Melvin Morse
I am a retired Physician who has a life long interest in a neurocognitive understanding of Near Death experiences. I published the first prospective study of NDEs, at Seattle Children’s Hospital and have published on diverse topics as children’s NDEs, the effect of Reiki on the immune system, controlled studies of remote viewing viruses in plants and meditation as an effective treatment for opioid addiction.My passion is merging current understandings that our brain creates the reality we perceive, neuroplasticity, near death research, and remote viewing to forge a new understanding of consciousness that transcends the current outdated model and tired “believer v non believer” debate.Contact me and join me in my quest to find a new paradigm which merged ancient wisdom with modern neuroscience. [email protected] have a particular passion to teach military grade controlled remote viewing to scientists so they can directly experience non local reality.
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Papers by Melvin Morse
Lance Williams Beem MS, Stephan A Schwarz, Deba Katz MSW <melvin.morse@yahoo.
com> (Spiritualscientific.com, Georgetown, DE)
Overview: Remote Viewing (RV) is a non-destructive validated method by which the
viewer can ‘see’ an object, through non local perception. RV has been scientifically validated
for over 3 decades. We propose a novel scientific question of medical importance: ‘Can RV
substitute or augment current methods for evaluation of virus particles found in living cells
of plants and animals?’ Although we can currently image viruses to the atomic level, such
methods have limitations including physical distortions, lack of real time signature, significant expense, and problems with accurate clinical assessment of viral presence. We tested
our hypothesis designing five different triple blind remote viewing protocols. We selected
Tobacco Mosaic Virus (TMV) for its similarity to human AIDS and hepatitis C viruses. We
wanted to attempt to view a virus in a living organism, e.g., tomato plants. There were a total
of 1500 attempts to identify the presence of the virus with a total of 19 separate viewers.
Our accuracy rate was between chance and 100% depending on the protocol and the viewers. During the trials, a true random number (RNG) generator was used to monitor selected
viewers. Additionally, for unknown reasons, virus infected plants maintained a longer life
expectancy compared to healthy non-infected plants. This needs to be further investigated
separately. Background: Our research group is interested in developing medical applications
for RV. Our goal is to train and utilize remote viewers in clinical situations involving AIDS,
hepatitis C and other chronic viral illnesses as part of the patient’s medical team. A current
clinical problem in treating humans infected with these viruses is the uncertainty of how
long to treat patients because of clinically silent quiescent and replicating periods making
the virus unavailable by blood sampling. Relapses are common after cessation of treatment
with both viral illnesses. Materials and Methods: Tomato plants were grown under uniform,
controlled conditions. Selected plants were infected through a virus brushing technique.
Presence or absence of virus was then confirmed by Dr. Robert Gilbertson, UC Plant Virologist, Davis, California. A total of 5 different remote viewing protocols were used. For two of
the protocols, 5 and 8 viewers respectively made 50 attempts each to identify whether or not
a plant had a virus. A Psyleron Random Number Generator (RNG),based on the electronic
white noise of a semi-conductor was used to monitor selected viewers. Results: One preliminary but lengthy protocol produced 100% accuracy in predicting the presence of virus.
Subsequent briefer viewing protocols ranged from chance to 67% accuracy, the latter being
statistically significant. (270 correct/400 attempts Significance confidence > 99%). Another
protocol was accurate 135/250 attempts (54%, p=0.115) By combining the results of the
RNG and one viewer’s efforts, we were able to predict whether or not a plant was infected
32 times out of 35 attempts. (92% accurate, Significant confidence > 99%) Certain viewers
were accurate 10/10 attempts. C3
Lance Williams Beem MS, Stephan A Schwarz, Deba Katz MSW <melvin.morse@yahoo.
com> (Spiritualscientific.com, Georgetown, DE)
Overview: Remote Viewing (RV) is a non-destructive validated method by which the
viewer can ‘see’ an object, through non local perception. RV has been scientifically validated
for over 3 decades. We propose a novel scientific question of medical importance: ‘Can RV
substitute or augment current methods for evaluation of virus particles found in living cells
of plants and animals?’ Although we can currently image viruses to the atomic level, such
methods have limitations including physical distortions, lack of real time signature, significant expense, and problems with accurate clinical assessment of viral presence. We tested
our hypothesis designing five different triple blind remote viewing protocols. We selected
Tobacco Mosaic Virus (TMV) for its similarity to human AIDS and hepatitis C viruses. We
wanted to attempt to view a virus in a living organism, e.g., tomato plants. There were a total
of 1500 attempts to identify the presence of the virus with a total of 19 separate viewers.
Our accuracy rate was between chance and 100% depending on the protocol and the viewers. During the trials, a true random number (RNG) generator was used to monitor selected
viewers. Additionally, for unknown reasons, virus infected plants maintained a longer life
expectancy compared to healthy non-infected plants. This needs to be further investigated
separately. Background: Our research group is interested in developing medical applications
for RV. Our goal is to train and utilize remote viewers in clinical situations involving AIDS,
hepatitis C and other chronic viral illnesses as part of the patient’s medical team. A current
clinical problem in treating humans infected with these viruses is the uncertainty of how
long to treat patients because of clinically silent quiescent and replicating periods making
the virus unavailable by blood sampling. Relapses are common after cessation of treatment
with both viral illnesses. Materials and Methods: Tomato plants were grown under uniform,
controlled conditions. Selected plants were infected through a virus brushing technique.
Presence or absence of virus was then confirmed by Dr. Robert Gilbertson, UC Plant Virologist, Davis, California. A total of 5 different remote viewing protocols were used. For two of
the protocols, 5 and 8 viewers respectively made 50 attempts each to identify whether or not
a plant had a virus. A Psyleron Random Number Generator (RNG),based on the electronic
white noise of a semi-conductor was used to monitor selected viewers. Results: One preliminary but lengthy protocol produced 100% accuracy in predicting the presence of virus.
Subsequent briefer viewing protocols ranged from chance to 67% accuracy, the latter being
statistically significant. (270 correct/400 attempts Significance confidence > 99%). Another
protocol was accurate 135/250 attempts (54%, p=0.115) By combining the results of the
RNG and one viewer’s efforts, we were able to predict whether or not a plant was infected
32 times out of 35 attempts. (92% accurate, Significant confidence > 99%) Certain viewers
were accurate 10/10 attempts. C31