Anthrax Bacteria Killed By Simple Sugar Compound Called Cyclodextrin. Is CDC Looking Into This?

We all remember the Anthrax-laced letters that killed five people and severely rattled the country post-9/11. Just when you thought there might not be a way to stop this lethal infectious disease along comes beta cyclodextrin, a non toxic sugar compound.

A researcher by the name of Vladimir Karginov at a company called Innovative Biologics is working with beta cyclodextrin and Anthrax.  Karginov has designed and synthesized a number of beta-cyclodextrin derivatives and evaluated their ability to inhibit the lethal toxin action of Anthrax.  Several compounds displayed anti-toxin activity at low micromolar concentrations in cell-based assays and preliminary toxicity and efficacy studies in rodents produced very promising results.  You can read about the research project here.

Anthrax is a highly lethal and infectious disease caused by the bacterium Bacillus anthracis, a bacteria that forms spores, or dormant cells, which can come to life under the right temperature, nutrients and other conditions to allow growth. Anthrax occurs in humans after exposure to an infected animal or infected animal tissue or when anthrax spores are used as a bioterrorist weapon.   There are some effective vaccines against anthrax, and some forms of the disease respond well to antibiotic treatment shortly after exposure. But there is need for new, safe and effective treatments approved by the FDA to supplement traditional intravenous and oral antibiotic therapy such ciprofloxacin (cipro), doxycycline or vancomycin.

I have now reported on beta cyclodextrins ability to kill the HIV AIDS virus and now the deadly Anthrax bacterium.  This same non toxic sugar compound is also being used to treat my 5 year old identical twins who have a fatal cholesterol metabolism disorder called Niemann Pick Type C, or the “childhood Alzheimer’s.”

What other lethal bacterias and viruses does this non toxic cyclodextrin compound kill?   What does the Centers of Disease Control and Prevention and the United States Department of Health and Human Services know about cyclodextrin and are they studying it?

A Promising Compound That Could Stop HIV AIDS. Why Is It Not Being Supported?

In chapter 18 of a book by Stefano Bertozzi referenced by famous health economist Robert H. Topel in his article in the Journal of Political Economy, several insightful comments about HIV research funding and needs for prevention in the face of a rapidly increasing HIV infection rate are highlighted.

The points made by Bertozzi et all about the lack of funding for research into preventive treatments for HIV are directly applicable to the difficulties I am facing obtaining funding and support from for a cheap sugar compound called cyclodextrin that has great potential to help stop the spread of HIV/AIDS.

Even though the U.S. President’s Emergency Plan for AIDS Relief and the Gates Foundation are funneling a  great deal of money into AIDS research, introduction of ameliorative therapy projects based on simple and available non toxic compounds such as hydroxypropyl beta cyclodextrin have not gotten past the initial screener. Why is further research into this simple sugar compound being held back?

Bertozzi et al attribute such resistance to compounds like cyclodextrin to the perception that preventive research is viewed as “less innovative scientifically” and “typically less experimental” by funding organizations.  They suggest earmarking such ameliorative therapy approaches to redress this imbalance.

The ameliorative therapy approach with hydroxypropel beta cyclodextrin also addresses the cited need for well-defined control or comparison groups necessary to measure the effectiveness of this preventive therapy.

It’s also interesting that a ready-to-use cheap formulation of cyclodextrin that would cost 10 cents per dose to deploy into Africa (!) and simply needs quick re-packaging doesn’t interest the funding organizations or the NIH.  It would seem that immediate relief for people and saving lives is far less exciting than the thought of basic research and making money.

It is hard to believe that a compound promising a stop to the method of transmission responsible for 80% of the HIV infections around the world does not create a compelling reason for funding and testing.   It would only cost $500,000 dollars to test cyclodextrin, the cost of caring for approximately one AIDS patient over their lifetime.  Surely Mr. Gates could direct $500,000 dollars at this sugar compound to see if it works before spending millions on something less effective?

Finally, there is money in cyclodextrin and very smart people are researching it.  The ability for HIV AIDS to assemble in the human body is directly tied to the Niemann Pick Type C cholesterol gene on Chromosome 18, one of the most important genes in the body (this gene is now tied to obesity!).   And look what hydroxy propel beta cyclodextrin is doing for my 5 year old twins, Addi and Cassi, who suffer from one of the worst cholesterol diseases on the planet.

The Wall Street Journal Reports On FDA Approval of Addi and Cassi’s Cyclodextrin Treatment

By AMY DOCKSER MARCUS
April 3, 2009

A Mom Brokers Treatment for Her Twins’ Fatal Illness
Bucking Scientific Convention, Ms. Hempel Gets Researchers From Different Fields to Share Data on Potential Therapy

From the moment her twin daughters, Addison and Cassidy, were diagnosed with a fatal genetic disease in October 2007, Chris Hempel has been searching for a drug that might save their lives.

The 5-year-old girls were diagnosed with a devastating cholesterol metabolism disorder known as Niemann-Pick Type C, which is ultimately fatal. Soon after, Ms. Hempel learned that researchers found that a form of a compound called cyclodextrin extended the lives of affected mice.

Ms. Hempel set out to gather as much data as possible. She got a list of all major cyclodextrin distributors and connected with one in Florida, who shared scientific studies and other information with her. She found a short report in the medical literature about a doctor who had treated a child with a different disease using cyclodextrin and tracked him down. She became increasingly hopeful that, although cyclodextrin isn’t approved as a drug in the U.S., she might get the Food and Drug Administration to allow her to give cyclodextrin infusions to her girls as an experimental treatment.

Her search for information also led her to James Hildreth, 52, a pre-eminent AIDS researcher who heads the Center for AIDS Health Disparities Research at Meharry Medical College in Nashville, Tenn. It turned out that he too was seeking FDA approval to run a trial using cyclodextrin, in a vaginal cream to help prevent HIV transmission during heterosexual sex. Ms. Hempel wanted him to combine forces with the NP-C investigators to push forward cyclodextrin research.

That was only the beginning of Ms. Hempel’s long journey through the health-care research community — a distributed and labyrinthine collection of researchers who, for all their expertise, often remain unaware of advances made elsewhere. The problem is even more acute among researchers working on different diseases. But for some serendipity, curiosity — or, in this case, a willful Ms. Hempel — some knowledge in one lab may never make its way to another that could be on the verge of a new therapy.

Drugs approved for one disease often turn out to be effective in others — frequently when someone has a hunch. Thalidomide, originally used for morning sickness but taken off the market because it caused birth defects, is being used in cancer treatment.

Researchers at Pfizer were developing Viagra to treat high blood pressure when they noticed during early tests that it treated impotence. But that happened within the same company. It is even more difficult when researchers are at different labs.

When Ms. Hempel, who lives in Reno, Nev., became passionate about Dr. Hildreth’s work, she was determined to bridge the disparate knowledge. “Right now we have limited data on cyclodextrin. But what if a lot of people started looking at it from different angles and across different diseases?” Ms. Hempel said. “It could lead to something that helps save Addi and Cassi’s lives.”

Ms. Hempel had been researching cyclodextrin for months when she attended the June 2008 meeting in Tucson, Ariz., of the Ara Parseghian Medical Research Foundation, set up by the family of the legendary football coach who lost three grandchildren to NP-C disease. The foundation was providing some funding for cyclodextrin studies in the rare disease, and the latest data were presented there. In an email sent after the meeting, Ms. Hempel wrote to the NP-C researchers that, based on the data she heard, she and her husband, Hugh, planned to seek FDA approval to give the girls cyclodextrin infusions. “I feel very strongly that we must try this to help save Addi and Cassi from this horrible disease,” she wrote.

She had already put together a three-inch binder of research studies about cyclodextrin. Working with three other families whose children have NP-C disease, they hired a scientist who began writing a request to the FDA for the Hempel children to receive cyclodextrin infusions. But Ms. Hempel knew that she needed more human data if she was going to persuade the FDA that the drug was safe enough to use in her children.

While searching for safety data on cyclodextrin, she spoke with Charles E. Strattan, a cyclodextrin expert and CEO of CTD Holdings Inc., who was helping Ms. Hempel do research. He told her Dr. Hildreth was interested in the same compound for his work in HIV and suggested that the two of them talk.

During a long phone conversation in October 2008, Dr. Hildreth told Ms. Hempel that he believed the protein responsible for NP-C disease also plays an important role in HIV. And in previously published work, he showed that cyclodextrin appeared to inactivate the HIV virus and prevent it from replicating.

The talk galvanized Ms. Hempel. Dr. Hildreth offered to share what he knew about cyclodextrin’s safety with the FDA in support of the Hempels’ request. Ms. Hempel proposed that the two of them go to Johnson & Johnson, which had studied cyclodextrin, to see if the company would be interested in sponsoring a clinical trial. “I knew our stories would be even more powerful if we told them together,” she said.

As is typical in the field, Dr. Hildreth was reluctant to share unpublished data, and he rarely went to scientific meetings that weren’t related to HIV. He was moved by Ms. Hempel’s efforts to help her children, but also surprised by her embrace of his work. “Some of the things we as scientists take for granted about how work will be done and the fact there are silos, with her there is none of that at all,” he said.

When Ms. Hempel called a top National Institutes of Health AIDS researcher to tell him about Dr. Hildreth’s findings and propose joint work in HIV and NP-C disease, Dr. Hildreth told her that a scientist never would have made such a call. In recent months, Ms. Hempel has introduced Dr. Hildreth to NP-C researchers who were also studying cyclodextrin. She also arranged for him to discuss his HIV findings with two Nobel Prize-winning scientists interested in Niemann-Pick proteins. “Our paths would not have crossed otherwise,” he said.

He and Ms. Hempel recently had a conversation with senior officials at Johnson & Johnson. The FDA at first turned down the Hempels’ request to do cyclodextrin infusions in the girls, concerned there wasn’t enough human safety data. But after Ms. Hempel contacted them about her plight, the company wrote a letter to the FDA giving the agency permission to look at all of the safety data it had submitted related to cyclodextrin. The FDA subsequently gave permission for the Hempels to proceed. The girls will start cyclodextrin infusions this month.

That might have been the end of the story except for Ms. Hempel’s insistence that more was at stake, says Steven A. Silber, a vice president at Johnson & Johnson. After listening to Ms. Hempel and Dr. Hildreth’s presentation, Dr. Silber set up a meeting so Dr. Hildreth can present his data to the head of one of its companies that makes anti-viral medications. Dr. Hildreth says that Ms. Hempel’s involvement got his research “the attention of individuals higher up in the organization than I might have been able to get on my own.”

This May, the Parseghian Foundation will host its annual scientific meeting. The group plans to hold a special session dedicated to the work on cyclodextrin. Cindy Parseghian, president of the foundation, says she hopes researchers working with cyclodextrin in other diseases will also attend. “We think there should be more cross-fertilization,” she said. Dr. Hildreth says he plans to share his findings at the meeting.

Dr. Hildreth recognizes that his unusual partnership with Ms. Hempel also has some risks for the HIV trial he is planning. “It is a remote possibility, but is a possibility, that if her beautiful girls are done some harm by the infusions, that would clearly do harm to our efforts,” he said. Still, he adds, “I spent a lot of time thinking about what I would do if I were in her position. My answer is I would do exactly the same thing.”

Late last month, the Hempel girls underwent surgery at a California hospital to get a small medical device implanted under their skin to make it easier to receive regular cyclodextrin infusions. Dr. Hildreth visited them in the hospital.

Cyclodextrins Can Reduce Side Effects of Cancer Drug Treatments

Each day, I learn more about the amazing benefits of cyclodextrins — novel excipients of unexplored potential.  Research studies in both humans and animals have shown that cyclodextrins and their derivatives can be used to improve the drug delivery system for almost any type of drug formulation from anti-cancer drugs to anti -viral drugs.  In the pharmaceutical industry, cyclodextrins are used as complexing agents to increase the aqueous solubility of poorly soluble drugs and to increase their bioavailability and stability.

When some cancer drugs are combined with cyclodextrins, their bioavailability increases. If a drug’s bioavailability can be controlled in the bloodstream and acceptable drug levels are reached more effectively and precisely, it takes far less of a drug to produce cancer killing effects.  Cyclodextrins can help make cancer treatment far less debilitating for a patient undergoing chemotherapy treatment — less of a toxic drug in a person’s system makes for less side effects.

Cyclodextrins were discovered over 100 years ago and the first patent on cyclodextrins and their complexes was registered in 1953.  Here is an excellent paper outlining all the benefits of cyclodextrins which I believe has much greater potential than anyone ever imagined:  http://www.pharmainfo.net/reviews/cyclodextrins-drug-delivery-systems-update.

Crossing The Blood Brain Barrier - Does Cyclodextrin Make Its Way Into The Brain?

Dr. David Begley, one of the world’s leading blood brain barrier experts at Kings College London is working on a research project we are currently funding on cyclodextrin and the blood brain barrier.

We want to answer the following question.  Does hydroxy propel beta cyclodextrin (HPBCD) cross the blood brain barrier?   Since less than 5% of drugs (made up of very small molecules) are able to cross the barrier and cyclodextrin is not considered a small molecule nor a drug, the possibility of cyclodextrin crossing into the brain would be remarkable.

Less than 5% of Drugs can cross the Blood Brain Barrier: Click to Enlarge

Addi and Cassi, my 5 year old identical twins, who have a cellular cholesterol metabolism disease called Niemann Pick Type C (often referred to as the Childhood Alzheimer’s) and are being treated with infusions of the sugar compound cyclodextrin.

When we started Addi and Cassi’s first few rounds of cyclodextrin infusions three weeks ago, I honestly did not expect to see much of a change because we started with a low dose.  I certainly did not think my girls would start saying words again.   To put this story in context, prior to starting the cyclodextrin infusions, Addi and Cassi had both lost their ability to talk.   Addi was still trying to talk by making grunting sounds and came out with an occasional word here and there and Cassi was virtually mute.

However, since starting the cyclodextrin infusions, Addi has started repeating sentences again.  This type of language is called echolalia and it’s something Addi did before she stopped talking.   Cassi has become more vocal as well.

In the last 36 hours, Addi has repeated the following: Good morning, That’s great, That feels better, Rosie and Gilbert (characters from a cartoon), Let’s go walking, Let’s do it, Daddy’s here, Alright, Bye Tia (to our nurse), There’s Martha (in reference to our nanny), No, Me, We, More, Where’s Addison, That’s mine, I can do it, Let’s put them in the garbage can, Open, I Love You and Let’s have breakfast.    Cassi has only managed a few words over the past few weeks but is making a lot more sounds with different pitches instead of a single low hum.    (Note: Cassi has never talked as much as Addi and her speech was lost a few months before Addi’s).

I can’t express in words what it’s like to hear your child talk again.   When my husband walked into the hospital room and Addi repeated ‘Daddy’s here” his eyes welled up with tears.  Our nanny Martha has been with our girls since birth and it’s been six months since Addi has said her name.   Yesterday, Addi clearly said “Martha” twice.

In addition to the spike in speech, the girls also seem happier, appear to have a slight improvement in head control (when rested) and their eye contact appears better.   I have noticed a few more “stare off” spells with Addi (possibly absent seizures?) but I am not sure if these have increased or if I am just paying more attention and noticing them more.

The girls have experienced speech improvements previously when starting antibiotics (Amoxicillin and Septra).   But the improvements did not last.   There seemed to be a honeymoon period after starting the antibiotics and then the improvements stopped after 3-4 weeks.   I have never received an answer from a doctor or researcher as to why antibiotics had a short term benefit for my girls, but they did.

To everyone’s delight, Addi and Cassi are experiencing neurological improvements on cyclodextrin.   Since they are identical twins and are both improving, this leads me to the conclusion that cyclodextrin (HPBCD) is having some sort of effect on cellular cholesterol accumulation — either it’s crossing the BBB or somehow creating a siphon effect in the body and pulling cholesterol out of the brain?  Dr. Begley will need to explain to the research world what cyclodextrin is actually doing and I can’t wait for his research work to finish.

Cyclodextrin is very exciting and promising, not only for Addi and Cassi and other kids impacted with Niemann Pick Type C but for the scientific community in general.   I am starting to wonder what cyclodextrin could do for people suffering from atherosclerosis and if it would help eliminate the build up of plaques in the arteries?   Also, several lines of evidence have implicated a role for cholesterol in Alzheimer’s disease.

I urge scientists working on diseases involving cholesterol pathways to spin up experiments with cyclodextrin (HPBCD) right away.

Cyclodextrin As A Therapeutic “Drug” For HIV AIDS, Niemann Pick Type C and other Viruses

Addi and Cassi’s first round of cyclodextrin infusions have been going smoothly at Renown Regional Medical Center in Reno, Nevada.   We’re now into our third day of continuous infusions of hydroxy propel beta cyclodextrin (HPBCD) into the girls’ bloodstreams and they don’t seem to be experiencing any negative side effects.    I feel as if it’s having a positive and immediate effect.  Addi was talking yesterday afternoon and stringing together more than one word — “I like my toys, I’m brave enough, I need your help, “Bye” to Dr. Hastings, and “Ad” for her name Addison.  Even Cassi came out with a few words - “Mommy, No.”     This is quite encouraging to us but we’re not yet sure if it’s a result of the cyclodextrin treatment.

Addi and Cassi resting during cyclodextrin infusions

Addi and Cassi’s blood work-ups have come back “normal” following the cyclodextrin infusions.  There was a slight elevation in both girls’ eosinophils after 24 hours but it was minor.   We also had to change Addi’s port access needle as it was not working properly and we were unable to draw blood.   Unfortunately, we had to re-install the needle on her chest without any numbing cream.  Ouch!

I found out this morning that researchers were looking at the same cyclodextrin (HPBCD) and Niemann Pick Type C disease back in 1996 — 13 years ago!   I received this information from a scientist in Europe and I almost had a heart attack when I read the scientific abstract.

Somehow cyclodextrin research as it relates to Niemann Pick Type C was not thoroughly pursued with all angles exhausted by scientists.   This simply can not happen again — not only for Niemann Pick Type C disease but for HIV/AIDS and potentially other viruses like Herpes that are inactivated and killed by cyclodextrin.

I worry about the future of cyclodextrin research.  We can’t count on pharmaceutical companies to research cyclodextrin or bring therapeutic products with cyclodextrin to people as they are focused on profits and patents on new drugs that take millions of dollars and years to make.   Cyclodextrin is an inexpensive and non-toxic compound that can be deployed tomorrow — far too EASY!   But the HIV/AIDS pharma companies should be watching cyclodextrin very closely.  I believe the smart ones will start investing into research and try and create new patents around cyclodextrin since the Niemann Pick Type C cholesterol gene/protein on Chromosome 18 is the culprit in HIVs ability to assemble itself in the human body.

Very First Glass Infusion Bottles of Cyclodextrin

It’s time that the National Institutes of Health (NIH) Office of AIDS Research or the Centers For Disease Control and Prevention or some other government agency steps in and redirects money into cyclodextrin research to study this potentially life-saving compound that has very broad applications.

I am also asking for help from private citizens and global foundations such as The Gates Foundation, The Clinton Foundation, Elton John AIDS Foundation, amfAR and One.org to step in and help by taking a closer look at cyclodextrin and it’s relationship to cholesterol metabolism and killer viruses like HIV/AIDS.   We must make sure cyclodextrin is properly tested as a therapeutic agent whether money can be made from it or not (which is can be!)

Videos

KTVU Story On Cyclodextrin And Its Amazing Benefits for HIV/AIDS and A Deadly Cholesterol Disorder

(April 1st, 2009)

Bay Area Television station KTVU tells the fascinating story about how research by Dr. James Hildreth into HIV/AIDS and the FDA approval of Cyclodextrin for Addi & Cassi are related. Our thanks to all the folks involved in creating this wonderful 4 minute segment.

Cyclodextrin. HIV AIDS. Niemann Pick Type C. Cholesterol. Sugar Killing HIV? Who Would Have Imagined This?

Millions of children in Africa like Rosine are needlessly contracting HIV/AIDS when an inexpensive and non toxic sugar compound called Cyclodextrin (or HPBCD) kills the HIV/AIDS virus and could literally stop the spread of this horrible deadly disease from mother to child (not to mention adults!).  Now that the world is going to find out how important the Niemann Pick Type C GENE and proteins (located on Chromosome 18) are to the HIV/AIDS viruses ability to create itself and replicate in an infected person’s body, there may be some significant breakthroughs on the horizon.

Rachel and Rosine - Africa Children With HIV/AIDS

Rosine’s HIV/AIDS infection is being spread through her body with the helps of the Niemann Pick Type C proteins which help the HIV/AIDS virus makes itself inside a person’s cells.   Cyclodextrin sugar is having miraculous effect on the HIV/AIDS virus (it’s killing the virus in animals!).   Millions of children in Africa contract HIV/AIDS through the birth canal.   Imagine the possibilities of pregnant mothers in Africa having an inexpensive and safe cream applied inside the birth canal prior to giving birth?   The virus could be stopped - today!   Cyclodextrin is readily available and simply needs to be tested in humans and deployed to see if it can work as effectively on people as it does in animals.

Addi & Cassi Hempel - Twins with Niemann Pick Type C

Cyclodextrin treatment is being tried as a potential therapy in Niemann Pick Type C DISEASE, which afflicts 5 year old identical twins, Addi and Cassi Hempel.  Addi and Cassi were born with two “genetic defects” or inherited “mutations” from their parents on the Niemann Pick Type C GENE.  These mutations on the GENE cause a fatal cholesterol metabolism DISEASE that is often referred to as “Childhood Alzheimer’s.”   The FDA recently approved a “compassionate use” IND to allow the twins to receive cyclodextrin infusions directly into their bloodstreams.    With cyclodextrin having such a profound effect on cellular cholesterol in mice studies and on viruses like HIV/AIDS attach to cholesterol when they enter the body like HIV/AIDS, imagine what else it might do if more research was done on this compound?

Thanks to Kresta King Cutcher Venning for sharing her beautiful pictures of children in Africa who are suffering from HIV/AIDS.   This picture of Rosine was taken in 2006 and she is still battling her HIV/AIDS infection.   Together we must bring the story of children and families in different parts of the world who are fighting what seems to be entirely different fatal diseases, but are really connected through cholesterol, to the world!

The Connection Between HIV/AIDS, Niemann Pick Type C and Cyclodextrin - Hope In Sight!

How HIV/AIDS Infects People? Learn how the Niemann Pick Type C Gene and a Rare Cholesterol Disease are Helping Researchers Understand How The Virus Makes Itself In The Body

April 1st, 2009

Bay Area Television station KTVU Channel 2 reports on the remarkable story of how two deadly diseases, one extremely rare and one a global epidemic, are connected by a cholesterol metabolism gene called Niemann Pick Type C located on Chromosome 18.

Dr. James Hildreth, a pre-eminent HIV/AIDS researcher who heads the Center for AIDS Health Disparities Research at Meharry Medical College in Nashville discusses how a non toxic sugar compound called cyclodextrin kills HIV/AIDS.   Cyclodextrin punches holes in the virus, inactivating its ability to replicate in the body.

When HIV enters the human body, it attaches itself to cholesterol. Dr. Hildreth has discovered how HIV creates itself in a person’s cells — by utilizing the Niemann Pick Type C proteins on Chromosome 18.

The story details how 5 year old identical twins, Addi and Cassi Hempel, who were born with a defect on the Niemann Pick Type C gene, will receive infusions of cyclodextrin into their bloodstreams to help treat their rare cholesterol disorder.   Their treatment could pave the way for future HIV/AIDS therapies.