Quantitative Sensory Testing (QST)
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Original Editor - Melissa Coetsee
Top Contributors - Melissa Coetsee and Carina Therese Magtibay
Introduction[edit | edit source]
Quantitative sensory testing (QST) is a systematic psychophysical test method used to measure sensory thresholds for pain, touch, vibration, and temperature sensations.[1]It quantifies individual sensory perceptions using direct patient feedback. It tests for sensory loss (hypoesthesia, hypoalgesia) and sensory gain (hyperesthesia, hyperalgesia, allodynia)[2]. The procedure tests nociceptive and non-nociceptive properties of different afferent nerve fibres and central pathways[3].
Clinical Application[edit | edit source]
QST can be used to evaluate any condition that affects sensory function - it may help with diagnosis and disease monitoring. QST can be very useful to identify underlying contributing pain mechanisms and pathophysiology, which can assist with targeted intervention strategies[2][3]. It is best to compare results with normative values, and it is best conducted early after onset of a condition - the reason for this is that people with central sensitisation will present with widespread QST abnormalities, rendering the contralateral side an inaccurate comparison site. In early onset cases, the contralateral side is more likely to still reflect the patient's norm, but if predisposing existing sensory abnormalities are present it could interfere with interpretation.
Conditions for which QST can be useful include[2][3]:
- Neuropathic pain
- Polyneuropathy (diabetic, HIV-related, chemotherapy-related)
- Postherpetic neuralgia
- Complex regional pain syndrome (CRPS)
- Chronic low back pain
- Knee osteoarthritis
Components[edit | edit source]
To perform QST, a patient is stimulated with quantified sensory stimuli and based on patient feedback, perception thresholds are identified for the following sensory functions: light touch, pressure, vibration, thermal sensations, heat and cold pain. This way A-delta fibres (small diameter myelinated) and C-fibres (unmyelinated) are assessed. The categories of the full test include[4]:
- Thermal detection thresholds for the perception of cold, warm and paradoxical heat sensations
- Thermal pain thresholds for cold and hot stimuli
- Mechanical detection thresholds for touch and vibration
- Mechanical pain sensitivity including:
- Pin-prick thresholds
- Blunt pressure thresholds
- Stimulus response for pin-prick sensitivity and mechanical allodynia
- Pain summation to repetitive pin prick stimuli
Procedure[edit | edit source]
Sophisticated computerised equipment is often used in clinical trials, but hand-held tools are also available for clinical use[1]. The following table presents the standardised procedure as recommended by the German Research Network on Neuropathic Pain. For fully detailed description of this procedure see the Resources section. Simplified versions will be discussed later:
| Test | Equipment | Nerves tested | Instructions | Measurement |
|---|---|---|---|---|
| Thermal Testing | Thermode with element and cooling water system | A-delta fibres and C-fibres | Thermode is placed on the skin and measure heat and pain/ cold and pain detection between 0 and 50 degrees Celsius | Average of three consecutive measures |
| Mechanical Detection | Von Frey Filaments | A-beta fibres | Contact with skin for 2 seconds determine at what point the patient detects tactile input | Average of five above and below-threshold stimulus intensities |
| Mechanical pain threshold | Needle stimulators | A-delta fibre subtypes | Needle applied perpendicular to the skin in ascending and descending stimulus intensity with skin contact time of 1-2s | Average of five above and below-threshold stimulus intensities |
| Mechanical pain sensitivity | Needle stimulators, Q-tip, soft brush, cotton pad | Allodynia and pin-prick hyperalgesia (central pathways) | Gentle stimuli applied to the 2cm of skin (stroking) with the various instruments | Subjects are asked to rate the perception of the stimulus using a pain scale of 0-100 |
| Vibration detection threshold | Tuning fork | A-beta fibre | Place fork over bony prominence until subject can not feel vibration any more | Disappearance threshold taken on 3 repetitions |
| Pressure pain threshold | Pressure gauge device (Wagner instruments) | Deep somatosensory function | Apply gradually increasing pressure over muscle area | 3 series of ascending stimulus intensities |
| Temporal Summation | Needle stimulator (pin prick) | Wind-up phenomenon (spinal cord neurons) | A series of 10 repetitive pinprick stimuli of the same intensity | Subjects are asked to rate the perception of the stimulus using a pain scale of 0-100 |
Normal values[edit | edit source]
Bed-side testing[edit | edit source]
Complementary Tests[edit | edit source]
- Temporal summation (TS): Apply rapidly repeated mechanical stimuli (for 5-10s) to a painful region - if TS is present it will result in an increased pain perception indicating central sensitisation[2].
- 2-point discrimination: Especially useful in upper limb to test tactile perception. Can be impaired in both PNS and CNS conditions. In the absence of peripheral pathology, it could indicate cortical changes in the homunculus.
- Conditional pain modulation test (CPM): CPM tests the function of central pain inhibition/facilitation. Involves applying a noxious stimulus (thermal or mechanical) to a region remote from the painful site - if descending inhibitory control is functioning properly, the initial source of pain will be less intense during the application of the remote stimulus. [2]*****
Interpretation[edit | edit source]
The table below summarises the link between underlying pain mechanisms / pathophysiology and specific QST findings:
| Underlying mechanism/ Sign | QST finding |
|---|---|
| Hypoesthesia (sensory loss) | Elevated sensory thresholds, i.e. decreased sensitivity to non-noxious stimuli |
| Hypoalgesia | Elevated sensory thresholds, i.e. decreased sensitivity to noxious stimuli |
| Hyperalgesia | Increased sensitivity (lowered thresholds) to heat, cold, pinprick or deep pressure |
| Allodynia | Pain in response to non-noxious stimuli on skin |
| Peripheral sensitisation | Heat hyperalgesia (lowered hot pain threshold)
Lowered pain thresholds for pressure/pin prick proximal to painful area or along nerve distribution / segmental region |
| Central sensitisation | Increased sensitivity to cold/pin prick/pressure/cold hyperalgesia that is widespread and contralateral; Mechanical allodynia; Temporal summation (repeated mechanical and thermal stimuli causes increased pain) |
| Polyneuropathy | All thresholds elevated |
| Small fibre neuropathy | Vibration thresholds are normal, but others elevated |
| Nerve deafferation | Reduced sensitivity with all tests |
The table below summarises QST findings for specific conditions, as identified in research studies[2]:
| Condition | QST findings | Implication |
|---|---|---|
| Chronic low back pain | (1) Increased sensitivity (decreased threshold) to heat and pressure
(2) Temporal summation |
(1) Indicates peripheral sensitiasation
(2) Central sensitisation components present |
| Lower limb fractures | Decreased sensitivity (elevated threshold) to touch and increased sensitivity (decreased threshold) to warmth | Identified underlying peripheral nerve injury which can affect limb function and balance |
| Knee OA | (1) Increased sensitivity (lowered thresholds) to pressure around the knee
(2) Increased sensitivity to pressure and cold at distal sites; Temporal summation (TS with pinprick |
(1) Indicates peripheral sensitisation
(2) Indicates central sensitisation - predicts poor surgery outcomes if not addressed; will likely not respond fully to NSAIDs |
| CRPS |
Limitations[edit | edit source]
- QST abnormalities are present in non neuropathic pain, making it difficult to use QST as a definitive tool for identifying neuropathic pain[1]
- Abnormal findings are not specific for peripheral nerve dysfunction, as central nervous system disorders will also alter sensory thresholds[1]
- It is a subjective psychophysical test, entirely dependent on patient alertness, motivation and willingness to supply accurate feedback. There is large intra- and interindividual variation[1]
Summary[edit | edit source]
QST can be a very valuable clinical tool in patients with chronic pain by assisting to characterise pain experiences. It provides information about potential underlying mechanisms contributing to pain, therefore incorporating QST may improve the ability to implement individualised treatment plans based on underlying mechanisms[2].
Resources[edit | edit source]
- Quantitative Sensory Testing - standardised full procedure
or
- numbered list
- x
References[edit | edit source]
- ↑ 1.0 1.1 1.2 1.3 1.4 1.5 Horowitz SH. Neuropathic pain: is the emperor wearing clothes. Current Therapy in Pain, WB Saunders. 2009:9-14.
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 2.6 2.7 Weaver KR, Griffioen MA, Klinedinst NJ, Galik E, Duarte AC, Colloca L, Resnick B, Dorsey SG, Renn CL. Quantitative sensory testing across chronic pain conditions and use in special populations. Frontiers in Pain Research. 2022 Jan 28;2:779068.
- ↑ 3.0 3.1 3.2 3.3 3.4 Mucke M, Cuhls H, Radbruch L, Baron R, Maier C, Tolle T, Treede RD, Rolke R. Quantitative sensory testing (QST). English version. Schmerz. 2016;35:153-60.
- ↑ Rolke R, Baron R, Maier CA, Tölle TR, Treede RD, Beyer A, Binder A, Birbaumer N, Birklein F, Bötefür IC, Braune S. Quantitative sensory testing in the German Research Network on Neuropathic Pain (DFNS): standardized protocol and reference values. Pain®. 2006 Aug 1;123(3):231-43.
