https://www.selleckchem.com/products/cid44216842.html neuronal networks may similarly benefit from this novel approach. Our findings suggest that tACS has the potential to reduce network-level hypersynchrony and pathological susceptibility to entrainment by sensory input. To the best of our knowledge, this is the first successful demonstration of desynchronization by noninvasive brain stimulation leading to reduced vertigo. Other disease states associated with pathological functional coupling of neuronal networks may similarly benefit from this novel approach.One of the most intriguing problems in biomedical sciences is the theory explaining cancer formation. It is known that cancer is the result of many molecular processes, the presence of oncogenic factors and the loss of apoptosis of affected cells. We currently have hypotheses based on carcinogenesis because of a single cell gene mutation, i.e. somatic mutation theory (SMT), or disorders in tissue architecture and intercellular communication called (TOFT) Tissue Organization Field Theory. An attempt to combine these separate and compatible cause and effect pathways into one unified theory of cancer transformation is the theory of chaotic adaptation. The new interpretative model is the systemic-evolution theory of cancer (SETOC) which postulates disintegration between the symbiosis of "energy" and "information" in normal cells. There are also epidemiological studies confirming that some types of cancer arise from viral infection. So, let us ask the question, can one hypothesis explain all the features of cancer?Enhancing knowledge about neuroendocrine neoplasms causes the need to improve management of these tumors. Although these tumors are rare in clinical practice, their biological diversity makes both diagnostics and therapy a challenge for contemporary oncology. The article discusses the latest developments in the diagnostic procedures and methods of treatment of the cervical and ovarian neuroendocrine tumors