The objective of Toga Foundation is to enable Masters or PhD students of higher learning institutions to pursue a study on Yippi app, specifically Toga Resonance Technology (T-RT), which is a three step prosperity process where T-RT based app are programmed with an array of natural frequencies that resonate with a human body's natural energy frequencies, reinforce its resonance, and restore it to a clearer and more balanced natural state.
The Foundation is currently funding a three-year research project on the effects of extremely low frequency (ELF) electric fields on cancer cells and normal cells, which is being carried out by a Master’s student attached with the Faculty of Engineering and Technology of Multimedia University (MMU) Malacca Campus, Malaysia, and in collaboration with other researchers from Royal Melbourne Institute of Technology (RMIT), Australia; Institute for Medical Research (IMR), Malaysia, and Brain Research Institution Monash Sunway (BRIMS), Malaysia.
The objectives for this research are:
  1. To design and develop a suitable extremely low frequency (ELF) wave setup for cancer and normal cells bioelectromagnetic studies;
  2. To apply ELF waves based on a signal frequency, magnetic field strength or signal modulation on cancer cells and normal cells, and
  3. To study and quantify the cells responses to the applied ELF waves by microscope imaging, cell viability measurement, cell membrane permeability, cell proliferation, oxidative stress, cytotoxicity or genotoxicity studies

The research is based on other studies’ findings that proved ELF waves used on tumour / cancer cells from the liver, breast and brain could induced cell death (apoptosis) by blocking the development of new blood vessels (neovascularisation) required for tumour supply, induced or exacerbated genetic instability, and in-vivo lung studies in mice resulted in fewer metastatic sites and slower tumour growth with absence of harmful side effects. Cells exposed to ELF waves that showed biochemical or biophysical changes could be detected via staining techniques that are then observed and recorded via a microscope or lab analytic instruments.
For the research, the team proposed the methodology of in-vitro preliminary studies for the breast cancer cell line MDA-MB-231. In this preliminary test, they characterised the experimental setup and determined the parameters for ELF frequency and magnetic field, then proceeded to expose a model cell line to these parameters. They also studied the responses of the model cell line with staining techniques and when magnetic nanoparticles are added. The studies can be then expanded into refining the experimental setup or methodology or further analysis of different biochemical and biophysical responses of the cell or repeating the experiments with other cell lines. The results of the research would then be analysed and published in peer-reviewed journals and lead to proposals of potential applications of ELF waves.
The Foundation is currently funding a three-year research project on the effects of extremely low frequency (ELF) electric fields on cancer cells and normal cells, which is being carried out by a Master’s student attached with the Faculty of Engineering and Technology of Multimedia University (MMU) Malacca Campus, Malaysia, and in collaboration with other researchers from Royal Melbourne Institute of Technology (RMIT), Australia; Institute for Medical Research (IMR), Malaysia, and Brain Research Institution Monash Sunway (BRIMS), Malaysia.
The objectives for this research are:
  1. To design and develop a suitable extremely low frequency (ELF) wave setup for cancer and normal cells bioelectromagnetic studies;
  2. To apply ELF waves based on a signal frequency, magnetic field strength or signal modulation on cancer cells and normal cells, and
  3. To study and quantify the cells responses to the applied ELF waves by microscope imaging, cell viability measurement, cell membrane permeability, cell proliferation, oxidative stress, cytotoxicity or genotoxicity studies

The research is based on other studies’ findings that proved ELF waves used on tumour / cancer cells from the liver, breast and brain could induced cell death (apoptosis) by blocking the development of new blood vessels (neovascularisation) required for tumour supply, induced or exacerbated genetic instability, and in-vivo lung studies in mice resulted in fewer metastatic sites and slower tumour growth with absence of harmful side effects. Cells exposed to ELF waves that showed biochemical or biophysical changes could be detected via staining techniques that are then observed and recorded via a microscope or lab analytic instruments.
For the research, the team proposed the methodology of in-vitro preliminary studies for the breast cancer cell line MDA-MB-231. In this preliminary test, they characterised the experimental setup and determined the parameters for ELF frequency and magnetic field, then proceeded to expose a model cell line to these parameters. They also studied the responses of the model cell line with staining techniques and when magnetic nanoparticles are added. The studies can be then expanded into refining the experimental setup or methodology or further analysis of different biochemical and biophysical responses of the cell or repeating the experiments with other cell lines. The results of the research would then be analysed and published in peer-reviewed journals and lead to proposals of potential applications of ELF waves.
By : For collabaration with :

By :

For collaboration with :