Waddell Sign

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Continuing Education Activity

Professor Gordon Waddell first described a group of eight clinical physical signs in 1980 known as Waddell signs. As an orthopedic surgeon, Waddell initially developed these signs as a method to identify patients with low back pain who were likely to experience a poor surgical outcome from lower back surgery. More recently, clinicians have utilized Waddell signs to detect psychogenic, sometimes inappropriately labeled non-organic, manifestations of low back pain in patients. This activity describes the features of Waddel sign, its clinical relevance, and highlights the role of the interprofessional team in the management of patients with low back pain.

Objectives:

  • Describe the indications for Waddel sign.
  • Recall the contraindications for eliciting Waddel sign.
  • Summarize the clinical relevance of Waddel sign.
  • Review the importance of improving care coordination among interprofessional team members to improve outcomes for patients affected by low back pain.

Introduction

Professor Gordon Waddell first described a group of eight clinical physical signs in 1980 known as Waddell signs.[1] As an orthopedic surgeon, Waddell initially developed these signs as a method to identify patients with low back pain who were likely to experience a poor surgical outcome from lower back surgery. More recently, clinicians have utilized Waddell signs to detect psychogenic, sometimes inappropriately labeled “non-organic,” manifestations of low back pain in patients. This practice has expanded to identify malingering in patients, such as discrediting the legitimacy of motor vehicle accident claims as well as identifying psychogenic components in other non-lumbar pain syndromes.

In 1998, Main and Waddell stated that these physical signs have been misinterpreted and misused both clinically and medico-legally.[2] In their article, they emphasize the importance of viewing back pain within a psychosocial context. They state that behavioral signs may be a response affected by fear from injury and development of chronic incapacity, and are not a test of credibility. They conclude that patients displaying Waddell signs may require both physical management of their physical pathology as well as careful therapy for the psychosocial and behavioral aspects of their illness.

Anatomy and Physiology

Waddell signs were developed solely for evaluation of patients with low back pain.

Indications

No formal consensus recommendations are available on when to assess for Waddell signs. However, it should be included as part of a thorough physical examination of a patient presenting with lumbar back pain. The provider must exercise careful interpretation of their findings as behavioral responses provide useful clinical information. As Main and Waddell propose, positive Waddell signs in a patient only offer a psychological alert that may warrant a complete psychological evaluation.[2]

Contraindications

No contraindications are formally present for performing physical examination techniques that test for Waddell signs. However, caution is warranted when performing specific provocative maneuvers. These include the axial loading, acetabular rotation, and distracted straight leg tests. For instance, axial loading should be avoided in patients with a severe neck or cervical spine injury. Avoidance of acetabular rotation is also recommended if there is a pathology in the hip joint, such as labral tears.[3]

Equipment

No special medical equipment is necessary. Ideally, the patient should either be seated upright in a chair or lie supine in bed while testing for Wadell signs.

Personnel

A physician with training in physical medicine and rehabilitation or pain medicine is preferable.

Technique or Treatment

Waddell signs include: [1],[4]

  • Superficial tenderness: The patient’s skin over a wide area of the lumbar skin is tender to light touch or pinch.
  • Non-anatomical tenderness: The patient experiences deep tenderness over a wide area that is not localized to one structure and crosses over non-anatomical boundaries.
  • Axial loading: Downward pressure on the top of the patient’s head elicits lumbar pain.
  • Acetabular rotation: Lumbar pain is elicited while the provider passively and simultaneously externally rotates the patient’s shoulder and pelvis together in the same plane as the patient stands. It is considered a positive test if pain occurs within the first 30 degrees of rotation.
  • Distracted straight leg raise discrepancy: The patient complains of pain during a straight leg raise during formal testing, such as when supine, but does not on distraction when the examiner extends the knee with the patient in a seated position.
  • Regional sensory disturbance: The patient experiences decreased sensation fitting a stocking-like distribution rather than a dermatomal pattern.
  • Regional weakness: Weakness, cogwheeling, or the giving way of many muscle groups that are not explained on a neuroanatomical basis.
  • Overreaction: A disproportionate and exaggerated painful response to a stimulus that is not reproduced when the same provocation is given later. These responses can include verbalization, facial expression, muscle tension, or tremor.

Clinical Significance

The eight tests are commonly grouped into five broader categories. These categories include superficial and non-anatomic tenderness, axial loading and acetabular rotation simulation, distraction, regional sensory disturbance and weakness, and overreaction. The presence of three or more of the five signs has been the most consistently used criterion for a positive test; this suggests that symptom magnification or possible illness behavior may be a significant factor for the patient’s manifestation of pain.[1],[5],[6] However, a validity study suggested that to optimize the homogeneity and variability of the Waddell score, the provider should sum up individual signs instead of categories.[7]

A systematic review was performed by Fishbain and colleagues in 2003 to evaluate the evidence on various interpretations for the presence of Waddell signs on physical examination.[8] This review concluded that Waddell signs do not correlate with psychological distress, do not discriminate organic from non-organic problems, and the underlying pathology may represent an organic issue. Further, Waddell signs were associated with poorer treatment outcomes, higher pain levels, and not related to secondary gain. Fishbain and colleagues performed another systematic review in 2004 which failed to demonstrate an association between Waddell signs and secondary gain or malingering.[9]

An article by Ranney et al. raises the recurrent issue that Waddell signs have been inappropriately used by clinicians to “prove” the absence of physical pathology, regardless of the location of pain, and even to suggest that patients are faking their pain.[10] This article proposes that advances in neuroanatomy may help explain Waddell signs using known physiologic mechanisms and the possibility that some signs may be the result of maladaptive physical responses. For instance, superficial tenderness may be explained by allodynia which is a result of central nervous system sensitization. Additionally, the wind-up phenomenon may be a consequence of neuronal injury that subsequently leads to prolonged nociceptor input via c-fibers; this, in turn, leads to an exaggerated response to afferent input and an increase in the size of the skin’s receptive field.[11] Neuronal plasticity in the pain reception areas of the spinal cord’s dorsal horn may explain non-anatomical tenderness. Based on the work of Hoheisel and colleagues, a painful stimulus can cause marked changes in the connectivity of the dorsal horn, causing new receptive pain fields to form in the spinal cord; thus, formerly ineffective synaptic connections with the periphery form and are potentiated, leading to referred pain and pain that crosses known anatomic boundaries.[12] Finally, overreaction may be based on pre-accident personality or central sensitization syndrome. To this end, Ranney and colleagues proposed that the term “non-organic” should not be used in clinical practice, but instead be replaced by “behavioral responses to a physical examination,” a term first coined by Chris Spanswick in 1997.

Enhancing Healthcare Team Outcomes

Waddell signs may be used by the orthopedic surgeon, rheumatologist, physiatrist, neurologist or spine surgeon, and specialty trained nurse practitioners and physician assistants to assess a patient with low back pain. Unfortunately, there is no randomized study that has determined its sensitivity or specificity for low back pain. Although Waddell signs have been a useful screening tool in the low back pain population, other studies have adapted these signs for evaluating other pain locations. One example is Sobel and colleagues who developed and standardized a group of cervical signs to identify patients with low neck pain who exhibit abnormal illness behavior.[13] 

Patients with low back pain will often recover with limited therapy. However, if the pain persists, or neurologic signs develop, an interprofessional team approach is necessary. Nurses should assist in monitoring patients for improvement and providing patient education. If the patient's symptoms and signs become worse, the nurse needs to identify the concerning findings and report to the clinician managing the patient as soon as possible. For patients prescribed pain medications, the pharmacist should educate the patient on appropriate dosing and compliance. If there is a failure in improvement or the patient describes worsening symptoms, the prescriber should be contacted as soon a possible.

If the patient continues to have low back pain, then perhaps one may need to perform an imaging study. In any event, the best approach to provide the best outcomes is an interprofessional team effort to evaluate, treat, and monitor the patient. [Level V]


Details

Editor:

Luke Law

Updated:

7/3/2023 11:48:59 PM

References


[1]

Waddell G, McCulloch JA, Kummel E, Venner RM. Nonorganic physical signs in low-back pain. Spine. 1980 Mar-Apr:5(2):117-25     [PubMed PMID: 6446157]


[2]

Main CJ, Waddell G. Behavioral responses to examination. A reappraisal of the interpretation of "nonorganic signs". Spine. 1998 Nov 1:23(21):2367-71     [PubMed PMID: 9820920]


[3]

Lewis CL, Sahrmann SA. Acetabular labral tears. Physical therapy. 2006 Jan:86(1):110-21     [PubMed PMID: 16386066]


[4]

Karas R, McIntosh G, Hall H, Wilson L, Melles T. The relationship between nonorganic signs and centralization of symptoms in the prediction of return to work for patients with low back pain. Physical therapy. 1997 Apr:77(4):354-60; discussion 361-9     [PubMed PMID: 9105339]


[5]

Werneke MW, Harris DE, Lichter RL. Clinical effectiveness of behavioral signs for screening chronic low-back pain patients in a work-oriented physical rehabilitation program. Spine. 1993 Dec:18(16):2412-8     [PubMed PMID: 8303442]


[6]

Greenough CG, Fraser RD. Comparison of eight psychometric instruments in unselected patients with back pain. Spine. 1991 Sep:16(9):1068-74     [PubMed PMID: 1835163]


[7]

Apeldoorn AT, Bosselaar H, Blom-Luberti T, Twisk JW, Lankhorst GJ. The reliability of nonorganic sign-testing and the Waddell score in patients with chronic low back pain. Spine. 2008 Apr 1:33(7):821-6. doi: 10.1097/BRS.0b013e318169502a. Epub     [PubMed PMID: 18379412]


[8]

Fishbain DA, Cole B, Cutler RB, Lewis J, Rosomoff HL, Rosomoff RS. A structured evidence-based review on the meaning of nonorganic physical signs: Waddell signs. Pain medicine (Malden, Mass.). 2003 Jun:4(2):141-81     [PubMed PMID: 12911018]


[9]

Fishbain DA, Cutler RB, Rosomoff HL, Rosomoff RS. Is there a relationship between nonorganic physical findings (Waddell signs) and secondary gain/malingering? The Clinical journal of pain. 2004 Nov-Dec:20(6):399-408     [PubMed PMID: 15502683]


[10]

Ranney D. A proposed neuroanatomical basis of Waddell's nonorganic signs. American journal of physical medicine & rehabilitation. 2010 Dec:89(12):1036-42. doi: 10.1097/PHM.0b013e3181f70eae. Epub     [PubMed PMID: 20881586]


[11]

Melzack R, Coderre TJ, Katz J, Vaccarino AL. Central neuroplasticity and pathological pain. Annals of the New York Academy of Sciences. 2001 Mar:933():157-74     [PubMed PMID: 12000018]


[12]

Hoheisel U, Koch K, Mense S. Functional reorganization in the rat dorsal horn during an experimental myositis. Pain. 1994 Oct:59(1):111-118. doi: 10.1016/0304-3959(94)90054-X. Epub     [PubMed PMID: 7854791]


[13]

Sobel JB, Sollenberger P, Robinson R, Polatin PB, Gatchel RJ. Cervical nonorganic signs: a new clinical tool to assess abnormal illness behavior in neck pain patients: a pilot study. Archives of physical medicine and rehabilitation. 2000 Feb:81(2):170-5     [PubMed PMID: 10668770]

Level 3 (low-level) evidence