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Diagnostic Criteria for Temporomandibular Disorders
(DC/TMD) for Clinical and Research Applications:
Recommendations of the International RDC/TMD
Consortium Network* and Orofacial Pain
Special Interest Group†

Eric Schiffman, DDS, MS Aims: The original Research Diagnostic Criteria for Temporomandibular Disorders
Richard Ohrbach, DDS, PhD (RDC/TMD) Axis I diagnostic algorithms have been demonstrated to be reliable.
Edmond Truelove, DDS, MSD However, the Validation Project determined that the RDC/TMD Axis I validity was
John Look, DDS, PhD below the target sensitivity of ≥ 0.70 and specificity of ≥ 0.95. Consequently, these
Gary Anderson, DDS, MS empirical results supported the development of revised RDC/TMD Axis I diagnostic
Jean-Paul Goulet, DDS, MSD algorithms that were subsequently demonstrated to be valid for the most common
Thomas List, DDS, Odont Dr pain-related TMD and for one temporomandibular joint (TMJ) intra-articular disorder.
Peter Svensson, DDS, PhD, Dr Odont The original RDC/TMD Axis II instruments were shown to be both reliable and valid.
Yoly Gonzalez, DDS, MS, MPH Working from these findings and revisions, two international consensus workshops
Frank Lobbezoo, DDS, PhD were convened, from which recommendations were obtained for the finalization of
Ambra Michelotti, DDS new Axis I diagnostic algorithms and new Axis II instruments. Methods: Through
Sharon L. Brooks, DDS, MS a series of workshops and symposia, a panel of clinical and basic science pain
Werner Ceusters, MD experts modified the revised RDC/TMD Axis I algorithms by using comprehensive
Mark Drangsholt, DDS, PhD searches of published TMD diagnostic literature followed by review and consensus
Dominik Ettlin, MD, DDS via a formal structured process. The panel’s recommendations for further revision
Charly Gaul, MD of the Axis I diagnostic algorithms were assessed for validity by using the Validation
Louis J. Goldberg, DDS, PhD
Project’s data set, and for reliability by using newly collected data from the ongoing
TMJ Impact Project—the follow-up study to the Validation Project. New Axis II
Jennifer A. Haythornthwaite, PhD
instruments were identified through a comprehensive search of the literature
Lars Hollender, DDS, Odont Dr
providing valid instruments that, relative to the RDC/TMD, are shorter in length,
Rigmor Jensen, MD, PhD
are available in the public domain, and currently are being used in medical settings.
Mike T. John, DDS, PhD
Results: The newly recommended Diagnostic Criteria for TMD (DC/TMD)
Antoon De Laat, DDS, PhD
Axis I protocol includes both a valid screener for detecting any pain-related TMD
Reny de Leeuw, DDS, PhD
as well as valid diagnostic criteria for differentiating the most common pain-related
William Maixner, DDS, PhD
TMD (sensitivity ≥ 0.86, specificity ≥ 0.98) and for one intra-articular disorder
Marylee van der Meulen, PhD
(sensitivity of 0.80 and specificity of 0.97). Diagnostic criteria for other common
Greg M. Murray, MDS, PhD
intra-articular disorders lack adequate validity for clinical diagnoses but can be
Donald R. Nixdorf, DDS, MS
used for screening purposes. Inter-examiner reliability for the clinical assessment
Sandro Palla, Dr Med Dent
associated with the validated DC/TMD criteria for pain-related TMD is excellent
Arne Petersson, DDS, Odont Dr
(kappa ≥ 0.85). Finally, a comprehensive classification system that includes
Paul Pionchon, DDS, PhD both the common and less common TMD is also presented. The Axis II protocol
Barry Smith, PhD retains selected original RDC/TMD screening instruments augmented with new
Corine M. Visscher, PT, PhD instruments to assess jaw function as well as behavioral and additional psychosocial
Joanna Zakrzewska, MD, FDSRCSI factors. The Axis II protocol is divided into screening and comprehensive self-
Samuel F. Dworkin, DDS, PhD report instrument sets. The screening instruments' 41 questions assess pain
Author affiliations are listed at the end of this article. intensity, pain-related disability, psychological distress, jaw functional limitations,
and parafunctional behaviors, and a pain drawing is used to assess locations of
Correspondence to: pain. The comprehensive instruments, composed of 81 questions, assess in further
Dr Eric Schiffman detail jaw functional limitations and psychological distress as well as additional
Department of Diagnostic and constructs of anxiety and presence of comorbid pain conditions. Conclusion: The
Biological Sciences recommended evidence-based new DC/TMD protocol is appropriate for use in both
6-320 Moos Tower clinical and research settings. More comprehensive instruments augment short and
School of Dentistry
simple screening instruments for Axis I and Axis II. These validated instruments
University of Minnesota
Minneapolis, MN, USA 55455 allow for identification of patients with a range of simple to complex TMD
Fax: (612) 626-0138 presentations. J Oral Facial Pain Headache 2014;28:6–27. doi: 10.11607/jop.1151
Email: [email protected]
*International Association for Dental Research. Key words: d
 iagnostic criteria, diagnostic reliability, diagnostic validity, sensitivity,
†International Association for the Study of Pain. specificity, temporomandibular disorders

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 Schiffman et al

T
emporomandibular disorders (TMD) are a sig- The RDC/TMD (1992) was intended to be only
nificant public health problem affecting approx- a first step toward improved TMD classification, and
imately 5% to 12% of the population.1 TMD is the authors stated the need for future investigation
the second most common musculoskeletal condition of the accuracy of the Axis I diagnostic algorithms
(after chronic low back pain) resulting in pain and dis- in terms of reliability and criterion validity—the lat-
ability.1 Pain-related TMD can impact the individual’s ter involving the use of credible reference standard
daily activities, psychosocial functioning, and quality diagnoses. Also recommended was further assess-
of life. Overall, the annual TMD management cost in ment of the clinical utility of the Axis II instruments.
the USA, not including imaging, has doubled in the The original RDC/TMD Axis I physical diagnoses
last decade to $4 billion.1 have content validity based on the critical review by
Patients often seek consultation with dentists experts of the published diagnostic approach in use
for their TMD, especially for pain-related TMD. at that time and were tested using population-based
Diagnostic criteria for TMD with simple, clear, reliable, epidemiologic data.6 Subsequently, a multicenter
and valid operational definitions for the history, exami- study showed that, for the most common TMD, the
nation, and imaging procedures are needed to render original RDC/TMD diagnoses exhibited sufficient re-
physical diagnoses in both clinical and research set- liability for clinical use.7 While the validity of the in-
tings. In addition, biobehavioral assessment of pain- dividual RDC/TMD diagnoses has been extensively
related behavior and psychosocial functioning—an investigated, assessment of the criterion validity for
essential part of the diagnostic process—is required the complete spectrum of RDC/TMD diagnoses had
and provides the minimal information whereby one been absent until recently.8
can determine whether the patient’s pain disorder, For the original RDC/TMD Axis II instruments,
especially when chronic, warrants further multidisci- good evidence for their reliability and validity for mea-
plinary assessment. Taken together, a new dual-axis suring psychosocial status and pain-related disability
Diagnostic Criteria for TMD (DC/TMD) will provide already existed when the classification system was
evidence-based criteria for the clinician to use when published.9–13 Subsequently, a variety of studies have
assessing patients, and will facilitate communication demonstrated the significance and utility of the original
regarding consultations, referrals, and prognosis.2 RDC/TMD biobehavioral measures in such areas as
The research community benefits from the ability predicting outcomes of clinical trials, escalation from
to use well-defined and clinically relevant character- acute to chronic pain, and experimental laboratory set-
istics associated with the phenotype in order to fa- tings.14–20 Other studies have shown that the original
cilitate more generalizable research. When clinicians RDC/TMD biobehavioral measures are incomplete in
and researchers use the same criteria, taxonomy, and terms of prediction of disease course.21–23 The overall
nomenclature, then clinical questions and experience utility of the biobehavioral measures in routine clinical
can be more easily transferred into relevant research settings has, however, yet to be demonstrated, in part
questions, and research findings are more accessi- because most studies have to date focused on Axis I
ble to clinicians to better diagnose and manage their diagnoses rather than Axis II biobehavioral factors.24
patients. The aims of this article are to present the evi-
The Research Diagnostic Criteria for Temporo­ dence-based new Axis I and Axis II DC/TMD to be
mandibular Disorders (RDC/TMD) have been the used in both clinical and research settings, as well as
most widely employed diagnostic protocol for TMD present the processes related to their development.
research since its publication in 1992.3 This classi-
fication system was based on the biopsychosocial
model of pain4 that included an Axis I physical as- Materials and Methods
sessment, using reliable and well-operationalized
diagnostic criteria, and an Axis II assessment of The RDC/TMD (Axis I and Axis II) was a model sys-
psychosocial status and pain-related disability. The tem when it was published in 1992, but the authors
intent was to simultaneously provide a physical di- recognized that it was only a beginning and that fur-
agnosis and identify other relevant characteristics of ther research was needed to improve its validity and
the patient that could influence the expression and clinical utility. Table 1 summarizes the subsequent
thus management of their TMD. Indeed, the longer major steps from the RDC/TMD to the new DC/TMD.
the pain persists, the greater the potential for emer- Specifically, in 2001, the National Institute of Dental
gence and amplification of cognitive, psychosocial, and Craniofacial Research (NIDCR) in the USA, rec-
and behavioral risk factors, with resultant enhanced ognizing the need to rigorously assess the diagnos-
pain sensitivity, greater likelihood of additional pain tic accuracy of the dual-axis RDC/TMD, funded the
persistence, and reduced probability of success from multisite Validation Project that resulted in a dataset
standard treatments.5 of 705 participants who were classified, based on

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Schiffman et al

Table 1   Major Steps from the RDC/TMD* (1992) to the New DC/TMD†
Year Event
1992 Publication of RDC/TMD
Expert-based classification of most common TMD derived from epidemiologic and clinical data
Dual-axis system: Clinical conditions (Axis I) and pain-related disability and psychological status (Axis II)
2001–2008 Validation Project
Multicenter study with reference standard examiners
Comprehensive assessment of the reliability and validity of the RDC/TMD
Establish need to revise RDC/TMD
2008 Symposium at IADR‡ Conference (Toronto)
Revised RDC/TMD diagnostic algorithms presented to the international research community
Published critique and recommendations to enhance use in research
2009 International RDC/TMD Consensus Workshop at IADR Conference (Miami)
Input from the international dental and medical clinical and research community as well as from patient advocate perspective
Published critique and recommendations to facilitate use in clinical and research settings
2010 Publication of Major Findings by Validation Project
Revised RDC/TMD algorithms provided reliable and valid clinical criteria for pain-related TMD
Demonstrated need for imaging for most TMJ disc displacements and degenerative joint disease
Support for existing Axis II instruments
Recommended development of DC/TMD with international input
2010 Symposium at IADR Conference (Barcelona)
DC/TMD presented to the international clinical and research community
Critique and comments on Axis I diagnostic algorithms for the most common TMD and Axis II assessment protocol
2011 International RDC/TMD Consensus Workshop at IADR Conference (San Diego)
Refinement of Axis I diagnostic algorithms for common and less common TMD
2011–2012 Field Trials of Axis I Examiner Specifications and Axis I & II Self-Report Instruments
Test sites: Buffalo (US), Minneapolis (US), Malmö (Sweden), Aarhus (Denmark), Heidelberg (Germany), and Stockholm (Sweden)
2012 Finalization of DC/TMD at IADR Conference (Iguacu Falls)
Further input from members of national and international TMD pain organizations
Review of the DC/TMD by the IADR 2009 conference participants
2013 Final Estimates of Reliability and Validity for Axis I Diagnostic Criteria
Derived from the datasets of the Validation Project and TMJ Impact Project
Finalization of DC/TMD
*
Research Diagnostic Criteria for Temporomandibular Disorders.
†
Diagnostic Criteria for Temporomandibular Disorders.
‡
International Association for Dental Research.

reference standard diagnoses, into 614 TMD cases displacements (DD) and for degenerative joint dis-
and 91 controls.25 A description of the study meth- ease (DJD). Original RDC/TMD Axis II instruments
ods as well as the demographics and clinical char- were shown to be reliable and valid for screening for
acteristics of the sample are available.25–27 Reference psychosocial distress and pain-related disability, but
standard diagnoses were established by consensus revision was warranted for both increased scope and
between two TMD and orofacial pain experts at each improved clinical efficiency.28,29
of three study sites using a comprehensive history, In July 2008, the International RDC/TMD Consortium
physical examination, and imaging studies (panoram- Network sponsored a symposium at the International
ic radiograph, bilateral temporomandibular joint [TMJ] Association for Dental Research (IADR) Conference
magnetic resonance imaging [MRI], and computed in Toronto entitled “Validation Studies of the RDC/
tomography [CT]). Acceptable validity was defined a TMD: Progress Towards Version 2.”30 Presentation
priori as sensitivity ≥ 0.70 and specificity ≥ 0.95.3 of the revised RDC/TMD Axis I diagnostic algorithms
When the original RDC/TMD Axis I TMD diagnoses and Axis II findings by the Validation Project’s key in-
were compared to these reference standard diagno- vestigators was followed by critiques from researchers
ses, the findings supported the need for revision of in the areas of radiology, neurology, pain psychology,
these Axis I TMD diagnostic algorithms to improve and TMD and orofacial pain.31–36 A mandate emerged
their diagnostic accuracy.8 The Validation Project sub- from the symposium in support of holding a consensus
sequently developed and validated revised RDC/TMD workshop for the development of a new DC/TMD.
Axis I diagnostic algorithms for myofascial pain and In March 2009, the International RDC/TMD
arthralgia that have excellent diagnostic accuracy.27 Consortium Network (IADR) and the Orofacial
However, revised diagnostic algorithms alone, with- Pain Special Interest Group (of the International
out recourse to TMJ imaging, were still inadequate Association for the Study of Pain [IASP]) organized the
for valid diagnoses of two of the three types of disc “International Consensus Workshop: Convergence on

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 Schiffman et al

an Orofacial Pain Taxonomy” at the IADR Conference study. Generalized estimating equations (GEE) were
in Miami to address the recommendations from both employed for validity and reliability estimates across
the Validation Project investigators29 and the 2008 multiple examiners as well as adjustment of variance
Toronto meeting regarding development of the new estimates for correlated data within patients. For the
DC/TMD. The Validation Project’s findings and rec- Axis II portion of the new DC/TMD, the implementation
ommendations, as well as comprehensive literature of the consensus report from the 2009 Miami work-
searches regarding diagnostic tests, served as the shop was further refined based on recommendations
basis for the resulting consensus-based recommen- from a subsequent workshop41 and recommendations
dations that are available in the executive summary.37,38 from a recent publication that built upon Validation
An ad-hoc Taxonomy Committee was appointed by Project findings.28
the workshop participants and charged with finalizing
the workshop recommendations; these recommenda-
tions were then reviewed by the workshop participants Results
for feedback and approval. The Validation Project’s
findings and recommendations were subsequently Overview
published in 2010.8,25–29 The following recommendations represent an
In July 2010, the working draft of the new DC/ evidence-­based new DC/TMD intended for immedi-
TMD was presented to the international clinical and ate implementation in clinical and research settings.
research community for critique and comments at a The 12 common TMD include arthralgia, myalgia, local
symposium at the IADR Conference in Barcelona, myalgia, myofascial pain, myofascial pain with referral,
Spain. Further refinement of select new DC/TMD di- four disc displacement disorders, degenerative joint
agnoses occurred in 2011 at the "International RDC/ disease, subluxation, and headache attributed to TMD.
TMD Consensus Workshop" at the IADR Conference The diagnostic algorithms with established estimates
in San Diego. From 2011 to 2012, the examiner spec- of sensitivity and specificity for the most common TMD
ifications for the Axis I assessment protocol and the are presented in Tables 2 and 3. Acceptable sensitiv-
Axis II instruments were field tested. In 2012, the new ity and specificity for a definitive diagnosis are con-
DC/TMD manuscript was then reviewed and finalized sidered as sensitivity ≥ 70% and specificity ≥ 95%.3
by the Miami 2009 workshop participants for publica- Diagnostic criteria with lower target sensitivity or
tion. Detailed information regarding the development specificity, or having only content validity, were used
of the new DC/TMD is available on the International when there was no available alternative. Decision trees
RDC/TMD Consortium Network website.39 are available that map the patient history responses
Concurrent with the above activities was the and clinical findings to these specific disorders except
development of a new taxonomic classification for subluxation.42 Table 4 provides an expanded tax-
structure. The Taxonomy Committee and selected onomic classification structure for both common and
members of the 2009 workshop used the taxonom- less common TMD. The diagnostic criteria for these
ic structures developed by the American Academy less common TMD have content validity but have not
of Orofacial Pain (AAOP)40 to develop the struc- been assessed for criterion validity.43 The diagnostic
ture used in this manuscript. This more compre- criteria for the less common TMD represent revisions
hensive taxonomic structure and related diagnostic of the AAOP’s diagnostic criteria that have been up-
criteria were refined by members of the workshop dated in a joint effort by members of the International
held in 2011 in San Diego, and at the "International RDC/TMD Consortium Network and the Orofacial
Consensus Workshop: Expanded TMD Taxonomy for Pain Special Interest Group of the IASP. Rigorous
Further Classification Research" in June 2012 at the assessment of these diagnostic criteria for their criteri-
IADR Conference in Iguacu Falls, Brazil. The AAOP on validity remains to be accomplished.
council endorsed this taxonomic structure in 2012. The new DC/TMD Axis II protocol has been ex-
With each refinement of the DC/TMD algorithms, panded by adding new instruments to evaluate pain
the Validation Project team used the available dataset behavior, psychological status, and psychosocial
and reference standards from that project to docu- functioning. The inclusion of the biobehavioral do-
ment new estimates of diagnostic validity. Each of main has been well accepted in the pain field over-
these analyses was reviewed and approved by mem- all, and the specific inclusion of new DC/TMD Axis
bers of the Taxonomy Committee. When the final Axis I II instruments has been recommended as a gener-
diagnostic algorithms were established, the Validation al model for assessing any pain patient.44 Finally, a
Project team also tested their inter-examiner reliabil- “stepped” assessment model is embedded in the
ity by using examination data collected from 46 pa- new DC/TMD components, allowing the protocol to
tients by the 6 examiners who are implementing the support assessment ranging from screening to com-
TMJ Impact Project, the Validation Project's follow-up prehensive expert evaluation.

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Schiffman et al

Table 2   Diagnostic Criteria for the Most Common Pain-Related Temporomandibular Disorders
Indicated history and exam criteria must be met for each diagnosis.

Myalgia (ICD-9 729.1; ICD-10 M79.1)*
Description Pain of muscle origin that is affected by jaw movement, function, or parafunction, and replication of this pain occurs
with provocation testing of the masticatory muscles.
History Positive for both of the following:
1. Pain** in the jaw, temple, in the ear, or in front of ear; AND
2. Pain modified with jaw movement, function or parafunction.
Criteria

Exam Positive for both of the following:
1. Confirmation† of pain location(s) in the temporalis or masseter muscle(s); AND
2. Report of familiar pain‡ in the temporalis or masseter muscle(s) with at least one of the following provocation tests:
a. Palpation of the temporalis or masseter muscle(s); OR
b. Maximum unassisted or assisted opening movement(s).
Validity Sensitivity 0.90; Specificity 0.99
Comments The pain is not better accounted for by another pain diagnosis. Other masticatory muscles may be examined as
dictated by clinical circumstances, but the sensitivity and specificity for this diagnosis based on these findings
have not been established.
Types of myalgia as differentiated by provocation testing with palpation:
Local myalgia, myofascial pain, and myofascial pain with referral
Local myalgia (ICD-9 729.1; ICD-10 M79.1)
Description Pain of muscle origin as described for myalgia with localization of pain only at the site of palpation when using the
myofascial examination protocol.47
History Positive for both of the following:
1. Pain** in the jaw, temple, in the ear, or in front of ear; AND
2. Pain modified with jaw movement, function, or parafunction.
Criteria

Exam Positive for all of the following:
1. Confirmation† of pain location(s) in the temporalis or masseter muscle(s); AND
2. Report of familiar pain‡ with palpation of the temporalis or masseter muscle(s); AND
3. Report of pain localized to the site of palpation.
Validity Sensitivity and specificity have not been established.
Comments The pain is not better accounted for by another pain diagnosis. Other masticatory muscles may be examined as
dictated by clinical circumstances but the sensitivity and specificity for this diagnosis based on these findings
have not been established.

Myofascial pain (ICD-9 729.1; ICD-10 M79.1)
Description Pain of muscle origin as described for myalgia with pain spreading beyond the site of palpation but within the boundary
of the muscle when using the myofascial examination protocol.47
History Positive for both of the following:
1. Pain** in the jaw, temple, in the ear, or in front of ear; AND
2. Pain modified with jaw movement, function or parafunction.
Criteria

Exam Positive for all of the following:
1. Confirmation† of pain location(s) in the temporalis or masseter muscle(s); AND
2. Report of familiar pain‡ with palpation of the temporalis or masseter muscle(s); AND
3. Report of pain spreading beyond the site of palpation but within the boundary of the muscle.
Validity Sensitivity and specificity have not been established.
Comments The pain is not better accounted for by another pain diagnosis. Other masticatory muscles may be examined as
dictated by clinical circumstances but the sensitivity and specificity for this diagnosis based on these findings
have not been established.

Myofascial pain with referral (ICD-9 729.1; ICD-10 M79.1)
Description Pain of muscle origin as described for myalgia with referral of pain beyond the boundary of the muscle being palpated
when using the myofascial examination protocol.47 Spreading pain may also be present.
History Positive for both of the following:
1. Pain** in the jaw, temple, ear, or in front of ear; AND
2. Pain modified with jaw movement, function, or parafunction.
Criteria

Exam Positive for all of the following:
1. Confirmation† of pain location(s) in the temporalis or masseter muscle(s); AND
2. Report of familiar pain‡ with palpation of the temporalis or masseter muscle(s); AND
3. Report of pain at a site beyond the boundary of the muscle being palpated.
Validity Sensitivity 0.86; Specificity 0.98
Comments The pain is not better accounted for by another pain diagnosis. Other masticatory muscles may be examined as
dictated by clinical circumstances but the sensitivity and specificity for this diagnosis based on these findings
have not been established.

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 Schiffman et al

Table 2   continued
Arthralgia (ICD-9 524.62; ICD-10 M26.62)
Description Pain of joint origin that is affected by jaw movement, function, or parafunction, and replication of this pain occurs with
provocation testing of the TMJ.
History Positive for both of the following:
1. Pain** in the jaw, temple, ear, or in front of ear; AND
2. Pain modified with jaw movement, function, or parafunction.
Criteria

Exam Positive for both of the following:
1. Confirmation† of pain location in the area of the TMJ(s); AND
2. Report of familiar pain‡ in the TMJ with at least one of the following provocation tests:
a. Palpation of the lateral pole or around the lateral pole; OR
b. Maximum unassisted or assisted opening, right or left lateral, or protrusive movement(s).
Validity Sensitivity 0.89; Specificity 0.98
Comments The pain is not better accounted for by another pain diagnosis.

Headache attributed to TMD (ICD-9 339.89 and 748.0; ICD-10 G44.89)§
Description Headache in the temple area secondary to pain-related TMD (see Note) that is affected by jaw movement, function, or
parafunction, and replication of this headache occurs with provocation testing of the masticatory system.
History Positive for both of the following:
1. Headache** of any type in the temple; AND
2. Headache modified with jaw movement, function, or parafunction.
Criteria

Exam Positive for both of the following:
1. Confirmation† of headache location in the area of the temporalis muscle(s); AND
2. Report of familiar headache‡ in the temple area with at least one of the following provocation tests:
a. Palpation of the temporalis muscle(s); OR
b. Maximum unassisted or assisted opening, right or left lateral, or protrusive movement(s).
Validity Sensitivity 0.89; Specificity 0.87
Comments The headache is not better accounted for by another headache diagnosis.
Note A diagnosis of pain-related TMD (eg, myalgia or TMJ arthralgia) must be present and is established using
valid diagnostic criteria.
* ICD-9: International Classification of Diseases 9th Revision; ICD-10: International Classification of Diseases 10th Revision.
**The time frame for assessing pain including headache is in “the last 30 days” since the stated sensitivity and specificity of these criteria were established
using this time frame. Although the specific time frame can be dependent on the context in which the pain complaint is being assessed, the validity of this
diagnosis based on different time frames has not been established.
†
The examiner must identify with the patient all anatomical locations that they have experienced pain in the last 30 days. For a given diagnosis, the loca-
tion of pain induced by the specified provocation test(s) must be in an anatomical structure consistent with that diagnosis.
‡
“ Familiar pain” or “familiar headache” is based on patient report that the pain induced by the specified provocation test(s) has replicated the pain that
the patient has experienced in the time frame of interest, which is usually the last 30 days. “Familiar pain” is pain that is similar or like the patient’s pain
complaint. “Familiar headache” is pain that is similar or like the patient’s headache complaint.
§
The ICD-9 and ICD-10 have not established a specific code for headache attributed to TMD as a secondary headache; ICD-9 339.89 and ICD-10 G44.89
are for “other headache syndrome” and ICD-9 784.0 is for "Headache, Facial Pain, Pain in Head NOS (Non-specific)."

Workshop Recommendations for Axis I are summarized in Table 5. In the new DC/TMD,
Pain-Related TMD Diagnoses myalgia represents what was called myofascial
pain in the RDC/TMD. The term myofascial pain
1. The Axis I TMD Pain Screener45 is a simple, re- now describes two new DC/TMD diagnoses:
liable, and valid self-report instrument used to myofascial pain and myofascial pain with refer-
assess for the presence of any pain-related ral. Further detail regarding these changes can
TMD, with sensitivity and specificity ≥ 0.95.46 be found in the Examination Specifications.47
For screening for pain-related TMD, the full six- The diagnostic algorithms in the new DC/TMD
item version has sufficient reliability for assessing for arthralgia and myalgia now include criteria for
individuals, such as in a clinical setting, whereas modification of pain by function, movement, or
a three-item version is suitable for assessment of parafunction; these criteria are also included in the
a population in research settings. The DC/TMD TMD Pain Screener. The clinical examination in-
Symptom Questionnaire (DC/TMD SQ) provides cludes provocation tests for TMJ arthralgia of pain
the necessary history for rendering a specific diag- with any jaw movement (ie, opening, lateral, and
nosis in conjunction with the new DC/TMD pain- protrusive) and TMJ palpation. For myalgia, the
related diagnostic algorithms. tests include pain with opening jaw movements
2. The changes in the diagnostic procedures for the and palpation of the temporalis and masseter
pain diagnoses in the new DC/TMD, as compared muscles. Pain from these provocation tests must
to the corresponding disorders in the RDC/TMD, replicate the patient’s pain complaint.

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Table 3   Diagnostic Criteria for the Most Common Intra-articular Temporomandibular Disorders
Indicated history and exam criteria must be met for each diagnosis except subluxation, which is based only on history.

Disc displacement with reduction (ICD-9 524.63; ICD-10 M26.63)*
Description An intracapsular biomechanical disorder involving the condyle-disc complex. In the closed mouth position, the disc is in
an anterior position relative to the condylar head and the disc reduces upon opening of the mouth. Medial and lateral
displacement of the disc may also be present. Clicking, popping, or snapping noises may occur with disc reduction.
A history of prior locking in the closed position coupled with interference in mastication precludes this diagnosis.
History Positive for at least one of the following:
1. In the last 30 days,** any TMJ noise(s) present with jaw movement or function; OR
2. Patient report of any noise present during the exam.
Exam Positive for at least one of the following:
Criteria

1. Clicking, popping, and/or snapping noise during both opening and closing movements, detected with palpation
during at least one of three repetitions of jaw opening and closing movements; OR
2a. Clicking, popping, and/or snapping noise detected with palpation during at least one of three repetitions of
opening or closing movement(s); AND
2b. Clicking, popping, and/or snapping noise detected with palpation during at least one of three repetitions of
right or left lateral, or protrusive movement(s).
Validity Without imaging: sensitivity 0.34; specificity 0.92. Imaging is the reference standard for this diagnosis.
Imaging When this diagnosis needs to be confirmed, TMJ MRI criteria 2 are positive for both of the following:
1. In the maximum intercuspal position, the posterior band of the disc is located anterior to the 11:30 position and the
intermediate zone of the disc is anterior to the condylar head; AND
2. On full opening, the intermediate zone of the disc is located between the condylar head and the articular eminence.

Disc displacement with reduction with intermittent locking (ICD-9 524.63; ICD-10 M26.63)
Description An intracapsular biomechanical disorder involving the condyle-disc complex. In the closed mouth position, the disc is in
an anterior position relative to the condylar head, and the disc intermittently reduces with opening of the mouth.
When the disc does not reduce with opening of the mouth, intermittent limited mandibular opening occurs.
When limited opening occurs, a maneuver may be needed to unlock the TMJ. Medial and lateral displacement of the
disc may also be present. Clicking, popping, or snapping noises may occur with disc reduction.
History Positive for both of the following:
1a. In the last 30 days,** any TMJ noise(s) present with jaw movement or function; OR
1b. Patient report of any noise present during the exam; AND
2. In the last 30 days,** jaw locks with limited mouth opening, even for a moment, and then unlocks.
Criteria

Exam Positive for at least one of the following:
1. Clicking, popping, and/or snapping noise detected during both opening and closing movements, detected with
palpation during at least one of three repetitions of jaw opening and closing movements; OR
2a. Clicking, popping, and/or snapping noise detected with palpation during at least one of three repetitions of
opening or closing movement(s); AND
2b. Clicking, popping, and/or snapping noise detected with palpation during at least one of three repetitions of
right or left lateral, or protrusive movement(s).
Validity Without imaging: sensitivity 0.38; specificity 0.98. Imaging is the reference standard for this diagnosis.
Imaging When this diagnosis needs to be confirmed, the imaging criteria 2 are the same as for disc displacement with
reduction if intermittent locking is not present at the time of imaging. If locking occurs during imaging, an imaging-
based diagnosis of disc displacement without reduction will be rendered and clinical confirmation of reversion to
intermittent locking is needed.
Note Although not required, when this disorder is present clinically, examination is positive for inability to open to a normal
amount, even momentarily, without the clinician or patient performing a maneuver to reduce the lock.

Disc displacement without reduction with limited opening (ICD-9 524.63; ICD-10 M26.63)
Description An intracapsular biomechanical disorder involving the condyle-disc complex. In the closed mouth position, the disc is in
an anterior position relative to the condylar head, and the disc does not reduce with opening of the mouth.
Medial and lateral displacement of the disc may also be present. This disorder is associated with persistent limited
mandibular opening that does not reduce with the clinician or patient performing a manipulative maneuver.
This is also referred to as “closed lock.” This disorder is associated with limited mandibular opening.
History Positive for both of the following:
1. Jaw locked so that the mouth would not open all the way; AND
Criteria

2. Limitation in jaw opening severe enough to limit jaw opening and interfere with ability to eat.
Exam Positive for the following:
1. Maximum assisted opening (passive stretch) movement including vertical incisal overlap < 40 mm.
Validity Without imaging: sensitivity 0.80; specificity 0.97. Imaging is the reference standard for this diagnosis.
Imaging When this diagnosis needs to be confirmed, TMJ MRI criteria 2 are positive for both of the following:
1. In the maximum intercuspal position, the posterior band of the disc is located anterior to the 11:30 position and the
intermediate zone of the disc is anterior to the condylar head, AND
2. On full opening, the intermediate zone of the disc is located anterior to the condylar head.
Note: Maximum assisted opening of < 40 mm is determined clinically.
Note Presence of TMJ noise (eg, click during opening) does not exclude this diagnosis.

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Table 3   continued
Disc displacement without reduction without limited opening (ICD-9 524.63; ICD-10 M26.63)
Description An intracapsular biomechanical disorder involving the condyle-disc complex. In the closed mouth position, the disc is
in an anterior position relative the condylar head and the disc does not reduce with opening of the mouth. Medial and
lateral displacement of the disc may also be present. This disorder is NOT associated with current limited opening.
History Positive for both of the following in the past:
1. Jaw locked so that the mouth would not open all the way; AND
Criteria

2. Limitation in jaw opening severe enough to limit jaw opening and interfere with ability to eat.
Exam Positive for the following:
1. Maximum assisted opening (passive stretch) movement including vertical incisal overlap ≥ 40 mm.
Validity Without imaging: sensitivity 0.54; specificity 0.79. Imaging is the reference standard for this diagnosis.
Imaging When this diagnosis needs to be confirmed, TMJ MRI criteria 2 are the same as for disc displacement without
reduction with limited opening.
Note: Maximum assisted opening of ≥ 40 mm is determined clinically.
Note Presence of TMJ noise (eg, click during opening) does not exclude this diagnosis.

Degenerative joint disease (ICD-9 715.18; ICD-10 M19.91)
Description A degenerative disorder involving the joint characterized by deterioration of articular tissue with concomitant
osseous changes in the condyle and/or articular eminence.
History Positive for at least one of the following:
1. In the last 30 days,** any TMJ noise(s) present with jaw movement or function; OR
Criteria

2. Patient report of any noise present during the exam.
Exam Positive for the following:
1. Crepitus detected with palpation during at least one of the following: opening, closing, right or left lateral,
or protrusive movement(s).
Validity Without imaging: sensitivity 0.55; specificity 0.61. Imaging is the reference standard for this diagnosis.
Imaging When this diagnosis needs to be confirmed, then TMJ CT criteria106 are positive for at least one of the following:
Subchondral cyst(s), erosion(s), generalized sclerosis, or osteophyte(s). Note: Flattening and/or cortical sclerosis
are considered indeterminant findings for degenerative joint disease (DJD) and may represent normal variation, aging,
remodeling, or a precursor to frank DJD.

Subluxation (ICD-9 830.1; ICD-10 SO3.OXXA)
Description A hypermobility disorder involving the disc-condyle complex and the articular eminence: In the open mouth position,
the disc-condyle complex is positioned anterior to the articular eminence and is unable to return to a normal closed
mouth position without a manipulative maneuver. The duration of dislocation may be momentary or prolonged. When
the patient can reduce the dislocation himself/herself, this is referred to as subluxation. When the patient needs the
assistance of the clinician to reduce the dislocation and normalize jaw movement, this is referred to as luxation. This
disorder is also referred to as “open lock.” The sensitivity and specificity have been established for only subluxation.
History Positive for both of the following:
1. In last 30 days,** jaw locking or catching in a wide open mouth position, even for a moment, so could not close from
Criteria

the wide-open position; AND
2. Inability to close the mouth from a wide-open position without a self-maneuver.
Exam Although no exam findings are required, when this disorder is present clinically, examination is positive for inability to
return to a normal closed mouth position without the patient performing a manipulative maneuver.
Validity Without imaging and based only on history: sensitivity 0.98; specificity 1.00.
Imaging When this diagnosis needs to be confirmed, imaging criteria are positive for the condyle positioned beyond the height
of the articular eminence with the patient unable to close his/her mouth.
*ICD-9: International Classification of Diseases 9th Revision; ICD-10: International Classification of Diseases 10th Revision.
**The time frame for assessing selected biomechanical intra-articular disorders is in “the last 30 days” since the stated sensitivity and specificity of
these criteria were established using this time frame. Although the specific time frame can be dependent on the context in which the noise or
biomechanical complaints are being assessed, the validity of this diagnosis based on different time frames has not been established.

3. The disorder of myofascial pain with limited open- the boundary of the muscle being palpated; and
ing, as described in the RDC/TMD, is eliminated. (3) myofascial pain with referral, defined as pain
4. For the new DC/TMD, muscle pain diagno- at a site beyond the boundary of the muscle be-
ses are organized into four major subclasses: ing palpated. The diagnostic criteria for myalgia
myalgia, tendonitis, myositis, and spasm (see and one of its types, myofascial pain with refer-
Table 4). Myalgia is further subdivided into three ral, have criterion validity and are listed in Table 2.
mutually exclusive types of myalgia: (1) local The palpation pressure for myalgia is 1 kg for
myalgia, defined as pain localized to the site of 2 seconds, but to differentiate the three types
palpation; (2) myofascial pain, defined as pain of myalgia, the duration of the 1 kg of palpation
spreading beyond the site of palpation but within pressure is increased to 5 seconds to allow more

Journal of Oral & Facial Pain and Headache 13
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Table 4  Taxonomic Classification for Table 5  From RDC/TMD to DC/TMD:
Temporomandibular Disorders Comparison of Diagnostic Procedures
for Pain-Related TMD
I. TEMPOROMANDIBULAR JOINT DISORDERS
1. Joint pain RDC/ DC/
A. Arthralgia TMD TMD
B. Arthritis
2. Joint disorders HISTORY (applicable to all pain-related TMD)
A. Disc disorders Presence of masticatory system pain ✓ ✓
1. Disc displacement with reduction
Headache of any type in temporal region ✓
2. Disc displacement with reduction with intermittent locking
3. Disc displacement without reduction with limited opening Pain or headache modification with jaw move- ✓
4. Disc displacement without reduction without limited opening ment, function, or parafunction
B. Hypomobility disorders other than disc disorders EXAMINATION
1. Adhesions/adherence
Arthralgia
2. Ankylosis
a. Fibrous Confirmation of location of pain in the joint ✓
b. Osseous Pain with joint palpation
C. Hypermobility disorders Lateral pole ✓ ✓
1. Dislocations Around lateral pole ✓
a. Subluxation Posterior site ✓
b. Luxation
3. Joint diseases Pain with range of motion ✓ ✓
A. Degenerative joint disease Familiar pain with palpation or range of motion ✓
1. Osteoarthrosis Myalgia (“Myofascial pain” in RDC/TMD)
2. Osteoarthritis
B. Systemic arthritides Confirmation of location of pain in a ✓
C. Condylysis/idiopathic condylar resorption masticatory muscle
D. Osteochondritis dissecans Pain with muscle palpation (required sites)
E. Ostronecrosis Temporalis ✓ ✓
F. Neoplasm Masseter ✓ ✓
G. Synovial chondromatosis Posterior mandibular region ✓
4. Fractures Submandibular region ✓
5. Congenital/developmental disorders Lateral pterygoid area ✓
A. Aplasia Temporalis tendon ✓
B. Hypoplasia Pain with maximum unassisted or ✓
C. Hyperplasia assisted opening
II. MASTICATORY MUSCLE DISORDERS
1. Muscle pain Familiar pain with palpation or opening ✓
A. Myalgia Local myalgia (new diagnosis)
1. Local myalgia Sustained palpation with no identification of ✓
2. Myofascial pain spreading pain or referral patterns
3. Myofascial pain with referral
B. Tendonitis Myofascial pain (new diagnosis)
C. Myositis Sustained palpation with identification of ✓
D. Spasm spreading pain but no referral patterns
2. Contracture Myofascial pain with referral (new diagnosis)
3. Hypertrophy
Sustained palpation with identification of ✓
4. Neoplasm
referral patterns (spreading pain may also be
5. Movement disorders
present)
A. Orofacial dyskinesia
B. Oromandibular dystonia Headache attributed to TMD (new diagnosis)
6. Masticatory muscle pain attributed to systemic/central Confirmation of location of headache in ✓
pain disorders temple area
A. Fibromyalgia/widespread pain Familiar headache with palpation or range of ✓
III. HEADACHE motion
1. Headache attributed to TMD
IV. ASSOCIATED STRUCTURES
1. Coronoid hyperplasia
Table developed in collaboration with Peck and colleagues.43

time to elicit spreading or referred pain, if pres- then the more general diagnostic procedures as
ent.47 The diagnostic criteria for local myalgia and described in Table 2 are sufficient.
myo­fascial pain, which have content validity but
for which criterion validity has not been estab- Workshop Recommendations for Axis I
lished, are presented in Table 2 for completeness; TMJ Disc Displacement (DD) and
their respective validity estimates will be posted Degenerative Joint Disease (DJD)
on the Consortium website after they are estab- 1. The clinical procedures for assessing DD with
lished.48 If a diagnosis of myalgia is desired, and reduction, DD without reduction without limit-
no distinction between the three types is needed, ed opening, and DJD lead to clinical diagnoses

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based on procedures that exhibit low
Table 6  From RDC/TMD to DC/TMD:
sensitivity but good to excellent specific- Comparison of Diagnostic Procedures for
ity. Consequently, for treatment decision- Disc Displacements and Degenerative
making in selective cases, confirmation Joint Disease with New History-Based
of a provisional clinical diagnosis requires Diagnosis of Subluxation
imaging. In contrast, the clinical proce-
RDC/ DC/
dures for assessing DD without reduc- TMD TMD
tion with limited opening have acceptable
HISTORY
sensitivity and specificity, and the clinical
“In last 30 days, any noise present” applicable to ✓
evaluation may be sufficient for the initial disc displacement with reduction with and without
working diagnosis. intermittent locking, and degenerative joint disease
2. The changes made to the diagnostic pro- “In last 30 days, jaw locks with limited mouth opening ✓
cedures in the new DC/TMD for DD and and then unlocks” applicable to disc displacement with
reduction with intermittent locking
DJD as compared to the RDC/TMD are
“Ever have jaw lock or catch so that it would not open ✓ ✓
summarized in Table 6. Further detail re- all the way” and "interfered with eating" applicable to
garding these changes can be found in disc displacement without reduction with and without
the Examination Specifications.47 TMJ limited opening
noise by history is a recommended crite- “In last 30 days, when you opened your mouth wide, jaw ✓
locked or caught so that it would not close all the way”
rion for the intra-articular disorders of DD applicable to subluxation
with reduction and DJD. This history cri- EXAMINATION
terion may be met by the patient’s report Disc displacement with reduction
of any joint noise (click or crepitus) during Report by patient of any joint noise (click or crepitus) ✓
the 30 days prior to the examination, or by Click detection (# of opening/closing cycles required 2 of 3 1 of 3
for click)
the patient’s detection of any joint noise
Click detection during lateral and protrusive movements ✓ ✓
with jaw movements during the clinical ex- 5 mm vertical distance between reciprocal clicks ✓
amination. In addition, a diagnosis of DD Elimination of click in protrusive position ✓
with reduction requires examiner detection Disc displacement with reduction with intermittent locking ✓
of clicking, popping, or snapping noises Disc displacement without reduction with limited opening
during the examination. Establishing a Unassisted opening* ≤ 35 mm and assisted opening ✓
diagnosis of DJD necessitates examiner ≤ 4 mm more than unassisted opening
detection of crepitus (eg, crunching, grind- Assisted opening* < 40 mm ✓
Contralateral movements < 7 mm and/or uncorrected ✓
ing, or grating noises) during the examina- deviation to the ipsilateral side on opening
tion. For DJD, no distinction between fine Absence of noise, or noise not meeting criteria for ✓
versus coarse crepitus is made. Finally, for disc displacement with reduction
DD without reduction, an assisted open- Disc displacement without reduction without limited
opening
ing measurement (including the amount Unassisted opening* > 35 mm and assisted opening ✓
of vertical incisal overlap) of < 40 mm > 4 mm more than unassisted opening
yields the subtype of “with limited open- Assisted opening* ≥ 40 mm ✓
ing,” while the measurement ≥ 40 mm Contralateral and protrusive movements ≥ 7 mm ✓
yields the subtype of “without limited Noise not meeting criteria for disc displacement with ✓
reduction
opening,” and joint noises, if present, do
Degenerative joint disease
not affect the diagnosis of DD without re- Report by patient of any joint noise (click or crepitus) ✓
duction as long as the required criteria for Crepitus (only coarse) with palpation ✓
DD without reduction are met. Crepitus (either fine or coarse) with palpation ✓
3. DD with reduction with intermittent lock- *Measurement of opening includes interincisal opening plus vertical
ing and TMJ subluxation are included as incisal overlap.
new disorders. The diagnostic algorithms
for these disorders include specific criteria Workshop Recommendations for Axis I Headache
from the patient history, including current Disorders
intermittent locking with limited opening for “Headache attributed to TMD” is included as a new disor-
DD with reduction with intermittent locking der type to replace “Headache or facial pain attributed to
and jaw locking in the wide-open position temporomandibular joint (TMJ) disorder" as described in the
for TMJ subluxation. International Classification of Headache Disorders II (ICHD-
4. Nomenclature change: The terms osteoar- 2).49 The diagnostic algorithm for headache attributed to
thritis and osteoarthrosis are considered TMD has been previously published50 and has been incor-
to denote subclasses of DJD. porated into the beta version of the ICHD-3 (See Table 5).51

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Table 7   Recommended Axis II Assessment Protocol
Domain Instrument No. of items Screening Comprehensive
Pain intensity Graded Chronic Pain Scale (GCPS) 3 ✓ ✓
Pain locations Pain drawing 1 ✓ ✓
Physical function Graded Chronic Pain Scale (GCPS) 4 ✓ ✓
Limitation Jaw Functional Limitation Scale—short form (JFLS) 8 ✓
Jaw Functional Limitation Scale—long form (JFLS) 20 ✓
Distress Patient Health Questionnaire-4 (PHQ-4) 4† ✓
Depression Patient Health Questionnaire-9* (PHQ-9) 9† ✓
Anxiety Generalized Anxiety Disorder-7 (GAD-7) 7† ✓
Physical symptoms Patient Health Questionnaire-15* (PHQ-15) 15 ✓
Parafunction Oral Behaviors Checklist (OBC) 21 ✓ ✓
*The RDC/TMD depression and nonspecific physical symptoms instruments could be substituted for the PHQ-9 and PHQ-15,
respectively, if continuity with legacy data is important.
†
Each of the PHQ-4, PHQ-9, and GAD-7 include one additional item beyond the number listed above; the additional item is a
global reflective question regarding functional interference due to any of the endorsed symptoms on that instrument.

Workshop Recommendations for Axis II disability rating, which is based on number of days
Evaluation that pain interferes with activity and on extent of
It is well recognized that patients’ cognitive, emo- interference with social, work, or usual daily activ-
tional, and behavioral responses to pain are quite ities. High pain and high interference, or moder-
independent of the source of their pain, so the ate to severe disability (classified as Grades 3 or
workgroup recommended instruments current- 4), should be interpreted as disability due to pain,
ly used in other areas of medicine to assess the warranting further investigation, and suggests
psychosocial functioning associated with any pain that the individual is experiencing significant im-
condition. In addition, the Jaw Functional Limitation pact from the TMD on his or her life. The third
Scale (JFLS) was selected to assess jaw func- instrument is a pain drawing of the head, jaw,
tion specific to TMD. The criteria used to select and body, and it allows the patient to report the
the additional Axis II instruments were reliability, location of all pain complaints.54,55 Widespread
validity, interpretability, patient and clinician accept- pain suggests the need for comprehensive as-
ability, patient burden, and feasibility, as well as avail- sessment of the patient. The fourth instrument is
ability of translated versions for different languages the reliable and valid short form (eight items) of
and cultures. All areas of biopsychosocial assess- the JFLS that assesses global limitations across
ment with the recommended instruments are avail- mastication, jaw mobility, and verbal and emotion-
able from the Consortium52 and are summarized in al expression.56,57 The fifth instrument is the Oral
Table 7. Behaviors Checklist (OBC), which assesses the
1. Axis II screeners. Five simple self-report screen- frequency of oral parafunctional behaviors.58,59
ing instruments are included for detection of pain- 2. Comprehensive Axis II instruments. The instru-
relevant psychosocial and behavioral functioning. ments to be used when indicated by clinical
The Patient Health Questionnaire-4 (PHQ-4) is specialists or researchers in order to obtain a
a short, reliable, and valid screening instrument more comprehensive evaluation of psychosocial
for detecting “psychological distress” due to anx- functioning are listed in Table 7 and follow the
iety and/or depression in patients in any clinical Initiative on Methods, Measurement, and Pain
setting.53 A cutoff of > 6, suggesting moderate Assessment in Clinic Trials (IMMPACT) recom-
psychological stress, should be interpreted as mendations.60 Those recommendations include
warranting observation, while a cutoff of > 9, assessment of pain intensity, physical functioning
suggesting severe psychological distress, should (both general and disease-specific), and emo-
be interpreted as warranting either further as- tional functioning. In addition to measuring pain
sessment or referral.53 The Graded Chronic Pain intensity and pain disability (via GCPS, as de-
Scale (GCPS) is a short, reliable, and valid instru- scribed previously) and disease-specific physical
ment that assesses pain intensity and pain-re- functioning (via the 20-item version of the JFLS),
lated disability.10 The two GCPS subscales are: the new DC/TMD includes new measures for a
(1) Characteristic Pain Intensity (CPI), which re- more comprehensive assessment of emotional
liably measures pain intensity, with ≥ 50/100 functioning. This assessment uses the PHQ-961
considered “high intensity,” and (2) the pain- for depression (with cutoffs of 5, 10, 15, and 20

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representing, respectively, mild, moderate, mod- Interexaminer Reliability of the Recommended
erately severe, and severe levels of depression) DC/TMD Axis I Diagnostic Algorithms
and Generalized Anxiety Disorder-7 (GAD-7)62 Interexaminer reliability of myalgia, as a patient-spe-
for anxiety (with cutoffs of 10 and 15 represent- cific diagnosis, was demonstrated to be excellent,
ing, respectively, moderate and severe levels of with kappa = 0.94 (0.83, 1.00), as was also myo-
anxiety). Finally, like the RDC/TMD, the new DC/ fascial pain with referral, which had kappa = 0.85
TMD retains a measure for physical symptoms by (0.55, 1.00). GEE-based kappa estimates for the
using the PHQ-1563 (with cutoffs of 5, 10, and 15 joint-specific diagnoses were computed using data
representing, respectively, low, medium, and high from the TMJ Impact Project's examiner reliability as-
somatic symptom severity) due to the overwhelm- sessments. Reliability for arthralgia was excellent, at
ing importance of overall symptom reporting in kappa = 0.86 (0.75, 0.97). However, detection of in-
individuals with TMD.64 The pain drawing and the tracapsular diagnoses, based only on clinical signs
OBC are also components of the comprehensive and symptoms, was too low for most reliability esti-
assessment. mates to be credible. This was due to the low preva-
lence of these diagnoses in the convenience sample
Data Collection Forms and Examination used for this reliability study. In addition, there were
Specifications no cases of DD without reduction with limited open-
A short, focused new DC/TMD Symptom Question­ ing (all measurements for vertical interincisal opening
naire (DC/TMD SQ)65 was developed to assess pain were > 40 mm), and DD with reduction with intermit-
characteristics as well as history of jaw noise, jaw tent locking was rare (4 of 92 TMJs). DD with reduc-
locking, and headache. The DC/TMD SQ provides tion showed kappa = 0.58 (0.33, 0.84). DD without
the necessary history for the Axis I diagnostic criteria. reduction without limited opening manifested an
The new DC/TMD operational specifications for the excellent kappa of 0.84, although the confidence lim-
clinical tests, examination forms, DC/TMD SQ, and its were wide (0.38, 1.00). The point estimate of ex-
biobehavioral assessment instruments can be down- aminer agreement on DJD was kappa = 0.33 with a
loaded from the Consortium website38 and used wide confidence interval (0.01, 0.65) associated with
without copyright infringement. the low examiner detection rate for DJD; this diag-
nosis was made by at least one examiner in only 20
Validity of the Newly Recommended TMJs during a total of 138 examinations performed in
DC/TMD Axis I Diagnostic Algorithms 46 subjects. Also contributing to the low kappa point
Sufficient data from the Validation Project existed to estimate was low examiner agreement on a finding of
provide a credible estimate of the criterion validity crepitus, at kappa = 0.3 (0.00, 0.61).
for myalgia as a class with sensitivity of 0.90 (95%
confidence limits of 0.87 and 0.94) and specificity
of 0.99 (0.97, 1.00). Myofascial pain with referral as Discussion
a type of myalgia showed sensitivity of 0.86 (0.79,
0.94) and specificity of 0.98 (0.97, 0.99). Finally, ar- The new DC/TMD Axis I and Axis II are an evi-
thralgia had sensitivity of 0.89 (0.84, 0.92) and spec- dence-based assessment protocol that can be im-
ificity of 0.98 (0.95, 0.99). Among the intracapsular mediately implemented in the clinical and research
diagnoses, excellent validity was confirmed for DD setting. Compared to the original RDC/TMD proto-
without reduction with limited opening, with sensitiv- col,3 the new DC/TMD includes a valid and reliable
ity of 0.80 (0.63, 0.90) and specificity of 0.97 (0.95, Axis I screening questionnaire for identifying pain-
0.98). The validity for the other disc displacements related TMD as well as valid and reliable Axis I
was inadequate: DD with reduction had sensitivity of diagnostic algorithms for the most common pain-
0.34 (0.28, 0.41) and specificity of 0.92 (0.89, 0.94); related TMD as part of a comprehensive TMD taxo-
DD with reduction with intermittent locking showed nomic classification structure. Diagnostic criteria for
sensitivity of 0.38 (0.24, 0.54) and specificity of 0.98 all but one of the most common intra-articular disor-
(0.96, 0.99); and disc displacement without reduc- ders lacked adequate validity for clinical diagnoses
tion without limited opening exhibited sensitivity of but can be used for screening purposes. The nec-
0.54 (0.44, 0.62) and specificity of 0.79 (0.74, 0.83). essary information for fulfilling the Axis I diagnostic
The sensitivity of the recommended clinical criteria criteria is collected from the specified examination
for DJD was 0.55 (0.47, 0.62) and specificity was protocol in conjunction with the core self-report in-
0.61 (0.56, 0.65). The total width of all confidence struments that assess pain symptoms involving the
intervals was < 0.20, except for disc displacement jaw, jaw noise and locking, and headache. Axis II
with reduction with intermittent locking for which the core assessment instruments assess pain inten-
total interval was 0.30. sity, pain disability, jaw functioning, psychosocial

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distress, parafunctional behaviors, and widespread familiar pain during jaw movement or from palpation
pain. These changes in the core patient assessment of jaw structures such as muscle or joint. For ex-
instrument set serve as a broad foundation for pa- ample, infection and rheumatoid disease affecting
tient assessment and further research. The new DC/ the TMJ can result in the report of familiar pain from
TMD includes important additions, deletions, and movement and/or palpation of the associated struc-
modifications to the original RDC/TMD that deserve tures. In order for the criterion of familiar pain to lead
comment. These changes are a result of research logically to the specified diagnosis, the signs must
findings and expert contributions from professional explain the symptoms; the symptom history, or ad-
clinical and research groups guided by the principle ditional assessment, must effectively rule out other
to create a new parsimonious DC/TMD based on the competing diagnoses.75
best available evidence. This article cites the core as- For myalgia and the three types of myalgia diag-
sessment instruments that existed at the time of this noses, palpation of only the temporalis and masse-
publication, and these instruments will be updated as ter muscles is required; mandatory palpation of the
indicated in the future with the most current versions temporalis tendon, lateral pterygoid area, subman-
available on the Consortium website.38 dibular region, and posterior mandibular region has
been eliminated because of poor reliability,76–78 and
Features of the DC/TMD History and not examining these areas does not significantly
Examination Protocol affect the validity of these diagnoses.27 For exam-
The criterion for a patient report of pain modified— ple, the lateral pterygoid area is commonly tender
that is, made better or worse—by jaw function, move- in non-cases, leading to false positives when the
ment, or parafunction is now a requirement for all RDC/TMD are used.76 It is also uncommon for these
pain-related TMD diagnoses; this feature is shared other sites to be painful to palpation when the mas-
with other musculoskeletal pains.66,67 Questions re- seter or temporalis muscles are not, but they may be
garding pain modification are integral to the history included as part of the examination when clinically
and are derived from the TMD Pain Screener or from indicated or for specific research questions. For the
the more comprehensive DC/TMD SQ that con- same reason, palpation of the posterior aspect of the
tains all of the history questions required for the new TMJ through the external auditory meatus has also
DC/TMD diagnostic algorithms.45,46,65 Pain modifica- been eliminated but can be used when indicated.
tion is especially important in differential diagnosis in TMJ noises can be difficult to detect, even with
a broader clinical setting when comorbid conditions auscultation using a stethoscope, and may be
may be present, especially other pain conditions of sporadically present. In addition, the data of the
the trigeminal system. Validation Project have demonstrated that patient
The clinical provocation of “familiar pain” has differentiation of noises such as clicking, crunching,
proved useful in the assessment of other orthopedic grinding, or grating noises (ie, crepitus) was an in-
and pain disorders.68–74 The rationale is that the clini- consistent source of clinical information. Typically,
cian needs to provoke the patient’s pain complaint in such information gathering requires reviewing these
order for a positive examination response to be clin- noises with the patient and then carefully interpreting
ically meaningful. A patient report of familiar pain is their responses. These data confirm the most reliable
required with pain provoked by jaw movement and/ approach is based on patient detection of any such
or palpation to diagnose all pain-related TMD, includ- noise within the last 30 days or patient detection of
ing arthralgia, myalgia, the three types of myalgia, and any noise occurring with jaw movements during the
headache attributed to TMD. Familiar pain is pain that clinical examination. Whether to use “last 30 days”
is like or similar to the pain that the patient has been or a different period is addressed in the footnote in
experiencing. The intent is to replicate the patient’s Table 3. The distinction between coarse and fine
chief complaint of pain(s) in such a way that the pa- crepitus was omitted, as these sounds are not reli-
tient describes the provoked pain in the same way— ably distinguished and the distinction does not con-
because it is the same type of pain. This criterion tribute to the diagnostic accuracy of DJD.
minimizes false-positive findings from pain-provoking
tests in asymptomatic patients and incidental findings Changes to Original RDC/TMD Pain Diagnoses
in symptomatic patients. Similarly, a report of "familiar The original RDC/TMD diagnosis of myofascial
headache" is required from the examination as part pain with limited opening has not yet demonstrated
of the diagnostic algorithm for “Headache attributed unique clinical utility and was eliminated in the new
to TMD.” It must, however, be emphasized that the DC/TMD. The remaining original RDC/TMD diag-
presence of familiar pain is not associated exclusive- nosis of myofascial pain has been reorganized in
ly with the diagnoses of arthralgia, myalgia, and the the new DC/TMD into two new disorders with cri-
three types of myalgia, as other conditions may cause terion validity: myalgia (as a subclass of muscle pain

18 Volume 28, Number 1, 2014
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 Schiffman et al

disorders) and myofascial pain with referral (as a type The low sensitivity for the diagnostic algorithms
of myalgia); see Table 4. Although the diagnostic cri- for DD and DJD suggests these criteria be limited to
teria for local myalgia and myofascial pain, as types of providing provisional diagnoses. For example, for a
myalgia, have content validity, the criterion validity has diagnosis of DD with reduction, a positive history of
not been established. Myofascial pain with referral is noise and the presence clinically of clicking noises
a distinct clinical disorder with central convergence (as specified) effectively rules in the diagnosis due
accounting for the referral of pain to other anatomi- to the high specificity of the criteria, while a nega-
cal sites.79–81 Referred pain has clinical utility for, at a tive finding can be associated with false negatives
minimum, differential diagnosis regarding the identifi- due to low sensitivity. Consequently, some DD with
cation of pain in other anatomical locations, including reduction will not have clinically detectable noise or
pain referred to the teeth that is shown ultimately to will have fewer clicks or different types of noise, and
be pain of muscular origin. the disorder will not be diagnosed using the clinical
“Headache attributed to TMD” is a new Axis I criteria.105 Based on available data, DD with reduc-
diagnostic classification.82 Tension-type headache tion is highly prevalent and is probably without clinical
(TTH) and migraine have been associated with consequence unless pain occurs with the noise, or
TMD.19,83–90 In particular, TTH and TMD share many functional limitations such as limited opening or inter-
symptoms,19,90,91 although this may not imply identical ference in mastication are present. Nevertheless, im-
pathophysiology or underlying mechanisms.88,91,92 A aging using MRI is required for a definitive diagnosis
subgroup of headache patients experience increased of TMJ DD, and CT imaging is required for a defini-
headache following masticatory system overuse such tive diagnosis of DJD. The single diagnostic excep-
as clenching of the teeth.88,89,92,93 Longitudinal stud- tion is DD without reduction with limited opening (ie,
ies have found that the development of TMD was “closed lock”), which shows good diagnostic validity
accompanied by an increase in headache and that without imaging (ie, sensitivity 80%; specificity 97%).
the presence of TMD at baseline predicted the onset However, the criteria for DD without reduction with
of headache.94,95 Finally, treatment of the masticatory limited opening have not been assessed in subjects
system has also been associated with a report of de- with other causes of limited opening such as adhe-
creased headaches.96–98 These findings suggest that sions, coronoid hyperplasia, or muscle contracture.
some headaches may be secondary to TMD. The need for a definitive DD diagnosis, and thus the
Frequency of TTH99 and migraine correlate with indication to use imaging, is based on whether the
functional disability and are a useful patient charac- information gained will change the patient’s treatment
terization,100–102 and increased frequency of head- plan or prognosis. Reliable imaging criteria for these
aches in the temples is associated with increased disorders are available.106
symptoms of pain-related TMD.102 Future research
will explore whether frequency of pain when used Taxonomic Classification Structure and
to subclassify headache attributed to TMD, TMJ ar- Classification of the Less Common TMD
thralgia, and TMD myalgia improves the identifica- A comprehensive taxonomic system is presented in
tion of patients with more complex pain problems. Table 4. The diagnostic criteria for the less common
Consequently, frequency and duration of “jaw pain” is TMD were derived, in part, from the best available
assessed by the DC/TMD Symptom Questionnaire— definitions for those disorders included in existing
Long Form that was developed for the TMJ Impact AAOP guidelines. This was augmented by a review
Project; this is available on the Consortium website.103 of the literature for diagnostic criteria defining oth-
er disorders not identified in the AAOP guidelines.
Changes to Original RDC/TMD TMJ Diagnoses The comprehensive taxonomic system and criteria
A diagnostic category of DD with reduction with in- for these disorders is available43 and will be contin-
termittent limited opening (ie, episodic self-limiting ually updated on the Consortium website as new in-
“closed lock”) was included in the new DC/TMD. formation emerges. These AAOP-based diagnostic
This is a common, clinically significant “mechanical” criteria were developed by clinicians and research-
joint disorder that can require treatment. Another ers according to their experience and the literature.40
newly included diagnostic category is the mechani- Although these criteria have content validity, their cri-
cal joint disorder of TMJ dislocation characterized by terion validity has not been assessed, so special cau-
“open lock” of the jaw and typically diagnosed based tion should accompany their use clinically. Treatment
on patient history. If the patient is able to reduce decisions based on these diagnoses should be
this dislocation, it is termed “subluxation,” and if the under­taken with careful consideration of all risks and
dislocation requires an interventional reduction, it is benefits associated with the resulting care plan.
termed “luxation.” Sufficient data were only available
to assess the diagnostic validity of subluxation.104

Journal of Oral & Facial Pain and Headache 19
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Schiffman et al

Nomenclature functional behaviors may operate at several levels,
Since the terms osteoarthrosis and osteoarthritis including that of possibly repetitive trauma to the
have not been consistently used in medicine, these masticatory system, and appear to be significant
terms were subclassified under the broader term predictors for TMD onset and are strongly asso-
DJD. Use of DJD is also endorsed by the American ciated with chronic TMD pain.116,117 In addition, the
Association of Oral and Maxillofacial Surgeons.107 presence of significant psychosocial distress should
When pain co-occurs with DJD, the additional di- be considered as a particularly important comorbid
agnosis of arthralgia can be used—as is the case condition contributing to TMD onset as well as being
with DD. A former diagnosis of osteoarthritis by the associated with chronic TMD pain.64,118 Widespread
RDC/TMD is now dually coded as degenerative joint pain suggests potential systemic disorders, including
disease and joint pain (ie, arthralgia). rheumatic diseases and/or central sensitization (eg,
fibromyalgia), suggesting the need for further medi-
Changes to Original RDC/TMD Axis II cal assessment. It is therefore advisable that the core
IMMPACT guidelines for clinical trials assessing set of Axis II instruments be used routinely in all clin-
pain recommend that patients be assessed for pain ical assessments. Use of the Axis II instruments in
intensity and emotional functioning as well as gen- the clinical setting will permit assessment of the bio­
eral and disease-specific physical functioning.60 behavioral constructs currently known to be relevant
These four domains are assessed using the core to pain disorders and thereby lead to appropriate in-
Axis II instruments of GCPS (pain intensity subscale), terventions as guided by the patient’s status.18,21
PHQ-4 (emotional functioning), GCPS (general An in-depth evaluation of the patient’s psycho-
physical functioning by using the pain interference social status is important for all research studies
subscale), and JFLS (disease-specific physical func- comparing TMD treatment modalities. Axis II psycho-
tioning). Domains that bridge behavior with Axis I and social factors have better prognostic value than Axis I
are of direct utility for the clinician and researcher physical diagnoses.18,112 Research that does not take
have been added. The biopsychosocial model of pain into account these important risk factors cannot im-
recognizes that pain is not purely a sensory process prove our understanding of TMD and of which treat-
but that it is always accompanied by cognitive, emo- ments work and why.24
tional, and behavioral aspects which influence how
a patient reacts to and reports pain, and which, in Clinical Application of the New DC/TMD
turn, result in coping strategies that may be helpful The comprehensive evaluation necessary to design
or harmful in maintaining adequate functioning.22,23 If a specific patient’s care plan is beyond the scope
these coping strategies are harmful, they