Further References:
The treatment of chronic benign pain by means of
low frequency pulsating magnetic fields F. Paccagnella et al University
of Padova. Bio-electrochemistry and Bio-energetics
Therapeutic effects of pulsed magnetic fields on
joint diseases: E.R. Sanseverino et al University of Bologna. Panminerva
med
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: D.H. Trock et al
Yale university school of medicine. Journal of Rheumatology
Beschleunigung der Osteoinduktion durch
elektromagnetische Wechselfelder: G. Aldinger et al Orthopedic
university clinic Tuebingen. Osteologie
Effects of extremely low frequency
electromagnetic field on collagen type I mRNA expression and
extracellular matrix synthesis of human osteoblastic cells: K. Heerneier
et al Institute for molecular virology Neuherberg, Germany.
Bio-electromagnetics
Long term follow-up of fracture nonunions
treated with PEMFs: D.E. Garland. Contemporary orthopaedics
The differentiation of normal and transformed
human fibroblasts in vitro is influenced by electromagnetic fields: H.P.
Rodemann et al University Hohenheim, Germany. Experimental cell research
A randomized double-blind prospective study of
the efficacy of pulsed electromagnetic fields for interbody lumbar
fusions: V. Mooney, University of California. Spine
The effect of pulsing electromagnetic fields on
bone metabolism in experimental disuse osteoporosis: R.L. Cruess et al
Mc. Gill University, Canada. Clinical Orthopaedics and related research
Lecture at the 2nd International Congress for
Magneto Medicine Rome, Italy. Sansaverino Dr. E Riva,
Biomedical Implications of Pulsing
Electromagnetic Fields. Bassett C. A., Prof. Orthopedic Surgery,
Columbia University, New York.
Influence of Magnetic Fields on Calcium Salts
Crystal Formation: An explanation of the pulsed magnetic field technique
for bone healing. Madronero A. BES Journal
The Possible Role of Pulsating Magnetic Fields
in the Reduction of Pain, Warnke U. Elsevier Biomedical Press, Pain
Therapy
Pulsed Electromagnetic Field Therapy of
Persistent Rotator Cuff Tendinitis, Binder A. et.al. Dep. Rheumatology,
Addenbrookes Hospital. Lancet
Effect of Low Intensity Electromagnetic Fields
on Diabetic Retinopathy. Lau B., School of Medicine, Lomo Linda, USA.
Pulsing Electromagnetic Field Therapy of
Multiple Sclerosis, Guseo A., Dep. of Neurology, Szekesfeheruar,
Hungary. J. of Bioelectricity
Technology Evaluation: Pulsing electromagnetic
Fields and Fracture Management. An Analysis of Clinical Efficacy and
Safety (1988). Parsippany, NJ: Aaron RK,
The conservative treatment of osteonecrosis of
the femoral head. A comparison of core decompression and pulsing
electromagnetic fields. Lennox D. Et.al. Clin Orthop.
Classification of disease: Osteoarthritis.
Altman R. Semin. Arthritis Rheum.
The use of pulsing electromagnetic fields to
treat full thickness skin defects in the rabbit model. Andino R. et.al.
Proceedings Annual Meeting of the Bioelectrical Repair and Growth
Society
Beneficial effects of electromagnetic fields.
Bassett C. J Cell Biochem.
Rhythmic variations in pain perception in
osteoarthritis of the knee. Bellamy N. et.al. J Rheumatol.
Pulsed electromagnetic field therapy of
persistent rotator cuff tendinitis. Binder A. Et.al. Lancet.
The effect of pulsing electromagnetic fields on
bone metabolism in experimental disuse osteoporosis. Cruess R. et.al.
Clin Orthop.
Detection of osteoarthritis (OA) of the knee
using magnetic resonance imaging, needle and standard arthroscopy with
histologic correlation. Dedrick D. et al. Arthritis Rheum.
Augmentation of mucosal adaptation following
small-bowel resection by electromagnetic field stimulation in rats.
Dindar H. et.al. J. Exp Clin Med.
An examination of direct current fields for the
treatment of spinal cord injury. G, Hurlbert R. et.al. Proceedings World
Congress for Electricity and Magnetism in Biology and Medicine.
In vitro effects of 50 Hz magnetic fields on
oxidatively damaged rabbit red blood cells. Fiorani M. et.al.
Bioelectromagnetics.
Treatment of headache by pulsating
electromagnetic field: A preliminary report. Giczi J. et.al. J
Bioelectricity
Pulsed electromagnetic fields in experimental
cutaneous wound healing in rats. Patino O. et.al. J Burn Care Rehabil.
Prospects on clinical applications of electrical
stimulation for nerve regeneration. Sisken B. et.al. J. Cell Biochem.
Intrastructural study of hyaluronic acid before
and after the use of a pulsed electromagnetic field, electrorydesis, in
the treatment of wrinkles. Teofoli P. et.al. Int. J Dermatol.
Osteoarthritis of the knee. A prospective
double-blind placebo controlled study using very low frequency
electromagnetic induction therapy in the treatment of patients with
inflammatory and non-inflammatory arthritis. Trock et.al.
Osteoarthritis of the cervical spine. A
prospective double-blind placebo controlled study using very low
frequency electromagnetic induction therapy in the treatment of patients
with inflammatory and non-inflammatory arthritis. Trock et.al.
The conservative treatment of osteonecrosis of
the femoral head. A comparison of core decompression and pulsing
electromagnetic fields. Aaron R. et.al. Clin Orthop.
The use of pulsing electromagnetic fields to
treat full thickness skin defects in the rabbit model. Andino R. et.al.
Proceedings Meeting of the Bioelectrical Repair and Growth Society.
The effect of pulsing electromagnetic fields on
bone metabolism in experimental disuse osteoporosis. Cruess R. et.al.
Clin Orthop.
Pulsed magnetic and electromagnetic fields in
experimental Achilles tendonitis in the rat: a prospective randomized
study. Lee E. et.al. Arch Phys Me Rehabil.
Pulsed electromagnetic fields in experimental
cutaneous wound healing in rats. Patino O. et.al. J Burn Care Rehabil.
Stimulation of experimental endochondral
ossification by low-energy pulsing electromagnetic fields. Aaron R.
et.al. J Bone Min Res.
 
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