Tom Kollars: ProVector Mosquito trap

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**Thomas KOLLARS**

**Mosquito Trap**

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[**http://news.georgiasouthern.edu/viewArticle.php?id=1778**](http://news.georgiasouthern.edu/viewArticle.php?id=1778)

**Media Contact:**   
**Paul Floeckher**   
912-478-6397   
pfloeckher@georgiasouthern.edu

**March 09, 2009**

**Georgia Southern University Professor Dr.
Tom Kollars Invents Device to Reduce Deaths from
Mosquito-Borne Illnesses**

![](provector.jpg)

The ProVector is unique in its environmentally-friendly manner
of killing mosquitoes

More than 500 million people worldwide are infected with
malaria each year, killing one to three million people, many of
them children. Georgia Southern University professor Tom Kollars
hopes his invention, the ProVector Bt, will drastically reduce
those numbers.

aIf we can make a dent in that, I can go out of this world
knowing I made it a better place,a said Kollars, the director of
the Biodefense and Infectious Disease Laboratory in Georgia
Southernas Jiann-Ping Hsu College of Public Health.

The ProVector targets mosquitoes that carry deadly diseases
such as malaria, dengue fever and West Nile virus. In blind
trials conducted by a Walter Reed Army Institute of Research
overseas laboratory, the ProVector killed 50 to 100 percent of
mosquitoes within days.

The small device is essentially an artificial flower, made out
of the same type of plastic used for football helmets.
Mosquitoes are drawn to the ProVector by a four-color decal
(different mosquito species are attracted to different colors).

The insect feeds on an artificial nectar through a metal screen
with openings big enough for only a mosquitoas mouth parts to
fit through. Kollars' work in developing the ProVector Bt
formula is unique in that it is the first time anyone has been
able to get mature mosquitoes to ingest and die from Bacillus
thurengiensis (Bt), a safe biopesticide.

The ProVector comes in two models: the ProVector Bt, which
kills the mosquito within a few days of eating the bait, and the
ProVector M, which kills the malaria parasite inside the
mosquito, leaving the mosquito to survive and serve its role in
the environment without infecting humans.

aWe trick the mosquitoes into coming right to it and eating
it,a Kollars said. aThis is a very environmentally-friendly
apparatus that uses a safe biopesticide, so it can be safely
used in the home. No pesticides are sprayed into the
environment.a

The homes where Kollars envisions ProVectors are in tropical
and subtropical regions. People in those areas live in forests
and fields, in huts without basic things that many of us in the
United States take for granted, like air conditioning and
windows with screens. Bed nets have been a tremendous tool in
reducing mosquito-borne illnesses, but have proven to be only
seven percent effective in children under six months old. The
bed nets also develop holes over time and mosquitoes have become
resistant to the pesticides used on the nets, Kollars said.

aHundreds to thousands of mosquitoes can go into a home in one
night,a he said. aThink of living in the Everglades with nothing
covering your windows.a

Kollars says he spent about 10 years perfecting the ProVector a
working out of his garage and spending aover a hundred-thousand
dollarsa of his own money to develop it a and now that is all
paying off. Kollars patented the idea and then licensed the
patent to Medical Infusion Technologies, Inc., which plans to
begin manufacturing and marketing the ProVector this year.

What makes the ProVector such a viable tool, Kollars says, is
its cost-effectiveness. The devices will sell for about $10
apiece. About every three months, it will need a $1 bait refill.

aThe average Kenyan, for example, spends about $110 a year out
of their $360 a year salary to treat their family for malaria
alone. Thatas one disease,a Kollars said. aA health department
could buy this device for the family, and then the family could
protect itself for $4 a year instead of $110 a year.a

Kollars recently returned from Puerto Rico, where he tested the
ProVector in a real jungle environment. He and Dr. Steven
Hatfill, an infectious disease physician, set up a simulated
village of 14 tents, each with a ProVector inside. They spent
three weeks in the jungle, and will return in seven months to
see how well the devices fare in extreme tropical conditions to
reduce the mosquito population.

ProVector Bt is currently being used to reduce mosquito
populations around homes in Afghanistan. Next month, Kollars
will visit and provide the ProVector Bt to a school in Thailand
to help reduce the number of children contracting dengue, which
kills up to 40 percent of children contracting the disease. In
May, Kollars will travel to Kenya to conduct field research with
the U.S. Army, and he will also travel to Uganda to begin
epidemiology research with the Ministry of Health with the goal
of reducing the number of malaria cases.

Kollars and two assistants continue to conduct ProVector
laboratory and field experiments at Georgia Southern University.
They recently presented their research in Vienna, Austria, and
Heidi Hulsey, Kollarsa doctoral student in the Jiann-Ping Hsu
College of Public Health, will present at the American Mosquito
Control Association in New Orleans.

aWeare potentially going to save hundreds of thousands of
lives,a Kollars said. aWhat more could a person want in the
public health profession, than to make such an impact?a

Georgia Southern University, a Carnegie Doctoral/Research
University, offers 116 degree programs serving nearly 18,000
students. Through eight colleges, the University offers
bachelors, masters and doctoral degree programs built on more
than a century of academic achievement. The University, one of
Georgiaas largest, is a top choice of Georgiaas HOPE scholars
and is recognized for its student-centered approach to
education.

Visit: www.georgiasouthern.edu.

![](kollars.jpg)

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[**http://www.wtoctv.com/Global/story.asp?S=7304879**](http://www.wtoctv.com/Global/story.asp?S=7304879)

**Doctor Says His Latest Invention Could
Help Save Lives**

**Reported by:  David Hall, dhall@wtoc.com**

*Georgia Southern professor Dr. Tom Kollars was busy setting
up mosquito traps in Bulloch County today. Georgia Southern
professor Dr. Tom Kollars was busy setting up mosquito traps
in Bulloch County today.*

Mosquitoes might be small, but they pack a powerful punch.
During the summer, mosquitoes in several areas in Chatham County
were found to carry the West Nile virus. They can also carry
several other potentially deadly diseases.

Now one doctor says he has a way to prevent the spread of those
diseases.

Georgia Southern professor Dr. Tom Kollars was busy setting up
mosquito traps in Bulloch County today, looking for a way to
stop the spread of disease. Kollars has tested hundreds of
mosquitoes and says that close to 60 percent of those that
ingest the malaria parasite could get infected with the
potentially deadly disease.

But after working in southeast Asia, he saw firsthand what this
deadly disease could do.

"We saw patients and children with malaria and dengue fever,"
said Dr. Kollars.  "About 40 percent of children die and
there's no treatment or vaccine, there's no drug for dengue,
while there's drug resistance to malaria."

So he came up with what he calls a solution. It's called
Provector. It looks like a flower, only it uses a chemical to
attract the mosquito.

"Female mosquitoes have to get food sources, blood meals and
nectar and fruit juices used for energy to fly. They'll feed on
nectar and sugar sources ten times more than blood because they
need it for energy," said Dr. Kollars.

Once mosquitoes take in the antiviral formula in the traps, it
works with their system to block the development of the disease,
killing it but not the mosquito.

Dr Kollars says not only will his invention help save lives,
but it will be cost effective.

"Well for example, the average family in Kenya spends $110
treating their family with malaria. We're trying to make this
device very cost effective at five to ten dollars, where someone
can put this in their home," said Dr. Kollars.

Through his research, Dr. Kollar's treatment has knocked down
the number of infected mosquitoes to two percent.

"We have a chance here to be involved with preventing hundreds
of millions from dying and getting sick and it's a blessing,"
said Dr. Kollars.

Dr. Kollars says, right now they are developing the formula for
malaria and dengue fever and then working on others for West
Nile, Japanese encephalitis and yellow fever. This is an
environmentally safe product and should available in about a
year.

This project is a collaborative effort involving Mev Labs
Incorporated, MIT Incorporated and Georgia Southern University.

Reported by:  David Hall, dhall@wtoc.com

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**FORMULATIONS AND DEVICES FOR DELIVERING COMPOUNDS TO ARTHROPODS
AND MICROORGANISMS WITHIN ARTHOPODS**   


**WO2009032975**

![](wo1.jpg)

2009-03-12   
Applicant(s):  MEVLABS INC [US]; KOLLARS THOMAS [US]   
Classification:  - international:  A01N25/08;
A01N25/08   
**Abstract --** Described herein are formulations and devices
for delivering compounds to arthropods and microorganisms within
the arthropods. The formulations are generally composed of a
sugar and the compound, wherein the compound targets a
particular pathogen or other microorganism within the arthropod,
kills the arthropod, or a combination thereof.

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**Insect / Arthropod Trap**

**USP 6920716**

![](692-b.jpg)

Inventor:  **MASTERS EDWIN [US] ; KOLLARS THOMAS M JR**
  
Applicant:  TICKS OR MOSQUITOES L L C [US]   
EC:   A01M1/10C; A01M1/02C; (+4) 
IPC:   A01M1/14; A01M1/02; A01M1/10; (+3)   
2006-01-26   
Inventor(s):  MASTERS EDWIN [US]; KOLLARS THOMAS M JR [US];
WOLF DAVID [US]   
Applicant(s):  TICKS OR MOSQUITOES L L C [US]   
Classification:   - international:  A01M1/14;
A01M1/02; A01M1/10; A01M1/22; A01M1/00; A01M1/02-
European:  A01M1/10C; A01M1/02C; A01M1/10F; A01M1/14;
A01M1/14B; A01M1/22   
**Abstract** -- A disposable insect and/or arthropod
trapping device that generates its own attractants of carbon
dioxide (CO2), lactic acid and/or ammonia through the chemical
reaction of adding a weakly acidic liquid such as vinegar
(acetic acid) to solids such as baking soda (sodium
bicarbonate), with the optional addition or substitution of urea
and/or lactic acid. The liquids are mixed over a period of hours
or days onto the solids to generate CO2 in the vicinity of an
insect/arthropod trap having an insect-debilitating surface that
traps the insects and arthropods when they alight on the
surface. The container may have a cylindrical shape with an
upper and lower chamber with fly paper attached to the
container. The fly paper may be secured to the base and/or top
portions of the container, or there may be fly paper like
appendages to trap insects attracted by emitted gases.

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[**https://www.istockanalyst.com/article/viewiStockNews/articleid/2851014**](https://www.istockanalyst.com/article/viewiStockNews/articleid/2851014)  
**Wednesday, December 03, 2008 12:26 PM**

**MIT Holding, Inc.: Independent
certification and validation of ProVectorTM Completed by
Georgia Southern University**

**MIT Holding, Inc. (OTCB: MITD)**

The Georgia Southern University Research and Service Foundation
located in Statesboro, GA, advised MIT on November 27, 2008 it
had successfully completed its independent Validation and
Certification of ProVectorTM Models under contract by MIT,
Holding Inc.; portions of the study available on-line at
www.mitholdinginc.com.

MIT can now offer for public use the first of the new line of
ProVectorTM products developed by Dr. Tom Kollars from MEVLABS,
Inc. and Pro Vector, LLC and licensed to MIT. ProVectorTM Bt
(patent pending) is an economical and environmentally safe
device for killing adult mosquitoes. The parts include a plastic
flower with colors, chemical attractants and a refill containing
Bacillus thuringiensis israelensis (Bt) biopesticide. One refill
lasts from three to six months depending on the size of the
mosquito population.

ProVectorTM Bt is unique because it is the first commercially
available device to imitate a flower to which adult mosquitoes
come to feed on Bacillus thuringiensis israelensis (Bt)
pesticide. It was designed with the philosophy of keeping
aGreena and made of virtually indestructible plastic which
reduces waste and it only allows mosquitoes to feed on it,
eliminating the spread of pesticides into the environment. The
device includes a flower with color, chemical attractants, and a
refill containing Bacillus thuringiensis israelensis (Bt)
biopesticide. One refill will last from three to six months
depending on the size of the mosquito population.

The active biopesticide Bt, is short for Bacillus
thuringiensis, is a bacteria that has been studied by the US
Environmental Protection Agency (EPA) and found Bt safe enough
to be exempt from food residue tolerances, groundwater
restrictions, species labeling and special review requirements.
Bt has historically been used to treat water sources in order to
kill mosquito larvae as they filter in water. However, adult
mosquitoes do not live in water and have different feeding
habits than larvae. In addition to blood, most female mosquitoes
feed on sugar sources for energy and all male mosquitoes use
sugar sources. The ProVectorTM imitates the look and taste of
flowers in order to trick the adult mosquitoes into eating Bt.
Dr. Kollars and his staff have had astonishing results with
their ProVectorTM Bt formulation, having a kill rate of over 80%
in 24 hours and 100% within a week in the laboratory.

ProVectorTM Bt seeks to achieve low cost and safety by using Bt
in a contained manner without spreading it to the environment.
MIT Holding is pleased to team with MEVLABS, Inc. and ProVector,
LLC to provide the ProVectorTM Bt as another tool in the arsenal
of public health officials and pest management professionals in
their fight to battle mosquitoes and save lives.

&c...

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