Electromagnetic Fields in Biology and Medicine
Herausgeber: Markov, Marko S
Electromagnetic Fields in Biology and Medicine
Herausgeber: Markov, Marko S
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Electromagnetic field (EMF) modalities offer an alternative to the increasing use of pharmaceutical products for therapeutic use. This book presents state-of-the-art EMF use in clinical practice. It also covers the benefits and hazards of EMFs and details the biophysical aspects behind this therapeutic approach. Results of clinical studies from around the world are presented along with the results of EMF use in wound healing, cartilage repair, bone repair, and the use of EMF for pain control and inhabitation of cancer growth.
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Electromagnetic field (EMF) modalities offer an alternative to the increasing use of pharmaceutical products for therapeutic use. This book presents state-of-the-art EMF use in clinical practice. It also covers the benefits and hazards of EMFs and details the biophysical aspects behind this therapeutic approach. Results of clinical studies from around the world are presented along with the results of EMF use in wound healing, cartilage repair, bone repair, and the use of EMF for pain control and inhabitation of cancer growth.
Produktdetails
- Produktdetails
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 476
- Erscheinungstermin: 2. März 2015
- Englisch
- Abmessung: 257mm x 183mm x 30mm
- Gewicht: 1021g
- ISBN-13: 9781482248500
- ISBN-10: 1482248506
- Artikelnr.: 41670576
- Verlag: Bsp Books Pvt. Ltd.
- Seitenzahl: 476
- Erscheinungstermin: 2. März 2015
- Englisch
- Abmessung: 257mm x 183mm x 30mm
- Gewicht: 1021g
- ISBN-13: 9781482248500
- ISBN-10: 1482248506
- Artikelnr.: 41670576
Edited by Marko S. Markov received his PhD from Sofia University in Bulgaria. He was a professor and chairman of the Department of Biophysics and Radiobiology there for more than 20 years. He also was the vice president for research and development in three US companies. Dr. Markov is recognized as a top world expert on the clinical application of electromagnetic fields. He has more than 30 years of experience in basic science research and the clinical application of electromagnetic fields for the treatment of pain as well as bone and soft tissue pathologies. Dr. Markov has written and edited 14 books, presented 282 papers and short communications at various international meetings, and published 192 scientific articles. He holds five international patents for the clinical and technological use of electromagnetic fields.
Biological Windows: A Tribute to Ross Adey. Replication and Extension of
Adey Group's Calcium Efflux Results. Benefit and Hazard of Electromagnetic
Fields. Pulsed Electromagnetic Fields: From Signaling to Healing.
Biophysical Mechanisms for Nonthermal Microwave Effects. Engineering
Problems in Bioelectromagnetics. Signal Design: Step by Step. Magnetic
Field Influences on the Microcirculation. Extremely High-Frequency
Electromagnetic Fields in Immune and Anti-Inflammatory Response. Effects of
Therapeutic and Low-Frequency Electromagnetic Fields on Immune and
Anti-Inflammatory Systems. Effect of PEMF on LPS-Induced Chronic
Inflammation in Mice. Computational Fluid Dynamics for Studying the Effects
of EMF on Model Systems. Cell Hydration as a Marker for Nonionizing
Radiation. Age-Dependent Magnetic Sensitivity of Brain and Heart Tissues.
Electromagnetic Fields for Soft Tissue Wound Healing. Physical Regulation
in Cartilage and Bone Repair. Magnetic Fields for Pain Control.
Electromagnetic Fields in Plastic Surgery: Application to Plastic and
Reconstructive Surgical Procedures. Daily Exposure to a Pulsed
Electromagnetic Field for Inhibition of Cancer Growth: Therapeutic
Implications. Nonionizing Radiation: Exposure Assessment and Risk.
Long-Term, Low-Intensity, Disparate Electromagnetic Fields: Influence on
Physiotherapy Personnel Morbidity Profile. Nanoelectroporation for
Nonthermal Ablation. Electroporation for Electrochemotherapy and Gene
Therapy. Dirty Electricity within the Intermediate-Frequency Range: The
Possible Missing Link Explaining the Increase in Chronic Illness.
Electromagnetic Fields in the Treatment of Tendon Injury in Human and
Veterinarian Medicine.
Adey Group's Calcium Efflux Results. Benefit and Hazard of Electromagnetic
Fields. Pulsed Electromagnetic Fields: From Signaling to Healing.
Biophysical Mechanisms for Nonthermal Microwave Effects. Engineering
Problems in Bioelectromagnetics. Signal Design: Step by Step. Magnetic
Field Influences on the Microcirculation. Extremely High-Frequency
Electromagnetic Fields in Immune and Anti-Inflammatory Response. Effects of
Therapeutic and Low-Frequency Electromagnetic Fields on Immune and
Anti-Inflammatory Systems. Effect of PEMF on LPS-Induced Chronic
Inflammation in Mice. Computational Fluid Dynamics for Studying the Effects
of EMF on Model Systems. Cell Hydration as a Marker for Nonionizing
Radiation. Age-Dependent Magnetic Sensitivity of Brain and Heart Tissues.
Electromagnetic Fields for Soft Tissue Wound Healing. Physical Regulation
in Cartilage and Bone Repair. Magnetic Fields for Pain Control.
Electromagnetic Fields in Plastic Surgery: Application to Plastic and
Reconstructive Surgical Procedures. Daily Exposure to a Pulsed
Electromagnetic Field for Inhibition of Cancer Growth: Therapeutic
Implications. Nonionizing Radiation: Exposure Assessment and Risk.
Long-Term, Low-Intensity, Disparate Electromagnetic Fields: Influence on
Physiotherapy Personnel Morbidity Profile. Nanoelectroporation for
Nonthermal Ablation. Electroporation for Electrochemotherapy and Gene
Therapy. Dirty Electricity within the Intermediate-Frequency Range: The
Possible Missing Link Explaining the Increase in Chronic Illness.
Electromagnetic Fields in the Treatment of Tendon Injury in Human and
Veterinarian Medicine.
Biological Windows: A Tribute to Ross Adey. Replication and Extension of
Adey Group's Calcium Efflux Results. Benefit and Hazard of Electromagnetic
Fields. Pulsed Electromagnetic Fields: From Signaling to Healing.
Biophysical Mechanisms for Nonthermal Microwave Effects. Engineering
Problems in Bioelectromagnetics. Signal Design: Step by Step. Magnetic
Field Influences on the Microcirculation. Extremely High-Frequency
Electromagnetic Fields in Immune and Anti-Inflammatory Response. Effects of
Therapeutic and Low-Frequency Electromagnetic Fields on Immune and
Anti-Inflammatory Systems. Effect of PEMF on LPS-Induced Chronic
Inflammation in Mice. Computational Fluid Dynamics for Studying the Effects
of EMF on Model Systems. Cell Hydration as a Marker for Nonionizing
Radiation. Age-Dependent Magnetic Sensitivity of Brain and Heart Tissues.
Electromagnetic Fields for Soft Tissue Wound Healing. Physical Regulation
in Cartilage and Bone Repair. Magnetic Fields for Pain Control.
Electromagnetic Fields in Plastic Surgery: Application to Plastic and
Reconstructive Surgical Procedures. Daily Exposure to a Pulsed
Electromagnetic Field for Inhibition of Cancer Growth: Therapeutic
Implications. Nonionizing Radiation: Exposure Assessment and Risk.
Long-Term, Low-Intensity, Disparate Electromagnetic Fields: Influence on
Physiotherapy Personnel Morbidity Profile. Nanoelectroporation for
Nonthermal Ablation. Electroporation for Electrochemotherapy and Gene
Therapy. Dirty Electricity within the Intermediate-Frequency Range: The
Possible Missing Link Explaining the Increase in Chronic Illness.
Electromagnetic Fields in the Treatment of Tendon Injury in Human and
Veterinarian Medicine.
Adey Group's Calcium Efflux Results. Benefit and Hazard of Electromagnetic
Fields. Pulsed Electromagnetic Fields: From Signaling to Healing.
Biophysical Mechanisms for Nonthermal Microwave Effects. Engineering
Problems in Bioelectromagnetics. Signal Design: Step by Step. Magnetic
Field Influences on the Microcirculation. Extremely High-Frequency
Electromagnetic Fields in Immune and Anti-Inflammatory Response. Effects of
Therapeutic and Low-Frequency Electromagnetic Fields on Immune and
Anti-Inflammatory Systems. Effect of PEMF on LPS-Induced Chronic
Inflammation in Mice. Computational Fluid Dynamics for Studying the Effects
of EMF on Model Systems. Cell Hydration as a Marker for Nonionizing
Radiation. Age-Dependent Magnetic Sensitivity of Brain and Heart Tissues.
Electromagnetic Fields for Soft Tissue Wound Healing. Physical Regulation
in Cartilage and Bone Repair. Magnetic Fields for Pain Control.
Electromagnetic Fields in Plastic Surgery: Application to Plastic and
Reconstructive Surgical Procedures. Daily Exposure to a Pulsed
Electromagnetic Field for Inhibition of Cancer Growth: Therapeutic
Implications. Nonionizing Radiation: Exposure Assessment and Risk.
Long-Term, Low-Intensity, Disparate Electromagnetic Fields: Influence on
Physiotherapy Personnel Morbidity Profile. Nanoelectroporation for
Nonthermal Ablation. Electroporation for Electrochemotherapy and Gene
Therapy. Dirty Electricity within the Intermediate-Frequency Range: The
Possible Missing Link Explaining the Increase in Chronic Illness.
Electromagnetic Fields in the Treatment of Tendon Injury in Human and
Veterinarian Medicine.