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Equipment, Education and Resources for Clinical Excellence in Energetic Therapies

Xenon Phototherapy

Masui.  2012 Jul;61(7):693-9.

Xenon light therapy.

[Article in Japanese]
Kanai A.

Source

Department of Anesthesiology, Kitasato University School of Medicine, Sagamihara.

Abstract

The xenon light, generated by high-intensity electrical stimulation of xenon gas, is used to sterilize wounds, aid tissue repair, and relieve pain as a low-level light therapy. The light produced consists of non-coherent beams of multiple wavelengths in the ultraviolet to infrared spectrum. This broad-band light can be emitted in a continuous wave or pulsed mode, with the wave band chosen and the energy distribution controlled for the purpose. Specifically, wavelengths in the 500-700 nm range are suitable for treating superficial tissue, and wavelengths between 800 and 1,000 nm are suitable for deeper-seated tissues, due to longer optical penetration distances through tissue. One of the most common benefits in the xenon light therapy is considered to be the wide and deep irradiation of optimal rays to living tissue. Research into the use of xenon light for tissue repair and pain reduction is restricted within open-label studies and case reports. The present review expounded the effects of xenon light therapy on the basis of the available evidence in vitro and in vivo studies using a laser beam of single wavelength.

Masui.  2012 Jul;61(7):676-7.

Usefulness and clinical application of phototherapy: preface and comments.

[Article in Japanese]
Hanaoka K.

Source

JR Tokyo General Hospital, Tokyo.

Abstract

The following articles describe topics of phototherapy including low reactive laser therapy by diode laser device, semiconductor as a medium consisting of aluminum, gallium and arsenic, near infrared light irradiator using halogen lamp, and xenon light by high-intensity electrical stimulation of xenon gas. In addition, the applications of phototherapy in the clinical medicine such as rehabilitation, orthopedics and pain clinic are described. Phototherapy is a useful and safe method for pain relief.

J Food Prot.  2012 May;75(5):913-7.

Decontamination of sugar syrup by pulsed light.

Chaine A, Levy C, Lacour B, Riedel C, Carlin F.

Source

Claranor SA, Chemin de la Rollande, Agroparc, BP 21 531, F-84916 Avignon cedex 9, France.

Abstract

The pulsed light produced by xenon flash lamps was applied to 65 to 67 °Brix sugar syrups artificially contaminated with suspensions of Saccharomyces cerevisiae and with spores of Bacillus subtilis, Geobacillus stearothermophilus, Alicyclobacillus acidoterrestris, and Aspergillus niger. The emitted pulsed light contained 18.5 % UV radiation. At least 3-log reductions of S. cerevisiae, B. subtilis, G. stearothermophilus, and A. acidoterrestris suspended in 3-mm-deep volumes of sugar syrup were obtained with a fluence of the incident pulsed light equal to or less than 1.8 J/cm(2), and the same results were obtained for B. subtilis and A. acidoterrestris suspended in 10-mm-deep volumes of sugar syrup. A. niger spores would require a more intense treatment; for instance, the maximal log reduction was close to 1 with a fluence of the incident pulsed light of 1.2 J/cm(2). A flowthrough reactor with a flow rate of 320 ml/min and a flow gap of 2.15 mm was designed for pulsed light treatment of sugar syrup. Using this device, a 3-log reduction of A. acidoterrestris spores was obtained with 3 to 4 pulses of incident pulsed light at 0.91 J/cm(2) per sugar syrup volume.

Masui.  2009 Nov;58(11):1401-6.

Phototherapy for chronic pain treatment.

[Article in Japanese]
Ide Y.

Source

Department of Anesthesia, Toho University Sakura Medical Center Sakura 285-8741.

Abstract

Three types of machines are used in the field of phototherapy for chronic pain. One type is an instrument for low reactive level laser therapy (LLLT), one is an instrument for linear polarized infrared light irradiation (SUPER LIZER), and the last one is an instrument for Xenon light irradiation (beta EXCEL Xe10). The available machines for LLLT all project laser by semiconductor. The newest machine (MEDILASER SOFT PULSE10) has peak power of 10 W and mean power of 1 W. This machine is as safe as 1 W machine and is effective twice as deep as the 1 W machine. The irradiation by low reactive level laser induces hyperpolarization, decreased resistance of neuronal membrane, and increased intra-cellular ATP concentrations. The effects of low reactive level laser might be induced by the activation of ATP-dependent K channel. The significant analgesic effects of 1 W and 10 W LLLT were reported with double blind test. The significant analgesic effects of linear polarized near infrared light irradiation with double blind test were also reported. The effects of low reactive level laser upon the sympathetic nerve system were thought to result from its normalization of the overloaded sympathetic nerve system.

Masui.  2009 Jan;58(1):92-5.

Effects of percutaneous lidocaine administration and xenon-ray irradiation on post-herpetic neuralgia in liver transplant recipients: a report of three cases.

[Article in Japanese]
Mochizuki N, Ide S, Shibata J, Hasegawa J, Tanaka S, Ikeno S, Kitoh T, Kawamata M.

Source

Department of Anesthesiology and Resuscitology, Shinshu University School of Medicine, Matsumoto 390-8621.

Abstract

We report three cases of liver transplant recipients (LTRs) with postherpetic neuralgia (PHN). They were referred to our department because of poor pain control. Repeated percutaneous lidocaine (2%, 15 ml) administration to the site of the pain via an iontophoresis system and xenon-ray irradiation were effective for the three patients. Visual analogue scale for pain decreased significantly and requirements of analgesics diminished considerably during the therapy without serious side effects. PHN is relatively common in LTRs, but treatment options are restricted because of immunosuppressive therapy and hepatic and/or renal dysfunction. However noninvasive frequent iontophoretic administration of lidocaine and xenon-ray irradiation produced satisfactory pain relief for PHN in LTRs.

Masui.  2006 Sep;55(9):1104-11.

Equipment for low reactive level laser therapy including that for light therapy.

[Article in Japanese]
Saeki S.

Source

Department of Anesthesiology, Nihon University School of Medicine (Surugadai Nihon University Hospital), Tokyo.

Abstract

Equipments used for light therapy include machinery used for irradiation by low reactive level laser, xenon light and linear polarized infra-red ray. Low reactive level laser is divided into two types of laser according to the medium by which laser is obtained ; semiconductor laser and helium-neon laser. Low reactive level laser has only one wave length and produces analgesia by action of light itself. On the other hands, Xenon light and linear polarized infra-red ray produce analgesia by warming effect induced by light in addition to the action of light itself. There are four methods of irradiation by these light sources; irradiation of acupuncture points, of trigger points, along nerves causing pain and of stellate ganglion area. Indication for light therapy includes various kinds of diseases such as herpes zoster, post herpetic neuralgia, cervical pain, lumbago due to muscle contracture, complex regional pain syndrome, arthralgia etc. However, we have to know that light therapy does not exert analgesic effects equally to all patients. But light therapy does not accompany pain and rarely shows any side effects. Therefore it is thought to be an alternative for patients who reject injection or patients who are not indicated for nerve block because of patients’ conditions such as bleeding tendency.

This entry was added on August 7, 2012 and last updated August 7, 2012, filed under Laser Research Library. Bookmark the permalink.