BMC Musculoskelet Disord. 2012 Jun 6;13(1):88. [Epub ahead of print]
I-ONE therapy in patients undergoing total knee arthroplasty: a prospective, randomized and controlled study.
Moretti B, Notarnicola A, Moretti L, Setti S, De Terlizzi F, Pesce V, Patella V.
Abstract
BACKGROUND:
Total knee arthroplasty (TKA) is often associated with a severe local
inflammatory reaction which, unless controlled, leads to persistent
pain up to one year after surgery. Standard and accelerated
rehabilitation protocols are currently being implemented after TKA, but
no consensus exists regarding the long-term effects. Biophysical
stimulation with pulsed electromagnetic fields (PEMFs) has been
demonstrated to exert an anti-inflammatory effect, to promote early
functional recovery and to maintain a positive long-term effect in
patients undergoing joint arthroscopy. The aim of this study was to
evaluate whether PEMFs can be used to limit the pain and enhance patient
recovery after TKA.
METHODS:
A prospective, randomized, controlled study in 30 patients undergoing
TKA was conducted. Patients were randomized into experimental PEMFs or a
control group. Patients in the experimental group were instructed to
use I-ONE stimulator 4hours/day for 60days. Postoperatively, all
patients received the same rehabilitation program. Treatment outcome was
assessed using the Knee Society Score, SF-36 Health-Survey and VAS.
Patients were evaluated pre-operatively and one, two, six and 12 months
after TKA. Joint swelling and Non Steroidal Anti Inflammatory Drug
(NSAID) consumption were recorded. Comparisons between the two groups
were carried out using a two-tail heteroschedastic Student’s t-test.
Analysis of variance for each individual subject during the study was
performed using ANOVA for multiple comparisons, applied on each group,
and a Dunnet post hoc test. A p value<0.05 was considered
statistically significant.
RESULTS:
Pre-operatively, no differences were observed between groups in terms
of age, sex, weight, height, Knee-Score, VAS, SF-36 and joint swelling,
with the exception of the Functional Score. The Knee-Score, SF-36 and
VAS demonstrated significantly positive outcomes in the I-ONE stimulated
group compared with the controls at follow-ups. In the I-ONE group,
NSAID use was reduced and joint swelling resolution was more rapid than
in controls. The effect of I-ONE therapy was maintained after use of the
device was discontinued.
CONCLUSIONS:
The results of the study show early functional recovery in the I-ONE
group. I-ONE therapy should be considered after TKA to prevent the
inflammatory reaction elicited by surgery, for pain relief and to speed
functional recovery.
Indian J Exp Biol. 2009 Dec;47(12):939-48.
Low frequency pulsed electromagnetic field–a viable alternative therapy for arthritis.
Ganesan K, Gengadharan AC, Balachandran C, Manohar BM, Puvanakrishnan R.
Department of Biotechnology, Central Leather Research Institute, Adyar, Chennai 600 020, India.
Abstract
Arthritis refers to more than 100 disorders of the musculoskeletal
system. The existing pharmacological interventions for arthritis offer
only symptomatic relief and they are not definitive and curative.
Magnetic healing has been known from antiquity and it is evolved to the
present times with the advent of electromagnetism. The original basis
for the trial of this form of therapy is the interaction between the
biological systems with the natural magnetic fields. Optimization of
the physical window comprising the electromagnetic field generator and
signal properties (frequency, intensity, duration, waveform) with the
biological window, inclusive of the experimental model, age and
stimulus has helped in achieving consistent beneficial results. Low
frequency pulsed electromagnetic field (PEMF) can provide noninvasive,
safe and easy to apply method to treat pain, inflammation and
dysfunctions associated with rheumatoid arthritis (RA) and
osteoarthritis (OA) and PEMF has a long term record of safety. This
review focusses on the therapeutic application of PEMF in the
treatment of these forms of arthritis. The analysis of various studies
(animal models of arthritis, cell culture systems and clinical
trials) reporting the use of PEMF for arthritis cure has conclusively
shown that PEMF not only alleviates the pain in the arthritis
condition but it also affords chondroprotection, exerts
antiinflammatory action and helps in bone remodeling and this could be
developed as a viable alternative for arthritis therapy.
J Rehabil Med. 2009 Nov;41(13):1090-5.
Effect of biomagnetic therapy versus physiotherapy for treatment of knee osteoarthritis: a randomized controlled trial.
Gremion G, Gaillard D, Leyvraz PF, Jolles BM.
Department of Orthopaedic Surgery (DAL), Centre Hospitalier
Universitaire Vaudois, University of Lausanne, Lausanne, Switzerland.
Abstract
OBJECTIVE: To assess the effectiveness of pulsed signal therapy in the treatment of knee osteoarthritis (Kellgren II or III).
METHODS: A randomized, double-blind controlled clinical trial. The
first 95 patients sent to the clinic with knee osteo-arthritis were
selected and randomized into treatment with pulsed signal therapy or
conventional physiotherapy. Assessment included recording of usual
demographic data, pertinent history, baseline medication and
radiographs. Clinical evaluation was made at baseline, 6 weeks and 6
months after the end of treatment by the same blinded doctor. At each
follow-up time, the patient was asked to complete a visual analogue pain
scale and a Lequesne score. The doctor recorded the degree of pain on
motion and the ability to move the affected knee.
RESULTS: Both treatments resulted in significant improvements in pain
and physical function. A statistical difference was observed only for
activities of daily living, where the physiotherapy was more
efficient (p<0.03). The cost of treatment with pulsed signal
therapy was significantly higher, double the treatment cost of
conventional physiotherapy.
CONCLUSION: Like physiotherapy, pulsed signal therapy has improved
the clinical state of treated patients but with no significant
statistical difference. Pulsed signal therapy is, however, more
expensive.
J Rehabil Med. 2009 May;41(6):406-11.
Effectiveness of pulsed electromagnetic field therapy in the
management of osteoarthritis of the knee: a meta-analysis of randomized
controlled trials.
Vavken P, Arrich F, Schuhfried O, Dorotka R.
Department of Orthopedic Surgery, Children’s Hospital Boston, 300
Longwood Avenue, Enders 1016, Boston, MA 02115, USA.
Patrick.vavken@childrens.harvard.edu
Abstract
OBJECTIVE: To assess the effectiveness of pulsed electromagnetic
fields compared with placebo in the management of osteoarthritis of the
knee.
DATA SOURCES: A systematic review of PubMed, EMBASE, and the Cochrane Controlled Trials Register.
METHODS: Randomized, controlled trials reporting on the blinded
comparison of pulsed electromagnetic fields with placebo were included.
Validity was tested according to the Jadad Scale. Studies were pooled
using fixed-effects and random-effects models after exclusion of
publication bias and assessment of heterogeneity. Sensitivity analyses
and meta-regression were performed to test the stability of our
findings.
RESULTS: Nine studies, including 483 patients, were pooled. No
significant difference could be shown for pain (weighted mean difference
0.2 patients; 95% confidence interval (CI): -0.4 to 0.8) or stiffness
(weighted mean difference 0.3; 95% CI: -0.3 to 0.9). There was a
significant effect on activities of daily living (weighted mean
difference 0.8; 95% CI 0.2-1.4, p = 0.014) and scores (standardized mean
difference 0.4; 95% CI: 0.05-0.8, p = 0.029). We saw only
statistically insignificant differences between studies with different
treatment protocols.
CONCLUSION: Pulsed electromagnetic fields improve clinical scores and
function in patients with osteoarthritis of the knee and should be
considered as adjuvant therapies in their management. There is still
equipoise of evidence for an effect on pain in the current literature.
Rheumatol Int. 2009 Apr;29(6):663-6. Epub 2008 Nov 18.
The effects of pulsed electromagnetic fields in the treatment of knee osteoarthritis: a randomized, placebo-controlled trial.
Ay S, Evcik D.
Department of Physical Medicine and Rehabilitation, Ufuk University
School of Medicine Doctor Ridvan Ege Hospital, Balgat, 06520, Ankara,
Turkey.saimeay@yahoo.com
Abstract
In this study, we planned to investigate the effects of pulse
electromagnetic field (PEMF) on pain relief and functional capacity of
patients with knee osteoarthritis (OA). Fifty-five patients with knee OA
were included in a randomized, placebo-controlled study. At the end of
the therapy, there was statistically significant improvement in pain
scores in both groups (P < 0.05). However, no significant difference
was observed within the groups (P > 0.05). We observed statistically
significant improvement in some of the subgroups of Lequesne index.
These are morning stiffness and activities of daily living activities
compared to placebo group. However, we could not observe statistically
significant differences in total of the scale between two groups (P >
0.05). Applying between-group analysis, we were unable to demonstrate a
beneficial symptomatic effect of PEMF in the treatment of knee OA in
all patients. Further studies using different types of magnetic devices,
treatment protocols and patient populations are warranted to confirm
the general efficacy of PEMF therapy in OA and other conditions.
Knee Surg Sports Traumatol Arthrosc. 2008 Jun;16(6):595-601. Epub 2008 Apr 2.
Effects of biophysical stimulation in patients undergoing
arthroscopic reconstruction of anterior cruciate ligament: prospective,
randomized and double blind study.
Benazzo F, Zanon G, Pederzini L, Modonesi F, Cardile C, Falez F,
Ciolli L, La Cava F, Giannini S, Buda R, Setti S, Caruso G, Massari L.
Source
IRCCS Foundation, Orthopaedic and Traumatology Department, S. Matteo Hospital Institute, University of Pavia, Pavia, Italy.
Abstract
Pre-clinical studies have shown that treatment by pulsed
electromagnetic fields (PEMFs) can limit the catabolic effects of
pro-inflammatory cytokines on articular cartilage and favour the
anabolic activity of the chondrocytes. Anterior cruciate ligament (ACL)
reconstruction is usually performed by arthroscopic procedure that,
even if minimally invasive, may elicit an inflammatory joint reaction
detrimental to articular cartilage. In this study the effect of I-ONE
PEMFs treatment in patients undergoing ACL reconstruction was
investigated. The study end-points were (1) evaluation of patients’
functional recovery by International Knee Documentation Committee
(IKDC) Form; (2) use of non-steroidal anti-inflammatory drugs (NSAIDs),
necessary to control joint pain and inflammation. The study design was
prospective, randomized and double blind. Sixty-nine patients were
included in the study at baseline. Follow-up visits were scheduled at
30, 60 and 180 days, followed by 2-year follow-up interview. Patients
were evaluated by IKDC Form and were asked to report on the use of
NSAIDs. Patients were randomized to active or placebo treatments;
active device generated a magnetic field of 1.5 mT at 75 Hz. Patients
were instructed to use the stimulator (I-ONE) for 4 h per day for 60
days. All patients underwent ACL reconstruction with use of quadruple
hamstrings semitendinosus and gracilis technique. At baseline there
were no differences in the IKDC scores between the two groups. At
follow-up visits the SF-36 Health Survey score showed a statistically
significant faster recovery in the group of patients treated with I-ONE
stimulator (P < 0.05). NSAIDs use was less frequent among active
patients than controls (P < 0.05). Joint swelling resolution and
return to normal range of motion occurred faster in the active treated
group (P < 0.05) too. The 2-year follow-up did not shown
statistically significant difference between the two groups.
Furthermore for longitudinal analysis the generalized linear mixed
effects model was applied to calculate the group x time interaction
coefficient; this interaction showed a significant difference (P <
0.0001) between the active and placebo groups for all investigated
variables: SF-36 Health Survey, IKDC Subjective Knee Evaluation and
VAS. Twenty-nine patients (15 in the active group; 14 in the placebo
group) underwent both ACL reconstruction and meniscectomy; when they
were analysed separately the differences in SF-36 Health Survey scores
between the two groups were larger then what observed in the whole
study group (P < 0.05). The results of this study show that
patient’s functional recovery occurs earlier in the active group. No
side effects were observed and the treatment was well tolerated. The use
of I-ONE should always be considered after ACL reconstruction,
particularly in professional athletes, to shorten the recovery time, to
limit joint inflammatory reaction and its catabolic effects on
articular cartilage and ultimately for joint preservation.
Knee Surg Sports Traumatol Arthrosc. 2007 Jul;15(7):830-4. Epub 2007 Feb 28.
Effects of pulsed electromagnetic fields on patients’ recovery after
arthroscopic surgery: prospective, randomized and double-blind study.
Zorzi C, Dall’Oca C, Cadossi R, Setti S.
“Sacro Cuore Don Calabria” Hospital, Via don A. Sempreboni 5, 37024 Negrar (Vr), Italy.
Abstract
Severe joint inflammation following trauma, arthroscopic surgery or
infection can damage articular cartilage, thus every effort should be
made to protect cartilage from the catabolic effects of
pro-inflammatory cytokines and stimulate cartilage anabolic
activities. Previous pre-clinical studies have shown that pulsed
electromagnetic fields (PEMFs) can protect articular cartilage from
the catabolic effects of pro-inflammatory cytokines, and prevent its
degeneration, finally resulting in chondroprotection. These findings
provide the rational to support the study of the effect of PEMFs in
humans after arthroscopic surgery. The purpose of this pilot,
randomized, prospective and double-blind study was to evaluate the
effects of PEMFs in patients undergoing arthroscopic treatment of knee
cartilage. Patients with knee pain were recruited and treated by
arthroscopy with chondroabrasion and/or perforations and/or
radiofrequencies. They were randomized into two groups: a control
group (magnetic field at 0.05 mT) and an active group (magnetic field
of 1.5 mT). All patients were instructed to use PEMFs for 90 days, 6 h
per day. The patients were evaluated by the Knee injury and
Osteoarthritis Outcome Score (KOOS) test before arthroscopy, and after
45 and 90 days. The use of non-steroidal anti-inflammatory drugs
(NSAIDs) to control pain was also recorded. Patients were interviewed
for the long-term outcome 3 years after arthroscopic surgery.
Thirty-one patients completed the treatment. KOOS values at 45 and 90
days were higher in the active group and the difference was
significant at 90 days (P < 0.05). The percentage of patients who
used NSAIDs was 26% in the active group and 75% in the control group (P =
0.015). At 3 years follow-up, the number of patients who completely
recovered was higher in the active group compared to the control group
(P < 0.05). Treatment with I-ONE aided patient recovery after
arthroscopic surgery, reduced the use of NSAIDs, and also had a positive
long-term effect.
Life Sci. 2007 Jun 6;80(26):2403-10. Epub 2007 May 1.
Low frequency and low intensity pulsed electromagnetic field exerts
its antiinflammatory effect through restoration of plasma membrane
calcium ATPase activity.
Selvam R, Ganesan K, Narayana Raju KV, Gangadharan AC, Manohar BM, Puvanakrishnan R.
Department of Pharmacology and Toxicology, Madras Veterinary College, Vepery, Chennai, India.
Abstract
Rheumatoid arthritis (RA) is a chronic inflammatory disorder
affecting 1% of the population worldwide. Pulsed electromagnetic field
(PEMF) has a number of well-documented physiological effects on cells
and tissues including antiinflammatory effect. This study aims to
explore the antiinflammatory effect of PEMF and its possible mechanism
of action in amelioration of adjuvant induced arthritis (AIA). Arthritis
was induced by a single intradermal injection of heat killed
Mycobacterium tuberculosis at a concentration of 500 microg in 0.1 ml of
paraffin oil into the right hind paw of rats. The arthritic animals
showed a biphasic response regarding changes in the paw edema volume.
During the chronic phase of the disease, arthritic animals showed an
elevated level of lipid peroxides and depletion of antioxidant enzymes
with significant radiological and histological changes. Besides, plasma
membrane Ca(2+) ATPase (PMCA) activity was inhibited while
intracellular Ca(2+) level as well as prostaglandin E(2) levels was
noticed to be elevated in blood lymphocytes of arthritic rats. Exposure
of arthritic rats to PEMF at 5 Hzx4 microT x 90 min, produced
significant antiexudative effect resulting in the restoration of the
altered parameters. The antiinflammatory effect could be partially
mediated through the stabilizing action of PEMF on membranes as
reflected by the restoration of PMCA and intracellular Ca(2+) levels in
blood lymphocytes subsequently inhibiting PGE(2) biosynthesis. The
results of this study indicated that PEMF could be developed as a
potential therapy for RA in human beings.
BMC Musculoskelet Disord. 2007 Jun 22;8:51.
Short-term efficacy of physical interventions in osteoarthritic knee
pain. A systematic review and meta-analysis of randomised
placebo-controlled trials.
Bjordal JM, Johnson MI, Lopes-Martins RA, Bogen B, Chow R, Ljunggren AE.
Faculty of Health and Social Sciences, Institute of Physiotherapy,
Bergen University College, Moellendalsvn, Bergen Norway. jmb@hib.no
Abstract
BACKGROUND: Treatment efficacy of physical agents in osteoarthritis
of the knee (OAK) pain has been largely unknown, and this systematic
review was aimed at assessing their short-term efficacies for pain
relief.
METHODS: Systematic review with meta-analysis of efficacy within 1-4
weeks and at follow up at 1-12 weeks after the end of treatment.
RESULTS: 36 randomised placebo-controlled trials (RCTs) were
identified with 2434 patients where 1391 patients received active
treatment. 33 trials satisfied three or more out of five methodological
criteria (Jadad scale). The patient sample had a mean age of 65.1
years and mean baseline pain of 62.9 mm on a 100 mm visual analogue
scale (VAS). Within 4 weeks of the commencement of treatment manual
acupuncture, static magnets and ultrasound therapies did not offer
statistically significant short-term pain relief over placebo. Pulsed
electromagnetic fields offered a small reduction in pain of 6.9 mm [95%
CI: 2.2 to 11.6] (n = 487). Transcutaneous electrical nerve
stimulation (TENS, including interferential currents),
electro-acupuncture (EA) and low level laser therapy (LLLT) offered
clinically relevant pain relieving effects of 18.8 mm [95% CI: 9.6 to
28.1] (n = 414), 21.9 mm [95% CI: 17.3 to 26.5] (n = 73) and 17.7 mm
[95% CI: 8.1 to 27.3] (n = 343) on VAS respectively versus placebo
control. In a subgroup analysis of trials with assumed optimal doses,
short-term efficacy increased to 22.2 mm [95% CI: 18.1 to 26.3] for
TENS, and 24.2 mm [95% CI: 17.3 to 31.3] for LLLT on VAS. Follow-up
data up to 12 weeks were sparse, but positive effects seemed to
persist for at least 4 weeks after the course of LLLT, EA and TENS
treatment was stopped.
Pain Res Manag. 2006 Summer;11(2):85-90.
Exposure to a specific pulsed low-frequency magnetic field: a
double-blind placebo-controlled study of effects on pain ratings in
rheumatoid arthritis and fibromyalgia patients.
Shupak NM, McKay JC, Nielson WR, Rollman GB, Prato FS, Thomas AW.
Lawson Health Research Institute, St. Joseph’s Health Care, London, Ontario N6A 4V2.
Abstract
BACKGROUND: Specific pulsed electromagnetic fields (PEMFs) have been
shown to induce analgesia (antinociception) in snails, rodents and
healthy human volunteers.
OBJECTIVE: The effect of specific PEMF exposure on pain and anxiety ratings was investigated in two patient populations.
DESIGN: A double-blind, randomized, placebo-controlled parallel design was used.
METHOD: The present study investigated the effects of an acute 30 min
magnetic field exposure (less than or equal to 400 microTpk; less than
3 kHz) on pain (McGill Pain Questionnaire [MPQ], visual analogue scale
[VAS]) and anxiety (VAS) ratings in female rheumatoid arthritis (RA)
(n=13; mean age 52 years) and fibromyalgia (FM) patients (n=18; mean age
51 years) who received either the PEMF or sham exposure treatment.
RESULTS: A repeated measures analysis revealed a significant
pre-post-testing by condition interaction for the MPQ Pain Rating Index
total for the RA patients, F(1,11)=5.09, P<0.05, estimate of effect
size = 0.32, power = 0.54. A significant pre-post-effect for the same
variable was present for the FM patients, F(1,15)=16.2, P<0.01,
estimate of effect size = 0.52, power =0.96. Similar findings were found
for MPQ subcomponents and the VAS (pain). There was no significant
reduction in VAS anxiety ratings pre- to post-exposure for either the RA
or FM patients.
CONCLUSION: These findings provide some initial support for the use
of PEMF exposure in reducing pain in chronic pain populations and
warrants continued investigation into the use of PEMF exposure for
short-term pain relief.
Z Orthop Ihre Grenzgeb. 2005 Sep-Oct;143(5):544-50.
Adjuvant treatment of knee osteoarthritis with weak pulsing magnetic
fields. Results of a placebo-controlled trial prospective clinical
trial.
[Article in German]
Fischer G, Pelka RB, Barovic J.
Institut für Hygiene an der Universität Graz, Osterreich.
Abstract
PURPOSE: The aim of this study was the objective control of the
therapeutic effect of weak pulsing magnetic fields (series of
periodically repeating square pulses increasing according to an
e-function, frequencies of 10, 20, 30, and 200-300 Hz) by means of a
double-blind study on osteoarthritis of the knee. Measured parameters
were the Knee Society score, pain sensation, blood count and
cardiocirculatory values.
METHODS: 36 placebo and 35 verum test persons (all with a knee gap
smaller than 3 mm) were exposed daily for 16 minutes over 6 weeks to a
low frequency magnetic field (flux densities increasing gradually from
3.4 up to 13.6 microT) encompassing the whole body. The last data
collection was made 4 weeks after the end of treatment.
RESULTS: Principally, the statistically ensured results exclusively
favour the used magnetic field therapy; by far the greatest number of at
least significant differences was found at the end of the whole
treatment, lasting 6 weeks. In particular, it is striking that all 4
questioned pain scales showed at least significant improvements in
favour of the verum collective; also the walking distance was increased.
As another confirmed fact, even after 4 weeks without therapy the
persistence of several functional and analgesic effects could be
documented.
CONCLUSIONS: Predominantly, on the one hand, pain relief in
osteoarthritis patients was confirmed by a double-blind trial, on the
other hand, increases in mobility could be proven. Furthermore, we
describe mainly the modes of action of low frequency magnetic energy and
3 physical concepts that are seen as the connecting link between
electromagnetic fields coupled into connective tissue and biochemical
repair and growth processes in bones and cartilage. Proceeding from the
results of this and preceding studies, one has to consider seriously
whether this kind of magnetic field application should not be employed
as cost-effective and side effect-free alternative or adjuvant form of
therapy in the field of orthopaedic disorders.
Bioelectromagnetics. 2005 Sep;26(6):431-9. |
Optimization of pulsed electromagnetic field therapy for management of arthritis in rats.
Kumar VS, Kumar DA, Kalaivani K, Gangadharan AC, Raju KV, Thejomoorthy P, Manohar BM, Puvanakrishnan R.
Department of Pharmacology and Toxicology, Madras Veterinary College, Vepery, Chennai, India.
Studies were undertaken to find out the effects of low frequency
pulsed electromagnetic field (PEMF) in adjuvant induced arthritis (AIA)
in rats, a widely used model for screening potential therapies for
rheumatoid arthritis (RA). AIA was induced by an intradermal injection
of a suspension of heat killed Mycobacterium tuberculosis (500 mug/0.1
ml) into the right hind paw of male Wistar rats. This resulted in
swelling, loss of body weight, increase in paw volume as well as the
activity of lysosomal enzymes viz., acid phosphatase, cathepsin D, and
beta-glucuronidase and significant radiological and histological
changes. PEMF therapy for arthritis involved optimization of three
significant factors, viz., frequency, intensity, and duration; and the
waveform used is sinusoidal. The use of factorial design in lieu of
conventional method resulted in the development of an ideal combination
of these factors. PEMF was applied using a Fransleau-Braunbeck coil
system. A magnetic field of 5 Hz x 4 muT x 90 min was found to be
optimal in lowering the paw edema volume and decreasing the activity of
lysosomal enzymes. Soft tissue swelling was shown to be reduced as
evidenced by radiology. Histological studies confirmed reduction in
inflammatory cells infiltration, hyperplasia, and hypertrophy of cells
lining synovial membrane. PEMF was also shown to have a membrane
stabilizing action by significantly inhibiting the rate of release of
beta-glucuronidase from lysosomal rich and sub-cellular fractions. The
results indicated that PEMF could be developed as a potential therapy
in the treatment of arthritis in humans.
Biomed Pharmacother. 2005 Aug 2; [Epub ahead of print] |
Effects of pulsed electromagnetic fields on articular hyaline cartilage: review of experimental and clinical studies.
Fini M, Giavaresi G, Carpi A, Nicolini A, Setti S, Giardino R.
Experimental Surgery Department, Research Institute
Codivilla-Putti-Rizzoli, Orthopedic Institute, via di Barbiano 1/10,
40136 Bologna, Italy.
Osteoarthritis (OA) is the most common disorder of the
musculoskeletal system and is a consequence of mechanical and biological
events that destabilize tissue homeostasis in articular joints.
Controlling chondrocyte death and apoptosis, function, response to
anabolic and catabolic stimuli, matrix synthesis or degradation and
inflammation is the most important target of potential chondroprotective
treatment, aimed to retard or stabilize the progression of OA.
Although many drugs or substances have been recently introduced for the
treatment of OA, the majority of them relieve pain and increase
function, but do not modify the complex pathological processes that
occur in these tissues. Pulsed electromagnetic fields (PEMFs) have a
number of well-documented physiological effects on cells and tissues
including the upregulation of gene expression of members of the
transforming growth factor beta super family, the increase in
glycosaminoglycan levels, and an anti-inflammatory action. Therefore,
there is a strong rationale supporting the in vivo use of biophysical
stimulation with PEMFs for the treatment of OA. In the present paper
some recent experimental in vitro and in vivo data on the effect of
PEMFs on articular cartilage were reviewed. These data strongly support
the clinical use of PEMFs in OA patients.
Osteoarthritis Cartilage. 2005 Jul;13(7):575-81.
Treatment of knee osteoarthritis with pulsed electromagnetic fields: a randomized, double-blind, placebo-controlled study.
Thamsborg G, Florescu A, Oturai P, Fallentin E, Tritsaris K, Dissing S.
Department of Geriatri and Rheumatology, Glostrup Hospital, 2600 Glostrup, Denmark.
OBJECTIVE: The investigation aimed at determining the effectiveness
of pulsed electromagnetic fields (PEMF) in the treatment of
osteoarthritis (OA) of the knee by conducting a randomized,
double-blind, placebo-controlled clinical trial.
DESIGN: The trial consisted of 2h daily treatment 5 days per week for
6 weeks in 83 patients with knee OA. Patient evaluations were done at
baseline and after 2 and 6 weeks of treatment. A follow-up evaluation
was done 6 weeks after treatment. Activities of daily living (ADL),
pain and stiffness were evaluated using the Western Ontario and
McMaster Universities (WOMAC) questionnaire.
RESULTS: Within group analysis revealed a significant improvement in
ADL, stiffness and pain in the PEMF-treated group at all evaluations.
In the control group there was no effect on ADL after 2 weeks and a
weak significance was seen after 6 and 12 weeks. Significant effects
were seen on pain at all evaluations and on stiffness after 6 and 12
weeks. Between group analysis did not reveal significant improvements
over time. Analysis of ADL score for the PEMF-treated group revealed a
significant correlation between less improvement and increasing age.
Analysis of patients <65 years using between group analysis revealed
a significant improvement for stiffness on treated knee after 2
weeks, but this effect was not observed for ADL and pain.
CONCLUSIONS: Applying between group analysis we were unable to
demonstrate a beneficial symptomatic effect of PEMF in the treatment of
knee OA in all patients. However, in patients <65 years of age
there is significant and beneficial effect of treatment related to
stiffness
Orthop Res. 2005 Jul;23(4):899-908. Epub 2005 Mar 17.
Pulsed electromagnetic fields reduce knee osteoarthritis lesion progression in the aged Dunkin Hartley guinea pig.
Fini M, Giavaresi G, Torricelli P, Cavani F, Setti S, Cane V, Giardino R.
Department of Experimental Surgery, Codivilla-Putti Research
Institute, Rizzoli Institute of Orthopaedics, Via di Barbiano, 1/10,
40136 Bologna, Italy. milena.fini@ior.it
An experimental in vivo study was performed to test if the effect of
Pulsed Electromagnetic Fields (PEMFs) on chondrocyte metabolism and
adenosine A2a agonist activity could have a chondroprotective effect
on the knee of Dunkin Hartley guinea-pigs of 12 months with
spontaneously developed osteoarthritis (OA). After a pilot study, 10
animals were randomly divided into two groups: PEMF-treated group (6
h/day for 3 months) and Sham-treated group. Microradiography and
histomorphometry were performed on the entire articular surface of
knee joints used in evaluating chondropathy severity, cartilage
thickness (CT), cartilage surface Fibrillation Index (FI), subchondral
bone plate thickness (SBT) and histomorphometric characteristics of
trabecular epiphyseal bone. The PEMF-treated animals showed a
significant reduction of chondropathy progression in all knee examined
areas (p<0.05). CT was significantly higher (p<0.001) in the
medial tibia plateaus of the PEMF-treated group when compared to the
Sham-treated group. The highest value of FI was observed in the medial
tibia plateau of the Sham-treated group (p<0.05). Significant
lower values were observed in SBT of PEMF-treated group in comparison
to Sham-treated group in all knee examined areas (p<0.05). The
present study results show that PEMFs preserve the morphology of
articular cartilage and slower the progression of OA lesions in the
knee of aged osteoarthritic guinea pigs. The chondroprotective effect
of PEMFs was demonstrated not only in the medial tibial plateau but
also on the entire articular surface of the knee.
B
Rheumatol Int. 2005 Jun 29; [Epub ahead of print]
The effect of pulsed electromagnetic fields in the treatment of
cervical osteoarthritis: a randomized, double-blind, sham-controlled
trial.
Sutbeyaz ST, Sezer N, Koseoglu BF.
Ankara Physical Medicine and Rehabilitation Education and Research Hospital, Turk ocagi S No: 3 Sihhiye, Ankara, Turkey.
The purpose of this study was to evaluate the effect of
electromagnetic field therapy (PEMF) on pain, range of motion (ROM) and
functional status in patients with cervical osteoarthritis (COA).
Thirty-four patients with COA were included in a randomized,
double-blind study. PEMF was administrated to the whole body using a mat
1.8×0.6 m in size. During the treatment, the patients lay on the mat
for 30 min per session, twice a day for 3 weeks. Pain levels in the
PEMF group decreased significantly after therapy (p<0.001), but no
change was observed in the placebo group. The active ROM,
paravertebral muscle spasm and neck pain and disability scale (NPDS)
scores improved significantly after PEMF therapy (p<0.001) but no
change was observed in the sham group. The results of this study are
promising, in that PEMF treatment may offer a potential therapeutic
adjunct to current COA therapies in the future. |
Osteoarthritis Cartilage. 2003 Jun;11(6):455-62.
Modification of osteoarthritis by pulsed electromagnetic field–a morphological study.
Ciombor DM, Aaron RK, Wang S, Simon B.
Department of Orthopaedics, Brown Medical School, Providence, RI 02906, USA.
Abstract
OBJECTIVE: Hartley guinea pigs spontaneously develop arthritis that
bears morphological, biochemical, and immunohistochemical similarities
to human osteoarthritis. It is characterized by the appearance of
superficial fibrillation by 12 months of age and severe cartilage
lesions and eburnation by 18 months of age. This study examines the
effect of treatment with a pulsed electromagnetic field (PEMF) upon the
morphological progression of osteoarthritis in this animal model.
DESIGN: Hartley guinea pigs were exposed to a specific PEMF for
1h/day for 6 months, beginning at 12 months of age. Control animals were
treated identically, but without PEMF exposure. Tibial articular
cartilage was examined with histological/histochemical grading of the
severity of arthritis, by immunohistochemistry for cartilage
neoepitopes, 3B3(-) and BC-13, reflecting enzymatic cleavage of
aggrecan, and by immunoreactivity to collagenase (MMP-13) and
stromelysin (MMP-3). Immunoreactivity to TGFbeta, interleukin
(IL)-1beta, and IL receptor antagonist protein (IRAP) antibodies was
examined to suggest possible mechanisms of PEMF activity.
RESULTS: PEMF treatment preserves the morphology of articular
cartilage and retards the development of osteoarthritic lesions. This
observation is supported by a reduction in the cartilage neoepitopes,
3B3(-) and BC-13, and suppression of the matrix-degrading enzymes,
collagenase and stromelysin. Cells immunopositive to IL-1 are decreased
in number, while IRAP-positive cells are increased in response to
treatment. PEMF treatment markedly increases the number of cells
immunopositive to TGFbeta.
CONCLUSIONS: Treatment with PEMF appears to be disease-modifying in
this model of osteoarthritis. Since TGFbeta is believed to upregulate
gene expression for aggrecan, downregulate matrix metalloprotease and
IL-1 activity, and upregulate inhibitors of matrix metalloprotease, the
stimulation of TGFbeta may be a mechanism through which PEMF
favorably affects cartilage homeostasis.
The Effect of Pulsed Electromagnetic Fields in the Treatment of
Osteoarthritis of the Knee and Cervical Spine. Report of Randomized,
Double-Blind, Placebo Controlled Trials
Trock D. et.al. Department of Medicine, Danbury Hospital, CT. J. of Rheumatology
OBJECTIVE. We conducted a randomized, double blind
clinical trial to determine the effectiveness of pulsed electromagnetic
fields (PEMF) in the treatment of osteoarthritis (OA) of the knee and
cervical spine.
METHODS. A controlled trial of 18 half-hour active
or placebo treatments was conducted in 86 patients with OA of the knee
and 81 patients with OA of the cervical spine, in which pain was
evaluated using a 10 cm visual analog scale, activities of daily living
using a series of questions (answered by the patient as never,
sometimes, most of the time, or always), pain on passive motion
(recorded as none, slight, moderate, or severe), and joint tenderness
(recorded using a modified Ritchie scale). Global evaluations of
improvement were made by the patient and examining physician.
Evaluations were made at baseline, midway, end of treatment, and one
month after completion of treatment.
RESULTS. Matched pair t tests showed extremely
significant changes from baseline for the treated patients in both knee
and cervical spine studies at the end of treatment and the one month
follow-up observations, whereas the changes in the placebo patients
showed lesser degrees of significance at the end of treatment, and had
lost significance for most variables at the one month follow-up. Means
of the treated group of patients with OA of the knee showed greater
improvement from baseline values than the placebo group by the end of
treatment and at the one month follow-up observation. Using the 2-tailed
t test, at the end of treatment the differences in the means of the 2
groups reached statistical significance for pain, pain on motion, and
both the patient overall assessment and the physician global
assessment. The means of the treated patients with OA of the cervical
spine showed greater improvement from baseline than the placebo group
for most variables at the end of treatment and one month follow-up
observations; these differences reached statistical significance at
one or more observation points for pain, pain on motion, and
tenderness.
CONCLUSION. PEMF has therapeutic benefit in painful OA of the knee or cervical spine.
J Med Eng Technol. 2002 Nov-Dec;26(6):253-8.
Comparison between the analgesic and therapeutic effects of
musically modulated electromagnetic field (TAMMEF) and those if a 100 Hz
electromagnetic field: blind experiemnt on patients suffering from
cervical spondylosis or shoulder periarthritis.
Rigato M, Battisti E, Fortunato M, Giordano N.
Department of Physics, Section of Medical Physics University of Sienna, Italy. rigato@unisi.it
The analgesic-therapeutic efficacy and tolerability of a
low-frequency electromagnetic field (ELF), modulated at a frequency of
100 Hz with a sinusoidal waveform and mean induction of a few gauss,
has been demonstrated by the authors in numerous previous studies of
various hyperalgic pathologies, particularly of the locomotor
apparatus. In the present study, the authors tested a new type of
all-inclusive field, denoted TAMMEF, whose parameters (frequency,
intensity, waveform) are modified in time, randomly varying within the
respective ranges, so that all the possible codes can occur during a
single application. For the comparison, 150 subjects (118 women and 32
men, between 37 and 66 years of age) were enrolled. They were
affected by cervical spondylosis (101 cases) or shoulder periarthritis
(49 cases). Unbeknownst to them, they were randomly divided into
three groups of 50 subjects. One group was exposed to the new TAMMEF,
another group to the usual ELF, and the third group to simulated
treatment. The results show that the effects of the new TAMMEF therapy
are equivalent to those obtained with the ELF.
: Curr Opin Rheumatol. 2002 Sep;14(5):603-7. |
Nonpharmacologic management of osteoarthritis.
Sharma L.
Department of Medicine, Northwestern University Medical School, Chicago, Illinois 60611, USA. L-Sharma@northwestern.edu
Several nonpharmacologic interventions for osteoarthritis are in
different stages of development, investigation, and application. Such
interventions capitalize on current knowledge of the causes of symptoms,
disease progression, and disability in patients with osteoarthritis.
Many nonpharmacologic interventions are low in cost and incorporate
self-management approaches or home-based activities and, as such, may
ultimately have substantial public health impact. Recent studies and
reviews of exercise, weight loss, education, inserts, footwear, bracing,
therapeutic ultrasound, acupuncture, and pulsed electromagnetic field
therapy will be highlighted in this review. For many of these
interventions, further investigation will be necessary to define their
place in the management of osteoarthritis.
Wien Klin Wochenschr. 2002 Aug 30;114(15-16):678-84. |
|
Pulsed magnetic field therapy for osteoarthritis of the knee–a double-blind sham-controlled trial.
Nicolakis P, Kollmitzer J, Crevenna R, Bittner C, Erdogmus CB, Nicolakis J.
Department of Physical Medicine and Rehabilitation, AKH Wien,
University of Vienna, Vienna, Austria. Peter.nicolakis@akh-wien.ac.at
BACKGROUND AND METHODS: Pulsed magnetic field therapy is frequently
used to treat the symptoms of osteoarthritis, although its efficacy has
not been proven. We conducted a randomized, double-blind comparison
of pulsed magnetic field and sham therapy in patients with symptomatic
osteoarthritis of the knee. Patients were assigned to receive 84
sessions, each with a duration of 30 minutes, of either pulsed magnetic
field or sham treatment. Patients administered the treatment on their
own at home, twice a day for six weeks.
RESULTS: According to a sample size estimation, 36 consecutive
patients were enrolled. 34 patients completed the study, two of whom had
to be excluded from the statistical analysis, as they had not applied
the PMF sufficiently. Thus, 15 verum and 17 sham-treated patients
were enrolled in the statistical analysis. After six weeks of
treatment the WOMAC Osteoarthritis Index was reduced in the pulsed
magnetic field-group from 84.1 (+/- 45.1) to 49.7 (+/- 31.6), and from
73.7 (+/- 43.3) to 66.9 (+/- 52.9) in the sham-treated group (p =
0.03). The following secondary parameters improved in the pulsed
magnetic field group more than they did in the sham group: gait speed
at fast walking [+6.0 meters per minute (1.6 to 10.4) vs. -3.2 (-8.5
to 2.2)], stride length at fast walking [+6.9 cm (0.2 to 13.7) vs.
-2.9 (-8.8 to 2.9)], and acceleration time in the isokinetic
dynamometry strength tests [-7.0% (-15.2 to 1.3) vs. 10.1% (-0.3 to
20.6)].
CONCLUSION: In patients with symptomatic osteoarthritis of the knee,
PMF treatment can reduce impairment in activities of daily life and
improve knee function.
Cochrane Database Syst Rev. 2002;(1):CD003523. |
Electromagnetic fields for the treatment of osteoarthritis.
Hulme J, Robinson V, DeBie R, Wells G, Judd M, Tugwell P.
Cochrane Collaborating Center, Center for Global Health, Institute of
Population Health – University of Ottawa, 1 Stewart Street, Ottawa,
Ontario, Canada, K1N 6N5. jhulme@uottawa.ca
BACKGROUND: As the focus for osteoarthritis (OA) treatment shifts
away from drug therapy, we consider the effectiveness of pulsed electric
stimulation which is proven to stimulate cartilage growth on the
cellular level.
OBJECTIVES: 1)To assess the effectiveness of pulsed electric
stimulation for the treatment of osteoarthritis (OA). 2) To assess the
most effective and efficient method of applying an electromagnetic
field, through pulsed electromagnetic fields (PEMF) or electric
stimulation, as well as the consideration of length of treatment,
dosage, and the frequency of the applications.
SEARCH STRATEGY: We searched PREMEDLINE, MEDLINE, HealthSTAR, CINAHL,
PEDro, and the Cochrane Controlled Trials Register (CCTR) up to and
including 2001. This included searches through the coordinating offices
of the trials registries of the Cochrane Field of Physical and
Related Therapies and the Cochrane Musculoskeletal Group for further
published and unpublished articles. The electronic search was
complemented by hand searches and experts in the area.
SELECTION CRITERIA: Randomized controlled trials and controlled
clinical trials that compared PEMF or direct electric stimulation
against placebo in patients with OA.
DATA COLLECTION AND ANALYSIS: Two reviewers determined the studies to
be included in the review based on inclusion and exclusion criteria
(JH,VR) and extracted the data using pre-developed extraction forms for
the Cochrane Musculoskeletal Group. The methodological quality of the
trials was assessed by the same reviewers using a validated scale
(Jadad 1996). Osteoarthritis outcome measures were extracted from the
publications according to OMERACT guidelines (Bellamy 1997) and
additional secondary outcomes considered.
MAIN RESULTS: Only three studies with a total of 259 OA patients were
included in the review. Electrical stimulation therapy had a small to
moderate effect on outcomes for knee OA, all statistically
significant with clinical benefit ranging from 13-23% greater with
active treatment than with placebo. Only 2 outcomes for cervical OA
were significantly different with PEMF treatment and no clinical
benefit can be reported with changes of 12% or less.
REVIEWER’S CONCLUSIONS: Current evidence suggests that electrical
stimulation therapy may provide significant improvements for knee OA,
but further studies are required to confirm whether the statistically
significant results shown in these trials confer to important benefits.
Arch Phys Med Rehabil. 2001 Oct;82(10):1453-60.
Two configurations of static magnetic fields for treating rheumatoid arthritis of the knee: a double-blind clinical trial.
Segal NA, Toda Y, Huston J, Saeki Y, Shimizu M, Fuchs H, Shimaoka Y, Holcomb R, McLean MJ.
Vanderbilt University Medical School, Nashville, TN 37232, USA.
Abstract
OBJECTIVE: To assess the efficacy of a nonpharmacologic, noninvasive
static magnetic device as adjunctive therapy for knee pain in patients
with rheumatoid arthritis (RA).
DESIGN: Randomized, double-blind, controlled, multisite clinical trial.
SETTING: An American and a Japanese academic medical center as well as 4 community rheumatology and orthopedics practices.
PATIENTS: Cohort of 64 patients over age 18 years with rheumatoid
arthritis and persistent knee pain, rated greater than 40/100mm, despite
appropriate use of medications.
INTERVENTION: Four blinded MagnaBloc (with 4 steep field gradients)
or control devices (with 1 steep field gradient) were taped to a knee
of each subject for 1 week.
MAIN OUTCOME MEASURES: The American College of Rheumatology
recommended core set of disease activity measures for RA clinical trials
and subjects’ assessment of treatment outcome.
RESULTS: Subjects randomly assigned to the MagnaBloc (n = 38) and
control treatment groups (n = 26) reported baseline pain levels of
63/100mm and 61/100mm, respectively. A greater reduction in reported
pain in the MagnaBloc group was sustained through the 1-week follow-up
(40.4% vs 25.9%) and corroborated by twice daily pain diary results (p
< .0001 for each vs baseline). However, comparison between the 2
groups demonstrated a statistically insignificant difference (p <
.23). Subjects in the MagnaBloc group reported an average decrease in
their global assessment of disease activity of 33% over 1 week, as
compared with a 2% decline in the control group (p < .01). After 1
week, 68% of the MagnaBloc treatment group reported feeling better or
much better, compared with 27% of the control group, and 29% and 65%,
respectively, reported feeling the same as before treatment (p <
.01).
CONCLUSIONS: Both devices demonstrated statistically significant pain
reduction in comparison to baseline, with concordance across multiple
indices. However, a significant difference was not observed between
the 2 treatment groups (p < .23). In future studies, the MagnaBloc
treatment should be compared with a nonmagnetic placebo treatment to
characterize further its therapeutic potential for treating RA. This
study did elucidate methods for conducting clinical trials with magnetic
devices.
Curr Med Res Opin. 2001;17(3):190-6.
Magnetic pulse treatment for knee osteoarthritis: a randomised, double-blind, placebo-controlled study.
Pipitone N, Scott DL.
Rheumatology Department, King’s College Hospital (Dulwich), London, UK.
Abstract
We assessed the efficacy and tolerability of low-frequency pulsed
electromagnetic fields (PEMF) therapy in patients with clinically
symptomatic knee osteoarthritis (OA) in a randomised,
placebo-controlled, double-blind study of six weeks’ duration. Patients
with radiographic evidence and symptoms of OA (incompletely relieved by
conventional treatments), according to the criteria of the American
College of Rheumatology, were recruited from a single tertiary referral
centre. 75 patients fulfilling the above criteria were randomised to
receive active PEMF treatment by unipolar magnetic devices (Medicur)
manufactured by Snowden Healthcare (Nottingham, UK) or placebo. Six
patients failed to attend after the screening and were excluded from
analysis. The primary outcome measure was reduction in overall pain
assessed on a four-point Likert scale ranging from nil to severe.
Secondary outcome measures included the WOMAC Osteoarthritis Index
(Likert scale) and the EuroQol (Euro-Quality of Life, EQ-5D). Baseline
assessments showed that the treatment groups were equally matched.
Although there were no significant differences between active and sham
treatment groups in respect of any outcome measure after treatment,
paired analysis of the follow-up observations on each patient showed
significant improvements in the actively treated group in the WOMAC
global score (p = 0.018), WOMAC pain score (p = 0.065), WOMAC disability
score (p = 0.019) and EuroQol score (p = 0.001) at study end compared
to baseline. In contrast, there were no improvements in any variable in
the placebo-treated group. There were no clinically relevant adverse
effects attributable to active treatment. These results suggest that the
Medicur unipolar magnetic devices are beneficial in reducing pain and
disability in patients with knee OA resistant to conventional treatment
in the absence of significant side-effects. Further studies using
different types of magnetic devices, treatment protocols and patient
populations are warranted to confirm the general efficacy of PEMF
therapy in OA and other conditions.
Altern Ther Health Med. 2001 Sep-Oct;7(5):54-64, 66-9. |
Low-amplitude, extremely low frequency magnetic field for the treatment of osteoarthritic knees: a double-blind clinical study.
Jacobson JI, Gorman R, Yamanashi WS, Saxena BB, Clayton L.
Institute of Theoretical Physics and Advanced Studies for Biophysical
Research, Perspectivism Foundation, 2006 Mainsail Cir, Jupiter, FL
33477-1418, USA. drjjacobson@aol.com
CONTEXT: Noninvasive magnetotherapeutic approaches to bone healing
have been successful in past clinical studies. OBJECTIVE: To determine
the effectiveness of low-amplitude, extremely low frequency magnetic
fields on patients with knee pain due to osteoarthritis. DESIGN:
Placebo-controlled, randomized, double-blind clinical study.
SETTING: 4 outpatient clinics.
PARTICIPANTS: 176 patients were randomly assigned to 1 of 2 groups,
the placebo group (magnet off) or the active group (magnet on).
INTERVENTION: 6-minute exposure to each magnetic field signal using 8
exposure sessions for each treatment session, the number of treatment
sessions totaling 8 during a 2-week period, yielded patients being
exposed to uniform magnetic fields for 48 minutes per treatment session 8
times in 2 weeks. The magnetic fields used in this study were
generated by a Jacobson Resonator, which consists of two 18-inch
diameter (46-cm diameter) coils connected in series, in turn connected
to a function generator via an attenuator to obtain the specific
amplitude and frequency. The range of magnetic field amplitudes used
was from 2.74 x 10(-7) to 3.4 x 10(-8) G, with corresponding
frequencies of 7.7 to 0.976 Hz.
OUTCOME MEASURES: Each subject rated his or her pain level from 1
(minimal) to 10 (maximal) before and after each treatment and 2 weeks
after treatment. Subjects also recorded their pain intensity in a diary
while outside the treatment environment for 2 weeks after the last
treatment session (session 8) twice daily: upon awakening (within 15
minutes) and upon retiring (just before going to bed at night).
RESULTS: Reduction in pain after a treatment session was
significantly (P < .001) greater in the magnet-on group (46%)
compared to the magnet-off group (8%).
CONCLUSION: Low-amplitude, extremely low frequency magnetic fields
are safe and effective for treating patients with chronic knee pain due
to osteoarthritis.
Acta Med Austriaca. 2000;27(3):61-8.
Clinical effectiveness of magnetic field therapy–a review of the literature
[Article in German].
Quittan M, Schuhfried O, Wiesinger GF, Fialka-Moser V.
Universitätsklinik für Physikalische Medizin und Rehabilitation, Wien. michael.quittan@akh-wien.ac.at
Abstract
To verify the efficacy of electromagnetic fields on various diseases
we conducted a computer-assisted search of the pertinent literature.
The search was performed with the aid of the Medline and Embase
database (1966-1998) and reference lists. Clinical trials with at least
one control group were selected. The selection criteria were met by
31 clinical studies. 20 trials were designed double-blind, randomised
and placebo-controlled. The studies were categorised by indications.
Electromagnetic fields were applied to promote bone-healing, to treat
osteoarthritis and inflammatory diseases of the musculoskeletal system,
to alleviate pain, to enhance healing of ulcers and to reduce
spasticity. The action on bone healing and pain alleviation of
electromagnetic fields was confirmed in most of the trials. In the
treatment of other disorders the results are contradictory. Application
times varied between 15 minutes and 24 hours per day for three weeks
up to eighteen months. There seems to be a relationship between longer
daily application time and positive effects particular in
bone-healing. Patients were treated with electromagnetic fields of 2
to 100 G (0.2 mT to 10 mT) with a frequency between 12 and 100 Hz.
Optimal dosimetry for therapy with electromagnetic fields is yet not
established.
Rheum Dis Clin North Am. 2000 Feb;26(1):51-62, viii.
Electromagnetic fields and magnets. Investigational treatment for musculoskeletal disorders.
Trock DH.
Yale University School of Medicine, New Haven, Connecticut, USA.
Abstract
Certain pulsed electromagnetic fields (PEMF) affect the growth of
bone and cartilage in vitro, with potential application as an arthritis
treatment. PEMF stimulation is already a proven remedy for delayed
fractures, with potential clinical application for osteoarthritis,
osteonecrosis of bone, osteoporosis, and wound healing. Static magnets
may provide temporary pain relief under certain circumstances. In both
cases, the available data is limited. The mechanisms underlying the
use of PEMF and magnets are discussed.
Vopr Kurortol Fizioter Lech Fiz Kult. 1997 Sep-Oct;(5):25-6.
Experience in using saprogel mud in combination with a magnetic field in treating cervical osteochondrosis.
[Article in Russian]
Samutin NM.
Patients with cervical osteochondrosis were successfully treated with
Deshembinskoe Lake [correction of Deshembinskaya] sapropel mud in
combination with exposure to magnetic field. The details of this
treatment regimen are described. Combination of pelotherapy with effects
of the magnetic field proved beneficial for patients with cervical
osteochondrosis.
J Rheumatol. 1993 Mar;20(3):456-60.
A double-blind trial of the clinical effects of pulsed electromagnetic fields in osteoarthritis.
Trock DH, Bollet AJ, Dyer RH Jr, Fielding LP, Miner WK, Markoll R.
Department of Medicine (Rheumatology), Danbury Hospital, CT 06810.
Abstract
OBJECTIVE: Further evaluation of pulsed electromagnetic fields
(PEMF), which have been observed to produce numerous biological effects,
and have been used to treat delayed union fractures for over a
decade.
METHODS: In a pilot, double-blind randomized trial, 27 patients with
osteoarthritis (OA), primarily of the knee, were treated with PEMF.
Treatment consisted of 18 half-hour periods of exposure over about 1
month in a specially designed noncontact, air-coil device. Observations
were made on 6 clinical variables at baseline, midpoint of therapy,
end of treatment and one month later; 25 patients completed treatment.
RESULTS: An average improvement of 23-61% occurred in the clinical
variables observed with active treatment, while 2 to 18% improvement was
observed in these variables in placebo treated control patients. No
toxicity was observed.
CONCLUSION: The decreased pain and improved functional performance of
treated patients suggests that this configuration of PEMF has
potential as an effective method of improving symptoms in patients with
OA. This method warrants further clinical investigation.
Scand J Rehabil Med. 1992;24(1):51-9.
Low energy high frequency pulsed electromagnetic therapy for acute
whiplash injuries. A double blind randomized controlled study.
Foley-Nolan D. et.al. Mater Hospital, Dublin, Ireland.
The standard treatment of acute whiplash injuries (soft collar and
analgesia) is frequently unsuccessful. Pulsed electromagnetic therapy
PEMT has been shown to have pro-healing and anti-inflammatory effects.
This study examines the effect of PEMT on the acute whiplash syndrome.
PEMT as described is safe for domiciliary use and this study suggests
that PEMT has a beneficial effect in the management of the acute
whiplash injury.
Minerva Anestesiol. 1989 Jul-Aug;55(7-8):295-9.
Pulsed magnetic fields. Observations in 353 patients suffering from chronic pain.
[Article in Italian]
Di Massa A, Misuriello I, Olivieri MC, Rigato M.
Three hundred-fifty-three patients with chronic pain have been
treated with pulsed electromagnetic fields. In this work the Authors
show the result obtained in the unsteady follow-up (2-60 months). The
eventual progressive reduction of benefits is valued by Spearman’s test.
We noted the better results in the group of patients with
post-herpetic pain (deafferentation) and in patients simultaneously
suffering from neck and low back pain.
|
Lik Sprava. 1997 Sep-Oct;(5):170-2. |
A comparative evaluation of the efficacy of magneto- and laser therapy in patients with osteoarthrosis deformans.
[Article in Russian]
Selivonenko VG, Syvolap VD, Porada LV, Medvedeva VN, Boev SS, Morozov AI, Slin’ko VG, Berest SM, Garbuz LN, Sholokh SG.
A comparative evaluation of efficacy of magneto- and laser therapy
was carried out in 82 patients with osteoarthrosis deformans. The
magnetic field and laser irradiation dispelled the pain syndrome and
synovitis manifestations. It is recommendable that the multiple-modality
therapy of patients with osteoarthrosis deformans should involve
magneto- and laser therapy (15 to 20 procedures per one course) that
improve results of the treatment being received and allow the time of
hospitalization to be reduced at an average by 5 bed-days. Laser
appeared to be a very effective mode of treatment. No unfavourable side
effects were recordable.
Panminerva Med. 1992 Oct-Dec;34(4):187-96.
Therapeutic effects of pulsed magnetic fields on joint diseases.
Riva Sanseverino E, Vannini A, Castellacci P.
Universita di Bologna, Italy.
The present paper describes the effects of pulsed magnetic fields
(MF) on diseases of different joints, in chronic as well as acute
conditions where the presence of a phlogistic process is the rule.
Optimal parameters for MF applications were sought at the beginning of
the study and then applied for 11 years; a technical modification in the
MF generator was introduced 5 years ago to satisfy the requirement of a
hypothesis advanced to understand the mechanism of MF treatment. 3,014
patients were treated by means of MF at extremely low frequencies and
intensities. Patient follow-up was pursued as constantly as possible.
Pain removal, recovery of joint mobility and maintenance of the improved
conditions represented the parameters for judging the results as good
or poor. The chi-square test was applied in order to evaluate the
probability that the results are not casual. A general average value of
78.8% of good results and 21.2% of poor results was obtained. Higher
(82%) percentages of good results were observed when single joint
diseases were considered with respect to multiple joint diseases
(polyarthrosis); in the latter, the percentage of good results was
definitely lower (66%). The high percentage of good results obtained and
the absolute absence of both negative results and undesired
side-effects, together with the therapeutic advantage due to a technical
modification in the MF generator, led to the conclusion that magnetic
field treatment is an excellent physical therapy in cases of joint
diseases. A hypothesis is advanced that external magnetic fields
influence transmembrane ionic activity.
Arch Phys Med Rehabil. 1991 Apr;72(5):284-7. |
Electromagnetic treatment of shoulder periarthritis: a randomized
controlled trial of the efficiency and tolerance of magnetotherapy.
Leclaire R, Bourgouin J.
Rehabilitation Medicine Service, Notre Dame Hospital, Montreal, Quebec, Canada.
The potential benefit of magnetotherapy was investigated in 47
consecutive outpatients with periarthritis of the shoulder. Using a
controlled triple-blind study design, one group of patients received hot
pack applications and passive manual stretching and pulley exercises;
the other group received the same therapy plus magnetotherapy.
Treatment was administered three times a week. For a maximum of three
months, a standardized treatment protocol was used. There was no
significant improvement in pain reduction or in range of motion with
electromagnetic field therapy. After 12 weeks of therapy, the patients
who received magnetotherapy showed mean pain scores of 1.5 (+/- .61 SD)
at rest, 2.2 (+/- .76 SD) on movement, and 1.9 (+/- .94 SD), on lying,
compared to scores for the control group of 1.4 (+/- .65 SD), 2.2 (+/-
.7 SD), and 1.9 (+/- .95 SD), respectively. Linear pain scale scores
improved from 71 to 21 for both groups. At 12 weeks the gain in range
of motion was mean 109 degrees +/- 46.8 in patients receiving
electromagnetic field therapy, compared to 122 degrees +/- 33.4 for the
controls (not significant). At entry, the functional handicap score
was 53.5 for both groups. At 12 weeks, it was 24 for the magnetotherapy
group and 17 for the control group (difference not significant). In
conclusion, this study showed no benefit from magnetotherapy in the
pain score, range of motion, or improvement of functional status in
patients with periarthritis of the shoulder.
Bratisl Lek Listy. 1999 Dec;100(12):678-81. |
Personal experience in the use of magnetotherapy in diseases of the musculoskeletal system.
[Article in Slovak]
Sadlonova J, Korpas J.
Ist Dpt of Internal Medicine, Jessenius Faculty of Medicine, Comenius University, Martin, Slovakia. bll@fmed.uniba.sk
Therapeutic application of pulsatile electromagnetic field in
disorders of motility is recently becoming more frequent. Despite this
fact information about the effectiveness of this therapy in the
literature are rare. The aim of this study was therefore the treatment
of 576 patients who suffered from vertebral syndrome, gonarthritis and
coxarthritis. For application of pulsatile electromagnetic field MTU
500H Therapy System was used. Pulsatile electromagnetic field had a
frequency valve of 4.5 mT in all studied groups and magnetic induction
valve 12.5-18.75 mT in the 1st group. In the 2nd group the intensity was
5.8-7.3 mT and in the 3rd group it was 7.6-11.4 mT. The time of
inclination/declination in the 1st group was 20/60 ms, in the 2nd group
40/80 ms and in the 3rd group 40/90 ms. The electromagnetic field was
applied during 10 days. In the 1st-3rd day during 20 minutes and in the
4th-10th day during 30 minutes. The therapy was repeated in every
patient after 3 months with values of intensity higher by 50%. In the
time of pulsatile electro-magnetotherapy the patients were without
pharmacotherapy or other physiotherapy. The application of pulsatile
electromagnetic field is a very effective therapy of vertebral syndrome,
gonarthritis and coxarthritis. The results have shown that the therapy
was more effective in patients suffering from gonarthrosis, than in
patients with vertebral syndrome and least effective in patients with
coxarthosis. Owing to regression of oedema and pain relieve the motility
of patients improved. (Tab. 3, Ref. 19.)