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Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder characterized by cognitive decline, neuroinflammation, oxidative stress, and mitochondrial dysfunction. Despite extensive research efforts, effective curative treatments remain elusive, emphasizing the need for innovative therapeutic strategies. Grounding, or earthing, involves direct physical contact with the Earth's surface to facilitate the absorption of negatively charged electrons into the body. This practice has gained attention for its potential to reduce inflammation, oxidative stress, and cortisol dysregulation, which are significant contributors to AD pathology. This review examines the biological mechanisms by which grounding may influence AD, including its antioxidative effects that mitigate oxidative stress and its anti-inflammatory properties that reduce neuroinflammation. Grounding may also improve sleep quality and stress management, factors known to exacerbate AD progression. Evidence from preclinical and clinical studies highlights its potential to protect neuronal health by targeting oxidative and inflammatory pathways. Additionally, the safety, feasibility, and cost-effectiveness of grounding are discussed, making it a practical complementary approach to existing AD therapies. While the preliminary evidence is promising, the review emphasizes the need for robust clinical trials to validate grounding's efficacy specifically in AD populations. By integrating grounding into standard care protocols, it may be possible to enhance the overall therapeutic outcomes and improve the quality of life for individuals with AD. Grounding represents a novel, non-pharmacological intervention that could complement existing treatments by addressing both the physiological and psychological aspects of this complex disease.

Keywords

Alzheimer's disease cognitive decline cortisol regulation earthing grounding neuroinflammation neuroprotection non-pharmacological interventions quality of life improvement sleep quality

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References

Bloom

. Amyloid-β and tau: the trigger and bullet in Alzheimer disease pathogenesis. JAMA Neurol 2014; 71: 505–508.

Hardy

Selkoe

. The amyloid hypothesis of Alzheimer's disease: progress and problems on the road to therapeutics. Science 2002; 297: 353–356.

Mandelkow

. Biochemistry and cell biology of tau protein in neurofibrillary degeneration. Cold Spring Harb Perspect Med 2012; 2: a006247.

Wang

Mandelkow

. Tau in physiology and pathology. Nat Rev Neurosci 2016; 17: 5–21.

Butterfield

Halliwell

. Oxidative stress, dysfunctional glucose metabolism and Alzheimer disease. Nat Rev Neurosci 2019; 20: 148–160.

Swerdlow

. Mitochondria and mitochondrial cascades in Alzheimer's disease. J Alzheimers Dis 2018; 62: 1403–1416.

Heneka

Golenbock

Latz

. Innate immunity in Alzheimer's disease. Nat Immunol 2015; 16: 229–236.

Heppner

Ransohoff

Becher

. Immune attack: the role of inflammation in Alzheimer disease. Nat Rev Neurosci 2015; 16: 358–372.

Onyango

Dennis

Khan

. Mitochondrial dysfunction in Alzheimer's disease and the rationale for bioenergetics based therapies. Aging Dis 2016; 7: 201–214.

10.

Brown

Chevalier

Hill

. Grounding after moderate eccentric contractions reduces muscle damage. Open Access J Sports Med 2015; 6: 305–317.

11.

Kim

Jeong

, et al. The common cellular events in the neurodegenerative diseases and the associated role of endoplasmic reticulum stress. Int J Mol Sci 2022; 23: 5894.

12.

Oschman

. Can electrons act as antioxidants? A review and commentary. J Altern Complement Med 2007; 13: 955–967.

13.

Chevalier

Sinatra

Oschman

, et al. Earthing: health implications of reconnecting the human body to the Earth's surface electrons. J Environ Public Health 2012; 2012: 291541.

14.

Lowry

Hollis

de Vries

, et al. Identification of an immune-responsive mesolimbocortical serotonergic system: potential role in regulation of emotional behavior. Neuroscience 2007; 146: 756–772.

15.

Karl

Hatch

Arcidiacono

, et al. Effects of psychological, environmental and physical stressors on the gut microbiota. Front Microbiol 2018; 9: 2013.

16.

Amoroso

Böttcher

Lowry

, et al. Subcutaneous Mycobacterium vaccae promotes resilience in a mouse model of chronic psychosocial stress when administered prior to or during psychosocial stress. Brain Behav Immun 2020; 87: 309–317.

17.

Holbrook

Zambrano

Wright

CTO

, et al. Mycobacterium vaccae NCTC 11659, a soil-derived bacterium with stress resilience properties, modulates the proinflammatory effects of LPS in macrophages. Int J Mol Sci 2023; 24: 5176.

18.

Chevalier

. Grounding the human body improves facial blood flow regulation: results of a randomized, placebo controlled pilot study. J Cosmetics Dermatol Sci Appl 2014; 4: 293–308.

19.

Ghaly

Teplitz

. The biologic effects of grounding the human body during sleep as measured by cortisol levels and subjective reporting of sleep, pain, and stress. J Altern Complement Med 2004; 10: 767–776.

20.

Chevalier

Mori

Oschman

. The effect of Earthing (grounding) on human physiology. Eur Biol Bioelectromagnetics 2006; 2: 600–621.

21.

Roh

Jiang

Finn

, et al. Potential role of orexin and sleep modulation in the pathogenesis of Alzheimer's disease. J Exp Med 2014; 211: 2487–2496.

22.

McLeland

Toedebusch

, et al. Sleep quality and preclinical Alzheimer disease. JAMA Neurol 2013; 70: 587–593.

23.

Liu

Zhao

, et al. Research progress on the etiology and pathogenesis of Alzheimer's disease from the perspective of chronic stress. Aging Dis 2023; 14: 1292–1310.

24.

Dronse

Ohndorf

Richter

, et al. Serum cortisol is negatively related to hippocampal volume, brain structure, and memory performance in healthy aging and Alzheimer's disease. Front Aging Neurosci 2023; 15: 1154112.

25.

Ouanes

Popp

. High cortisol and the risk of dementia and Alzheimer's disease: a review of the literature. Front Aging Neurosci 2019; 11: 43.

26.

Shohamy

Adcock

. Dopamine and adaptive memory. Trends Cogn Sci 2010; 14: 464–472.

27.

McGlone

Olausson

Boyle

, et al. Touching and feeling: differences in pleasant touch processing between glabrous and hairy skin in humans. Eur J Neurosci 2012; 35: 1782–1788.

28.

Field

. Touch for socioemotional and physical well-being: a review. Dev Rev 2010; 30: 367–383.

29.

Kimura

Kadota

Kuroda

, et al. Neural correlates of tactile simultaneity judgement: a functional magnetic resonance imaging study. Sci Rep 2019; 9: 19481.

30.

Bhopti

Brown

. Examining the Wilbargers’ deep pressure and proprioceptive technique for treating children with sensory defensiveness using a multiple-single- case study approach. J Occup Ther Sch Early Interv 2013; 6: 108.

31.

van Praag

Shubert

Zhao

, et al. Exercise enhances learning and hippocampal neurogenesis in aged mice. J Neurosci 2005; 25: 8680–8685.

32.

Jeong

, et al. Effect of earthing mats on sleep quality in rats. Int J Mol Sci 2024; 25: 9791.

33.

Park

Jeong

, et al. The effect of earthing mat on stress-induced anxiety-like behavior and neuroendocrine changes in the rat. Biomedicines 2022; 11: 57.

34.

Cotman

Berchtold

. Exercise: a behavioral intervention to enhance brain health and plasticity. Trends Neurosci 2002; 25: 295–301.

35.

Gómez-Pinilla

. Brain foods: the effects of nutrients on brain function. Nat Rev Neurosci 2008; 9: 568–578.

36.

Oschman

Chevalier

Brown

. The effects of grounding (earthing) on inflammation, the immune response, wound healing, and prevention and treatment of chronic inflammatory and autoimmune diseases. J Inflamm Res 2015; 8: 83–96.

37.

Pedersen

Febbraio

. Muscle as an endocrine organ: focus on muscle-derived interleukin-6. Physiol Rev 2008; 88: 1379–1406.

38.

Serhan

Chiang

Van Dyke

. Resolving inflammation: dual anti-inflammatory and pro-resolution lipid mediators. Nat Rev Immunol 2008; 8: 349–361.

39.

Chevalier

Sinatra

Oschman

, et al. Earthing (grounding) the human body reduces blood viscosity-A major factor in cardiovascular disease. J Altern Complement Med 2013; 19: 102–110.

40.

Applewhite

. The effectiveness of a conductive patch and a conductive bed pad in reducing induced human body voltage via the application of earth ground. Eur Biol Bioelectromagnetics 2005; 1: 23–40.

41.

Brown

. Effects of grounding on body voltage and current in the presence of electromagnetic fields. J Altern Complement Med 2016; 22: 757–759.

42.

Koniver

. Practical applications of grounding to support health. Biomed J 2023; 46: 41–47.

Grounding as a complementary intervention for Alzheimer's disease: Mechanisms,evidence,and potential therapeutic applications

Abstract

Keywords

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