Severe illness such as bipolar is most common in developing countries and most populations are affected. Stem cell therapy has been a solution to this cognitive or social defect. This chapter is all about balancing and targeting modulation in the brain but also regenerating cells. With pathological damage in mental illness, there is novel interference such as modulation of a particular cell population. In the particular case of damage, oligodendrites played a crucial role. In this chapter, oligodendrites reveal calcium signals in neural cells. The stimulating mechanism of oligodendrites helps in the proliferation, maturation and myelination response of transplanted cells. The calcium signaling response regulates the neural progenitor cell proliferation, migration, differentiation synaptic plasticity which involves neuropsychiatric diseases in humans. Protein annotation and protein-protein interaction have been highlighted in this chapter. There are 119 calcium-activated proteins in the neuropsychiatry of the human brain. The calcium channel stimulating of stem cells zeros on the advantage of calcium stimulated stem cells and transplants the signal, to channel the drugs in a devised delivery system. This local delivery guidance of the brain delivery method is visualized using brain imaging techniques, providing a unique approach to treatment in psychiatry patients. It was found in our experiments that preconditioning stem cell therapy had high potential during transplantation and advised cared stimulations in procaine shell, synaptic modulation and myelin repair.