Just spending a few minutes on any search engine will reveal the power and scientific data backing the use of miRNAs in the healing process of damaged tissues and wounds. It also greatly impacts energy levels, libido, nerve ending receptors, and on and on. Humanoflow is about making the damaging impact of the miRNAs your body has lost over time reduced. Please read these snippets and their supporting articles on how Humanoflow can help you and your loved ones become more healthy.
Articles On How miRNA can help in repairing damaged tissues
“A class of non-coding RNA molecules that have recently emerged as critical factors in wound healing are the microRNAs (miRNAs). miRNAs are about 22-25 nucleotides in length and affect a wide range of cellular processes. miRNAs function by inhibiting mRNA translation or by targeting mRNA for degradation. Increasing evidence suggest that miRNAs regulate gene expression program and outcome during wound healing. For example, cutaneous wound repair is compromised in both keratinocyte-specific and endothelial-specific Dicer-ablated mice, which asserts that miRNAs are implicated in keratinocyte differentiation and angiogenesis in the healing process. The possible involvement of miRNAs in skin wound healing has been illuminated by several expression profiling studies that have found differential expression of many miRNAs in wounded skin.”
“MicroRNAs (miRNAs) are ~22nt noncoding RNAs, which are being recognized as important gene regulators during the last decade. In humans, miRNAs are proposed to regulate ~60% of all protein-coding genes and are thus involved in most biological processes investigated—e.g., development, organogenesis, apoptosis, and cell proliferation. Deregulation of miRNA expression has been implicated in the pathogenesis of many diseases, such as cancer, infection, and chronic inflammatory diseases. Increasing pre-clinical and clinical studies have demonstrated that modulation of miRNA expression by administration of specific miRNA mimics or inhibitors may be beneficial for treating diseases. Thus, miRNAs represent potentially important therapeutic targets.”