Soft Tissue Regeneration with
HiToP®
Nerve and Vascular Health
Studies show that HiToP® therapy significantly enhances microvascular endothelial cell function, essential for tissue repair and regeneration, by improving endothelial health and nitric oxide production for better blood flow. It also promotes the differentiation and functionality of hematopoietic stem cells (HSCs) and endothelial progenitor cells (EPCs), which are critical for neovascularization, endothelial repair, and tissue regeneration. HiToP® increases VEGFR2 expression on HSCs, supporting vascular health, immune function, inflammation regulation, and wound healing. HiToP® therapy positively impacts the regeneration of myelin sheaths in myelinated nerve fibers, as evidenced by the improved conduction velocity of the ulnar nerve. This enhancement in nerve function is a critical component of tissue repair.
Soft Tissue Regeneration
HiToP® increases VEGFR2 expression in circulating hematopoietic stem cells (HSCs)
HiToP® enhances VEGFR2 expression in stem cells, increasing their involvement in tissue repair and blood vessel formation, which is essential for wound healing and recovery from ischemia and other regenerative processes.
HiToP® improves microcirculation by enhancing blood flow and delivering vital oxygen and nutrients to tissues, facilitating faster tissue repair, effective wound healing, and increased collagen production essential for skin and tissue regeneration.
Muscle Strengthening
Muscle Performance
Studies indicate that HiToP® therapy significantly boosts muscle strength by helping rebuild strength and increase muscle torque. The HiToP® oscillations penetrate deeply into the body, energizing mitochondria and receptors, enhancing cell function, which results in increased energy production and reduced muscle fatigue, ultimately leading to greater muscle mass and strength.
HiToP® Advantages for
Soft Tissue Regeneration
Improved Microcirculation
Improve Cellular Diffusion
Extremely Comfortable
Hands-Free Treatment
Enhanced Tissue Repair
Muscle Strengthening
Source:
Clinical Therapeutics 2017, Hidmark A et al.
German Diabetes Society 2006, M. Humpert et al.
Clinical Nephrology 2013, B. Strempska et al.
Journal of Thin Film Science Technology 2022, Rania Moez et al.
Diabetology and Metabolism 2016, L. Spanidis et al.
G Ital Nefrol 2015, L. Di Micco et al.
Physiotherapy 2009, Iwona Nowakowska et al.
German Diabetes Society in 2006, M. Humpert et al
J Geriatr Psychiatry Neurol 2021, M.-N.
BMC Musculoskelet Disord 2021, Ogrodzka-Ciechanowicz K et la.
Journal of Renal Nutrition 2008, A. Klassen et al.
HiToP® Treatments
Metabolic Health
Wellness
Sport Medicine
Pain Management
Soft Tissue Repair