1. Metan Green
Health & Env.
Eng. & Cons.Co.
presents
DOCTOR BACTER
ANTI-BACTERIAL
HOSPITAL and
WALL PAINT from
SARTAŞ PAINT
INDUSTRY TRADE
INC.

2. WHO IS SARTAS PAINT
 Started manufacturing life in as early as 1980 and has
the factory in Istanbul with a very wide range of paint
products for construction, industrial and hygienic uses
 And now launched into market an
INNOVATIVE PRODUCT
ANTI-BACTERIAL PAINT

3.  SARTAS PAINT FULL LINE
 WATER BASE INTERIOR WALL PAINTS
 SILICONE BASE MATTE INTERIOR WALL PAINTS
 FLAT LATEX MATTE INTERIOR WALL PAINTS
 ACRILIC BASE SATIN MATTE INTERIOR WALL PAINTS
 DOCTOR BACTER ANTIBACTERIAL HOSPITAL PAINT
 DOCTOR BACTER ANTIBACTERIAL INTENSIVE CARE PAINT
 CEILING LATEX PAINT
 PROFESSIONAL CEILING LATEX PAINT
 WATER BASE EXTERIOR WALL PAINTS
 SILICONE BASE EXTERIOR WALL PAINT
 ACRYLIC BASE EXTERIOR WALL PAINT
 ACRYLIC BASE TEXTURED WALL PAINT
 SILICONE BASE TEXTURED WALL PAINT
 FLEXIBLE EXTERIOR TEXTURED WALL PAINT
 SOLVENTS BASE EXTERIOR WALL PAINTS
 PLYO FLAT PAINT
 PLYO PRIMER PAINT
 WATERSTOP SEALER
 ROOF-FRAME-WALL WATER INSULATION LINING
 ROOF-FRAME-WALL WATER INSULATION PAINTZ
 WATER BASE PRIMERS AND PUTTIES
 SILICONE BASE TRANSPARENT PRIMER (SEALER)
 ACRYLIC BASE TRANSPARENT PRIMER (SEALER)
 LATEX PRIMER
 CONVERSION PRIMER
 GAS CONCRETE PRIMER
 INTERIOR FILLING PASTE
 EXTERIOR FILLING PASTE
 CRACK FILLING PUTT
 CRACKING SEALING PLASTER
 SYNTHETIC WOOD AND METAL PRIMERS AND PAINTS
 SYNTHETIC GLOSS PAINT
 SYNTHETIC SATIN PAINT
 SYNTHETIC MATT PAINT
 SYNTHETIC PRIMER
 SYNTHETIC ANTICORROSIVE PRIMER
 SYNTHETIC RED LEAD PRIMER

4. IN HOSPITALS AND
ANY HOUSING
WHERE PEOPLE LIVE
HYGIENE IS VERY
IMPORTANT ISSUE
 What we all want is living in an hygienic
and clean environment free from
microbes, bacteria, viruses, molds, dirty
substance
 This desire has generated the term “
Hygienic ´´.
 But it is becoming more and more
difficult to maintain an hygienic
environment in modern life along with
the increase of the population.
 While showing great attention to our
environment to keep ourselves away
from diseases, dirt, mud, etc.; we can not
see the pathogenic microorganisms and
do not care about environment

5. TILL WHEN WE DO
NOT CARE ABOUT
ENVIRONMENT ???
Getting ill;
then we knock the
door of the doctors

6. So, by this way, along with the
movement of the patients ,
millions of bacteria, viruses and
microbes transfer into hospitals .
Not only with the patients, but
also with foods, equipment,
tools, flowers, etc. the
pathogenic microorganisms are
transported to hospitals
These clewer microorganisms get more and more
populated very quickly if do not find and resistance

7. THE NUMBER OF THE MICROORGANISMS
LIVING AROUND ARE UNBELIVABLE SO MUCH:
 Qty. 40 million in 1 g soil
 Qty. 1 billion in 1 liter
water
 Qty 100 billion to - 1
trillion in 1 gram fence
Qty. of the
microorganisms in
each sqm of skin;
 Hand: 100-1000
 Forehead10.000-
100.000
 Head :1 million
 Underarm :10 million
 Nose secretion : 10
million
 Saliva : 100 million

8. THESE ARE ALL THE TIME AND
EVERYWHERE LIVING WITH US !
 So, simply we need to have a sort of
disinfecting agent to help us in
combat these toxic microorganisms
For having a succesful combat the
toxic substances,
the important issue is the amount
and the rate of efficacy of the agent
used
As the microorganisms populate very
rapidly

9. For instance;
 Suppose, there are 1 million bacteria somewhere
 Applying a disinfectant, let us destroy 85 % of the
bacteria of 1 million
 The remaining amount ( 15 % ) is 150 thousand.
 In every 20 minutes, number of the microorganisms
doubles and finally in 60 minutes, the quantitiy reaches
up to 1 million 200 thousand.
 So ; all efforts are for nothing
 We can judge and the currnet literature say that the
efficacy should be 5 Log 10 ( 99.999 % ) or even better
 And for some kind of resistive bacteria which forms
biofilms the target should be 3 Log10 , 99.9 %

10. SIMPLY , UNLESS ENTIRELY DESTROY OUR ENEMIES
WE CAN NOT WIN THE COMBAT
 We should state that anti-bacterial paints are also
considered to be a disinfecting product. So, the
biocidal efficacy should be 3 Log 10
( 99.9 % ) at minimum.
 The microbiocidal activity tests for the surfaces are
defined by international standard of JAPANESE
INDUSTRIAL STANDART JIS Z 2801 or equivalent ISO
22196 or ASTM E-2180-0110 as foolwing:
 For Solid surfaces , micribiocidal activity is to be
defined 2 Log10
 Painted surfaces are defined to be the coated forms
of such surfaces and minimum 99% effiğcacy needed
 But European Community mandates 3 Log10, 99.9 %
biocidal efficacy

11. Which measures taken to maintain
Hygiene Standards at hospitals ?
 Corridors, rooms, floors are
cleaned by detergents and
disinfectants . This work is
more carefully done in the
operating rooms and
infectious diseases
departments.
 For hand hygiene, though 100
& efficient products are used,
the final success is around 40
%.

12. Let us remember some of the
Statistical data which always
helps approach the target .
 A contaminated handed person spreads the toxicity to 7 more persons
.Bacteria and viruses stay over the hand surfaces for.
 Not only to be in touch with the patient but even to be in contact with
the sheets, to measure her temperature and blood pressure, move her
in the bed and remove form the bed, etc. Are all the source of cross
 While the patient rooms are contaminated in the ratio of 58 %, in the
internal medicine wards, gram-negative bacillus in 38 % ratio has been
found.sd are contaminated in the ratio of 38 % .
 The success of hand hygiene measures has been 10-40 % in the
hospitals at average.

13. IS IT A SOLUTION TO MOP WITH DETERGENTS AND
DISINFECTANT SOLUTIONS FOR COMBATTING MICROBES ,
BACTERIA, VIRUSES ? THIS DISCUSSION IS ONGOING…
 Researches show that mopping success raised up to
94.34 % with quaternary ammonium kind of
disinfectants while it used to be 67.75 % with
conventional cleaning agents and mopping
 Use of microfiber mops did not considerably raised
the efficacy ( form %79.74 to %87.94 )
 Mopping with regular detergents did not show any
significant biocide efficacy and even worse as the toxic
substances were spread from one room to another.
 So, we can conclude of that for floors, either
particularly effective disinfectants are to be used or
special kind of anti-bacterial ceramic covering should
be preferred.

14. EVENTOUGH A PROPER DISINFECTING PROCESS APPLIED, THE SUSTAINABILITY OF
THE SANITATION LEVEL IS LIMITED TO FEW HOURS.
 Because the new pathogens are
entering in the room
 along with the movement of staff,
patients, equipment , clothes, food, etc.
 To continuously maintain the sanitary
level would results in extra works,
continuous efforts and costs. Most of
the times, the attempts to maintain the
sanitation levels create a synthetic
cloudy environment inside the hospitals.
Such an synthetic cloudy and rich-in
chemicals environment would cause
secondary effects on the patients and
particularly continuously working
hospital staff.
So, we should consider some further measures as
entire safety and else

15. For instance , use of disinfecting chemicals; though there
are many hazardous side affects involved
 The chemicals and disinfectants are
to be chosen very carefully by
considering their side-effects and
degradation capabilities, etc.
 But anyhow, those with low side-
effects kinds are preferred,
quantities of the chemicals are also
to be kept at minimum to prevent
secondary effects and results.
 The chemicals finally are inhaled,
swallowed, and / or sent to drain
and sewage and finally cause
severe environmental problem over
agricultural products, underground
water streams, soils, etc.

16. IS SUFFICIENT LEVEL OF PROTECTION SUSTAINED ?
Naturally not always at required levels !!!
 Because, not sufficient amount of
disinfection is done
 The surface to be disinfected too small
 Low-active disinfectants used
 Limited number of disinfectants with
superb characteristics
 Inconvenience of the areas to be
disinfected
 Development of resistances against
pathogens
 Population of the alive pathogens on the
spots where could not be reached
 External contamination by the movement
of staff and patients and visitors
 And so many as above

17. DEADLY SEVERE EFFECTS OF
PATHOGENS
 According to the literature, bacteria populate twice in every
20 minutes. This fact brings tremendously serious results if
the calculations are done based on the alive pathogens.
 Only 1 bacteria will react o qty. 1 billion in 10 hours, 2
quadrillion in 17 hours. Further both disinfectant resistive
and antibiotics resistive derivatives of the bacteria are
formed. These microorganism may resident somewhere in
the hospitals and survive and continue populating in a very
happy mood. So, they are called hospital pathogens and
cause Hospital acquired infections ( HAI )

18. WHAT ARE HOSPITAL
PATHOGENS ?
 METHICILLIN RESISTANT STAPHYOCOCCUS AUERUS(MRSA)
 METHICILLIN RESISTANT STAPHYCOCCUS
EPIDERMIS(MRSE)
 VANKOMYCIN RESISTANT ENTEROCOCUS FAECIUM (VRE)
 ESHERICHIA COLI ( ATTC 25922 )
 KLEBSIELLA PNEUMONIA ( ATTC 13883 )
 PSEUDOMONAS AERUGINOSA ( ATTC 15442 )
 ASPERGILLUS NIGER ATTC 16404
 ASPERGILLUS VERSICOLOR
 ALTERNARIA ALTERNATA
 CLOSTRIDIUM DIFFICILE ( C. DIFF. )

19. WHAT IS MISSING IN OUR COMBAT PATHOGENS ?
WHAT ELSE TO DO ?
 The main problem is , disinfectants have time-limited effects.
 Mostly are liquid and so can not be applied everywhere and every
time. Hence affectivity field is also limited some time some where.
 In hospitals, floors, furniture and the other materials occupy only 30 %
of the entire area. But the rest 70 % are consisting of walls, ceiling
surfaces etc. where do not have the first priority in hospital disinfecting
job.
 Even though the walls and ceilings of the operating rooms are
disinfected properly and thoroughly, the staff, equipment, etc. Coming
form outside immediately adds new and fresh pathogens into the clean
room.

20. WE AIMED AT DEVELOPING AN ANTI-BACTERIAL PAINT TO FIND
A SOLUTION FOR THE FOLLOWING QUESTIONS AND PROBLEMS :
 Could we develop a sort of disinfecting material , a paint , to destroy the pathogens
on the walls and surface which occupies 70 % of the hospitals
 Could this paint be such that does not harm the human being around while killing the
pathogens
 Could we comply with the European Community’ s relevant regulations ( which
requires to have no harm on human being even though use in the ratio of 0.1 % or
lower biocide active material and also being below the permitted toxicity level of
1000 ppm )
 Were there any pathogenic organism which progressed resistance to the considered
active agents
 As not nay biocide active agent was not able to kill the pathogenic organisms, how
would we succeed to kill them at such low levels of use
 How long time can we keep the activity of the paint without losing the stability
 Could we create a sort of synergy by combining the activities of different agents
 Could we develop a paint which does not dissolve in water, does not vaporize, does
not contaminate the environment by emission, can not cause any problem when
inhaled by people, while being active to kill the pathogens.
 Could all these active agents be under 0.1 % level
 Could we keep the biocide activity and efficacy with such a very low level of active
substances
 Could these substance remain over the wall for long time without being destroyed
under external forces

21. FINALLY , AFTER 4 YEARS OF EXTENSIVE R & D WORKS,
WE SUCCEDED SELECTING THE MOST ADEQUATE BIOCIDE
ACTIVE AGENTS AND COMBINING THEM UNDER THE PAINT
STRUCTURE
 It has been our luck that the bio-
medical and chemical industry offered
to the market really successful,
modern biocide active agents and we
could have such a wide range of
products portfolio
 Our concern was not only selecting the
active agents but also to be
environmental friendly during applying
the paint on surfaces. EU regulations
mandates that VOC ( volatile organic
compounds ) should be less than 100 g
per 1 liter in water based paints.

22. We SUCCEEDED TO KEEP VOC AMOUNT IN OUR DOCTOR BACTER
ANTI-BACTERIAL PAINT AS LOW AS 60 g/LT, WHICH IS 40 % LESS
THAN MANDATED BY EU LAWS.
 The main active substances such as CMIT, MIT,
FORMALDEHYDE and FORMALDEHYDE which generates
toxic products and used in conventional in-house paints are
not used in Doctor Bacter paint. Also, ammonia containing
pH adjusters are not used in the paint to prevent bad smell.
 The anti-foaming agents also were selected form European
environmental award winning ones. Finally, our concerns
were not only selecting the most effective biocide
combination but also eliminating the other chemically toxic
compounds from the formulation.

23. MAJOR IMPORTENT ACHIEVEMENTS
 EU DEFINES ANTI-BACTERICIDE PAINS AS THE
WATER BASED PAINTS WHICH KILL THE
BACTERIA OVER THE PAINT WITHIN 24 HOURS
WITH THE EFFICACY OF 99.9 % . FURTHER
ANTI-BACTERIAL PAINTS SHOULD KILL MOULDS
.
 VERY LOW LEVEL OF ANTI-TOXIC BIOCIDE
CONCENTRATION : EU DEFINES 1/1000 G ( 0.1
% ) AND WE REDUCED DOWN TO AS LOW AS
0.08 % LEVEL
 WE ADDED THE EFFICACY POWER ON also
MOULDS, YEASTS, ALGS
 FINALLY, BY COMBINING THE ANTİ-BACTERCIDE
AGENTS, MOULD PREVENTERS, PRESERVATICE
COMPOUNDS IN AN EXCELLENT SYNERGY, WE
COULD REACY THE TOXICITY LEVEL AS LOW AS
0.08 % .

24. FINALLY DOCTOR BACTER CAME UP
 THE DOCTOR BACTER NAMED, ANTI-
BACTERIAL HOSPITAL PAINT WAS
DEVELOPED AND LAUNCHED INTO THE
HYGIENE MARKET.
 THE BIOCIDE EFFICACY WAS APPROVED
BY TURKISH MINITRY OF HEALTH’ S
AUTHORIZED LABORATORY AS WELL AS BY
MANY OTHER AUTHORIZED
LABORATORIES IN AND OUT OF TURKEY

25. WHY DOCTOR BACTER IS UNIQUE ?
 HAS 3LOG10 ( 99.9 % ) BIOCIDE EFFICACY
 ENVIRONMENTAL FRIENDLY AS ACTIVE COMPONENTS ARE BELOW
MAXIMUM ALLOWABLE LIMITS
 BY MEANS OF USED ENCAPSULATING TECHNOLOGY, HIGH LEVEL OF
STABILIZATION WAS ACHIEVED
 STABILITY MAINTAINS 2 YEARS TIME ON THE PAINTED SURFACES (
MAYBE MORE THAN 2 YEARS AS TILL NOW ONLY 2 YEARS WAS
PROVEN FROM THE FIRSTT LAUNCH OF THE PRODUCT)
 ONCE APPLIED, 24/720 PROTECTION IS ENSURED
 THE COST/EPRFORMANCE RATIO IS VERY LOW CONSIDERING THE
COST-SAVE IN THE AMOUNT OF DISINFECTANTS USED IN THE
DOCTOR BACTER PAINTED ROOMS.
 ALONG WITH THE BIOCIDE FEATURES, ALREADY HAS EXCELLENT
PAINT SPECIFICATIONS

26. WHERE DOCTOR BACTER USED
 HOSPITALS ,CLINICS , OTHER HEALTH CENTERS
 GERIATRY CLINICS
 FOOD FACTORIES, RESTAURANTS
 MOSQUES, CHURCHS, SINAGOGS, ETC.
 HOTELS, SCHOOLS, CINEMAS, THEATERS
 SHOPPING CENTERS,
 HOUSES , APARTMENTS
 ANY PLACE WHERE COMMODITIES OF
PEOPLE LIVE AND
HYGIENE IS IMPORTANT

29. THANK YOU FOR YOUR ATTENTION
 ZAFER ERBATUR, CHEM. ENG.
R & D MANAGER, CONSULTANT, DEVELOPER
SARTAS INC. ; MANUFACTURER
Kimya Sanayicileri Organize Sanayi Bölgesi Melek Aras Bulvarı Organik Cadde No:5
Tuzla/İSTANBUL /TURKEY
www.sartasboya.com.tr
 Dr. CEMAL KALDIRIMCI, CHEM. ENG.
METAN GREEN HEALTH & ENV. ENG. CONS. Co.
EXPORTING COMPANY
GSM: +90 ( 532 ) 454 9077
Address: Ugur Mumcu Caddesi 17/10 , 35320, Narlidere-Izmir /TURKEY
cemal@metan.com.tr
www.metan.com.tr