Business Plan: Brian Pinzon Project
November 18, 2015
This is a Proposal to Develop a Human Cloning Project. This Proposal is
to be presented to the Vatican Hospital.
Brian Pinzon, MBA, MBA, ASIT
915-760-4776
Pindome Corporation
Project Description
Project Summary
Brian Pinzon is an entrepreneur with a strong physics and information systems background who is
now seeking capital to develop a human cloning project.
This proposal is to be presented to the Vatican Hospital.
The project will utilize the latest technology in organic cloning techniques in addition to the
following advanced technologies:
1) Anti-proton decay nuclear medicine for life preservation
2) Project energy supplied by quantum batteries
Nuclear medicine would be used for adult care and life preservation.
The nuclear medicine would consist of rotating rings that are powered by a quantum battery
controlled by D-Wave Systems of Canada. The device utilizes electrostatic bearings as well as
copper and pico-lasers to rotate the person inside the device. The power source could also be a
fusion reactor if used at ground-level in a health care setting.
The use of quantum batteries would make the project more efficient.
One way to explain the efficiency of quantum batteries is that a quantum battery doesn't rely on
entropy (i.e. converting thermal energy into power) in the conventional sense at all. Instead, it
"settles down" to a solution that undermines standard (entropic) definitions of past and future.
As a very rough analogy, that part is a bit like moving towards a solution ever so slightly, then
going back in time a slight bit and starting the computation over again with that slightly improved
result. If that sequence is continued for a zillion times, even an intractable factoring problem
becomes solvable.
During the decades since Peter Shor first proposed a quantum computing algorithm, the very
possibility has riveted the minds and resource of many physics, security, and computational
researchers around the world. Quantum batteries have never been used to provide energy for
travel needs but this application is clearly possible and marketable.
A photo of a quantum battery is shown below.
The reasons why the project will be successful include:
1) Brian Pinzon has already completed a great portion of the research and design work
involved in planning this project, in addition to devoting several years of his life to the study
of this technology and its practical applications
2) The Vatican Hospital has the staff, the training, and the financial resources to make such a
project successful
3) Great strides have been made in organic cloning during the past several years and the
project is now more likely to successful than ever before
Market Data
Article: CBSnews.com, ‘Human Cloning: In Theory, It Can Be Done Now’
At the headquarters of the Human Cloning Foundation, in the corner of a Greenwich Village lamp
shop, more than a half a million people have logged on to the Web site to exchange information.
Women volunteering to be surrogate mothers, gay couples looking to produce a biological
offspring, narcissists who want to clone themselves.
Cloning used to be considered the subject of science fiction, at least until four years ago when
Scottish scientists cloned a sheep named Dolly. Since then, all sorts of creatures have been cloned.
Now a few scientists want to see if they can asexually duplicate a human in a laboratory. Not only
does the science exist, efforts are already under way to do it. There's no law against it, but there
are lots of ethical questions that we are only beginning to deal with in what's shaping up as the
first real skirmish in the genetic revolution, reports 60 Minutes Correspondent Steve Kroft.
At laboratories and fertility clinics around the country, scientists, doctors, and even lab technicians
have - in theory - figured out how to clone a human being in the laboratory. Michael West,
president of Advanced Cell Technology, says the mechanics of cloning a human would be fairly
simple. First, you would remove all of the DNA from a female egg, turning it into essentially a
container. Next, you would replace the DNA with the cell from a finger of the person to be cloned.
And with some electrical prompting, the cell would divide into a human embryo, which would be
implanted in a surrogate mother and carried to term, producing a genetic duplicate, or identical
twin of the person who donated the cell, a brand new-way of engineering a baby.
The procedure is not illegal.
Some in the scientific community, though, say that human cloning is unethical. Cloning is still a
primitive technology even in animals, and it raises complex moral questions about manipulating
human life in the laboratory. But that hasn't stopped a number of renegade scientists from
announcing their intention to try it. Dr. Severino Antinori, an Italian fertility specialist who gained
notoriety by helping a 62-year-old woman give birth, has teamed up with an American colleague,
Panos Zavos, to try to clone the first human at a secret laboratory outside the United States. Zavos
says they will be working with 10 infertile couples who are unable to have children any other way.
”I think that inevitably this technology will be developed,” says Dr. Zavos.
Dr. Zavos says there is much more available science on human cells and reproduction than on
animals, and that the success rate should be much higher. He says his team will be doing regular
biopsies on the human embryos and screen out the ones that are not developing normally. But he's
acknowledged that some problems are inevitable; the price, he says, for developing any new
technology.
Reference: Benefits of Nuclear Medicine (radiologyinfo.org)
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Nuclear medicine examinations provide unique information—including details on both
function and anatomic structure of the body that is often unattainable using other imaging
procedures.
For many diseases, nuclear medicine scans yield the most useful information needed to
make a diagnosis or to determine appropriate treatment, if any.
Nuclear medicine is less expensive and may yield more precise information than exploratory
surgery.
Nuclear medicine offers the potential to identify disease in its earliest stage, often before
symptoms occur or abnormalities can be detected with other diagnostic tests.
By detecting whether lesions are likely benign or malignant, PET scans may eliminate the
need for surgical biopsy or identify the best biopsy location.
PET scans may provide additional information that is used for radiation therapy planning.
Article: Entanglement Makes Quantum Batteries Almost Perfect, Technologyreview.com
Entanglement is a strange quantum link that occurs when separate particles have the same wave
function. In essence, these particles share the same existence. Entanglement leads to all kinds of
bizarre phenomena such as the “spooky action at a distance” that so puzzled Einstein.
When quantum batteries are entangled they become much better. That’s essentially because all the
energy from all the batteries can be extracted at once. Using entanglement one can in general
extract more work per battery.
In fact, as the number of entangled batteries increases, the performance becomes arbitrarily close
to the thermodynamic limit. In other words, a battery consisting of large numbers of entangled
quantum batteries could be almost perfect.
The research that produced these findings was based upon the idea that some quantum systems
possess some amount of energy, while others do not.
That’s a fascinating result. Quantum batteries in the form of atoms or molecules may be ubiquitous
in nature, in processes such as photosynthesis. Biologists know for example that during
photosynthesis, energy is transferred with 100 per cent efficiency from one molecular machine to
another.
Summary Statement
Brian Pinzon feels that the human cloning project has strong potential to be successful and hopes
that the Vatican Hospital will express interest in the project.