Yoshiro Fujii / Holistic Dentistry (Holistic Dental Treatment)

Dental Treatment with a Gold Alloy Cast Crown for Severe Lumbago

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojst.2019.92003

Journal: Open Journal of Stomatology, 2019, Vol.9 No.2, pp.21-27.

Keywords: Lumbago, Gold Alloy Cast Crown, Electromagnetic Waves, Bi-Digital O-Ring Test

ABSTRACT

The patient was a 41-year-old woman experiencing severe lumbago for several years. The physician-in-charge referred her for dental treatment because examination did not reveal any specific abnormality in her lower back. Prior to the treatment, the patient could barely bend forward and backward because of serious back pain. Her body flexibility and lower back pain improved when a gold alloy cast crown was placed near her feet. However, when the crown was covered with aluminum foil, it was again very difficult for her to bend her body forward and backward. These results suggested that her body reacted positively because good electromagnetic waves emitted by the crown were absorbed by the body. The alloy used to make the crown was chosen using the Bi-Digital O-Ring Test. Moreover, the shape, contact strength, and occlusion (biting condition) of the crown were also determined by the Bi-Digital O-Ring Test. After the crown was placed on her upper right first molar, her lumbago completely disappeared and did not recur for >5 years of follow-up. The effectiveness of electromagnetic waves on the condition of the body, as in this case, has not often been acknowledged in modern medicine, and the underlying mechanism remains unclear; therefore, further research is required.

Hip Joint Pain Caused by Electromagnetic Waves Following an Operation for a Complex Humerus Fracture

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/crcm.2018.73020

Journal: Case Reports in Clinical Medicine, 2018, Vol.7 No.3, pp.225-231.

Keywords: Electromagnetic Waves, Hip Joint Pain, Titanium Bolts, Humerus Fracture, Aluminum Foil

ABSTRACT

This case report illustrates hip joint pain caused by electromagnetic waves following an operation for a complex humerus fracture. The subject was a 22-year-old woman. The patient complained of pain in her left hip joint and discomfort, particularly while walking. The subject suffered a fracture in her left upper arm in a traffic accident approximately 3 months previously. She underwent an operation wherein seven titanium bolts were used to fix the humerus. The operation was deemed successful and the prognosis of the operation was also good; however, approximately 3 months after the operation, she developed pain and discomfort in her left hip joint, particularly while walking. Symptoms were improved by covering the surgical field with aluminum foil, blocking electromagnetic waves. Electromagnetic waves attracted by the titanium bolts may have induced pain.

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Journal: Clinical Case Reports. 2017, 5: 795–800.

DOI: 10.1002/ccr3.938

Published: Jan 2017

Two Cases of Severe Dementia Showing Dramatic Improvement after Denture Placement

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/aad.2016.52004

Journal: Advances in Alzheimer's Disease, 2016, Vol.5 No.2, pp.46-52.

Keywords: Dementia, Alzheimer's Disease, Denture Placement, Trigeminal Nerve, Oral Stimulation

ABSTRACT

Severe dementia, including Alzheimer's disease, is intractable and progressive. The purpose of this study was to document the improvement observed in two cases of severe dementia after denture placement. The subjects, two women in their 70s with severe dementia, were diagnosed with Alzheimer's disease by the medical doctors in charge of their cases. In the first case, the subject's symptoms included severe disorientation, impaired communication, and a tendency to wander. Two weeks after a lower complete denture placement, she was able to greet others. Five weeks later, she was able to communicate and precisely read an analog clock. Her condition continued to improve for at least 3 months. In the second case, the subject's mouth was always open. She was bedridden in a vegetative state and hardly moved, talked, or laughed; it was impossible to communicate with her. Only a few seconds after an upper complete denture placement, she started to talk, albeit unintelligibly. Two weeks after a lower complete denture placement, she could communicate normally, laugh, and walk without help. Although the underlying mechanism has not yet been clarified, the author hypothesizes that positive signals from the oral area are transferred to the brain as positive stimulation via the trigeminal nerve, the largest cranial nerve.

Improvement of Systemic Symptoms after Dental Implant Removal

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojst.2016.62005

Journal: Open Journal of Stomatology, 2016, Vol.6 No.2, pp.37-46.

Keywords: Dental Implant, Electromagnetic Waves, Systemic Symptoms, Lumbago, Shoulder Stiffness

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.

Electromagnetic Waves Collected by a Dental Amalgam Filling Induced Balance Dysregulation and Dizziness over a Period Exceeding 10 Years

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojst.2015.510029

Journal: Open Journal of Stomatology, 2015, Vol.5 No.10, pp.235-242.

Keywords: Electromagnetic Wave Hypersensitivity, Dental Amalgam, Balance Dysregulation, Dizziness

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.

Use of Dental Inlay for Treatment of Hip Joint Dysregulation: A Case Report

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/crcm.2015.411072

Journal: Case Reports in Clinical Medicine, 2015, Vol.4 No.11, pp.356-365.

Keywords: Dental Inlay, Hip Joint Dysregulation, Electromagnetic Waves, Bi-Digital O-Ring Test

ABSTRACT

This case report describes the use of a dental inlay for the treatment of hip joint dysregulation. The subject experienced improvement in hip joint mobility following dental inlay placement. The underlying mechanism by which dental treatment affects hip joint function is not yet fully understood, but the results suggest a connection between dental occlusion and systemic musculoskeletal function. Further studies are required to clarify the mechanism of this treatment.

Dental Stimulation to the Buccal Mucous Membrane Causes Lumbago: A Report of Two Cases

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/crcm.2015.48058

Journal: Case Reports in Clinical Medicine, 2015, Vol.4 No.8, pp.289-296.

Keywords: Lumbago, Buccal Mucous Membrane, Dental Treatment, Oral Mucosa, Systemic Disease

ABSTRACT

This study aims to demonstrate that harmful stimulation of the buccal mucosa because of a rough tooth surface may cause lumbago. This report illustrates two cases of women in their 30s and 40s who are suffering from lumbago due to unknown causes. The patients are cured by a simple dental procedure in which the buccal surface of a molar is smoothened, thereby inhibiting the negative stimulation of the buccal mucosa. Soon after this treatment, the symptoms of lumbago have subsided. The reason for the effectiveness of this treatment remains unclear. However, the balance dysregulation observed in the patient may have been due to stimulation of the oral mucous membrane by the rough surface of the tooth. It is important for dentists to pay attention to the effects of tooth formation, dental restorations, and dental prosthetics on the entire body. A dental condition may have an effect on diseases affecting other parts of the body; thus a dental treatment may be considered as an option for the management of other systemic disorders. It appears that cooperation between the fields of dentistry and medicine is of utmost importance.

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Journal: Journal of dentist 2015, 3: 29-32.

DOI: 10.12974/2311-8695.2015.03.01.5

Published: Aug 2015

Author

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Publisher: LAP LAMBERT Academic Publishing, Germany

ISBN: 978-3-659-74819-6

Published: Jun 26, 2015

Electromagnetic waves and indirect effect. Don't you believe anything which isn't visible?

Author

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Publisher: LAP LAMBERT Academic Publishing, Germany

ISBN: 978-3-659-69995-5

Published: May 18, 2015

SUMMARY

The results of this study show that even if the crown is not placed in the body, it can have a marked effect on joint mobility when it is placed near the body. Simply having the substance near the body can influence a patient's condition. This influence may be due to the electromagnetic waves emitted by the substance. The author has previously suggested that this effect should be termed as "indirect effect." Therefore, the outcome of placing the crown may be due to normal or corrected occlusion, contact with the adjacent tooth, and electromagnetic waves (indirect effect). Modern western medicine ignores the indirect effect; however, it can have serious implications for the accuracy of the testing of materials. The results of this study demonstrated that the crown could affect the severity of lumbago when placed in the oral cavity and near the body. It has been hypothesized that electromagnetic waves have played a role in improving the lumbago when the alloy cast crown was placed near the body. Since there was no abnormality in her lower back with medical check like X-ray image and also a variety of nonsurgical orthopedic treatments and massage was ineffective, the author judged that lumbago might be caused by brain malfunction. There are reports that electromagnetic waves influence cerebral bloodstream. The author hypothesizes that when the crown approached a body, the subject's cerebral bloodstream was improved by electromagnetic waves emitted by the crown. As a result, her brain function might be improved. However, the real underlying mechanism is still unclear, and further research is warranted. The Bi-Digital O-Ring Test may catch the electromagnetic waves which these materials emit, and it is thought that this influence on the body can be evaluated. In the field of dentistry, the use of the Bi-Digital O-Ring Test may have an impact on the choice of dental material, crown restoration, form of the dental prosthesis, judgment of the contact strength with the adjacent tooth, and occlusion state. Even if a substance doesn't enter but approaches a body, it will influence on a body. Therefore, we should understand from this case that it's necessary to consider the influence of ornaments, clothes and a cell phone etc. which approaches the body on the body.

Calling into Question the Efficacy of Evidence-Based Medicine: Is It Always the Best Approach? Is That Really the Placebo Effect?

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ns.2015.74019

Journal: Natural Science, 2015, Vol.7 No.4, pp.165-170.

Keywords: Evidence-Based Medicine, Placebo Effect, Indirect Effect, Electromagnetic Waves, Bi-Digital O-Ring Test

ABSTRACT

The techniques of evidence-based medicine (EBM) are being frequently used recently. The generally accepted theory is that if a medicine is not absorbed by the body, it will have no effect. However, the author has noticed that even when substances, including medicines, are not absorbed by the body, they can have a marked effect. In some cases, just bringing the substance close to the body can have an effect; in such cases, the efficacy of EBM for estimating the therapeutic value of medicines may be debatable. Therefore, a more accurate evaluation method should be devised. The author proposes that another group be introduced into trials. This group would include subjects who were exposed to but did not have an opportunity to absorb the medicine being tested.

Dental Treatment for Dizziness and Joint Mobility Disorder Caused by Harmful Electromagnetic Waves

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojapr.2015.31001

Journal: Open Journal of Antennas and Propagation, 2015, Vol.3 No.1, pp.1-7.

Keywords: Electromagnetic Hypersensitivity, Dizziness, Joint Mobility Disorder, Gold Alloy Onlay

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 provide 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.

Gold Alloy Dental Inlay for Preventing Involuntary Body Movements Caused by Electromagnetic Waves Emitted by a Cell Phone

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojapr.2014.24005

Journal: Open Journal of Antennas and Propagation, 2014, Vol.2 No.4, pp.37-43.

Keywords: Electromagnetic Hypersensitivity, Gold Alloy Dental Inlay, Involuntary Body Movements, Cell Phone

ABSTRACT

Cell phone and personal computer use has increased considerably in recent years, particularly in developed countries. These devices have facilitated communication on a global scale. However, there have been a number of reports of health problems related to the electromagnetic waves emitted by such electronic devices. A long list of both general and severe symptoms, including headaches, fatigue, tinnitus, dizziness, memory loss, irregular heartbeat and whole-body skin lesions, have been reported. These are reportedly associated with the condition known as electromagnetic hypersensitivity (EHS). This report shows how a subject's abnormal involuntary body movements, caused by electromagnetic waves emitted by a cell phone, are prevented by placing a gold alloy inlay in the subject's mouth. It appears that the subject's involuntary movements are the result of balance dysregulation resulting from EHS. The subject's various symptoms improve after the specific dental treatment. However, the underlying mechanism of the symptoms and the reasons why this treatment is so successful remain unknown. Further research is required to clarify these issues.

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Journal: Journal of dentist 2014; 63-66.

DOI: 10.12974/2311-8695.2014.02.02.4

Published: Aug 2014

Sensation of Balance Dysregulation Caused/Aggravated by a Collection of Electromagnetic Waves in a Dental Implant

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

DOI: 10.4236/ojapr.2014.23004

Journal: Open Journal of Antennas and Propagation, 2014, Vol.2 No.3, pp.29-35.

Keywords: Electromagnetic Hypersensitivity, Titanium Dental Implant, Balance Dysregulation

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.

1. Introduction

The use of electronic devices, such as cell phones or personal computers (PCs), has become increasingly widespread in recent years. Through the development and increased usage of these electronics, quick communication has been enabled on a worldwide scale. However, there are a number of reports of abnormalities occurring in the body caused by the electromagnetic waves emitted by electronic devices, such as cell phones, and it is possible that the incidence of adverse biological effects caused by electromagnetic waves may be increasing. Such physically unpleasant symptoms are called electromagnetic hypersensitivity. There are many general and severe symptoms, such as headaches, fatigue, tinnitus, dizziness, memory loss, irregular heartbeats, and whole-body skin symptoms, which are considered to be caused by electromagnetic hypersensitivity. In this article, the author described a sense of balance in difficulties that appeared to be caused or promoted by electromagnetic waves collected by dental implants through two case reports.

2. Case Reports

2.1. Case Report 1

Treatment and Results

A 48-year-old woman was suffering from dizziness, unsteadiness, and a sense of fatigue for several years. A titanium dental implant had been placed in her lower alveolar bone. To determine if the patient's symptoms were being caused by her implant's collection of electromagnetic waves, several tests were performed. First, the patient was placed immediately in front of a PC screen. At such a close distance, she could not maintain her balance. When the PC screen was covered with aluminum foil to block the electromagnetic waves emitted by the screen, the patient was able to regain her balance. Second, the patient was asked to move away from the PC until she was able to maintain her balance. She was able to remain steady when standing about 3 m away from the PC. Third, a second titanium implant, which was of similar manufacture, was placed on the floor immediately in front of her feet. Under this condition, the patient lost her balance again, and reported experiencing dizziness and dyspnea. Finally, when the PC screen was covered with aluminum foil again, she was able to regain her balance, and reported no dizziness or dyspnea. These results seemed to indicate that the patient's implant was collecting electromagnetic waves, which were adversely affecting her. Consequently, her implant was removed. After the procedure, the first test was repeated. This time, when the patient stood close to the PC screen, she was able to maintain her balance. However, when the removed implant was placed on the table holding the PC, which was immediately in front of her, the symptoms returned. The conditions which suffered her have not recurred for three years or more.

In conclusion, removal of her implant resulted in a marked improvement in her sensitivity to electromagnetic waves. This finding suggests that certain materials in our bodies can collect harmful electromagnetic waves that can exert adverse effects. These harmful electromagnetic waves are emitted not only by cell phones but also by PC screens. The titanium implant in the present case appeared to interact with electromagnetic waves and adversely affect the patient's balance even when the implant was not present in or on the patient's body.

This patient gave consent to having the results of treatment published.

The details of this case can be observed in the following YouTube video.

Unsteadiness and dizziness caused by a dental implant.
https://www.youtube.com/watch?v=6IJFZeht84I

2.2. Case Report 2

Subject and Experiment

A woman in her twenties experienced a loss of balance when a cell phone was held at a distance < 50 cm from her body. The patient's medical history was unknown because she was a volunteer who was selected from an audience during one of the author's lectures. When a titanium implant was placed on her chest, she leaned backward, although the distance between the subject and the cell phone still exceeded 3 m.

The woman's unsteadiness appeared to be caused by electromagnetic waves from a cell phone and their interaction with the antenna-like behavior of a dental implant. Electromagnetic wave hypersensitivity onset does not merely result from the presence of harmful electromagnetic waves alone but from the waves combined with the existence of a material(s) that can act as an antenna by collecting harmful electromagnetic waves in or around the body. Dental implants may promote harmful effects of electromagnetic waves.

This patient volunteered to be treated in front of a large audience with the knowledge that the treatment was being videoed.

The details of this case can be observed in the following YouTube video:

Unsteadiness apparently caused by electromagnetic waves from a cell phone.
https://www.youtube.com/watch?v=csbaj6mlkQ4

3. Discussion

Regarding the relationship between brain tumors and radio waves emitted by cell phones, the Interphone Study Group concluded that no increases in the risk of glioma or meningioma associated with cell phone use were observed but that an increased risk of glioma was suggested at the highest usage levels. However, biases and error have prevented a causal interpretation; therefore, the possible effects of long-term heavy cell phone use will require further investigation. In other reports, the published results do not support the hypothesis of an association between the use of cell phones and the development of brain or salivary gland tumors, leukemia, or other cancers; however, the research described did not sufficiently evaluate the risks among long-term heavy cell phone users over potentially long induction periods. Accordingly, further studies are needed to account for longer induction periods, particularly with respect to slow-growing tumors with neuronal features. As such, the author has published several reports on the relationship between dentistry and electromagnetic waves. Many articles, however, only emphasize the convenience of these electronic devices without addressing the potentially negative influences of the emitted electromagnetic waves on the body. Metal present within the body can act as an antenna to collect harmful radio waves, thus inducing the aforementioned symptoms. In dentistry, titanium dental implants may be the material most commonly associated with antenna activity. The author previously reported that scoliosis may be caused by dental implants, and that electromagnetic waves emitted by cell phones can also affect balance disorders. The underlying mechanism remains unknown, but reduced blood flow within the brain is assumed. This collection of unpleasant symptoms caused by electromagnetic waves is known as electromagnetic wave hypersensitivity. Generally, the electromagnetic wave strength decreases with distance even if near or far fields. In this experiment, the distance 3 m is situated in the Fraunhofer (far field) region, because the radio wave length of cell phones (1 - 2 GHz) is 0.15 - 0.3 m. The distance between cell phones and which border of near field is calculated with {λ/(2π)}. Therefore, the distance from cellphones to the border of near field is about 2.5 cm to 5.0 cm from cell phones. Hence, 3 m is in the far field range, whereas the radio wave length from the PC screen (50 - 60 Hz) is 6000 km - 5000 km. Therefore, the distance from PC screen to the border of near field is about 830 km to 1000 km. Hence, 3 m is in the region of Rayleigh (near field). However, the difference of effects among regions on the human bodies has not been clarified yet. Therefore, further research is required.

The author's research has shown that removal of metals which collect harmful electromagnetic waves from patients and maintaining sufficient distance from cell phones can reduce some of the harmful effects of electromagnetic waves and may permit short-duration, lower-risk usage of beneficial cell phone functions. The effects of electromagnetic waves on the body are not yet clear. The titanium implant collects the harmful electromagnetic radiation easier than pure gold. However, in terms of the SAR (Specific Absorption Rate) of the dental materials has hardly been explored yet. Regarding this point, the author results the cooperation between medical field and physical field is necessary. The underlying mechanism has been partially elucidated by the Bi-Digital O-Ring Test. Because this test indicated deleterious effects of radio waves on the body, it may be a useful diagnostic tool for helping to prevent harmful electromagnetic waves. One potential problem with these results is that the patient's knowledge of how close they were to the electromagnetic wave sources was not controlled. This could have led to some psychological influences. In future studies, blindfolding the patients could be used to eliminate this problem. According to the report of Hagström M. et al., the most common perceived EHS (Electromagnetic Hypersensitivity) triggering sources are personal computers and mobile phones. Additionally, the best way to reduce EHS symptoms was to avoid electromagnetic fields. The removal of dental material which collects harmful electromagnetic radiation is not well known. Hence, the contents introduced in this paper must be effective approach to treat EHS symptoms.

4. Conclusion

There have been many reports of individuals suffering from electromagnetic wave hypersensitivity. The current findings suggest that in addition to previously reported symptoms, including headaches, fatigue, tinnitus, dizziness, memory loss, irregular heartbeat, and whole-body skin symptoms, a sense of balance dysregulation or dyspnea is a symptom of electromagnetic wave hypersensitivity. Avoiding harmful electromagnetic waves is considered to reduce these physical symptoms and concomitantly improve physical abilities. Dental materials may act as antennae, and as such, may collect radio waves. Therefore, dental procedures should be performed with an awareness of this characteristic because some dental materials may cause or exacerbate adverse symptoms. Electromagnetic wave hypersensitivity could possibly be caused by dental procedures; therefore, dental treatment should be performed in a manner that avoids the harmful influences of radio waves on patients.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] Geser, H. (2004) Towards a Sociological Theory of the Mobile Phone, Release 3.0. University of Zurich.

[2] van Dijk, J. and Hacker, K. (2003) The Digital Divide as a Complex and Dynamic Phenomenon. The Information Society, 19, 315-326.

[3] http://www.holistic-dentistry.net/blog/2013/07/entry_242/

[4] Aalto, S., Haarala, C., Brück, A., Sipilä, H., Hämäläinen, H. and Rinne, J.O. (2006) Mobile Phone Affects Cerebral Blood Flow in Humans. Journal of Cerebral Blood Flow and Metabolism, 26, 885-900.

[5] Feychting, M., Jonsson, F., Pedersen, N.L. and Ahlbom, A. (2003) Occupational Magnetic Field Exposure and Neurodegenerative Disease. Epidemiology, 14, 413-419.

[6] Håkansson, N., Gustavsson, P., Johansen, C. and Floderus, B. (2003) Neurodegenerative Diseases in Welders and Other Workers Exposed to High Levels of Magnetic Fields. Epidemiology, 14, 420-426.

[7] Ahlbom, A. (2001) Neurodegenerative Diseases, Suicide and Depressive Symptoms in Relation to EMF. Bioelectromagnetics Supplement, 5, 132-143.

[8] Linet, M.S., et al. (1997) Residential Exposure to Magnetic Fields and Acute Lymphoblastic Leukemia in Children. The New England Journal of Medicine, 337, 1-7.

[9] Röösli, M., et al. (2007) Symptoms of Ill Health Ascribed to Electromagnetic Field Exposure—A Questionnaire Survey. International Journal of Hygiene and Environmental Health, 207, 141-150.

[10] Edelstyn, N. and Oldershaw, A. (2002) The Acute Effects of Exposure to the Electromagnetic Field Emitted by Mobile Phones on Human Attention. Neuroreport, 13, 119-121.

[11] Rea, W., et al. (1991) Electromagnetic Field Sensitivity. Journal of Bioelectricity, 10, 241-256.

[12] Rubin, G.J., Das Munshi, J. and Wessely, S. (2005) Electromagnetic Hypersensitivity: A Systematic Review of Provocation Studies. Psychosomatic Medicine, 67, 224-232.

[13] Rubin, G.J., Das Munshi, J. and Wessely, S. (2006) A Systematic Review of Treatments for Electromagnetic Hypersensitivity. Psychosomatic Medicine, 75, 12-18.

[14] Norbert, L. (2009) Electromagnetic Hypersensitivity. Advances in Electromagnetic Fields in Living Systems, 5, 167-197.

[15] Kimata, H. (2005) Microwave Radiation from Cellular Phones Increases Allergen-Specific IgE Production. Allergy, 60, 838-839.

[16] Interphone Study Group (2010) Brain Tumor Risk in Relation to Mobile Telephone Use. International Journal of Epidemiology, 39, 675-694.

[17] Johansen, C., et al. (2001) Cellular Telephones and Cancer—A Nationwide Cohort Study in Denmark. Journal of the National Cancer Institute, 93, 203-207.

[18] Inskip, P.D., et al. (2001) Cellular-Telephone Use and Brain Tumors. The New England Journal of Medicine, 344, 79-86.

[19] Muscat, J.E., et al. (2000) Handheld Cellular Telephone Use and Risk of Brain Cancer. Journal of the American Medical Association, 284, 3001-3007.

[20] Fujii, Y. (2012) Do Dental Implants Cause Scoliosis? A Case Report. Personalized Medicine Universe, 1, 79-80.

[21] Fujii, Y. (2007) The Dental Treatment That Used Environment of Electromagnetic Wave. Acupuncture and Electro-Therapeutics Research, 32, 291.

[22] Fujii, Y. (2009) The Consideration of the Electromagnetic Wave in Dental Material Substitution. Acupuncture and Electro-Therapeutics Research, 34, 89.

[24] Omura, Y. (1990) Bi-Digital O-Ring Test for Imaging and Diagnosis of Internal Organs of a Patient. Patent No. 5188107.

[25] Omura, Y. and Losco, M. (1993) Electro-Magnetic Fields in the Home Environment as Potential Contributing Factors for the Induction of Oncogen C-Fos Ab1, Oncogen C-Fos Ab2, Integrin Alpha 5 Beta 1 and Development of Cancer. Acupuncture and Electro-Therapeutics Research, 18, 33-73.

[26] Omura, Y., et al. (1991) Chronic or Intractable Medical Problems Associated with Prolonged Exposure to Unsuspected Harmful Environmental Electric, Magnetic, or Electro-Magnetic Fields. Acupuncture and Electro-Therapeutics Research, 16, 143-177.

[27] Hagström, M., Auranen, J. and Ekman, R. (2013) Electromagnetic Hypersensitive Finns: Symptoms, Perceived Sources and Treatments, a Questionnaire Study. Pathophysiology, 20, 117-122.

Authors

Yoshiro Fujii

Shin Kobe Dental Clinic, Kobe City, Japan

Journal: Personalized Medicine Universe 2012; (1):79-80.

DOI: 10.1016/j.pmu.2012.05.012

Published: Mar 27, 2012