Abstract: A hand-held therapeutic laser apparatus with a special opto-mechanical construction, which enables changeability of a front collimating lens to create different effective laser apertures. A smaller effective aperture has a comparatively higher radiant flux density for treatment of a small area that requires a higher energy dose, while a larger effective aperture facilitates treatment of a large area at a relatively reduced radiant intensity.

Abstract: A handheld, low-level laser apparatus includes a laser diode configured to generate a laser emission having an astigmatism. The apparatus further includes one or more corrective lens configured alone or in combination to correct the astigmatism and to collimate the laser emission, a divergence lens configured to diverge the laser emission after the laser emission passes through the one or more corrective lens, and a front lens configured to collimate the laser emission after the laser emission passes through the divergence lens. A low-level laser beam producing method includes repeatedly directing an IR laser emission through a series of lenses during a first set of time periods and repeatedly directing a visible laser emission through the series of lenses during a second set of time periods, each time period of the first set of time periods being distinct from each time period of the second set of time periods.

Abstract: A hand-held therapeutic laser apparatus with a special opto-mechanical construction, which enables changeability of a front collimating lens to create different effective laser apertures. A smaller effective aperture has a comparatively higher radiant flux density for treatment of a small area that requires a higher energy dose, while a larger effective aperture facilitates treatment of a large area at a relatively reduced radiant intensity.

Abstract: The present invention specifies a method and system for assessing the dynamic respiratory arterial pressure wave using plethysmographic sensing techniques. The dynamic respiratory arterial pressure wave is measured and plotted for purposes of diagnosis and or remedial biofeedback.

Abstract: The present invention specifies a method and system for assessing the dynamic respiratory arterial pressure wave using plethysmographic sensing techniques. The dynamic respiratory arterial pressure wave is measured and plotted for purposes of diagnosis and or remedial biofeedback.

Abstract: The present invention provides a biofeedback system and method for the purpose of allowing a human subject to consciously synchronize one's rhythm of breathing with one's natural heart rhythm for purposes of maximizing coherence of one's heart rate variability pattern and consequent enhancement of physiological/psychological well being. It accomplishes this by facilitating a biofeedback signal that indicates to the human subject precisely when to inhale and exhale such that the breathing cycle will achieve a high degree of alignment with the natural heart rate cycle. It also specifies an instructive method for bringing a human subject to an adequately coherent heart rate variability pattern such that the preferred embodiment of the invention can be applied.

Abstract: The invention consists of a broad method of presenting audible and visual cues for synchronizing the breathing cycle with an external timing reference for purposes of synchronizing the heart rate variability cycle with the breathing cycle, thereby achieving coherence of the heart rate variability cycle. A family of audible and visual indicators is specified for purposes of communicating breathing phase, change of breathing phase, progression of time within a phase, and progression of the phase relative to the internal perception of the practitioner.

Abstract: The present invention specifies a method and system for assessing breathing effectiveness via dynamic assessment of respiratory sinus arrhythmia and the consequent arterial pressure wave using the oscillometric measurement technique. Arterial pressure wave peak pressure, valley pressure, amplitude, and rate are characterized and displayed for diagnostic and remedial purposes. The dynamic change in respiratory sinus arrhythmia and resultant arterial pressure wave is visually presented in real time as user biofeedback. A respiratory sinus arrhythmia generator generates varying frequencies to which the user synchronizes their breathing cycle for purposes of increasing arterial pressure wave amplitude with a consequent increase in breathing depth and decrease in breathing frequency. An instructive method in the application of the present invention is also specified.

Abstract: The present invention specifies the fundamental method and system for providing an electrical connection between the human and earth ground for purposes of promoting health, well being, and performance. It is based on the premise that vertebrate organisms require electrical connectivity to earth for health and well being, especially during times of trauma. It is asserted that vertebrate biopotential may be modulated by varying the resistance from the body to earth ground and that via this mechanism, bioenergy production and internal impedance may be modulated for purposes of healing, health maintenance, and “work” including exercise. Instructive methods for characterizing an individual's biopotential and for applying the present invention in urgent portable medical care situations are provided.

Abstract: A broad method consisting of the composition and creation of music wherein musical cues are contained for the purpose of synchronizing the breathing cycle with a 5.88 second musical interval for the purpose of synchronizing the heart rate variability cycle with the breathing cycle. The method wherein a 5.88 second interval is incorporated into musical composition for the purpose of producing said music and the identification and incorporation of 21 novel tempos as the basis of producing said interval. Also addressed is the method and system of incorporating the 21 novel tempos into metronomes and music synthesizers for the purpose of producing said tempos and music of said tempos, respectively.

Abstract: The invention consists of a broad method of presenting audible and visual cues for synchronizing the breathing cycle with an external timing reference for purposes of synchronizing the heart rate variability cycle with the breathing cycle, thereby achieving coherence of the heart rate variability cycle. A family of audible and visual indicators is specified for purposes of communicating breathing phase, change of breathing phase, progression of time within a phase, and progression of the phase relative to the internal perception of the practitioner.