Several Cases of Electromagnetic Sensitivity Effects Related
to antenna-effect of amalgam fillings, metal crowns, titanium implants from
Japanese Dental Practice- cured by removal of metal.
Electromagnetic Waves Collected by a Dental Amalgam Filling
Induced Balance Dysregulation and Dizziness over a Period Exceeding 10 Years, Yoshiro Fujii,
ABSTRACT
This
case report describes a woman aged approximately 50 years who has suffered from
balance dysregulation and dizziness for more than 10 years. Although the
subject underwent several examinations to confirm the etiology of her symptoms,
the root cause remained unknown. The symptoms were thought to be caused by electromagnetic
wave hypersensitivity because the subject experienced uneasiness and
dizziness when a cell phone was held close to her body. A cell phone was
used to diagnose the collection of harmful electromagnetic waves, and an
amalgam filling was determined to be the cause. The amalgam filling was removed
under strict protection, and the subject’s symptoms completely disappeared soon
after the filling was removed.
Sensation
of Balance Dysregulation Caused/Aggravated by a Collection of Electromagnetic
Waves in a Dental Implant
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PP. 29-35
Affiliation(s)
Shin Kobe Dental Clinic, Kobe City, Japan.
ABSTRACT
Cell
phone and personal computer users have increased considerably in recent years,
particularly in more developed countries. These devices have facilitated
communication on a global scale. However, there have been a number of reports
of abnormalities occurring in the body due to the electromagnetic waves emitted
by such electronic devices. The long lists of both general and severe symptoms,
including headaches, fatigue, tinnitus, dizziness, memory loss, irregular
heartbeat, and whole-body skin symptoms, have been reported that are
apparently associated with the condition of electromagnetic hypersensitivity.
In dentistry, titanium dental implants may be commonly associated with
antenna-like activity, but the underlying mechanism remains unknown. In the
current case studies, balance difficulties were found to occur when the
patients had titanium dental implants. These implants seemed to be acting as
antennae and collecting harmful electromagnetic waves. Further studies are
required to confirm this hypothesis.
Dental
Treatment for Dizziness and Joint Mobility Disorder Caused by Harmful
Electromagnetic Waves
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DOI: 10.4236/ojapr.2015.31001 2,586 Downloads 3,312 Views Citations
Author(s) Leave a comment
Affiliation(s)
Shin Kobe Dental Clinic, Kobe City, Japan.
ABSTRACT
With
the development of an IT (Information Technology) society, the opportunity to
use electronic devices, such as cell phones and personal computers, has
increased. These electronic devices pro-vide many benefits to society. However,
there have been a number of reports of electromagnetic hypersensitivity (EHS)
related to the use of electronic devices. The symptoms of EHS may include
headaches, fatigue, tinnitus, dizziness, memory loss, irregular heartbeat, and
skin trouble. Since the pathogenic mechanism of such conditions is not yet
clear, further research is required. This report shows how a subject’s
dizziness and joint mobility disorder, caused by electromagnetic waves emitted
by electronic devices, were cured by removing an onlay
from the patient’s mouth and replacing it with a gold alloy onlay. The result indicates that the subject’s symptoms
were caused by EHS. Although the symptoms were improved after the dental
treatment, the underlying mechanism of the symptoms and the reason why this
treatment is successful remain unclear. Further research is required to clarify
these issues.
KEYWORDS
Dental Treatment, Dizziness, Electromagnetic Hypersensitivity (EHS), Electromagnetic Waves, Joint Mobility Disorder
Conflicts
of Interest
The
authors declare no conflicts of interest.
Cite
this paper
Fujii, Y. (2015) Dental Treatment for Dizziness
and Joint Mobility Disorder Caused by Harmful Electromagnetic Waves. Open Journal of Antennas and
Propagation, 3,
1-7. doi: 10.4236/ojapr.2015.31001.
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OJST> Vol.6 No.2, February 2016
Improvement
of Systemic Symptoms after Dental Implant Removal
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PP. 37-46
DOI: 10.4236/ojst.2016.62005 3,391 Downloads 4,223 Views Citations
Author(s) Leave a comment
Affiliation(s)
Shin Kobe Dental Clinic, Kobe City, Japan.
ABSTRACT
Dental
implants have spread worldwide in dentistry. The risks and complications
reported are limited to local issues. However, in this case, a patient
complained of systemic symptoms after dental implantation. This case report
aims to demonstrate that systemic symptoms such as lumbago, shoulder stiffness,
neck pain, hip joint pain, and facial pain improved after the removal of well-osseointegrated titanium implants. The results suggest that
harmful electromagnetic waves received by implants affect body conditions;
however, to date, the underlying mechanisms have not been identified.
Therefore, further research is required.
KEYWORDS
Dental Implant, Electromagnetic Waves, Titanium Implant, Systemic Symptoms
Received
28 December 2015; accepted 16 February 2016; published 19 February 2016
A
dental implant is a surgical structure that interfaces with the jaw or skull
bone to support a dental prosthesis such as a crown, bridge or removable
denture. It replaces a tooth root. It provides a strong foundation for a fixed
or removable replacement artificial tooth that is made to match a natural
tooth. There are many advantages to a dental implant, including: improved
appearance, improved speech, improved comfort, easier eating, etc. com- pared
to other dental prosthesis such as a bridge, or denture. A dental implant is a
cylindrical and/or tapered post, which serves as a substitute for the tooth
root. Normally, a special device (the abutment) is attached to the implant. The
abutment will hold the dental prosthesis. Recently, titanium and titanium
alloys are commonly used as dental implant materials. The process of
integration of titanium with bone has been termed as “osseointegration” by Branemark [1] . Risks and complications
associated with implant therapy have been divided into those that occur during
surgery (including infection at the implant site; injury or damage to
surrounding structures such as other teeth or blood vessels; nerve damage,
which can cause pain, numbness, or tingling in natural teeth, gums, lips or
chin; and sinus problems when dental implant(s) placed in the upper jaw
protrude into the sinus cavity) [2] ; in the first 6 months
(including infection and failure to osseointegrate);
and over the long term (including peri-implantitis and mechanical failure) [3] . In the presence of healthy
tissues, a well-osseointegrated implant with appropriate
biomechanical loads can have long-term success rates of 93% - 98% for the
fixture [4] - [6] and a lifespan of 10 - 15 years
for the prosthetic teeth [7] . However, although the implant
is well osseointegrated, it may receive harmful
electromagnetic waves, resulting in many adverse systemic conditions [8] [9] .
This study presents a case in which many affected body conditions improved
after the removal of two implants.
Subject and Methods
The
subject was a woman in her 50s who developed pain in her back, hip joints,
neck, face, and legs as well as shoulder stiffness after a titanium dental
implantation in the space left by the removal of her upper right molars. Manual
body therapy such as chiropractic therapy was effective temporarily. She had an
operation in which two titanium implants were installed around 8 years ago. The
topical conditions around the implants after the operation were good. There
were two titanium dental implants but no over-structures installed yet (Figure 1 and Figure 2) because of her serious
systemic conditions, although there were no topical conditions around the
implants, including peri-implantitis (Figure 1). The implants appeared
well-osseointegrated with the alveolar bone (Figure 2).
When
an active cell phone was brought close to the left side of her head while she
was standing, her body showed no change. However, when it was brought close to
the right side of her head, she leaned towards the cell phone (Figure 3).
Figure 1.
There were two titanium dental implants in the space left after the extraction
of her upper right molars without over structures (arrow). There were no
topical conditions around them.
Figure 2.
A panoramic X-ray image of the two titanium dental implants in the space left
by her upper right molars (arrow).
When
the left straight leg raising (SLR) test was performed, her left leg could be
lifted to an angle of only approximately 80˚ and she felt tension and pain
around her left hip joint (Figure 4) when her right leg was
lifted to an angle of approximately 90˚. The abduction of her left hip joint
was limited by pain and tension; therefore, her left knee could not touch the
bed (Figure 5) whereas her right knee
could.
When
the implants were covered with aluminum foil (Figure 6), her left leg could be
lifted to an angle of approximately 90˚ in the SLR test (Figure 7) and her left hip joint
movement also improved (Figure 8).
Figure 3.
When an active cell phone was brought close to the right side of her head while
she was standing, her body leaned towards the cell phone.
Figure 4.
The patient’s left leg could be lifted to an angle of only approximately 80˚
owing to pain and tension in the straight leg raising (SLR) test, whereas her
right leg could be lifted to 90˚.
Figure 5.
The patient’s left hip joint abduction was limited by pain and tension;
therefore, her left knee could not touch the bed whereas her right knee could.
Figure 6.
The implants were covered with aluminum foil (arrow).
Figure 7.
The patient’s left leg was lifted to an angle of approximately 90˚ in the SLR
test performed after covering the implants with aluminum foil.
The
implants were removed by an oral surgeon (Figure 9). After the removal, her
left SLR and hip joint rotation improved. Her left leg could be raised to an angle
of more than 90˚ in the SLR test after the removal of implants (Figure 10). Her left hip joint
rotation also improved; therefore, her left knee could easily touch the bed.
All
the systemic symptoms from which the patient was suffering also improved.
However, when the removed implants (Figure 11) were placed on her chest
(Figure 12), her left SLR and hip
joint rotation decreased again owing to tension and pain (Figure 13). As soon as the implants
were removed from her chest, her left hip abduction rotation increased.
Moreover, when an active cell phone was brought close to her while she was
standing, her body no longer leaned (Figure 14). However, after the
implants were attached to her body, when an active cell phone was brought close
to her right side, her body leaned toward it (Figure 15).
Figure 8.
When the implants were covered with aluminum foil, the patient’s left hip joint
abduction also improved; and, her left knee could touch the bed.
Figure 9.
The implants were removed from the subject’s right upper jaw. See Figure 1 for
comparison (arrow).
Figure 10.
Her left leg was raised to an angle of more than 90˚ in the SLR test performed
after the removal of implants.
Figure 11.
The two titanium implants that were removed.
Figure 12.
The removed implants were placed on the subject’s chest (arrow).
Figure 13.
When the implants were placed on the patient’s chest (arrow), her left SLR and
hip joint outer rotation decreased. As soon as the implants were removed, her
joint movement returned.
Figure 14.
When an active cell phone was brought close to the right side of the patient’s
head while she was standing, her body no longer leaned.
Figure 15.
When an active cell phone was brought close to the right side of the patient’s
head, her body leaned towards the cell phone after the attachment of the
implants to her body (arrow).
The
dentist constructed a partial denture containing a gold and platinum alloy as a
prosthesis to compensate for the missing teeth. Dental materials used for
construction of the denture were determined using the Bi-Digital O-Ring Test [10] [11] . After this treatment, her
body condition improved markedly and her prognosis was
good. No side effects were shown. The symptoms described above did not recur.
The
experiment conducted in this case can be observed in a YouTube video, “Hip
joint pain, back pain and shoulder stiffness after implantation of dental implants”
(https://www.youtube.com/watch?v=b8sqdxsuLyA;
last accessed 12/18/2015).
The
author has previously reported a case in which dizziness and joint mobility
disorder were induced by harmful electromagnetic waves collected by a dental onlay [12] and a case in which balance
dysregulation and dizziness were induced by harmful electromagnetic waves
collected by a dental amalgam filling [13] . The author has also reported
cases in which dental implants may collect harmful electromagnetic waves [8] [9] [14] . In the present case, the two
titanium implants may have collected harmful electromagnetic waves, resulting
in many systemic conditions and balance dysregulation. In the present case,
when the active cell phone was brought close to her right side, her body leaned
towards the cell phone before treatment. After the attachment of the implants
to her body, when the active cell phone was brought close to her right side,
her body leaned towards the cell phone, although the impacts were removed. The
author observed some patterns of balance dysregulation when an active cell
phone was brought close to the subject, i.e., the subject leaned away from the
cell phone (Figure 16) and the subject’s body
moved to the right and left [15] (Figure 17(a) and Figure 17(b)).
Because
the mechanism underlying this balance dysregulation is unclear, more research
is needed. However, one of the mechanisms may be the effect on cerebral blood
flow [16] .
Aluminum
foil is useful for temporarily interfering with electromagnetic waves, allowing
diagnosis of adverse conditions caused by harmful electromagnetic waves [9] [12] [13] [15] . In the present case, it may
have interfered with absorption of electromagnetic waves by the implants.
However, aluminum foil covering is not a practical solution because it cannot
be indefinitely applied. The best option for treating the root cause of the
problem appeared to be the surgical removal of implants. Following the surgery,
all symptoms improved, but
Figure 16.
A pattern example of balance dysregulation, where- in the subject leaned away
from the cell phone when an active cell phone was brought close to the subject.
(a) (b)
Figure 17.
A pattern example of balance dysregulation, wherein the subject’s body moved
right and left when an active cell phone was brought close to the subject.
some
reoccurred when the removed implants were placed on her chest. The dentist made
a partial denture to restore her biting condition. Her symptoms did not recur
after the denture was installed and prognosis was good. No side effects
occurred. The dentist instructed the patient not to keep on or near her body
any substances that collect harmful electromagnetic waves after the completion
of the dental treatment to prevent recurrence. Owing to the severity of the
possible adverse effects, it is important to confirm that no negative side
effects are present before surgical procedures are performed. If joint mobility
decreases when implants are attached to the patient [12] , the dental implant procedure
should be avoided. Moreover, if balance dysregulation [9] [12] , scoliosis [8] , or involuntary body movement
[15] present when implants are
attached to a patient during irradiation with electromagnetic waves emitted by
a cell phone, the dental implant procedures should be avoided.
Dental
implants have spread worldwide in dentistry. The risks and complications
reported are limited to local complaints. However, some patients may
complain of systemic symptoms after installation of dental implants. This
case report showed that many systemic symptoms such as lumbago, shoulder
stiffness, neck pain, hip joint pain, and facial pain improved after the
removal of well-osseointegrated titanium implants.
The results suggest that harmful electromagnetic waves collected by the
implants may affect body conditions. Accordingly, testing for the adverse
effects of electromagnetic waves is needed before dental implant surgery.
Further research with multidisciplinary cooperation may shed light on the
underlying mechanisms.
Additional Information
Informed
consent for publication was obtained from the subject.
SLR:
Straight Leg Raise (SLR) test is one of the neurodynamic tests. The neurodynamic
tests check the mechanical movement of the neurological tissues as well as
their sensitivity to mechanical stress or compression. These tests along with
relevant history and decreased range of motion, are considered by some to be
the most important physical signs of disc herniation, regardless of the degree
of disc injury. SLR is such a neural tension test that can be used to rule out
neural tissue involvement as a result of a space occupying lesion, often a
lumbar disc herniation. It is one of the most common neurological tests of the
lower limb. It is a Passive test, and each leg is tested individually with the
normal leg being tested first. When performing the Straight Leg Raise test, the
patient is positioned supine without pillows, the hip medially rotated and
adducted and the knee extended. The clinician lifts the patient’s leg by the
posterior ankle while keeping the knee in a fully extended position. The
clinician continues to lift the patient’s leg by flexing at the hip until the
patient complains of pain or tightness in the back or back of the leg.
Cited
from http://www.physio-pedia.com/Straight_Leg_Raise_Test.
Conflicts
of Interest
The
authors declare no conflicts of interest.
Cite
this paper
Fujii, Y. (2016) Improvement of
Systemic Symptoms after Dental Implant Removal. Open Journal of Stomatology, 6, 37-46. doi: 10.4236/ojst.2016.62005.
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Fujii, Y. (2015) Dental Treatment for Dizziness and
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[13] |
Fujii, Y. (2015) Electromagnetic Waves Collected by
a Dental Amalgam Filling Induced Balance Dysregulation and Dizziness over a
Period Exceeding 10 Years. Open Journal of Stomatology, 5, 235-242. |
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Fujii, Y. (2014) Sense of Balance Disorder Caused
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[15] |
Fujii, Y. (2014) Gold Alloy Dental Inlay for
Preventing Involuntary Body Movements Caused by Electromagnetic Waves Emitted
by a Cell Phone. Open Journal of Antennas and Propagation, 2, 37-43. |
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