Pain Clinical Trial
Official title:
The Association Between Proinflammatory Cytokines, Microbial Infection and Clinical Manifestation in Sciatica Patients
All patients scheduled for lumbar spine surgery due to discogenic low back pain and/or sciatica, will be screened by the principal investigator for presence of inclusion/exclusion criteria. Their baseline neurological function before surgery will be assessed and recorded for recruitment into one of the three study groups. MRI scans will be assessed for the calculation of disc protrusion size. Experimental sensory and pain assessments and questionnaires will be performed at list 24 hours before surgery. Blood sample for pro-inflammatory mediator will be obtained at the same time as the experimental sensory and pain tests. Pre-operative pain and MPQ will be assessed pre-operatively (back and leg pain separately), and again on day 30 after surgery. Blood tests for ESR, CRP will be drawn before surgery, during the surgery, and on 30 after surgery. During surgery, intervertebral disc material will be harvested and divided into 4 specimens for culture and inflammatory mediator analysis. Repeat neurological assessment will be performed 30 after surgery.
The clinical manifestation of disc degeneration and/or disc herniation can be low back pain
and/or sciatica. The patterns of sensory and motor signs and symptoms that develop after
neuropathy vary between individual patients with disc degeneration and/or disc herniation.
The expression of these sensory signs (hyperalgesia, allodynia, and sensory loss), which we
call the individual somatosensory profile, reflects pathophysiological mechanisms in damaged
and surviving afferent nerve fibers such as conduction block, ectopic impulse generation,
peripheral sensitization, and central sensitization. In addition, studies have been conducted
in search of a microbial origin responsible for the observed inflammatory reaction in
discogenic low back pain and sciatica. However, the studies tested mixed cohorts of patients
in terms of clinical symptoms (low back pain alone, sciatica, both), length of symptoms
(acute and chronic), and tissue cultured (disc, bone). We hypothesize that the possible
infectious etiology of the observed inflammatory reaction seen in acute disc herniation and
sciatica may be different from that of chronic low back pain due to disc degeneration.
We further suspect that the immununogenicity of an acute disc herniation causing neurological
deficit may be different from a similar disc herniation not causing a deficit, and still
different from chronic degenerated discs without herniation or neurological deficit. Despite
the frequent occurrence of low back pain and sciatica in the general population their
underling mechanisms are poorly understood.
Aims and hypotheses of study
(1) To test the differences in disc microbial cultures and in levels of disc and blood
cytokines, between patients suffering disc degeneration / herniation and spinal stenosis
(controls), and (2) to assess the relationship between clinical manifestations and sensory
profiles of these patients and levels of cytokines found in disc tissue and blood.
Ouer hypotheses are: (1) patients suffering from disc degeneration / herniation or spinal
stenosis will differ in microbial culture and cytokines levels, with higher levels of
positive microbial disc culture and cytokines in the disc herniation group, (2) proinflamtory
cytokines levels will correlate with hyperalgesic (rather than hypoalgesic) sensory profiles.
Methods
200 adult subjects suffering from radicular pain duo to disc degeneration / herniation or
spinal stenosis will be recruited from the orthopedic clinic at the Rambam Health Care
Campus.
Experimental sensory and pain assessments will include a set of non-painful and pain evoked
tests which assess sensory integrity and pain perception to thermal (heat and cold) and
mechanical (vibration fork, pressure algometer and Von Frey Filaments) stimulation and an
assessment of the pain modulation processes: (1) conditioned pain modulation (CPM)- a
phenomenon whereby the response to a given noxious test stimulus is attenuated by another
conditioning noxious stimulus which is simultaneously administered in a remote area of the
body; (2) temporal summation (TS)- the experimental equivalent of 'windup. The tests will be
performed over the skin of the painful area (back and leg) and over the same areas of the
non-painful contralateral side. Clinical pain assessments will be based on the evaluation of
pain intensity on a daily pain diary as well as on a pain questionnaire (Short-Form McGill
Pain Questionnaire (SF-MPQ)); Thermal detection and pain thresholds and the number of
paradoxical heat sensations The thermal tests will be performed using the TSA II (MEDOC,
Israel). Cold and warm detection thresholds will be measured first (CDT, WDT). In addition,
subjects will be asked about paradoxical heat sensations (PHS) during the thermal sensory
limen (TSL) procedure of alternating warm and cold stimuli. Then cold pain and heat pain
thresholds will be determined (CPT, HPT). The mean threshold temperature of three consecutive
measurements will be calculated. All thresholds will be obtained with ramped stimuli (1°C/s)
that will be terminated when the subject presses a button. The baseline temperature will be
32°C and the contact area of the thermode will be 3x3 cm2. Cut-off temperatures will be 0°C
and 50°C
Mechanical detection and pain threshold The mechanical detection threshold (MDT) will be
measured with a standardized set of von Frey hairs (Optihair2-Set, Marstock Nervtest,
Germany) that exert forces upon bending between 0.25 and 512 mN (1-2s contact time). The
contact area of the von Frey hairs with the skin will be of uniform size and shape (rounded
tip, 0.5 mm in diameter) to avoid sharp edges that would facilitate nociceptor activation.
Using the ''method of limits'', five threshold determinations will be made, each with a
series of ascending and descending stimulus intensities. The final threshold will be the
geometric mean of these five series.
The mechanical pain threshold (MPT) will be measured using a standardized set of von Frey
hairs. The stimulators will be applied at a rate of 2s on, 2s off in an ascending order until
the first percept of sharpness will be reached. The final threshold will be the geometric
mean of five series of ascending and descending stimuli. This test will be designed to detect
pinprick hypoalgesia.
Stimulus/response-functions: mechanical pain sensitivity for pinprick stimuli and dynamic
mechanical allodynia Mechanical pain sensitivity (MPS) will be assessed using the von Frey
hair with the strongest force (512 mN). Subjects will be asked to give a pain rating for 35
stimulus on a '0-100' numerical rating scale ('0' indicating ''no pain'', and '100'
indicating ''most intense pain imaginable'').
Dynamic mechanical allodynia (ALL) will be assessed using a set of three light tactile
stimulators as moving innocuous stimuli: Cotton wisp exerting a force of 3 mN, a cotton wool
tip fixed to an elastic strip exerting a force of 100 mN, and a standardized brush exerting a
force of 200-400 mN. The tactile stimuli will be applied with a single stroke of
approximately 2 cm in length over the skin. Fifteen stimuli will be given (five per stimulus
type). All stimuli will be applied with a 10s inter-stimulus interval - well below the
critical frequency for wind-up. Mechanical pain sensitivity will be calculated as the
geometric mean of all numerical ratings for pinprick stimuli. Dynamic mechanical allodynia
will be calculated as the geometric mean (compound measure) of all numerical ratings across
all three different types of light touch stimulators.
Wind-up ratio representing the perceptual correlate of temporal pain summation In this test,
the perceived intensity of a single pinprick (256 mN) will be compared with that of a series
of 10 repetitive pinprick stimuli of the same physical intensity (1/s applied within an area
of 1 cm2). The subject will be asked to give a pain rating representing the single stimulus,
and the estimated mean over the whole series of 10 stimuli using a '0-100' numerical rating
scale. The whole procedure will be repeated five times. Wind-up ratio (WUR) will be
calculated as the ratio: mean rating of the five series divided by the mean rating of the
five single stimuli.
Vibration detection threshold The vibration detection threshold (VDT) represents the only
disappearance threshold within the proposed QST battery. This test will be performed with a
Rydel-Seiffer grade tuning fork (64 Hz, 8/8 scale) that will be placed over a bony prominence
(lateral or medial malleolus) and left there until the subject could not feel vibration any
more. Vibration detection threshold will be determined as a disappearance threshold with
three stimulus repetitions.
Pressure pain threshold (PPT) The final test in the protocol will be performed over muscle in
the painful limb with a pressure gauge device (FDN200, Wagner Instruments, USA) with a probe
area of 1 cm2 (probe diameter of 1.1 cm) that exerts forces up to 20 kg/cm2. The pressure
pain threshold will be determined with three series of ascending stimulus intensities, each
applied as a slowly increasing ramp of 0.5 kg/cm2 s.
Temporal summation of heat pain Noxious heat stimuli will be given to the painful site. The
tonic heat pain (THP) stimulation will be applied using the 3 X 3 cm Peltier based
computerized thermal stimulator (TSA, Medoc Ltd, Ramat Yishai, Israel). The baseline
temperature will be 32ºC and increase at a rate of 2ºC/sec up to a destination temperature of
46.5ºC and will last for 2 minutes. Participants, unaware of the temperature, will be
instructed to verbally rate the pain intensity every 10 sec using the numeric pain scale
(NPS; "0" meaning 'no pain', "100"- 'worst pain imaginable'). The average pain ratings will
be calculated. Temporal summation of heat pain will be defined and calculated as a
subtraction of the sixth pain rating (after one minute) from the last pain rating (after two
minutes). Hence, a positive value indicates a temporal summation process, and a negative
value indicates an adaptation.
The conditioned pain modulation paradigm For assessment of the DNIC efficiency heat
stimulation will be delivered using the 3 X 3 cm Peltier based computerized thermal
stimulator (TSA, Medoc Ltd, Ramat Yishai, Israel). The baseline temperature will be 32ºC and
increase at a rate of 2ºC/sec up to a destination temperature of 46.5ºC and for a duration of
5sec. Patients will verbally report the level of pain intensity using the numeric pain scale
(NPS; "0" meaning 'no pain', "100"- 'worst pain imaginable'). This will be considered as
'baseline test pain' (baseline). Then patients will be asked to immerse their dominant hand
into a temperature-controlled (10 ºC) water bath (Heto CBN 8-30 Lab equipment, Allerod,
Denmark) with a maximum temperature variance of ± 0.5°C, which is continuously stirred by a
pump. Following 15 seconds of immersion, while the hand is still in the water bath, a second
and third test stimulations will delivered with 15 seconds interval between them, and pain
intensity will be recorded again. Two additional heat stimulations will be delivered 15 and
30 seconds subsequent to removal of the hand from the water bath. Upon completion of the
session, patients will be instructed to report the intensity of the pain that will be caused
by immersing the hand in the water bath (conditioning induced pain intensity). DNIC
efficiency will by calculated and define as subtraction of pain ratings of the test stimulus
alone from the mean pain ratings of the test stimulus during hand immersion. Thus, negative
value indicates greater DNIC efficiency.
Questionnaires SF-MPQ: Short-Form McGill Pain Questionnaire The main component of the SF-MPQ
consists of 15 descriptors (11 sensory; 4 affective) which are rated on an intensity scale as
0 = none, 1 = mild, 2 = moderate or 3 = severe. Three pain scores are derived from the sum of
the intensity rank values of the words chosen for sensory, affective and total descriptors.
Pain related questionnaires Psychological and personality factors known to influence pain
perception will be assessed: pain catastrophizing and state and trait anxiety. Assessment
will be completed using three questionnaires: (I) The pain catastrophizing scale (PCS),
comprised of 13 statements evaluating three dimensions of pain catastrophizing: rumination,
magnification and helplessness. Participants will be instructed to rate their agreement with
each statement on a scale between 0-4 (0 = "never", 1 = "almost never", 2 = "occasionally", 3
= "almost often", 4 = "often"). The questionnaire score is defined as the sum of all ratings
with a high score indicating high pain catastrophizing levels. (II) Spielberger's state-trait
anxiety inventory (STAI) that includes two sections each evaluating two distinct features of
anxiety: state and trait anxiety. Each section constructed of 20 sentences describing
emotional states. Participants will be instructed to rate their emotions about each sentence
on a scale between 1-4 (1 = "not at all", 2 = "slightly", 3 = "moderately" 4 = "highly"). The
questionnaires score is defined as a sum of all ratings after inverting several specific
items, when a high score indicates high levels of state/trait anxiety.
Oswestry Low Back Pain Disability Questionnaire The purpose of the Oswestry Low Back Pain
Disability Questionnaire is to assess pain-related disability in persons with low back pain.
The questionnaire consists of 10 items addressing different aspects of function. Each item is
scored from 0 to 5, with higher values representing greater disability. The total score is
multiplied by 2 and expressed as a percentage.
DN4 The DN4 questionnaire consists of 10 items. The first 7 items are related to pain
characteristics and sensations and the remaining 3 items are related to the examination. For
each item, a score of ''1'' is given if the answer is ''yes'' and a score of ''0'' is given
if it is ''no.'' The patient is defined to have neuropathic pain if the sum of all 10 items
is calculated to be 4 or more.
Levels of proinflammatory factors in blood and disc tissue Proinflammatory cytokines (IL-1b,
IL-6, IL-8, IL-17, TNF-a, INF-g) will be assessed in blood and disc tissue samples obtained
at the time of surgery using ProcartaPlex Multiplex Immunoassay and real-time polymerase
chain reaction (PCR). All assessments, coding and tissue storage will be held in the
Pathology Laboratory at Rambam healthcare campus.
Tissue culture results To minimize the risk of contamination, the surgeon will perform all
processing and culturing procedures intraoperatively, and under stringent, sterile, operating
theater conditions. During surgery, immediately following intervertebral disc removal, the
surgeon will dissect the disc material into 4 proximately equal pieces. PCR method will be
used for detection and identification of several bacterial strains from dissected
intra-vertebral discs. All assessments, coding and tissue storage will be held in the
Microbiology Laboratory at Rambam healthcare campus.
MRI scans of enrolled patients, which are performed regardless to this study protocol, will
be evaluated for area and size of the disc protrusion.
Motor examination will be performed using the American Spinal Injury Association (ASIA) score
of neurologic assessment. This score will be tested on five muscles in the affected side of
the body.
Muscle strength is graded as:
- 0 Total paralysis
- 1 - Palpable or visible contraction
- 2 - Active movement, full range of motion, gravity eliminated
- 3 - Active movement, full range of motion, against gravity
- 4 - Active movement, full range of motion, against gravity and provides some resistance
- 5 - Active movement, full range of motion, against gravity and provides normal
resistance [Muscle able to exert, in examiner's judgement, sufficient resistance to be
considered normal if identifiable inhibiting factors were not present]
- NT - not testable. Patient unable to reliably exert effort or muscle unavailable for
testing due to factors such as immobilization, pain on effort or contracture.
Study procedure All patients scheduled for lumbar spine surgery due to discogenic low back
pain and/or sciatica, will be screened by the principal investigator for presence of
inclusion/exclusion criteria. Their baseline neurological function before surgery will be
assessed and recorded for recruitment into one of the three study groups. MRI scans will be
assessed for the calculation of disc protrusion size. Experimental sensory and pain
assessments and questionnaires will be performed at list 24 hours before surgery. Blood
sample for pro-inflammatory mediator will be obtained at the same time as the experimental
sensory and pain tests. Pre-operative pain and MPQ will be assessed pre-operatively (back and
leg pain separately), and again on day 30 after surgery. Blood tests for ESR, CRP will be
drawn before surgery, during the surgery, and on 30 after surgery. During surgery,
intervertebral disc material will be harvested and divided into 4 specimens for culture and
inflammatory mediator analysis. Repeat neurological assessment will be performed 30 after
surgery.
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