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Atroshi I, Gummesson C, Johnsson R, Ornstein E, Ranstam J, Rosén I. Prevalence of Carpal Tunnel Syndrome in a General Population. JAMA. 1999;282(2):153–158. doi:10.1001/jama.282.2.153
Context Carpal tunnel syndrome (CTS) is a cause of pain, numbness, and tingling
in the hands and is an important cause of work disability. Although high prevalence
rates of CTS in certain occupations have been reported, little is known about
its prevalence in the general population.
Objective To estimate the prevalence of CTS in a general population.
Design General health mail survey sent in February 1997, inquiring about symptoms
of pain, numbness, and tingling in any part of the body, followed 2 months
later by clinical examination and nerve conduction testing of responders reporting
symptoms in the median nerve distribution in the hands, as well as of a sample
of those not reporting these symptoms (controls).
Setting A region in southern Sweden with a population of 170,000.
Participants A sex- and age-stratified sample of 3000 subjects (age range, 25-74
years) was randomly selected from the general population register and sent
the survey, with a response rate of 83% (n=2466; 46% men). Of the symptomatic
responders, 81% underwent clinical examination.
Main Outcome Measures Population prevalence rates, calculated as the number of symptomatic
responders diagnosed on examination as having clinically certain CTS and/or
electrophysiological median neuropathy divided by the total number of responders.
Results Of the 2466 responders, 354 reported pain, numbness, and/or tingling
in the median nerve distribution in the hands (prevalence, 14.4%; 95% confidence
interval [CI], 13.0%-15.8%). On clinical examination, 94 symptomatic subjects
were diagnosed as having clinically certain CTS (prevalence, 3.8%; 95% CI,
3.1%-4.6%). Nerve conduction testing showed median neuropathy at the carpal
tunnel in 120 symptomatic subjects (prevalence, 4.9%; 95% CI, 4.1%-5.8%).
Sixty-six symptomatic subjects had clinically and electrophysiologically confirmed
CTS (prevalence, 2.7%; 95% CI, 2.1%-3.4%). Of 125 control subjects clinically
examined, electrophysiological median neuropathy was found in 23 (18.4%; 95%
Conclusion Symptoms of pain, numbness, and tingling in the hands are common in
the general population. Based on our data, 1 in 5 symptomatic subjects would
be expected to have CTS based on clinical examination and electrophysiologic
Carpal tunnel syndrome (CTS), or compression neuropathy of the median
nerve at the wrist, is a cause of pain, numbness, and tingling in the upper
extremities1,2 and an increasingly
recognized cause of work disability.3,4
Carpal tunnel syndrome constitutes a major part of the occupational upper-extremity
disorders and is associated with considerable health care and indemnity costs.4
Although CTS has been described as the most common peripheral mononeuropathy,2 little is known about its prevalence in the general
population. We have found only 1 prospective population-based study, performed
in the Netherlands in 1985, that attempted to determine the prevalence of
CTS.5 In a survey of 715 subjects (33% men)
aged 25 to 74 years, the prevalence of electrophysiologically confirmed CTS
was 5.8% in women and 0.6% in men.5 However,
the study's sample size and response rate were probably inadequate, reducing
Higher prevalence rates for CTS have been found in certain occupational
in the absence of an accurate estimate of the prevalence in the general population,
it is difficult to interpret prevalence rates related to specific occupations.
Therefore, we conducted an epidemiologic study to estimate the prevalence
of CTS in a general population.
A sex- and age-stratified sample of 3000 subjects, aged 25 to 74 years,
was randomly selected from the population register of northeastern Scania
in southern Sweden. This region has a population of 170,000 inhabitants, whose
demographic characteristics are similar to those of the Swedish general population.9 The study was approved by the Ethics Committee at
Lund University's Medical Faculty.
A questionnaire was devised that incorporated questions from a validated
general health survey,10 with questions about
medical history and the presence of pain, numbness, or tingling in any part
of the body during the preceding 4 weeks as well as their localization, duration,
frequency, and severity. Whole body diagrams were provided for marking pain,
numbness, and tingling. Demographic data included sex, age, handedness, height,
weight, social status, education, amount of exercise, smoking habits, employment,
and work activities. The study was presented in the local media 1 week before
the mailing of the questionnaires. To reduce selection bias, the study was
described as a general health survey. The questionnaires were mailed to the
3000 subjects in February 1997. Two consecutive reminders were mailed to those
who did not respond within 3 weeks. All returned questionnaires were reviewed
twice by 2 investigators to identify subjects reporting symptoms in the median
nerve distribution in the hands. Responders who reported pain, numbness, and/or
tingling in 2 or more of the first 4 fingers at least twice weekly during
the preceding 4 weeks were identified. They were then contacted by telephone
or, if necessary, by mail, and asked to come to the hospital for a clinical
examination and nerve conduction testing.
Controls were randomly selected from the responders who reported no
hand symptoms, diabetes, rheumatic disease, thyroid disorder, previous wrist
fracture, or carpal tunnel surgery. The controls were also asked to come to
the hospital for examination.
Subjects in a random sample of 10% of the nonresponders were contacted
by telephone and questioned about the presence of hand symptoms.
The clinical examinations were begun 2 months after the initial mailing
of the questionnaires and conducted during a 4-week period. All subjects were
examined by the same hand surgeon (I.A.), who is experienced in the assessment
of CTS. Examination of both hands included median nerve provocative tests
(Tinel nerve percussion and Phalen maneuver), and evaluation of sensibility
and thenar muscle strength.1,2
All hands previously operated on for CTS were excluded. Based on the history
and the findings at the clinical examination, the examining physician diagnosed
each symptomatic subject as having either clinically certain or clinically
uncertain CTS. The diagnosis of clinically certain CTS required the presence
of recurring nocturnal and/or activity-related numbness or tingling involving
the palmar aspects of at least 2 of the first 4 fingers. It usually included
positive nerve percussion and/or wrist flexion test results. The presence
of median nerve sensory and/or motor deficit was supportive of the diagnosis,
but was not considered necessary. The diagnosis of clinically uncertain CTS
was considered for the symptomatic subjects reporting poorly defined median
nerve paresthesias, whole hand or arm paresthesias, or chronic pain as the
main clinical feature.
After the clinical examination the subjects underwent nerve conduction
testing using an electromyography device (Viking IV; Nicolet, Madison, Wis).
The nerve conduction testing was performed by 3 experienced electromyography
technicians who were blinded to the results of the preceding examination.
Skin temperature was measured prior to testing, and hands with a temperature
of less than 30°C were warmed. Nerve conduction testing was performed
using the technique described by Kimura11 and
included measurements of median nerve distal sensory latency (third finger–wrist)
and wrist-palm sensory conduction velocity, as well as ulnar nerve distal
sensory latency (fifth finger–wrist).11,12
The results of the nerve conduction testing were examined to identify
subjects with electrophysiological median neuropathy at the carpal tunnel.
The electrophysiological criterion used for the diagnosis of median neuropathy
was median-ulnar sensory latency difference,13
with 0.8 milliseconds or longer considered abnormal. This cutoff was used
in accordance with the previously reported normal values for median-ulnar
wrist-digit latency difference as measured with the technique described by
We calculated the prevalence of pain, numbness, and/or tingling in the
median nerve distribution, clinically certain CTS, electrophysiological median
neuropathy, and clinically and electrophysiologically confirmed CTS. The prevalence
rates were calculated as the number of subjects in each of the 4 categories
divided by the total number of survey responders. Ninety-five percent confidence
intervals (CIs) were calculated based on the Poisson distribution.14 Sex- and age-specific prevalence rates were also
calculated. Sex-specific overall prevalence rates were age standardized using
the general Swedish population in December 19979
as an external standard. Group comparisons were performed using 2-tailed χ2 tests for categorical data and
t tests for continuous variables, with significance set at .05.
Of the 3000 subjects, 15 had recently moved from the study region, 5
were reported recently deceased, 8 were severely ill or cognitively impaired,
and 12 had recently relocated to unknown addresses. Of the remaining 2960
subjects, 2466 (83%) returned completed questionnaires (
Symptoms of recurring pain, numbness, and/or tingling in the median
nerve distribution were reported by 354 responders (34% men; mean [SD] age,
51  years). There were 2112 nonsymptomatic responders (48% men; mean [SD]
age, 50  years). A significantly higher proportion of women were symptomatic
Of the symptomatic responders, 287 subjects (81%) came to the hospital
for the clinical examination. Twenty-five subjects were excluded for the following
reasons: previous CTS surgery in the symptomatic hand (n=13), unwillingness
to undergo nerve conduction testing (n=2), and either resolution of the median
nerve symptoms or symptoms not consistent with the inclusion criteria (n=10).
Clinical examination and nerve conduction testing were performed on
262 symptomatic subjects (35% men; mean [SD] age, 52  years). The results
of the clinical and electrophysiological examinations are shown in the Figure 1.
There was a fair-to-moderate agreement between the clinical diagnosis
(clinically certain CTS vs clinically uncertain or no CTS) and the electrophysiological
diagnosis (median neuropathy or no median neuropathy) (κ=0.36; P<.001), and good agreement between the clinical diagnosis
alone and the clinical and electrophysiological diagnosis (κ=0.75; P<.001).14
The population prevalence of pain, numbness, and/or tingling in the
median nerve distribution was 14.4% (95% CI, 13.0%-15.8%). The sex- and age-specific
prevalence rates are shown in Table 1.
The prevalence of clinically certain CTS was 3.8% (95% CI, 3.1%-4.6%). The
prevalence of median nerve symptoms and electrophysiological median neuropathy
was 4.9% (95% CI, 4.1%-5.8%). The prevalence of clinically and electrophysiologically
confirmed CTS was 2.7% (95% CI, 2.1%-3.4%). The sex- and age-specific prevalence
rates are shown in Table 2.
Diabetes was reported in 3.0% of the subjects with clinically and electrophysiologically
confirmed CTS and 3.2% of the remaining responders. Also reported were thyroid
disorder in 3.0% and 3.0%, rheumatoid arthritis in 4.5% and 1.9%, and overweight
or obesity (defined as body mass index of at least 25 kg/m2)
in 70% and 47%, respectively. The higher proportion of overweight or obese
subjects in the CTS population was significant (P<.001).
Clinically and electrophysiologically confirmed CTS was present in 25
of 710 active blue-collar workers (prevalence, 3.5%), and in 12 of 712 active
white-collar workers (prevalence, 1.7%) (95% CI for the difference, 0.2%-3.6%; P=.03). The higher prevalence among active blue-collar
workers was significant even after adjusting for sex, age, and body mass index.
The prevalence of confirmed CTS among working subjects who reported more than
1 h/d use of excessive force with the hand during work and those reporting
less frequent or no such use was 5.4% and 1.8%, respectively (95% CI for the
difference, 1.4%-6.8%; P<.001). In a similar analysis
of other work-related activities (ie, use >1 h/d vs use ≤1 h/d), CTS prevalence
in the 2 groups was, for working with excessively flexed or extended wrist,
3.8% and 1.7% (95% CI for the difference, 0.4%-4.1%; P=.01);
for repetitive hand or wrist motion, 2.4% and 2.7% (95% CI for the difference, −
2.0%-1.5%; P=.69); and for use of hand-held vibratory
tools, 5.5% and 2.4% (95% CI for the difference, 0.0%-9.1%;
Of the nonsymptomatic responders asked to come to the hospital, 134
subjects received a clinical examination. Nine subjects were excluded for
the following reasons: neurological disease (n=1), unwillingness to undergo
nerve conduction testing (n=1), and presence of median nerve numbness or tingling
Clinical examination and nerve conduction testing were performed on
125 control subjects (45% men; mean [SD] age, 51  years). In 3 subjects,
nerve conduction testing was performed on only 1 hand owing to a previous
nerve laceration involving the right wrist (n=1) and unwillingness to proceed
with examination of the left hand (n=2).
Electrophysiological median neuropathy was found in 23 control subjects
(18.4%; 95% CI, 12.0%-26.3%) (Table 3).
Six of 41 active blue-collar workers and 5 of 45 active white-collar workers
had median neuropathy. Analysis of the work-related activities in the controls
did not show significant differences regarding the prevalence of median neuropathy.
A total of 494 eligible subjects (52% men; mean [SD] age, 47  years)
did not respond to the questionnaire. The nonresponders differed significantly
from the responders with respect to sex (P=.02) and
age (P<.001). Telephone contact was attempted
with 49 randomly selected nonresponders. Twenty-two subjects could not be
reached, 1 was reported to have recently died, and 2 declined to answer any
questions. Responses could thus be obtained from 24 subjects (11 men). Numbness
and/or tingling in the hands were reported in 6 subjects.
Sixty-seven symptomatic subjects (37% men; mean [SD] age, 50  years)
did not come to the clinical examination.
The findings of this epidemiologic study of CTS, the largest to date,
show this compression neuropathy to be common in the general population. The
prevalence of upper-extremity pain and paresthesias in the general population
has not been addressed in the literature. The high prevalence of these symptoms
in the general population should be borne in mind when assessing the possible
relationship of upper-extremity complaints to specific occupations.
Despite the high incidence of surgery for CTS, no standard criteria
for clinical diagnosis have been established.1
There is also no consensus on whether CTS is a clinical or electrophysiological
diagnosis. Normal electrophysiological findings do not rule out CTS.15 In fact, most studies assessing the sensitivity of
nerve conduction testing in diagnosing CTS have used the clinical diagnosis
as the criterion standard.15 On the other hand,
physical examination for CTS also has been reported to have limited sensitivity
and specificity.16 Consequently, we calculated
2 separate prevalence rates: 1 in which the diagnosis of CTS was made on the
basis of characteristic symptoms and signs and 1 requiring median nerve symptoms
combined with electrophysiological median neuropathy. We also calculated a
conservative prevalence estimate based on clinically and electrophysiologically
confirmed diagnoses. Although this figure may be an underestimate because
it excludes electrophysiologically normal subjects with clear clinical features
of CTS, this prevalence estimate is important for epidemiologic studies because
it probably represents the highest level of classification accuracy.17 That only 1 clinician performed the clinical examinations
may be a source of potential bias.
We found electrophysiological
median neuropathy not only in 70% of the subjects diagnosed as having clinically
certain CTS and in 46% of those with paresthesias in the median nerve distribution
in the hands, but also in 18% of the nonsymptomatic control subjects. Abnormal
nerve conduction testing results were more common among older control subjects.
The reason for this high rate of asymptomatic median neuropathy is unclear.
Although abnormal nerve conduction testing results have been reported in nonsymptomatic
subjects, previous electrodiagnostic studies generally have not used controls
randomly selected from the general population.15
Asymptomatic median neuropathy has previously been found in 13% of 724 industrial
and/or clerical workers,18 and in 16% of 1021
industrial job applicants.19 These 2 studies
used median-ulnar sensory latency difference measured at a distance of 14
cm (digit-wrist) and 8 cm (palm-wrist), respectively, using the 0.5-millisecond
cutoff commonly used for these measurement techniques. A higher cutoff for
the latency difference has been derived from the technique described by Kimura,
in which the median and ulnar nerves are stimulated at a fixed point (3 cm
proximal to the wrist's distal crease) and the recording made at the interphalangeal
joints of the third and fifth digits, respectively.11
A recent study reporting normative median and ulnar nerve conduction values
in 324 nonsymptomatic active workers with a mean age of 36 years suggested
the use of a 0.8-millisecond cutoff for the 14-cm sensory latency difference
to reduce the false-positive rate.20 Our results
using the alternative measurement technique also show that the rate of asymptomatic
median neuropathy in a general population appears to be higher than previously
reported in nonrandom, and often smaller, control groups.
a strong association between overweight or obesity and the presence of CTS.
The other medical conditions analyzed did not show significant associations,
although rheumatoid arthritis was more commonly reported than the other conditions
among CTS subjects. Our findings of higher CTS prevalence among blue-collar
than white-collar workers, and among workers who reported using excessive
force with the hand or working with excessive wrist flexion or extension,
might provide additional support to the role of work-related factors in CTS.
In our study, the prevalence of CTS recorded in men (male-female
ratio, 1:1.4) was higher than previously reported.5,21
This difference in the reported prevalence rates might be due to differences
in the size and/or design of earlier studies, or to a real increase in the
prevalence in men. Among older persons, however, the prevalence in women was
almost 4 times that in men, with older women showing the highest age-specific
prevalence for confirmed CTS.
Since we had a response rate exceeding
80% for both the survey and the clinical examination, we believe selection
bias is a minor problem. Furthermore, the nonresponder analysis revealed almost
similar proportions of symptomatic subjects among the nonresponders as among
the responders. In addition, the rate of false-positive and false-negative
questionnaire responses regarding hand symptoms was shown to be low.
When calculating prevalence rates, we assumed that symptomatic subjects
who did not come to the examination (19% of all symptomatic subjects) did
not have CTS. Consequently, based on clinical and/or electrophysiological
criteria, the prevalence rates estimated in our study ought to be close to,
or somewhat lower than, the true prevalence.
Estimation of CTS
prevalence rates in the general population may contribute to early diagnosis
and effective treatment of symptomatic subjects and provide useful data for
the interpretation of results of studies that estimate CTS prevalence in specific
Funding/Support: This study was supported by grants from the Kristianstad County Council, the Medical Faculty of Lund University, and by grants 17x-09509 and 14x-0084 from the Swedish Medical Research Council.
Acknowledgment: We would like to thank electromyography technicians Marie Lindvall, Pernilla Lind[[eacute]]n, and Inger Nordlund for their skillful neurography work and Roger Nihl[[eacute]]n, RN, for his useful technical assistance.
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