©Journal of Sports Science and Medicine (2004) 3, 1-7
http://www.jssm.org
Research article
THE EFFECTS OF KINESIOTM TAPING ON PROPRIOCEPTION
AT THE ANKLE
Travis Halseth 1, John W. McChesney 2 , Mark DeBeliso 2, Ross Vaughn 3 and Jeff
Lien 4
1
Athletic Department, University of the Pacific, USA
2
Department of Kinesiology, Boise State University, USA
3
College of Education, Boise State University, USA
4
Athletic Department, Boise State University, USA
Received: 06 September 2003 / Accepted: 21 November 2003 / Published (online): 01 March 2004
ABSTRACT
An experiment was designed to determine if KinesioTM taping the anterior and lateral portion of the ankle
would enhance ankle proprioception compared to the untaped ankle. 30 subjects, 15 men, 15 women,
ages 18-30 participated in this study. Exclusion criteria: Ankle injury < 6 months prior to testing,
significant ligament laxity as determined through clinical evaluation by an ATC, or any severe foot
abnormality. Experiment utilized a single group, pretest and posttest. Plantar flexion and inversion with
20° of plantar flexion reproduction of joint position sense (RJPS) was determined using an ankle RJPS
apparatus. Subjects were barefooted, blindfolded, and equipped with headphones playing white noise to
eliminate auditory cues. Subjects had five trials in both plantar flexion and inversion with 20° plantar
flexion before and after application of the KinesioTM tape to the anterior/lateral portion of the ankle.
Constant error and absolute error were determined from the difference between the target angle and the
trial angle produced by the subject. The treatment group (KinesioTM taped subjects) showed no change in
constant and absolute error for ankle RJPS in plantar flexion and 20º of plantar flexion with inversion
when compared to the untaped results using the same motions. The application of KinesioTM tape does
not appear to enhance proprioception (in terms of RJPS) in healthy individuals as determined by our
measures of RJPS at the ankle in the motions of plantar flexion and 20º of plantar flexion with inversion.
KEY WORDS: Reproduction of joint position sense, KinesioTM tape, target angle
traditional white athletic tape in the sense that it is
INTRODUCTION
elastic and can be stretched to 140% of its original
length before being applied to the skin. It
In recent history, ankle taping has been the principal
subsequently provides a constant pulling (shear)
means of preventing ankle sprains in sport (Robbins
force to the skin over which it is applied unlike
et al., 1995). Despite the fact that ankle bracing is
traditional white athletic tape. The fabric of this
growing in popularity, anecdotal evidence suggests
specialized tape is air permeable and water resistant
that ankle taping with white athletic tape is still very
and can be worn for repetitive days. KinesioTM tape
popular among athletes, athletic trainers, and
is currently being used immediately following injury
physicians. However other means of ankle taping
and during the rehabilitation process.
have emerged for the treatment and prevention of
The proposed mechanisms by which
ankle injuries. KinesioTM taping is a novel method of
KinesioTM tape works are different than those
ankle taping utilizing a specialized type of tape by
underlying traditional ankle taping. Rather than
the same name. KinesioTM tape differs from
2 KinesioTM tape and proprioception
being structurally supportive, like white athletic KinesioTM tape) may have on increasing cutaneous
tape, KinesioTM tape is therapeutic in nature. afference. Murray and Husk (2001) examined the
According to Kenzo Kase, the creator of KinesioTM effect of kinesio taping on ankle proprioception.
tape, these proposed mechanisms may include: (1) They concluded that kinesio taping for a lateral
correcting muscle function by strengthening ankle sprain improved proprioceptive abilities in
weakened muscles, (2) improving circulation of non-weight bearing positions in the midrange of
blood and lymph by eliminating tissue fluid or ankle motion where ligament mechanoreceptors
bleeding beneath the skin by moving the muscle, (3) were inactive.
decreasing pain through neurological suppression, The return of normal proprioception following
and (4) repositioning subluxed joints by relieving orthopedic injury has been, and should continue to
abnormal muscle tension, helping to return the be, a major clinical rehabilitation goal (Lephart et
function of fascia and muscle (Kase et al., 1996). A al., 1997). Increased somatosensory stimulation that
fifth mechanism has been suggested by Murray can be used as proprioceptive input, that is imparted
(2001), which describes KinesioTM tape causing an by an elastic tape such as KinesioTM tape, may
increase in proprioception through increased enhanced an athlete's postural control system and
stimulation to cutaneous mechanoreceptors. This facilitate their earlier return to activity.
proposed fifth mechanism has been examined using The popularity of the application of tape
our current research method. during the rehabilitation process, and the need for
Little is known of a possible proprioceptive empirical evidence on the effect of KinesioTM tape
effect of KinesioTM tape, however it has been and it's potential effect on proprioception were
anticipated that there will be a facilitatory effect of compelling reasons to perform this experiment. The
cutaneous mechanoreceptors as seen in studies purpose of this study was to determine the effect of
examining the effects of linen-backed adhesive the application of this novel tape and specialized
athletic tape (Murray, 2001). KinesioTM tape may taping method to an aspect of ankle proprioception,
have a similar effect on ankle proprioception due to reproduction joint position sense (RJPS). It was
its aforementioned characteristics. This concept hypothesized that using KinesioTM taping on the
underlies our hypotheses stating that proprioception ankle/lower leg would: (1) decrease (improve) the
will be enhanced through increased cutaneous absolute error (AE) of RJPS when compared to the
feedback supplied from the kinesioTM tape. untaped ankle in two ranges of motion: plantar
Applying pressure to, and stretching the skin flexion (PF) and inversion at 20º of plantar flexion
can stimulate cutaneous mechanoreceptors. The (INV/PF), (2) decrease (improve) the constant error
sense of stretching is thought to possibly signal (CE) of RJPS when compared to the untaped ankle
information of joint movement or joint position in PF and INV/PF, and (3) show no significant
(Grigg, 1994). Furthermore, it has been stated that differences in wither constant or absolute error
cutaneous mechanoreceptors might play a role in measures amongst gender in either range of motion.
detecting joint movement and position resulting
from the stretching of skin at extremes of motion, METHODS
much like joint mechanoreceptors (Riemann and
Lephart, 2002). While the exact role of cutaneous
Thirty healthy (15 women, 15 men) subjects were
mechanoreceptors is still under discussion, it has
screened using a questionnaire, which asked for
become evident they can signal joint movement and
details on age, gender, and medical history.
to some extent joint position (Simoneau et al., 1997).
Individuals with a history of any previous serious
It is important to note the exact role cutaneous
ankle injury or surgery, and/or those who currently
mechanoreceptors play in joint movement and
had ankle pathology, were excluded from this study.
position. Several authors have attributed these
Thirty subjects were interviewed and received a pre-
cutaneous afferents with a precise ability to convey
participation orthopedic ankle exam by a certified
joint movements through skin strain patterns
athletic trainer (ATC) to rule out any abnormalities
(Riemann and Lephart, 2002). It was hoped that the
(i.e. abnormal ligament laxity, congenital
results of this study would add to the body of
deformities, neurological deficits, etc.) that may
literature on proprioception.
have affected experimental data. The orthopedic
There have been studies documenting a
evaluation included an assessment for presence of
significant effect of the application of white athletic
pain, stress tests to determine ligamentous stability,
tape to the ankle on ankle proprioception (Karlsson
circulatory tests, assessment of cutaneous sensation,
and Andreasson, 1992; Robbins et al., 1995; Heit et
and tests of active, passive, and resisted ranges of
al., 1996; Simoneau et al., 1997). However, very
motions.
little research has been done examining the effect
Reproduction of joint position sense (RJPS)
alternative tape applications (such as that of
was measured in accordance with the subject s
Halseth et al. 3
ability to actively recreate a randomly selected target Procedures
position. These ankle measures were taken for both To ensure RJPS was affected only by
plantar flexion and inversion with 20º plantar flexion mechanoreceptors within the ankle, subjects were
before and after the application of KinesioTM tape. blindfolded and asked to wear headphones playing
An active RJPS paradigm was selected in order to white noise to ensure both visual and auditory cues
utilize a well accepted repositioning technique did not affect the results. In attempts to limit
originally forwarded for the ankle by Glencross and undesired cutaneous feedback, no straps were used
Thornton (1981) and then further developed by to hold the subject s foot to the platform. RJPS was
Barrack and colleagues (1983) for RJPS at the knee. then assessed in conditions of no ankle tape (no-
Due to the fact that cutaneous mechanoreceptors are tape) and kinesio taped (taped) ankle in the motions
stimulated during both passive and active of plantar flexion and inversion with 20º plantar
movements, it was assumed that the chosen flexion. All subjects were placed in a seated position
paradigm would successfully test for a treatment with the foot resting on the footplate of the
effect of KinesioTM tape. apparatus.
Ankle position data was measured using and RJPS measures were taken by passively
instrumented platform (Figure 1) with a moveable placing the dominant ankle to a random target angle
footplate capable of providing measures of ankle and asking the subject to actively reposition their
joint position. The footplate was stabilized ankle to the target angle from a neutral starting
throughout testing with the use of a counterbalance position. Target angle positions in the plantar flexion
system, which created an unresisted range of motion rang varied from only 1º to 35º in attempts to
at the talocrural joint. Attached to the platform was a eliminate extreme ranges of plantar flexion.
precision potentiometer (Spectrol, Type 157, Inversion with 20º of plantar flexion had an angular
Ontario, CA), which allowed a measure of specific position range from 1º to 10º. Five trails were given
angular position digitally, displaying the position to at each range of motion with absolute and constant
the nearest tenth of a degree on a digital liquid error recorded for each.
crystal display and computer data collection system Subjects were allowed to sit comfortably with
(see below). Joint repositioning trials were colleted their foot on the testing apparatus. They were then
at a rate of 100 Hz. Laboratory tests of this apparatus passively placed to a random target position. The
have demonstrated a repeatable range of motion subjects were held in that position for five seconds,
error of less that Ä… 0.05°. The potentiometer was asked to remember the target angle, and then
aligned with lateral aspect of the ankle to assure that passively returned to their neutral starting position.
the numbers supplied were accurate readings for the Subjects were then asked to actively reposition their
talocrural joint in the sagittal plane. During foot as closely to the target angle as possible.
inversion with 20° of plantar flexion condition, the Through headphone communication, audio mixed
potentiometer was aligned with the center of axis of over the white noise, subjects were instructed to
motion of the sub-talar joint in the coronal plane press an indicator button placed in their right hand,
with an anterior tilt of 20°. This information was signaling the completion of their target-reposition
then recorded on a computer through a 16-bit analog task (Figure 2). Data was recorded in the Bioware
to a digital board using Bioware® V.3.22 (Kistler system after passive target positioning (by the
Instrument Corporation, Amherst, NY) data researcher), and following the subject s signal of
collection software. A range of motion block was completion of the target-repositioning task.
used to set the talocrural neutral position (0º),
achieved when the foot is at a right angle to the tibia.
Upon completion of data collection with each
subject the RJPS apparatus was recalibrated to
assure accuracy throughout data collection.
Figure 2. Subject positioning during data collection.
A cross-over design was employed with
respect to the order of the un-taped and taped
Figure 1. Ankle joint position sense apparatus. conditions. Specifically, the application of the
4 KinesioTM tape and proprioception
KinesioTM tape occurred after completion of the first angle and the trial angle for each subject. Constant
10-trail assessment of RJPS in plantar flexion and error examined the direction of imprecision,
inversion with 20º of plantar flexion for 15 (or half) measuring the number of positive or negative
of the participants. The other participants performed degrees the actively reproduced ankle position was
the positioning tasks under the taped condition first, from the target position. Whereas absolute error took
followed by the un-taped condition. The participants only the number of degrees the actively reproduced
were randomly assigned with regard to the order of ankle position was from the target position. In
the taped and un-taped conditions. There was a 5 examining possible gender differences, changes in
minute waiting period between conditions and RJPS absolute error and constant error between un-taped
assessment. All thirty subjects we assessed of a conditions and taped conditions were examined for
period of one week.
both plantar flexion and 20° of plantar flexion with
inversion.
Taping
This study used a pretest-posttest design. The
Subjects were taped for a lateral ankle sprain in
independent variable was the KinesioTM taping
accordance to Kenzo Kase s KinesioTM taping
procedure, and the dependent variable was
manual (Kase et al., 1996). Taping procedures were
reproduction of joint position sense. Results were
applied by the principal investigator (a certified
evaluated for statistical significance (p < 0.05) using
athletic trainer) to ensure consistency throughout the
a paired, two-tail t-test computed for both constant
study.
and absolute error values among subjects and
For taping, each subject s foot was placed in
independent t-tests to evaluate across genders.
relaxed position while they sat on a taping table with
the ankle in slight plantar flexion. The first strip of
RESULTS
tape was placed from the anterior midfoot, stretched
approximately to 115-120% of its maximal length
Upon completion of data analysis, no significant
and attached just below the anterior tibial tuberosity
differences of absolute error between the no-tape
over the tibialis anterior muscle. The second strip
condition (M=2.19° Ä… 1.20°) and the taped condition
began just above the medial malleolus and wrap
(M=2.07° Ä… 0.98°) were found in plantar flexion, nor
around the heel like a stirrup, attaching just lateral to
were any significant differences seen between the
the first strip of tape. The third strip stretched across
no-taped condition (M=1.87° Ä… 0.89°) and the taped
the anterior ankle, covering both the medial and
condition (M=1.95° Ä… 0.90°) in the combined
lateral malleolus. Finally, the fourth strip originated
motion of inversion with 20° of plantar flexion
at the arch and stretched slightly, measuring 4-6
(Figure 4). These results contest our first hypotheses,
inches above both the medial and lateral malleolus
which stated KinesioTM taping would decrease
(Figure 3).
(improve) the absolute error on RJPS when
compared to the untaped ankle.
Absolute Error Differences Between PF
& PF/Inversion
Untaped
4
Kinesio taped
3
2
1
0
Plantarflexion PF/Inversion
Figure 4. Group absolute error (AE) differences
between pre and post tape conditions.
Figure 3. Tape strips comprising KinesioTM tape job.
No significant difference in constant error was
Numbers indicate order of application.
shown in plantar flexion between the no-tape
condition (M = -0.28°Ä…2.01°) and the taped
Data Analysis
condition (M = 0.08°Ä…1.77°). Furthermore, there
Constant error and absolute error values were
was no evidence of significant change in the
examined by taking the difference between the target
AE (Degrees)
Halseth et al. 5
proprioception when measured by active ankle RJPS
combined motion of inversion with 20° of plantar
in healthy subjects. These results do not concur with
flexion between the no-taped condition (M =
Murray s (2001) findings, which showed that
0.24°Ä…1.80°) and the taped condition (M = -0.02°Ä…
KinesioTM tape enhanced RJPS through increases in
1.46°) (Figure 5). These results discount our second
cutaneous stimulation received from the KinesioTM
hypotheses, which stated KinesioTM taping would
tape .
decrease (improve) the constant error of RJPS when
It is important to note, however, since the
compared to the un-taped ankle.
present study did not specifically measure changes
in cutaneous sense, that kinesioTM tape cannot be
Constant Error Differences Between PF
ruled out as a contributor to increasing cutaneous
& PF/Inversion
sense. We can only speculate on the role cutaneous
sense may or may not play in RJPS. It may be that
Untaped
kinesioTM tape does contribute to increasing
4
Kinesio taped
cutaneous feedback, however it appears that it plays
3
2
only a minimal role in RJPS. This explanation has
1
been forwarded by authors who have suggested
0
muscle and joint mechanoreceptors are the primary
-1
contributors to proprioception (Grigg et al., 1973;
-2
Gandevia and McCloskey, 1976; Barrack et al.,
-3
1984; Riemann and Lephart, 2002). Conversely,
-4
Plantarflexion PF/Inversion
cutaneous ankle mechanoreceptors may rapidly
accommodate and not provide useful feedback
during repeated movements.
Figure 5. Groups constant errors (CE) differences
While comparing differences in CE and AE
between pre and post kinesio tape conditions.
between genders, no significant differences were
noted in either plantar flexion or inversion with 20º
The data was also analyzed according to
plantar flexion. These findings concur with those of
gender. No significant (p > 0.05) differences were
the Walter s study (2000), which showed no
detected in changes of absolute or constant error in
significant gender differences when examining the
plantar flexion or plantar flexion with inversion
effects of taping on RJPS.
(Table 1) between genders. The third research
The findings of the present study lend support
hypothesis was supported.
to the concept that ankle taping has no significant
effect on ankle RJPS in plantar flexion or inversion
Table 1. Mean (SD) values for Error Measure
with 20º of plantar flexion. In Walters study (2000)
Differences (degrees, °) amongst genders.
examining the effects of taping on RJPS, she found
Plantar flexion PF/Inversion
no significant differences in absolute error or
Men Women Men Women
constant error when comparing data before and after
AE -.15 (1.79) -.10 (.99) .40 (1.19) .23 (1.34)
the application of tape to the ankle in the ranges of
CE .32 (2.38) .44 (1.46) -.11 (1.46) -.86 (1.58)
plantar flexion and plantar flexion with inversion.
Abbreviations: AE= Absolute error, CE= Constant
The application of KinesioTM tape for a lateral ankle
error. * No significant difference between men and
sprain in this study was less restrictive than her
women error values.
application of the more traditionally restrictive
Gibney Basketweave, and no significant changes in
In summary, group data revealed no AE or CE
absolute error or constant error were witnesses in
effects of KinesioTM tape in any of the ranges of
either study. The present findings suggest that these
motion. In gender analysis, KinesioTM tape had no
two distinctively different taping procedures are
effect on the changes of absolute error or constant
similar in the sense that neither enhances RJPS.
error amongst gender in either plantar flexion or 20°
With regard to methodology and its effect on
plantar flexion with inversion.
results, Heit et al., (1996) examined the effects of
bracing and taping on proprioception, noting that
DISCUSSION
both treatments significantly improved RJPS in
plantar flexion (AE). In comparison to the present
Results indicated no significant differences in either
study, their un-taped condition demonstrated an AE
absolute or constant error between the no-tape and
of 5.93°Ä…1.91° compared to our observation of an
KinesioTM taped conditions in either plantar flexion
AE of 2.19°Ä…1.20°. When taped, their subjects
or inversion with 20º of plantar flexion, indicating
demonstrated a significant change in AE of
that kinesioTM tape likely does not enhance
3.90°Ä…1.80° compared to our non-significant
CE (Degrees)
6 KinesioTM tape and proprioception
observation of an AE of 2.07°Ä…0.98°. Heit and co- CONCLUSIONS
workers (1996) methods utilized a Cybex II"!
electronic goniometer, which required foot straps to
The application of KinesioTM tape does not appear to
hold the foot in place while testing. It is possible that
enhance RJPS, when measured by active ankle RJPS
these straps may have provided additional cutaneous
in healthy subjects. The hypotheses stating that
feedback cues to the subject during the reproduction
ankle taping would decrease (improve) absolute
task, thus facilitating the subject s ability to more
error and constant error of RJPS were not supported
accurately reposition themselves to the previous
by the data.
target position. This may offer one explanation for
Despite the unknown proprioceptive effects of
the difference in their findings. Unlike the present
KinesioTM tape, it has been suggested as a possible
study design, which utilized randomly selected
proprioceptive facilitator in the acute phases of the
target positions with each individual trial, Heit and
injury process (Murray, 2001). Conversely the
co-workers used predetermined target positions that
present results suggest that the application of
were repeated over a sequence of trials. By repeating
KinesioTM tape to lower leg and ankle does not
these predetermined target positions, it is possible
provide proprioceptive enhancement as measured by
that a learning effect could have been introduced,
RJPS. If KinesioTM taping is a mechanism that
thus enabling the subjects to improve (decrease)
facilitates RJPS, further investigation on subjects
absolute error scores over the duration of their four
suffering from acute proprioceptive loss due to
trial sequence. Another difference between these
injury is needed so a possible enhancement of
studies can be seen in the positioning of the subject.
proprioception can be specifically examined.
It has been suggested that gravitational positioning
In order to fully understand the effect of
may have an affect RJPS measures (Brock, 1994).
KinesioTM tape on proprioception, further research
The subjects in this study were seated vertically to
needs to be conducted on other joints, on the method
eliminate any possible gravitational effects that may
of application of KinesioTM tape, and the health of
have accompanied lying prone during non-weight
the subject to whom it is applied. Further research
bearing testing, dissimilar to Heit and co-workers
may provide vital information about a possible
methods.
benefit of KinesioTM taping during the acute and sub
The present results also differ with the
acute phases of rehabilitation, thus facilitating earlier
findings of Simoneau and co-workers (1997), who
return to activity participation.
witnessed significant change in RJPS error in plantar
flexion upon application of two five inch strips of
ACKNOWLEDGEMENTS
white athletic tape applied to the lower leg. Strips of
white athletic tape were placed along the Achilles
Tape for this research project was donated by
tendon and down the anterior aspect of the ankle.
KinesioTM U.S.A. Corporation Limited,
Simoneau and co-workers (1997) findings indicated
Albuquerque, NM.
that proprioception, as assessed by RJPS, might have
been facilitated through the increase in cutaneous
REFERENCES
feedback supplied by the two strips of athletic tape.
Barrack, R., Skinner, H., Brunet, M. and Cook, S. (1984)
However, the findings of this study do not concur.
Joint kinesthesia in the highly trained knee.
Again, as was the case in Heit et al.'s study,
American Journal of Sports Medicine 24, 18-20.
subjects in Simoneau and co-workers study were
Barrack, R., Skinner, H., Cook, S. and Haddad, R. (1983)
positioned to a predetermined target position for four
Effect of articular disease and total knee
consecutive trials, possibly introducing a learning
arthroplasty on knee joint-position sense. Journal
effect. Finally, Simoneau placed two straps around
of Neurophysiology 50, 684-687.
each calf to ensure accurate foot positioning
Brock, O. (1994) Joint position sense in simulated
throughout the duration of his data collection.
changed-gravity environments. Aviation, Space,
However, it is reasonable to believe these straps may
and Environmental Medicine 65, 621-626.
have influenced cutaneous feedback in the ankle due Gandevia, S. and McCloskey, L. (1976) Joint sense,
muscle sense, and their combination as position
to their contact with the gastrocnemius and soleus
sense, measured at the distal interphalangeal joint
muscles (primary plantarflexors of the foot). With
of the middle finger. Journal of Physiology 260,
this increased cutaneous feedback and possible
387-407.
mechanical restriction, it is plausible that the
Glencross, D. and Thornton, E. (1981) Position sense
subjects ability to actively recreate target position
following joint injury. The Journal of Sports
was affected.
Medicine and Physical Fitness 21, 23-27.
Halseth et al. 7
Grigg, P. (1994) Peripheral neural mechanisms in AUTHORS BIOGRAPHY
proprioception. Journal of Sport Rehabilitation 3,
Travis HALSETH
2-17.
Employment
Grigg, P., Fineman,G. and Riley, L. (1973) Joint position Asst. athletic trainer at the Univ. of the Pacific in
sense after total hip replacement. Journal of Bone Stockton, California. Head athletic trainer with the
and Joint Surgery 55-A, 1016-1025. Women's basketball team at the Univ. of the Pacific
Heit, E., Lephart, S. and Rozzi, S. (1996) The effect of
Degrees
ankle bracing and taping on joint position sense in MS, ATC
the stable ankle. Journal of Sport Rehabilitation 5,
Research interests
206-213.
Proprioception, Athletic Training
Karlsson, J. and Andreasson, G. (1992) The effect of
John W. McCHESNEY
external ankle support in chronic lateral ankle joint
Employment
instability: an electromyographic study. American
Director of the Athletic Training/ Motor Control Lab. at
Journal of Sports Medicine 20, 257-26.
Boise State Univ. and an Assoc. Prof. in the Department
Kase, K., Tatsuyuki, H. and Tomoki, O. (1996)
of Kinesiology.
Development of KinesioTM tape . KinesioTM Taping
Degrees
Perfect Manual. Kinesio Taping Association 6-10,
ATC, PhD
117-118.
Research interests
Lephart, S., Pincivero, D., Giraldo, J. and Fu, F. (1997)
Somatosensory contributions to motor performance
The role of proprioception in the management and
Mark DeBELISO
rehabilitation of athletic injuries. American Journal
Employment
of Sports Medicine 25, 130-137.
Ass. Prof. at Boise State Univ.
Murray, H. (2001) Effects of KinesioTM taping on muscle
Degree
strength after ACL-repair.
PhD
Avaliable from URL:
Research interests
http://www.kinesiotaping.com. April 15, 2002, 1-3.
Mechanics of sport movements and work tasks as well
Murray, H. and Husk, L. (2001) Effect of KinesioTM
as strength/ power training for all walks of life.
taping on proprioception in the ankle. Journal of
Ross VAUGHN
Orthopedic Sports Physical Therapy 31, A-37.
Employment
Riemann, B. and Lephart, S. (2002) The sensorimotor
Interim Assoc. Dean of the College of Education at
system, Part II: The role of proprioception in motor
Boise State Univ. and a Prof. in the Depart. of
control and functional joint stability. Journal of
Kinesiology.
Athletic Training 37, 80-84.
Degree
Robbins, S., Waked, E. and Rappel, R. (1995) Ankle
PhD
taping improves proprioception before and after
Research interests
exercise in young men. British Journal of Sports
Sports biomechanics.
Medicine 29, 242-247.
Jeff LIEN
Simoneau, G., Degner, R., Kramper, C. and Kittleson, K.
Employment
(1997) Changes in ankle joint proprioception
Assoc. Athletic Trainer at Boise State Univ.
resulting from strips of athletic tape applied over
Degrees
the skin. Journal of Athletic Training 32, 141-147.
MS, ATC
Walters, A. (2000) Analysis of the effects of ankle taping
Research interests
on proprioception: a comparison before and after
Proprioception and biomechanics of the track athlete
exercise. Masters thesis, Boise State University
Library.
John W. McChesney
Director Athletic Training Education Program, Athletic
KEY POINTS
Training/Motor Control Research Laboratory, Department
of Kinesiology, Boise State University, 1910 University
" Proprioception research
Drive, Boise, Idaho 83725, USA
" Evaluation of a new taping method
" Augmentation of sensory feedback
" Rehabilitation technique


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