin, F.. McCarty, D.J., Sims, J. and Genant. H., The reflex sympathetic dystrophy syndrome. 1. Clinical and histological studies: evidence for bilaterality, response to corticosteroids and articular involvement, Am. J. Med., 60 (1976) 321-33 I. Levine, J.D., Fye, K., Heller, P., Basbaum. Al. and Whiting-O’Keefe. Q., Clinical response to regional intravenous guanethidine in patients with rheumatoid arthritis, J. Rheumatol.. 13 (1986) 1040-1043. Levine, J.D., Coderre, T.J. and Basbaum, Al.. The peripheral nervous system and the inflammatory process. In: R. Dubner, G.F. Gebhart and M.R. Bond (Eds.), Pain Research and Clinical Management, Vol. 3, Proc. Vth World Congress on Pain. Elsevier, Amsterdam, 1988, pp. 33-43. Maciver, M.B. and Tanelian, D.L., Lidocaine blocks A-delta and C
fiber injury discharge without altering uc’ryc conduction. SC,; Neurosci. Abst., 16 (1990) h3h. Mellgren, S.I., Conn, D.L.. Stevens, J.C. and Dyck. P.J.. Peripheral neuropathy in primary Sjogren‘s syndrome. Neurology. 39 (19X9) 390-394. Raja, S.N., Treede, R.D.. Davis, K.D. and (;tmpbell. J.N.. Systemic alpha-adrenergic blockade vvith phentolamine: a diagnostic teat for sympathetically maintained pain, Anesthesiology. 73 ( 1991) 691-698. Rowbotham, M.C., Reisner-Keller. L.A. and Fields. H.L.. Both iiftravenous lidocaine and morphine reduce the pain of posthcrpetit neuralgia, Neurology, 41 (1991) 1024--102X. Sato, J. and Perl. E.R., Adrenergic excitation of cutaneous pain receptors induced by peripheral nerve injury. Science, 251 (1991)
1608-1610. Shir. Y. and Seltzer, Z., Effects of sympathectomy in a model of causalgiform pain produced by partial sciatic nerve injury in rats. Pain, 45 (1991) 309-320. Tanelian. D.L. and MacIver, M.B., Analgesic concentrations of lidoCaine suppress tonic A-delta and C fiber discharges produced by acute injury, Anesthiology, 74 (1991) 9344936. Treede, R.D., Raja, S.N., Davis. K.D.. Meyer, R.A. and Campbell, J.N., Evidence that peripheral alpha-adrenergic receptors mediate sympathetically maintained pain. In: M.R. Bond, J.E. Charlton and C.J. Woolf (Eds.), Pain Research and Clinical Management. Vol. 4, Proc. VIth World Congress on Pain, Elsevier. Amsterdam, 1991, pp. 377-382. Wahren. L.K., Torebjork. E. and Nystrom, B.. Quantitative sensorS; testing before and after regional guanethidine block in patients with neuralgia in the hand, Pain, 46 (1991) 23-30.
so(19Y2) ?OS-10x
~(‘8lY92 Elsevier
Science Publishers
B.V.
All rights reserved 0304.39SY/92/$05.00
PAIN 021 In
Treatment
of inflammatory, neuropathic and sympathetically maintained pain in a patient with Sjijgren’s syndrome
Bradley
S. Galer
“, Michael
C. Rowbotham and Howard
“vb,Kurt Von L. Fields
Miller
‘, Anne
Walton
”
h’~rrrtt?lcvfl.s of‘ ” hkurdo~~~ utld ” Anrsthesiu, School of Medrcinr, Unirwsity of Culrfim~w ut Sun Frunctsco. Surt Frunci.sco. C‘A 94143 (IJSA) (Received
I3 December
1991. revision received
I3 March
IYYZ. accepted
I5 March
lYY2)
We present a case of Sjogren’s syndrome with a painful peripheral neuropathy where pain control Summary required both anti-inflammatory and sympatholytic treatments. This case suggests that the pain in some inflammatory disorders with nerve injury may have a component mediated by an alpha adrenergic receptor. Key words:
Sjiigren’s
syndrome;
Sympathetically
maintained
Introduction Sjogren’s syndrome (SS), an auto-immune inflammatory disease, is defined as the simultaneous presence of keratoconjunctivitis sicca (dry eyes) and xerostomia (dry mouth) in the absence of another chronic inflammatory connective tissue disease (Bjerrum and Prause 1990). Lymphocytic and plasmocytic infiltration destroys exocrine glands, resulting in the characteristic dry eyes and mouth. Arthralgias, usually in the finger joints, and myalgias occur in up to 88% of patient’s with SS (Bjerrrum and Prause 1990). Peripheral nervous system abnormalities, typically sensorimotor or pure sensory neuropathy, are present in lo-32c% of SS patients (Alexander et al. 1982; Mellgren et al. 1989) and may occur prior to glandular involvement (Kaplan et al. 1990). Painful paresthesias are common in both types of neuropathies (Griffin et al. 1990; Kaplan et al. 1990, 1991; Mellgren et al. 19891, suggesting that, in addition to pain that may directly result from the inflammatory process, some SS patients may suffer from pain of neuropathic origin. We describe a woman with primary SS and an associated peripheral neuropathy, whose pain descriptions, physical examination and response to various
pain;
Neuropathic
pain;
Case presentation A 3h-year-old 1984 when
attorney
she became
which she was treated treatment hands.
was in excellent
ill with a fever. with penicillin.
was completed,
face and feet.
USA.
Bradley
S. Galer,
of Washington,
M.D.,
RC-95,
Multidisciplinary Seattle,
WA
98145.
until
December
and otitis for
a non-painful
and laryngospasm
and methylprednisolone.
edema of her required
During
treat-
the ensuing
month, the joints of her hands. feet and knees became painful, red. swollen and tender. antibody
Erythrocyte
and rheumatoid
By April mouth
and
a worsening
of
was complaining her
burning pain and hypersensitivity clearly which
distinct
from
her joint
was most pronounced
biopsy was diagnostic From October oral steroid prednisonc
sedimentation
arthritic
of dry eyes and dry
pain.
She
also noticed
of the skin of both hands and feet, pains,
and numbness
in her finger
tips.
A
in her hands. 5alivat-y gland
for Sjogren’s syndrome.
19x5 to February
pulse therapy. (20 mg/day)
19X7 the patient was treated with
NSAIDs,
hydroxychloroquine,
with partial
pain relief.
and daily
A trial of auranofin
(oral gold) was not tolerated.
Her medical
condition
February
intravenous
methylprednisolone
lYX7 and high-dose (I000
mg, 3 times/month)
excellent
worsening regimen
was
initiated,
deteriorated which
(12.5 my/week)
at first
ued to have significant
pain and disahility.
pains.
was begun due to a
physical disability.
a gradual and moderate
in
pulse
pain relief of both her joint and cutaneous
of pain and increasing
produced
stiff.
rate. antinuclear
factor were all normal.
19x5, the patient
In late 19XX oral methotrexate University
health
phatyngitis,
Two days after the penicillin
she developed
Wheezing
ment with epinephrine
therapy
C’orrz~pondencc, to:
infusion
therapeutic interventions strongly suggest that in addition to inflammatory pain there is a pain component that is both neuropathic and sympathetically maintained.
produced
Pain Center.
Phentolamine
Although
improvement.
this
she contin-
206 When
first seen at the UCSF
IYYO, she complained
of two
burning and hypersensitivity pain, tenderness was being day),
with
methotrexate
Her
langeal
joints
present.
were tender,
Cranial
nerve
testing.
Distal
cotton
wisp was present.
marked allodynia pain.
On examination, but no redness,
These
swelling
was normal, sensory
pinprick
infucushln-
or deformity
was
as was motor
and and
loss to pinprick. elicited
She
metatarsopha-
same areas of sensory
and repetitive
No abno~ality
intravenous and
and
(200 mg/
she was mildly
metacarpophalangeal
symmetrical
and feet
sulindac
and a monthly
examination
reflex
m &~4
a symmetrical
of her hands and &I.
(12 mg/day),
(20 mg/week)
in appearance.
Practice
problems:
in the joints
prednisone
sion of 500 mg solumedrol. goid
Faculty
pain
of the skin of her hands
and stiffness
treated
Neurology
severe
cold
loss
severe
in direction sense was detected.
studies
with
revealed
mild inflammation. no other
etiology
Extensive
serologic
for her disorder
underwent
a left stellate
ganglion
block
she became
orthostatic.
better
f3y the fourth lor
pain rchcf
phentolamlnr
pain
(mean.
first
from
1%~
time
in
IO meters
to
VAS
minimum,
following
each
pain relief hcgin.\
scorch
infusion,
tntu~ticm.
I’h~nl,~yhenl;lmlll~.
10 rng
hypot~~u\icu~.
tntu>ion.
11 \\cch\
\cvcraI
I
At
years.
attcr
Ijr
ihr
the
tirsr
\\alkln.ti
to LXI
toler.~n~~c
.‘I phcntolamrnc
arc prescntcd
a plateau
-7 wcrk.k
I ICI
kilomelcr.
for
.I study
of approxlmatrly
po\t-infuGon.
mtuslon\
111FIN. I. III the d+
IIOIC~
she consistently
reache>
Immediately
before
1YOl. a detailed
following before
changes the
her feet
the deficits were
the lack of cold sensation
the
Incrc;tsc ;II
YO’;
pawn thou
111
I uczk
gr,ldu,lll!
InfusIon
the allodynia touch
improved. evident
her palms
pa\t
IX months.
evc~) .1 weeks.
to each
that was prcxrnt
and pmprick
in her legs &lore
and
the Infusion
had
pinprick
and cahes. the
She notes
puticnt not
has had only
the patient
,i phcntolaminc
a plogressivc
of phentolamine
notices
region.
recurrence
improvcInfuGonx.
Several
of Joint
She is now ahlc
to do daily
capacity
for ‘revera/ hours without
hou\chold
tor a non-profit
da)\
ot fatigue.
of her palms and soles of her feet and a minor
in II managerial
111
dcpresscd:
blight burning pain.
111hc!
scnsaiil)n
in the arca> of marked
in the size of Ihe painful
infusion
in
and the
and dccreitsed
hut still slightly
of a11 her pains since the initiation
but also a reduction
ml’uamn
wa\ performed
w;,h ahscnl
in light
within
the
a phentolamlne
examination
No change was ohsewed
summation For
I h after
in her palms
and fingers
normalized.
and
sensory
were documented:
infusion
ICL.I and catvcs:
prior
phcnrolamlnc
,I> 111~ tl~r\c H;I\ InL.r<..1\
wltht)u[
and maximum)
that
11.1(1
,~nd .IH
to rcturnb.
August
walk
chores.
organization.
a
dcgrcc work arid
pain or fatigue.
-7
90
Discussion
80
The triad of arthritis, keratoconjunctivitis sicca and xerostomia in a middle-aged woman is characteristic ot SS. The diagnosis is best confirmed by salivary gland biopsy. Common extraglandular manifestations of SS include fatigue, myalgias, diarrhea, numbness and pain (Bjerrum and Prause 1990). Our patient had all of the aforementioned signs and symptoms of SS and a confirmatory biopsy. Of interest in this patient is lwr response to various therapies aimed at modulating a possible sympathetic nervous system component of her pain. Two distinct pains were described by the patient: disabling joint pain and tenderness and distal symmetrical cutaneous burning and sensitivity. On physical examination, the patient’s joints of her hands and feet were tender but not red, swollen or deformed. Kadiological studies of the hands failed to reveal joint changes or osteopenia. A distal symmetrical sensory polyncuropathv was present on neurological examination.
70 60 s -E ff
the
lncrcased
mcnt
I;IILI
\c’x~ able lo wear her wseddinp ring and MC hci finger5
part-lime
700
the third
to 40 mg daily, produced
3 v.cch\
pat11 r,~t~ng 01 I:
of 5 mm and 5 ,‘I) on Ihc pail1 ICIICI \c.,I~c
for 3 weeks. After
daily.
po+infu\ron.
in April 1YW with 10 ml of 0.25% bupivacaine which, on a loo-mm VAS Pain Rating scale, reduced her pain from 65 mm to 30 mm and resulted in a Horner’s syndrome and warming of her left arm. For 24 h the burning pain in her left hand was decreased by approximately 40%. with the other extremities unaffected. In May IYYO,an intravenous lidocaine infusion was performed (323 mg over 60 min), which reduced her pain from 51 mm to 18 mm on the VAS, with pronounced improvement of the cutaneous pain and hyperalgesia for 4 h. Because of this significant pain relief in response to the intravenous lidocaine, oral mexiletine treatment was initiated. However, the patient only briefly tolerated a daily dose of 600 mg, which produced only modest pain relief. Two weeks following the lidocaine infusion an intravenous infusion of phentolamine was performed (35 mg over 60 min). This infusion markedly reduced both the superficial burning pain and the The patient
rating
VAS
wah initiatctl.
ftmd
of vasculitis.
1r11u~or1 pcrtolmL,cl
a prs-inlu\iorl
treatment
~~rnbulati~~n
and radiologic
lasted
oral guanethidinc
pnttrnt
and no evidence
with
VAS
end-infusIon
displayed
and antaigic. The amplitude of the sural nerve sensory action potential was reduced on the left. Biopsy of this nerve revealed diffuse edema,
phentolammc
result\.
Pain relief
l~)ng-Iasting
was slow
consistent
X\ repeat similar
50 40 30 20 10
-_
~ O-l,
I
Pre-infusion
1
1 hour post-infusion
Fig. 1. Change in pain VAS during the first 5 phentolamine (mean. minimum and rn~rnurn}.
infusions
Besides the inflammatory component to her joint pain. the distribution and quality of her cutaneous pain support additional neuropathic and sympathetic components, as does the response to various therapeutic interventions. Both neuropathic and sympathetically maintained pain may respond to intravenous lidocaine infusion (Edwards et al. 19535; Kastrup et al. 1987; ~~~wb~)tham et al. 1991). In cxper~mentally damaged peripheral nerves, intravenous lidocaine has been shown to inhibit abnormal spontaneous and evoked activity in A-delta and C fibers at doses much lower than required to block normal axonal conduction (Chabal et al. 1989; Maclver and Tanelian 1990; Tanelian and Maclver 1991). Involvement of the sympathetic nervous system in this patient’s pain syndrome is strongly suggested by pain relief obtained from several therapies aimed at selectively reducing sympathetic tone. Stellate ganglion blockade, intravenous phentolamine, and oral guanethidine and phcnoxybenzamine all have produced significant pain relief. Alpha-adrenergic blockade with intravenous phentolamine has been advocated as a sensitive diagnostic test for sympathetically maintained pain (Raja et al. lY91). Interestingly, both the joint and cutaneous pains were significantly alleviated by the addition of a daily oral sympatholytic agent and intravenous phentolamine infusion every 3 weeks to the maintenance anti-inflammatory regimen. In addition, the improvement on sensory examination following a phcnt~)lamine infusion, specifically the loss of allodynia. the n~~rmaiizati~~nof cold sensation and a better sense of light touch and pinprick, may signify a dysfunctional, yet potentially reversible, link between the peripheral and sympathetic nervous systems. Similiar changes were documented in patients with sympathetically maintained pain following regional guanethidine block. with normalization of both thermal and vibratory pain thresholds (Wahren et al. 1991). A contribution of the sympathetic nervous system to inflammatory pain has recently been suggested. It has been demonstrated that postganglionic sympathetic neuron can itself release pro-in~ammat(~~ prostaglandins (Gonzales et al. 1991: Levine et al. 1988). In humans, regional intravenous guanethidine in patients with longstanding rheumatoid arthritis (RA) produced a significant decrease in pain compared to placebo (Levine et al. 1986). Conversely, in patients with reflex sympathetic dystrophy, marked inflammation and pain of the synovial joints is present, which may respond to glucocorticoids (Kozin et al. 1976), guanethidine (Bonica 1979) and other sympatholytic agents (Bcnzon et al. 19X0). In addition to a direct contribution of sympathetic post-~~inglionics and primary afferents to inflammato~ pain, animal models of neuropathic pain have revealed that electrical stimulation of sympathetic efferents acti-
vates primary afferent terminals in experimental neuromas through alpha-adrenergic transmission (Devor and J&rig 1981). Recently, it has been shown that experimental partial nerve injury induces increased responsiveness of C-fiber nociceptors to norepinephrine and sympathetic stimulation which is mediated by alpha2-adrenergic receptors (Sate and Per1 19911. In addition, experimentai painful peripheral neurop~ithy in rats was shown to be alleviated by symp~~thetic blockade (Shir and Seltzer 1991). Similarly, there is clinical evidence in man that sympathetically maintained pain may involve a peripheral alpha-adrenergic mechanism (Treede et al. 1991). Hence, both animal and human studies support a direct link between damage to the peripheral nervous system and catecholamine sensitivity in the development of pain. In summary, both anti-inflammatory and sympatholytic treatments were required to maintain adcquatc pain control in this patient with diagnostically proven SS and an associated sensory neuropathy. This cast suggests that in some in~ammato~ disorders both nerve damage and the activity of the sympathetic ncrvous system are relevant to the etiology of the pain. This multifactorial mechanism of pain raises the possibility of alternative strategies for improving the therapy in these patients.
Acknowledgement The authors would like to thank Dr. Jon D. Levine for his critical review of the manuscript. This work was supported by N.I.H. Pain Research Training Grant NSO7265. References Alexander.
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