Pulsed radio frequency energy (PRFE) use in human medical applications

References

• Ahlbom A., Green A., Kheifets L., . Epidemiology of health effects of radiofrequency exposure. Environ. Health Perspect.. 2004; 112:1741–1754.
   PubMed Web of Science ®Google Scholar
• Al-Mandeel M. M., Watson T.. 2008. Pulsed and continuous shortwave therapy. In: Watson T.. editors. Electrotherapy: Evidence-Based Practice. Edinburgh, New York: Churchill Livingstone 137–160.
   Google Scholar
• Aronofsky D. H.. Reduction of dental postsurgical symptoms using nonthermal pulsed high-peak-power electromagnetic energy. Oral Surg. Oral Med. Oral Pathol.. 1971; 32:688–696.
   PubMedGoogle Scholar
• Asuquo M., Ugare G., Ebughe G., . Marjolin's ulcer: the importance of surgical management of chronic cutaneous ulcers. Int. J. Dermatol.. 2007; 46 Suppl. 2: 29–32.
   PubMedGoogle Scholar
• Auda S. P., Steinert H. R., Elias E. G., . Selective tumor heating by shortwave radiofrequency (RF). Cancer. 1980; 46:1962–1968.
   PubMed Web of Science ®Google Scholar
• Barclay V., Collier R. J., Jones A.. Treatment of various hand injuries by pulsed electromagnetic energy (Diapulse). Physiotherapy. 1983; 69:186–188.
   PubMedGoogle Scholar
• Barker A. T., . A double-blind clinical trial of low power shortwave therapy in the treatment of soft tisssue injury. Physiotherapy. 1985; 71:500–504.
   Google Scholar
• Bentall R. H. C., Eckstein H. B.. A trial involving the use of pulsed electro-magnetic therapy on children undergoing orchidopexy. Zeitschrift für Kinderchirurgie. 1975; 17 4: 380–389.
   Google Scholar
• Burr B.. Heat as a therapeutic modality against cancer. Report NO16, U.S. National Cancer Institute, Bethesda, MD
   Google Scholar
• Buzzard B. M., Pratt R. K., Briggs P. J., . Is pulsed shortwave diathermy better than ice therapy for the reduction of oedema following calcaneal fractures?: Preliminary trial. Physiotherapy. 2003; 89:734–742.
   Google Scholar
• Callaghan M. J., Whittaker P. E., Grimes S., . An evaluation of pulsed shortwave on knee osteoarthritis using radioleucoscintigraphy: a randomised, double blind, controlled trial. Joint Bone Spine. 2005; 72:150–155.
   PubMed Web of Science ®Google Scholar
• Cameron B. M.. A three phase evaluation of pulsed, high frequency, radio short waves (Diapulse): 646 patients. Amer. J. Orthop.. 1964; 6:72–78.
   PubMedGoogle Scholar
• Chraibi H., Dereure O., Teot T., . The diagnosis and treatment of carcinomas occurring at the sites of chronic pressure ulcers. J. Wound Care. 2004; 13:447.
   PubMedGoogle Scholar
• Cleveland R. F. and Ulcek, J. L. (1999). Questions and answers about biological effects and potential hazards of radiofrequency electromagnetic fields. Office of Engineering and Technology (OET) Bulletin. Federal Communications Commission. Washington, D.C. 56 (4): 10. Retrieved from http://www.fcc.gov/oet/info/documents/bulletins/.
   Google Scholar
• CNRS (2007). European Commission Joint Research Center/CNRS. (2007). Effects of exposure to electromagnetic fields: from science to public health and safer workplace. Reports on the level of evidence of the results present in the literature and research projects describing clinical applications (Deliverable 14). p. 13. European Union 6th Framework Programme. Retrieved from http://web.jrc.ec.europa.eu/emf-net/doc/reports/D14_level_of_evidence.pdf.
   Google Scholar
• Comorosan S., Pana I., Pop L., . The influence of pulsed high peak power electromagnetic energy (Diapulse) treatment on posttraumatic algoneurodystrophies. Rev. Roum. Physiol.. 1991; 28:77–81.
   PubMedGoogle Scholar
• Digby G. C., Daubney M. E., Baggs J., . Physiotherapy and cardiac rhythm devices: a review of the current scope of practice. Europace. 2009; 11:850–859.
   PubMed Web of Science ®Google Scholar
• Dumurgier C., Pujol G., Chevalley J., . Pressure sore carcinoma: a late but fulminant complication of pressure sores in spinal cord injury patients: case reports. Paraplegia. 1991; 29:390–395.
   PubMedGoogle Scholar
• FDA (2003). Warning on diathermy and implanted leads. FDA Patient Safety News. U.S. Food and Drug Administration. Silver Spring, MD. Show 13, March 2003. Retrieved from transcript of video webcast at http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/psn/transcript.cfm?show=13#5.
   Google Scholar
• Foley-Nolan D., Barry C., Coughlan R. J., . Pulsed high frequency (27 MHz) electromagnetic therapy for persistent neck pain. A double blind, placebo-controlled study of 20 patients. Orthopedics. 1990; 13:445–451.
   PubMed Web of Science ®Google Scholar
• Foley-Nolan D., Moore K., Codd M., . Low energy high frequency pulsed electromagnetic therapy for acute whiplash injuries. A double blind randomized controlled study. Scand J Rehabil Med. 1992; 24:51–59.
   PubMedGoogle Scholar
• Frank, R. (1985). Treatment of the perineum by pulsed electro magnetic therapy. Midwives Chron. 98(1174):297–298.
   Google Scholar
• Frykberg R., Tierney E., Tallis A., . Cell proliferation induction: healing chronic wounds through low-energy pulsed radiofrequency. Int. J. Low Extrem. Wounds. 2009; 8:45–51.
   PubMedGoogle Scholar
• Geddes L. A.. Retrospectroscope. d'Arsonval, Physician and Inventor. IEEE Eng. Med. Biol.. 1999; July/August:118–122.
   Google Scholar
• George F. R., Lukas R. J., Moffett J., . In-vitro mechanisms of cell proliferation induction: a novel bioactive treatment for accelerating wound healing. Wounds. 2002; 14:107–115.
   Google Scholar
• Gilbert T. L., Griffin N., Moffett J., . The Provant Wound Closure System induces activation of p44/42 MAP kinase in normal cultured human fibroblasts. Ann. N Y Acad. Sci.. 2002; 961:168–171.
   PubMed Web of Science ®Google Scholar
• Goats G. C.. Pulsed electromagnetic (short-wave) energy therapy. Br. J. Sports Med.. 1989; 23:213–216.
   PubMedGoogle Scholar
• Goldin J. H., Broadbent N. R., Nancarrow J. D., . The effects of Diapulse on the healing of wounds: a double-blind randomised controlled trial in man. Br. J. Plast. Surg.. 1981; 34:267–270.
   PubMedGoogle Scholar
• Grant A., Sleep J., McIntosh J., . Ultrasound and pulsed electromagnetic energy treatment for perineal trauma. A randomized placebo-controlled trial. Br. J. Obstet. Gynaecol.. 1989; 96:434–439.
   PubMedGoogle Scholar
• Guo, L., Kubat, N.J., Nelson, T.R., and Isenberg, R.A. Meta-Analysis of Clinical Efficacy of Pulsed Radio Frequency Energy Treatment. Submitted..
   Google Scholar
• Hayne C. R.. Pulsed high frequency energy - its place in physiotherapy. Physiotherapy. 1984; 70 12: 459–466.
   Google Scholar
• Heden P., Pilla A. A.. Effects of pulsed electromagnetic fields on postoperative pain: a double-blind randomized pilot study in breast augmentation patients. Aesthetic Plast. Surg.. 2008; 32:660–666.
   PubMed Web of Science ®Google Scholar
• Heynick L. N., Johnston S. A., Mason P. A.. Radio frequency electromagnetic fields: cancer, mutagenesis, and genotoxicity. Bioelectromagn. Suppl.. 2003; 6:S74–100.
   PubMed Web of Science ®Google Scholar
• Hutchinson D., Witt S., Fairpo C. G.. Pulsed electromagnetic energy therapy in third molar surgery. Oral Surg. Oral Med. Oral Pathol.. 1978; 46:748–754.
   PubMedGoogle Scholar
• Irnich W., de Bakker J. M., Bisping H. J.. Electromagnetic interference in implantable pacemakers. Pacing Clin. Electrophysiol.. 1978; 1:52–61.
   PubMed Web of Science ®Google Scholar
• Itoh M., Montemayor J. S.Jr, Matsumoto E., . Accelerated wound healing of pressure ulcers by pulsed high peak power electromagnetic energy (Diapulse). Decubitus. 1991; 4:24–25, 29–34.
   PubMedGoogle Scholar
• Jan M. H., Chai H. M., Wang C. L., . Effects of repetitive shortwave diathermy for reducing synovitis in patients with knee osteoarthritis: an ultrasonographic study. Phys. Ther.. 2006; 86:236–244.
   PubMed Web of Science ®Google Scholar
• Kaplan E. G., Weinstock R. E.. Clinical evaluation of diapulse as adjunctive therapy following foot surgery. J. Amer. Podiat. Assoc.. 1968; 58:218–221.
   PubMedGoogle Scholar
• Kim J. H., Hahn E. W.. Clinical and biological studies of localized hyperthermia. Cancer Res.. 1979; 39:2258–2261.
   PubMed Web of Science ®Google Scholar
• Kloth L. C., Berman J. E., Sutton C. H., . 1999. Effect of pulsed radio frequency stimulation on wound healing: a double-blind pilot study. In: Bersani F.. editors. Electricity and Magnetism in Biology and Medicine. New York: Academic/Plenum 875–878.
   Google Scholar
• Kloth L. C., Pilla A. A.. 2010. Electromagnetic stimulation for wound repair. In: McCulloch J., M.Kloth L. C.. editors. Wound Healing: Evidence-Based Management. Philadelphia: F. A. Davis Company. 514–544.
   Google Scholar
• Larsen J. A., Overstreet J.. Pulsed radio frequency energy in the treatment of complex diabetic foot wounds. J. WOCN. 2008; 35 5: 523–527.
   PubMed Web of Science ®Google Scholar
• Laufer Y., Zilberman R., Porat R., . Effect of pulsed short-wave diathermy on pain and function of subjects with osteoarthritis of the knee: a placebo-controlled double-blind clinical trial. Clin. Rehab.. 2005; 19:255–263.
   PubMed Web of Science ®Google Scholar
• Lerman Y., Jacubovich R., Green M. S.. Pregnancy outcome following exposure to shortwaves among female physiotherapists in Israel. Amer. J. Ind. Med.. 2001; 39:499–504.
   PubMed Web of Science ®Google Scholar
• LeVeen H. H., Wapnick S., Piccone V., . Tumor eradication by radiofrequency therapy. Responses in 21 patients. JAMA. 1976; 235:2198–2200.
   PubMed Web of Science ®Google Scholar
• Markov, M. S. (2007). Pulsed electromagnetic field therapy history, state of the art and future. The Environmentalist 27(4):465–475..
   Google Scholar
• Mayrovitz H. N., Sims N., Macdonaki J.. Effects of pulsed radio frequency diathermy on postmastectomy arm lymphedema and skin blood flow: a pilot investigation. Lymphology. 2002; 35:353–356.
   Google Scholar
• Moffett, J., Kubat, N. J., Griffin, N. E., et al. Pulsed radio frequency energy field treatment of cells in culture results in increased expression of genes involved in angiogenesis and tissue remodeling during wound healing. J. Diabetic Foot Complic. In press..
   Google Scholar
• Moffett J., Griffin N. E., Ritz M. C., . Pulsed radio frequency energy field treatment of cells in culture results in increased expression of genes involved in the inflammation phase of lower extremity diabetic wound healing. J. Diabetic Foot Complic. 2010; 2 3: 57–64.
   Google Scholar
• Muirhead R. J., Place D., Buswell W. A., . Pulse electromagnetic energy and pre-tibial lacerations: a randomized clinical trial. Arch. Emerg. Med.. 1991; 8:152–154.
   PubMedGoogle Scholar
• Mustoe T., Upton J., Marcellino V., . Carcinoma in chronic pressure sores: a fulminant disease process. Plast. Reconstr. Surg.. 1986; 77:116–121.
   PubMed Web of Science ®Google Scholar
• Nicolle F. V., Bentall R. M.. Use of radio-frequency pulsed energy in the control of postoperative reaction in blepharoplasty. Aesthetic Plast. Surg.. 1982; 6:169–171.
   PubMed Web of Science ®Google Scholar
• Ouellet-Hellstrom R., Stewart W. F.. Miscarriages among female physical therapists who report using radio- and microwave-frequency electromagnetic radiation. Amer. J. Epidemiol.. 1993; 138:775–786.
   PubMed Web of Science ®Google Scholar
• Pasila M., Visuri T., Sundholm A.. Pulsating shortwave diathermy: value in treatment of recent ankle and foot sprains. Arch. Phys. Med. Rehab.. 1978; 59:383–386.
   PubMed Web of Science ®Google Scholar
• Pennington G. M., Danley D. L., Sumko M. H., . Pulsed, non-thermal, high-frequency electromagnetic energy (DIAPULSE) in the treatment of grade I and grade II ankle sprains. Mil. Med.. 1993; 158:101–104.
   PubMed Web of Science ®Google Scholar
• Pilla A. A.. 2007. Mechanisms of therapeutic applications of time-varying and static magnetic fields. In: Greenebaum F. S. B. A. B.,. editors. Handbook of Biological Effects of Electromagnetic Fields Biological and Medical Aspects of Electromagnetic Fields. Boca Raton, FL: CRC Press. 351–411.
   Google Scholar
• Porreca E. G., Giordano-Jablon G. M.. Treatment of severe (stage III and IV) chronic pressure ulcers using pulsed radio frequency energy in a quadriplegic patient. Eplasty. 2008; 8:e49.
   PubMedGoogle Scholar
• Reis R.. Potential interference with medical electronic devices. Bull. NY Acad. Med.. 1979; 55:1216–1221.
   PubMedGoogle Scholar
• Rhodes L. C.. The adjuctive utilization of Diapulse therapy (pulse high peak power electromagnetic energy) in accelerating tissue healing in oral surgery. Quart. NDA. 1981; 39:166–175.
   Google Scholar
• Rohde C., Chiang A., Adipoju O., . Effects of pulsed electromagnetic fields on interleukin-1beta and postoperative pain: a double-blind, placebo-controlled, pilot study in breast reduction patients. PRS. 2010; 125:1620–1627.
   Google Scholar
• Salzberg C. A., Cooper-Vastola S. A., Perez F. J., . The effects of non-thermal pulsed electromagnetic energy (Diapulse) on wound healing of pressure ulcers in spinal cord-injured patients: a randomized double-blind study. Wounds. 1995; 7 1: 11–16.
   Google Scholar
• Santiesteban A. J., Grant C.. Post-surgical effect of pulsed shortwave therapy. J. Amer. Podiatr. Med. Assoc.. 1985; 75:306–309.
   PubMed Web of Science ®Google Scholar
• Seaborne D., Quirion-DeGirardi C., Rousseau M., . The treatment of pressure sores using pulsed electromagetic energy (PEME). Physiother. Cancer. 1996; 48:131–137.
   Google Scholar
• Seiger C., Draper D. O.. Use of pulsed shortwave diathermy and joint mobilization to increase ankle range of motion in the presence of surgical implanted metal: A case series. J. Orthop. Sports Phys. Ther.. 2006; 36:669–677.
   PubMed Web of Science ®Google Scholar
• Shandles I. D. P., J., Reynolds K. L.. Heel Neurooma: the egigma of recalcitrant heel pain and an innovative approach highlighting sixty surgical cases and areview of two hundred and fifty seven symptomatic but non-surgical cases. Foot. 2002; 12:10–20.
   Google Scholar
• Sherman G.. A quick review of pulsed radiofrequency stimulation (PRFS). Podiat. Manage. 2007 (June/July): p. 187. .
   Google Scholar
• Silver H.. Reduction of capsular contracture with two-stage augmentation mammaplasty and pulsed electromagnetic energy (Diapulse therapy). Plast. Reconstr. Surg.. 1982; 69 (5): 802–808.
   PubMed Web of Science ®Google Scholar
• Storm F. K., Harrison W. H., Elliott R. S., . Normal tissue and solid tumor effects of hyperthermia in animal models and clinical trials. Cancer Res.. 1979; 39:2245–2251.
   PubMed Web of Science ®Google Scholar
• Sussman C., Bates-Jensen B. M.. 2007. Induced electrical stimulation: pulsed radio frequency and pulsed electromagnetic fields. In: Sussman C., Bates-Jensen B. M.. editors. Wound Care: a Collaborative Practice Manual for Health Professionals. Philadelphia: Lippincott Williams & Wilkins. 555–590.
   Google Scholar
• Svarcova J., Trnavsky K., Zvarova J.. The influence of ultrasound, galvanic currents and shortwave diathermy on pain intensity in patients with osteoarthritis. Scand. J. Rheumatol.. 1988; 67:83–85.
   Google Scholar
• Taskinen H., Kyyronen P., Hemminki K.. Effects of ultrasound, shortwaves, and physical exertion on pregnancy outcome in physiotherapists. J. Epidemiol. Commun. Health. 1990; 44:196–201.
   PubMed Web of Science ®Google Scholar
• Tung S., Khaski A., Milano E., . The application of diapulse in the treatment of decubitus ulcers: case reports. Contemp. Surg.. 1995; 47:27–33.
   Google Scholar
• Wagstaff P., Wagstaff S., Downey M.. A pilot study to compare the efficacy of continuous and pulsed magnetic energy [short-wave diathermy] on the relief of low back pain. Physiotherapy. 1986; 72:563–566.
   Google Scholar
• Wilson C. M.. Learning to use a medical technology. Geriatr. Nur. (London). 1995; 16:20–21.
   PubMed Web of Science ®Google Scholar
• Wilson D. H.. Comparison of short wave diathermy and pulsed electromagnetic energy in treatment of soft tissue injuries. Physiotherapy. 1974; 60:309–310.
   PubMedGoogle Scholar
• Zhao C. G., He X. J., Lu B., . Classification of gluteal muscle contracture in children and outcome of different treatments. BMC Musculoskelet Disord. 2009; 10:34.
   PubMedGoogle Scholar
• Zundert J. V., de Louw A. J. A., Joosten E. A. J., . Pulsed and continous radiofrequency current adjacent to the cervical dorsal root ganglion of the rat induces late cellular activity in the dorsal horn. Anesthesiology. 2005; 102:125–131.
   PubMed Web of Science ®Google Scholar