Biophysical signaling, an integral regulator of long-term cell behavior in both excitable and
non-excitable cell types, offers enormous potential for modulation of important cell functions …

Understanding the factors that allow biological systems to reliably self‐assemble consistent,
highly complex, four dimensional patterns on many scales is crucial for the biomedicine of …

Two independent laboratories have demonstrated that electromagnetic radiation at specific
frequencies can cause a change in the efflux of calcium ions from brain tissue in vitro. In a …

Weak, pulsing electromagnetic fields can modify biological processes. The hypothesis that
responses to such induced currents depend on pulse characteristics was evaluated by using …

Cellular dedifferentiation is the major process underlying totipotency, regeneration, and
formation of new stem cell lineages in multicellular organisms. In animals it is often …

Background and Purpose: Hyperthermia is an emerging complementary method in
radiooncology. Despite many positive studies and comprehensive reviews, the method is …

The remarkable regenerative capacity displayed by plants and various vertebrates, such as
amphibians, is largely based on the capability of somatic cells to undergo dedifferentiation …

The effect of the in vitro exposure to extremely low frequency pulsed electromagnetic fields
(PEMFs) on the proliferation of human lymphocytes from 24 young and 24 old subjects was …

Cellular dedifferentiation underlies topical issues in biology such as regeneration and
nuclear cloning and has common features in plants and animals. In plants, this process …

The remarkable regeneration capacity of plant cells is based on their capability to
dedifferentiate. We recently reported that cellular dedifferentiation proceeds through two …