Author Archives: Senior Researcher

Update #3: What Has Changed Over The Last Month Towards Me Getting A Taller, Slimmer Body – June 1st, 2013

Update #3: What Has Changed Over The Last Month Towards Me Getting A Taller, Slimmer Body – June 1st, 2013

It is already June, and this website/blog has been around almost a year. The research has been wonderful and in this month actually there was a few big breakthroughs. I’ve found evidence that growth plate regeneration has already been done by a few biomedical researchers in university laboratories in the USA so now the big thing to figure out is what is the least invasive approach to embed the growth plates into the adult human bone without causing too much pain and decrease the amount of time needed to recover.

So what exactly has been going on in my life? Have I got any taller from May to June?

Push Up HandlesDiet & Weight: I have recently dropped in weight from decreasing my food intake over the last month. These are the things I have done to loss weight.

  • I managed to decrease my soda/pop addiction to a fraction. Where it used to be I would drink Sprite & Cola every other day, I am now drinking 2 liter bottle of water each day for the Summer heat. 
  • Since moving back to Seoul I had to give away the bike and put that in storage.
  • My exercise program now focuses on doing pushups using Push Up Handles, Jump Rope for the aerobic workout, and sit-ups to decrease the fat content in my stomach.
  • I’m supposed to do 40 pushups, jump rope 800 times, and do 60 situps today. That is not a lot compared to most guys who work out but I just got back to exercising after not doing it for over a year.

I don’t have a weight scale around the apartment so I am just guessing right now. I have noticed that right after I wake up, my stomach seems to be smaller and thinner. Current Weight: about 209 lbs.

Height Increase: There are no swimming pools in Seoul that are cheap and convenient so one of the only exercises I really like is not available. The good one I have found is in Everland but there is no way I am going to get on a bus for 2-3 hours just to use a pool.

So I stick to stretching. The main stretches I do, which I do 3 times a week, usually around 10 PM is with a yoga mat…

  • Yoga – The local E-Mart sell perfectly reasonable priced yoga mats for 12,000 won and that is what I use to do the stretching. I focus on 3 main stretches, which is to… 1.Twist the torso, 2.Pull down on the torso, 3.Pull up on the torso.

Height Gain From May: 

I did not see any increase in height this month. My hair has grown out so the measurement error has gone back up so any slight increase I notice from the morning measurement I don’t trust.

If you want, you can read the update I did in May in the post “Update #2: What Have I Been Doing To Grow Taller And Become Healthier – May 1st, 2013

 

Personal Theory: Ye Shiwen Olympic Performance Of Increased Swimming Performance Can Be Explained By A Massive Growth Spurt And A Physical Abnormality

A year ago in the London 2012 Summer Olympic games, a teenage Chinese female swimmer Ye Shiwen exploded into the world’s public eye with an extremely powerful demonstration of her swimming ability when she swam the last 50 meters of a 400 meters IM in 28.93 seconds. This time was even faster than the men’s performance where Ryan Lochte swam the same last 50 meters in in just around 29.10 seconds. The amazing speed she put up in the last 50 meters was so fast that many people thought that she had to been using performance enhancing drugs.

Ye Shiwen denied the claims and said that her swimming speed came form just ordinary hard work and dedication.

So how was she able to do such a thing, beating one of the world’s current best swimmers? As a height researchers, I would say that it was from her rapid growth spurts which she had experienced over the last 2 years. This idea has been proposed by many people, including a couple of former world olympic gold medalist swimmers.

imgresFrom the Wikipedia article on Ye Shiwen…

“…Phil Lutton pointed out that Ye had grown from 160cm at the time of the 2010 Games to 172cm at the 2012 Olympics, and that “that sort of difference in height, length of stroke and size of hand leads to warp-speed improvement”. Former Olympic swimming champions Ian Thorpe and Adrian Moorhouse said that they had also improved their personal bests due to growth spurts…”

This shows that over a 2 year span, Ye Shiwen increased her height by 12 cms, which converts to around 4.72 inches, or almost a 5 inches of height increase. For a Chinese girl who was in the age of 14 to 16 from 2010-2012, this is a very large growth spurt. At 172 cms tall, Ye Shiwen would be considered “tall” compared to the average Chinese female.

We must remember that during puberty, not only do men and women go through a slight increase in height growth, they also develop muscle size. The body starts developing hair between the legs, in the armpits, and other areas of the body. From the WebMD website for Teen Girls , it says…

Increase in Height and Weight

Starting at around age 9, girls begin to gain about 17% to 18% of their adult height. If someone has commented that you are “all hands and feet,” it’s true! Your limbs grow first, then your trunk. Most girls grow fastest about six months before they start their first period(menarche).

From the Wikipedia article on Puberty

On average, girls begin puberty at ages 10–11; boys at ages 11–12. Girls usually complete puberty by ages 15–17, while boys usually complete puberty by ages 16–17. The major landmark of puberty for females is menarche, the onset of menstruation, which occurs on average between ages 12–13…

Analysis:

Most people know that when teenage boys are going through puberty, their bodies actually develop increased muscularity. This means that the muscle size in their body increases, making them stronger, and bigger in terms of width.

However the thing I am trying to say in this post is that girls seem to also gain increased muscularity and increased muscle size in puberty. This would explain why Ye Shiwen was able to increase her time so quickly.

The Olympic games is a very exciting time and event for swimmers who only get a short at a medal every 4 years. The rush of hormones when a person, but most especially a teenager growing through puberty, might signal off the extra burst of energy. The adrenaline starts getting released and the blood is pumped through the heart and body at a much faster rate signaling some event where the person must be at their peak physical state to perform.

So is that it? Can Ye Shiwen’s performance be explained by the hormones and growth spurt she had along with the excitement of the Olympic Games causing a rush and spike in adrenaline leading to a insane performance of speed?

I would guess that there is a third factor that people might not have predict which I wanted to propose, something beyond just growth spurts, hormones, and adrenaline. It comes from a body variation which creates freakish athletes who are so above their counterparts.

A similar situation would be what happened with the racing horse Secretariat. In the 1973 Kentucky Derby, Secretariat managed to complete a 4 round race where each quarter mile, he ran faster. From wikipedia…

“…On his way to a still-standing track record (1:5925), Secretariat ran each quarter-mile segment faster than the one before it. The successive quarter-mile times were 2515, 24, 2345, 2325, and 23…”

“A necropsy revealed his heart was significantly larger than that of an ordinary horse. An extremely large heart is a trait that occasionally occurs in Thoroughbreds, linked to a genetic condition passed down via the dam line, known as the “x-factor”

“Based on Sham’s measurement, and having necropsied both horses, he estimated Secretariat’s heart probably weighed 22 pounds (10.0 kg), or about two-and-three-quarters times as large as that of the average horse.”

The case of Secretariat shows that the reason why he seemed to have been so much better than other thoroughbred was the size of his heart, so that meant that he was able to pump blood and oxygen to the whole body much faster than other horse.

It is a reasonable assumption to make that almost all Olympic Athletes managed to reach the level of competition that they have from having some sort of physical genetic advantage given from birth. For some people, even with the hardest of work and dedication they would not be able to perform some physical action as another person who don’t have to try as hard due to traits they had from just good genetics.

I would guess that it had to be a combination of more than just the massive growth spurt Ye Shiwen had as well as the excitement of of the event, and she having a much larger heart than average. This is the reason why she was able to swim so much faster at the end.

In terms of height and size, even with her near 5 inches of growth in height in recent years, Ye Shiwen would still be considered average in stature for star olympic female swimmers. High level competition swimming is dominated by taller than average swimmers. So she is not dominating over her opponent by size. She has the youth in being younger, but younger females mean less body mass to use.

Let’s look back at the way hairs seem to develop in odd places in puberty.  I am not an endocrinologist but it would be reasonable to assume that the mechanics on hair develops is that there is an increase in vascularization to certain progenitor cells in the epithelial skin tissues the increase in blood flow causes the hairs to develop.

In the same way, the puberty in Ye triggered not just the bone lengthening she had to become taller, but also means that her larger than average heart was finally allowed to pump at the high level and potential that she could.

The way to think about it is imagining the athlete’s heart as an engine, which at the end of a racecar race seems to be faster than ever before. The unique design of that heart/engine means that at certain points of a race, usually at the end, when average sized hearts of other racers is finally losing the ability to pump sufficient oxygen to the body to sustain that high level of swimming intensity, lead to sever lactic acid buildup and muscle cramps, the person with the larger heart pumps into overdrive leading to it’s natural potential which has never been fully utilized since it is almost never put in those types of events where the maximum level of performance is needed.

Just something to think about when the 2016 Summer Olympics come around.

Manu Ginobili Childhood Obsession With His Short Stature and Desire To Become Taller

One of the curent veteran players in the NBA today is the Argentinian Manu Ginobili who has been playing with the San Antonio Spurs for many years now. As a player, he is very good and has the strong work ethic and drive to become a great player, even though he may not be as big or athletic as other professional basketball players.

Manu Ginobili is a very interesting case of someone who was obsessed with his height and desired greatly to be taller when he was younger. On the Wikipedia article on him, he is listed at 6′ 6″ but some old stories about his childhood and his battle with height issues makes me think that maybe he is not as tall as advertised.

Conclusion

I think the main thing to take away from this type of story about Manu is that for some young men, they hold out hope that they will grow taller, and they do get that extra growth spurt to push them up the the height that they really wish for. For Manu he had the right genetics since his brothers were fairly tall. He was crazy about being taller and really wished for it. For him, he got lucky and it came true. For most people however, they are probably not going to be as lucky with another growth spurt as he did. Not every guy in his late teens who desperately wished that he would get another growth spurt will end up tall or over 6 foot tall. Some people just don’t get that chance or end up lucky.

From the website All Height, a story about his childhood… (Also on the Spurs Website Forum)

Manu Ginobili, Basketball, and Height – Tall Height

Manu Ginobili Height

BUENOS AIRES (FIBA World Championship 2006) – Try telling Manu Ginobili that size doesn’t matter because for 17 years, at times it seemed he cared about nothing else.

The Argentinian international laughs about it now, but as a kid his obsession with his height often brought him to tears.

“When he was young, Manu would measure his height on the kitchen door every single day,” recalls Manu’s father, Jorge Ginobili, in Italian weekly Sportweek. “Those marks are still there today.

“He would always get upset, worried and would close himself in his room because he would never reach the height of his elder brothers.”

But at 17, Manu’s prayers were finally answered.

“He had a late growth spurt and only then did he grow by almost 20cm,” Jorge said.

“Before, he was a small kid.”

Manu Ginobili believed it was important to be tall in basketball, which is widely accepted as a sport of giants.

“I was one of the smallest players in all the teams I played for and I worried,” said Manu, who is now stands 6ft 6in.

“Height in basketball may not be everything but it’s the key to triumph. At times, I thought that I wouldn’t be tall enough for this sport but then I thought to myself that I could do something else in life.”

Hoops in Manu’s home town of Bahia Blanca is a religion.

“Basketball is felt at a different level here to anywhere else,” admitted Manu.

“For a long time, it was the number one sport ahead of soccer.”

And in the Ginobili household more so, with Jorge the vice-president of regional basketball club Bahiense del Norte.

“I’ve been here almost 50 years,” Jorge said.

“All my three boys have started to play basketball at this club and Manu played here until he was 16.”

It was his father’s passion for the game that helped Manu overcome the early adversity.

“My father has had a major impact because he has transmitted us the love for basketball, a feeling that to this day is deep inside us,” he said.

And yet Jorge didn’t picture his younger son’s future on the hardwood.

“I wanted my son to finish his studies and to find a job as an accountant, seeing as he loved numbers and mathematics,” he said.

“He was a very good student.

“At 18, he finished school and he went to play at club Andino and thus, he didn’t go to university.
“Then at 21, when he got an offer from Italy (Viola Reggio Calabria), we realised then that he was going to be a professional basketball player.”

Little did Jorge know that his son would go on to become a star for club and country, winning titles in Italy with Virtus Bologna, two NBA rings with the Spurs, a silver medal at the FIBA World Championship 2002 andgold two years later at the Olympics in Athens.

Manu and the rest of the Argentinian superstars who won gold at the Olympics did not play at the FIBA Americas Championship this summer since, as Olympic champions, they have already qualified for the FIBAWorld Championship 2006 in Japan.

The time off was good, but Ginobili finds himself hungrier than ever to return to action with the Albiceleste for next year’s awaited 2006 FIBAWorld Championship.

“Having rested this summer, I can’t wait to return to play with the national team,” admitted the 27-year-old.

“If there are no unexpected impediments, I really hope I can play in Japan in the World Championship.”

Grow Taller Using Plyometrics Training

There are all sort of exercising and training programs out there. Some are for aerobic stamina and health and others are anaerobic. I know that there are some exercising programs which advertise that they can help a person gain increased height. These include yoga and pilates. Something that I saw recently made me wonder whether there might be a much better program to  give better, more drastic results that what a person could get from yoga or pilates.

It is called Plyometrics. It seems to be derived from this idea of alternating one’s muscles dramatically from contracting one’s muscles to extending as fast as possible to stimulate speed and strength in the muscles.

A look on Google reveals that there has been a few articles that have already been written about the idea

Grow Taller By Means Of Plyometrics Training” is a short article that was the first thing that popped up but it never explains in detail on the science why plyometrics would ever lead to increased height. In general, this article was useless and not helpful at all.

Another website called HowToJumpHigher202.com does have a few articles but a click to the website lead to nothing.

Yahoo Questions – Someone states that “Plyometrics can negatively affect your height by damaging the growth plates in your long bones….Wait until you’re 18….The reason plyometrics are so effective at building explosive power is because they focus on the eccentric (lengthening) contraction of the muscles but they place a lot of strain on your joints.”

In a Eric Cressey post entitled “Plyometrics and Growth Plates” Cressey suggests that “About the only thing you’ll get from adding a lot more plyos in is an increased risk of overuse injury” He does not say that plyometrics will lead to growth plate fracture and injury specifically but does make the point that it will cause increased risk in injuries in general.

Side Note: It seems that plyometric may actually help improve one’s vertical jump height (source: Does plyometric training improve vertical jump height? A meta‐analytical reviewDoes Jumping Height Increase From Plyometric Training)

The idea that I originally thought where our height might be increased through this type of rapid  muscle extension-contraction alternationg does not seem to have any validity.

Plyometrics can be used to possibly strengthen the core abdominal muscles, which would mean the upper torso muscles like the deltoids and pecs would be pushed upwards, leading to less loading on the lower vertebrate but the effect the upper torso and overall height should nearly none.

Does Colder Temperatures Delay Onset Of Puberty And Growth Plate Senescence?

When I was reading over the sections that Matheus had written for me to look over, the issue of growth plate senescence would come up over and over again.

He would mention how senescence is from two factors, oxidative stress and free radicals. Also, Matheus suggested that free radicals and homocysteine would cause oxidative stress. A quick check with google search seems to validate his point that oxidative stress is caused by homocysteine (source: Homocysteine and oxidative stress)

It made me wonder just what types of factors would cause increased senescence. Matheus actually disagrees with Tyler’s opinion that the replication possibility of the chondrocytes from the resting zone is finite, but limitless.

One point which is very interesting he made which made me rethink how the growth plate really work is when he made the point that the speed at which the physeal chondrocytes proliferation and replicate is much faster than all other types of cells in the body. This is why these types of cells, the growth plate cells are the first types of cells that really go completely extinct, because the speed or rate at which they divide and go through their life is much faster than other cells.

While I am not a real biologist, the reasoning makes some sense. The chondrocytes do seem to be proliferating, which is just mitosis, at a much faster rate than the other types of cells. If the other types of cells like neurons, adipocytes, and others were proliferating at the same speed, we as a species would have a much shorter lifespan.

I would think about my chemical engineering days and realized that one of the easiest to identify and quantify factors which would probably effect growth plate senescence, and thus adult height is temperature.

From elementary chemistry, based on the Arrhenius equation,

Arrhenius’ equation gives the dependence of the rate constant k of a chemical reaction on the absolute temperature T (in kelvin), where A is the pre-exponential factor (or simply the prefactor), Ea is theactivation energy, and R is the Universal gas constant.

k = A*exp ( -Ea / R*T )

Under the factors that influence chemical reaction…

  • Temperature: Usually conducting a reaction at a higher temperature delivers more energy into the system and increases the reaction rate by causing more collisions between particles, as explained by collision theory. However, the main reason that temperature increases the rate of reaction is that more of the colliding particles will have the necessary activation energy resulting in more successful collisions (when bonds are formed between reactants). The influence of temperature is described by the Arrhenius equation. As a rule of thumb, reaction rates for many reactions double for every 10 degrees Celsius increase in temperature, though the effect of temperature may be very much larger or smaller than this.

If we then just imagine the process of any type of cell mitosis as a chemical reaction, then clearly the rate of chondrocyte proliferation would be increased with increased Temperature.

Let’s also remember how reaction rates are actually written and set up (source: Wikipedia article on reaction rates).

Then if we assume that the mesenchymes which differentiate into the chondrocytes in the resting zone are substrates in a chemical reaction as well as the rate limiting factor, then the most simplified way to describe the height increase growth in humans is just

r = k(T) * A^(n) where A is the only element that is the substrate and n is the number of moles in the system we are analyzing.

the r would just be the loss over time of the one reactant, so r = – dA/dt

is -dA/dt = k(T) *A

So from just a simple explanation of chemical kinetics, it is very reasonable to assume that increased Temperature can increase the rate at which the growth plates reach senescence.

Then I would evidence from an old study I found entitled “Stimulation Of Bone Growth by Short-Wave Diathermy

I am also reminded of the evolutionary-ecological heuristic rule of thumb called Bergmann’s Rule, which state that on average, people further away from the equator, in colder climates are bigger in size than people closer to the equation. This hypothesis has been challenged a lot and some people have proved that Bergmann’s Rule is actually wrong.

However the implications and hypothesis for me is very interesting. I would actually write quite extensively about this idea in multiple posts including “Bergmann’s Rule, Application On The Human Species

I would post even further this idea that colder temperatures would be better for increased final adult height in the post “A Study Of Temperature Variation On Sea Slugs Can Explain Why People Are Taller In Colder Environments

Interestingly, the same studies on deep sea gigantism in shellfish or crustaceans lead to the same conclusion. The specific study was “Bergmann’s Principle and Deep-Water Gigantism in Marine Crustaceans”. From the Wikipedia article on Bergmann’s Rule

“…In marine crustaceans, it has been proposed that an increase in size with latitude is observed because decreasing temperature results in increased cell size and increased life span, both of which lead to an increase in maximum body size (continued growth throughout life is characteristic of crustaceans).”

There was even an extension to Bergmann’s Rule called Hesse’s Rule which states…

“…species inhabiting colder climates have a larger heart in relation to body weight than closely related species inhabiting warmer climates”

This rule, which I just discovered may explain why bergmann’s rule may be valid for humans.

Larger hearts, if they are not due to a disorder or pathology, means that more nutrients can be pumped to all of the regions in a person’s body. The larger heart, means higher pumping rates of the blood to all the cells, so the cells manage to live longer.

The leap in logic then is to assume that from the extra rates of blood nutrients being pumped to the growth plate region, there would be more progenitor mesenchyme cells in the epiphysis region for eventual differentiation. We already know that some compounds like Niacin do increase the proliferation of stem cells, as long as the blood flow rate is increased,leading to blood vessel dilation, which causes niacin to increase the cells.

I had mentioned the hypothesis that the recent Chinese Olympic Swimmer Ye Shiwen’s performance can be explained by two thing, her puberty induced 4 inch growth spurt, and an above average sized heart in the post “Personal Theory: Ye Shiwen Olympic Performance Of Increased Swimming Performance Can Be Explained By A Massive Growth Spurt And A Physical AbnormalityThere might even be a correlation between height and heart size. 

Growth plates can be actually modulated and controlled by two factors which is related to temperature, which are heart size and rate at which the chondrocyte proliferate.

The two things that happen to a person’s body when that person is born in a colder environment are…

  1. Their heart becomes bigger from prenatal growing process in the mother’s womb.
  2. The rate at which the resting zone mesenchyme are depleted/differentiated into chondrocytes into the proliferation zone is slowed down.

 

A Method To Distract Bone Slowly Using Magnetic Fields, Metal Implants, And Acidic Solution

While we have all been thinking about mechanical ways on how to possibly pull bones apart to lengthen them, I came to realize that there may be a simpler way to lengthen bones, using certain basic physics principles that we have not thought about.

What I am going to propose is that maybe it is possible to use magnetic fields to create forces which can cause the bone sections to pull apart from each other.

I am reminded of the idea of applying a capacitative electrical field through two metal electrodes attached to lateral sides of the growth plate region in teens and children with open growth plates to accelerate longitudinal growth. It was proposed by Dr. Carl Brighton in the landmark patent and study below…

Other studies were written by researchers who were doing very similar research

I still need to refer to the paper “Electrical Stimulation in Tissue Regeneration” to fully understand just how human tissue and cells would react from applied electrical signals.

The point is to show that beyond using a contant capacitive electric field to stimulate growth plates to increase the growth process faster, it might be possible to use the other half of the Electromagnetic Field & Waves phenomena for height increase purposes.

If we remember from elementary school science, there is the North and South Poles of any magnet and they attract each other. If we had two North or two South Poles, they would repel each other.

I am proposing that it might be possible to create two poles that are the same on opposite sides and induce them to pull away from each other and having the metallic rods or rings held to the human bone.

With a AC electrical signal, we can induce a magnetic field that increases in strength and then decreases like a intermittent way to push at the bones.

Let’s look over some introductory university level electromagnetic theory. There is no mathematics, just some conceptual electromagnetic reasoning.

First, I have clipped the chart for the Differential and Integral form of Maxwell’s Equations from the Wikipedia article on Maxwell’s Equations

Maxwell's Equations

Side Note: If any person can manage to prove the existence of magnetic monopoles, they would validate many of the ideas of string theory and definitely receive a Nobel Prize in Physics for this achievement. I have taken an advanced level undergraduate electrodynamics course using the standard Introduction to Electrodynamics, 3rd Ed. by Griffiths so I should still remember a little bit of the course still.

In general, when one sees the symbol for an integral, where it is a double integral, triple integral, closed path integral, line integral, surface integral, the basic idea is that you are to sum everything that is specified together. The term integration basically means to add all of the possible alternative ways together.

This is my personal level of conceptual understanding of the 4 main laws.

Guass’s Law – When you add together all of the Electrical Fields, E over a closed surface, you would get a charge density divided by a universal constant. For practical purposes just forget the constant and realize that the whole point is to calculate a quantity of charge and Electrical Field in a 3-D space.

Guass’s Law of Magnetism – The Integral form suggest that if you add together all of the Magnetic Field, B in a closed surface, the net result is 0. The reason that the net magnetic field is 0 is because of that fact that magnetic fields are derived from a dipole system. Everything that has a origin will also end up back in the same origin at the end of the path.

Closed Surface – The concept of a closed surface is important. The idea is to create an imaginary boundary condition, like a infinitely thin spherical shell which will encapsulate the system one would try to calculate the net charge is in the region that is defined by the boundary conditions.

Faraday’s Law Of Induction – This is the first of the two other laws of the four which is slightly more complicated so I wanted to break the conceptual understanding down into looking at both the Integral Form and  the Differential Form

  • Integral Form – When you add together all of the Electrical Fields, E in a closed path, using a line integration you would find it equal to the change in time of the sum of the Magnetic Fields, B added together in a specific surface that is also going in the opposite direction
  • Differential Form – We can create an electrical field by changing the magnetic field

Ampere’s Circuital Law w/ Maxwell’s Correction

  • Integral Form – The combined total of all the Magnetic Field in a closed path loop is equal to the change in the combined Electrical Field added with a hidden electric field over a surface, both multipled by a certain special constant which is over a given specific surface
  • Differential Form – An Electric Field and a change in Electric Field will both lead to the creation of a magnetic field

Implications For Height Increase Applications

If we look at the last two equations of Maxwell’s E&M , and remember back to the way that induced magnetic fields from electrical work and which direction they go in, it seems reasonable to think that we can induce a magnetic force that would push two electrical hard wires farther apart from each other. If the wires are also somehow held in place against bone tissue, then they can theoretically over time using magnetic force pull bone tissue apart.

Electric MotorLet’s look back at how the common electric motor works, even those that one finds in plastic toy cars.

The power source is a battery, which is DC electrical source. The electrons inside the copper wires go down the wires which is connected to the battery which is how current is created. The electrons that create current will create charges, which results in a electrical field. From Faraday’s Law of Induction, the wire does form a closed path since the wire is connected in a way for a closed circuit to the battery. This causes both a magnetic force and a change in magnetic force. Since there is already magnetics put in the system, when there is a magnetic field, S or N, the force between the created magnetic force which is changing and the magnetics already in place will cause the magnetics to either attract or repel each other.

To create the alternation that is needed to change, what are known as brushes to close and open the wires forming either closed or open paths are needed in the system.

magnets__levitatingThe point is that it is reasonable to create a two non-magnetic metal ring system which will have electrical current run through them, which will induce the metal into a magnet, and they will develop the repulsive force and pull themselves away from each other.

At this point, the theory makes sense but I am not sure how to design the actual device. It is totally possible that this proposed idea is not viable since people may reject the idea of having metal rings embedded deep onto the surface of the bones.

Just refer to the picture on the right for reference. Of course it would be difficult to embed the metal in the first place into the bone if they are already magnets. The other problem is that the magnetic force of the small magnet to the right are too weak so that is why we need to have ferromagnetic metals which when they have a current passed through them, they turn magnetic. Not only that, the more current that can be passed through, the stronger the magnetic field can become and the harder the metals will try to pull apart from each other, thus distracting the bones that they are embedded or attached to.

There is also a second part. It is critical if we think that an induce magnetic field from a battery current would even work.

It is to make the area of bone that we are trying to distract weaker. Like I said multiple times before, the bones are just too hard and strong and brittle to pull apart using normal devices. I calculated in the post The Values For The Magnitudes For The Forces And Loads Needed To Increase Epiphyseal Cartilages Thickness And Human Femur Bone Without Fracture (Important)that it would require about 25,000 – 30,000 lb of tensile loading force to pull the adult human femur apart elongating it, if not outright snapping it in half the moment the critical threshold, which is known as the Ultimate Yielding Strength is reached. Certain studies like DIFFERENCES IN THE TENSILE STRENGTH OF BONE OF DIFFERENT HISTOLOGICAL TYPES“ agree that the calculated value is about right.

This means that the bones need to get weaker, at least in terms of getting the calcium hydroapatites removed, which has alway been the primary element that gives bones their hard, brittle nature. In a recent post I discovered that one can actually turn bone tissue into rubber using vinegar which is just ascetic acid.

So there is two parts to a device, one where two rings are embedded on the bones of the individual which can’t be moved and an induced current will cause the magnets to start to push themselves away.

In the middle, between the two rings, a solution of ascetic acid or vinegar is injected using small plastic needle syringes into the cortical bone layer to start to remove the calcium crystals.

The bones in just one band or layer grow weaker as the collagen is left and the bone is distracted.