Friday, August 31, 2012

Divine Quantum's™ Scalar Energy Pendant Overview




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Divine Quantum's™ Scalar Energy Pendant Overview









Welcome to Divine Quantum™ We believe in easy, natural, holistic solutions for you and your family. Check out our Divine Quantum™ Scalar Energy Pendant. Recent studies have shown that the effect of Electro Magnetic Frequencies (EMFs) in our environment has become a world health concern with reports about the damaging effects from exposure. The answer to shielding our body's Universal Life Force is found within Mother Earth itself. Certain volcanic lava minerals naturally give off a tremendous amount of Quantum Scalar Energy. Quantum Scalar Energy produces high levels of negative ions and protects the body from harmful EMF's effectively defending the body. The electromagnetic field of human energy can be maintained at the healthiest level with Quantum Scalar Energy, allowing our energy, health and well-being to improve almost automatically. www.divinequantum.com

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Muscle Stimulation with Electro- Acupuncture









Electrical Muscle Stimulation using electro acupuncture

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New Help for Depression - Dr. David Jernigan









Conventional medicine would have us believe that the only way to address depression is through pharmaceutical antidepressants and psychiatric therapy. In this presentation, Dr. Jernigan of the Hansa Center for Optimum Health shares alternative methods to address depression at its root cause instead of masking symptoms. www.hansacenter.com Follow: Twitter - @davidjernigan / @hansacenter FB - www.facebook.com/drdavidjernigan

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HubMed - holistic Health





The genetic pleiotropy of musculoskeletal aging.



Front Physiol. 2012; 3: 303
Karasik D, Cohen-Zinder M

Musculoskeletal aging is detrimental to multiple bodily functions and starts early, probably in the fourth decade of an individual's life. Sarcopenia is a health problem that is expected to only increase as a greater portion of the population lives longer; prevalence of the related musculoskeletal diseases is similarly expected to increase. Unraveling the biological and biomechanical associations and molecular mechanisms underlying these diseases represents a formidable challenge. There are two major problems making disentangling the biological complexity of musculoskeletal aging difficult: (a) it is a systemic, rather than "compartmental," problem, which should be approached accordingly, and (b) the aging per se is neither well defined nor reliably measurable. A unique challenge of studying any age-related condition is a need of distinguishing between the "norm" and "pathology," which are interwoven throughout the aging organism. We argue that detecting genes with pleiotropic functions in musculoskeletal aging is needed to provide insights into the potential biological mechanisms underlying inter-individual differences insusceptibility to the musculoskeletal diseases. However, exploring pleiotropic relationships among the system's components is challenging both methodologically and conceptually. We aimed to focus on genetic aspects of the cross-talk between muscle and its "neighboring" tissues and organs (tendon, bone, and cartilage), and to explore the role of genetics to find the new molecular links between skeletal muscle and other parts of the "musculoskeleton." Identification of significant genetic variants underlying the musculoskeletal system's aging is now possible more than ever due to the currently available advanced genomic technologies. In summary, a "holistic" genetic approach is needed to study the systems's normal functioning and the disease predisposition in order to improve musculoskeletal health.








HubMed - Acupuncture





Functional organization of complex brain networks modulated by acupuncture at different acupoints belonging to the same anatomic segment.



Chin Med J (Engl). 2012 Aug; 125(15): 2694-700
Chen SJ, Meng L, Yan H, Bai LJ, Wang F, Huang Y, Li JP, Peng XM, Shi XM

Noninvasive functional magnetic resonance imaging (fMRI) techniques have opened a "window" into the brain, allowing us to investigate the anatomical and physiological function involving acupuncture needling. Imaging its sustained effect rather than acute effect on the brain networks may further help elucidate the mechanisms by which acupuncture achieves its therapeutic effects. In this study, we aimed to investigate the functional brain networks during the post-resting state following acupuncture at KI3 in comparison with acupuncture at GB40.Needling at acupoints GB40 and KI3 was performed in twelve subjects. Six minutes of scanning at rest were adopted before and after acupuncture at different acupoints. Then we divided the whole brain into 39 regions and constructed functional brain networks during the post-acupuncture resting states (PARS).For direct comparisons, increased correlations during post-resting state following acupuncture at KI3 compared to resting state (RS) were primarily located between the dorsolateral prefrontal cortex (DLPFC) and post temporal cortex, ventromedial prefrontal cortex (vmPFC) and post temporal cortex. These brain regions were all cognitive-related functions. In contrast, the increased connections between the anterior insula and temporal cortex mainly emerged following acupuncture at GB40 compared with the RS.The present study demonstrates that acupuncture at different acupoints belonging to the same anatomic segment can exert different modulatory effects on the reorganizations of post-acupuncture RS networks. The heterogeneous modulation patterns between two conditions may relate to the functional specific modulatory effects of acupuncture.







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