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Original Article

Prevalence and Antibiotic Resistance of Gram-Negative Pathogenic
Bacteria Species Isolated from Periplaneta americana and Blattella

germanica in Varanasi, India

D Leshan Wannigama 1, Rishabh Dwivedi 1, *Alireza Zahraei-Ramazani 2

1Department of Botany, Centre of Advanced Study, Banaras Hindu University, Varanasi, India
2Department of Medical Entomology and Vector Control, School of Public Health, Tehran University of

Medical Sciences and PhD Research Scholar, Department of Zoology, Centre of Advanced Study,
Banaras Hindu University, Varanasi, India

(Received 20 Nov 2011; accepted 14 May 2013)

Abstract
Background: Cockroaches are among the medically important pests found within the human habitations that cause
serious public health problems. They may harbor a number of pathogenic bacteria on the external surface with anti-
biotic resistance. Hence, they are regarded as major microbial vectors. This study investigates the prevalence and
antibiotic resistance of Gram-negative pathogenic bacteria species isolated from Periplaneta americana and Blattella
germanica in Varanasi, India.
Methods: Totally, 203 adult cockroaches were collected form 44 households and 52 food-handling establishments
by trapping. Bacteriological examination of external surfaces of Pe. americana and Bl. germanica were carried out
using standard method and antibiotics susceptibility profiles of the isolates were determined using Kirby-Bauer disc
diffusion methods.
Results: Among the places, we found that 54% had cockroache infestation in households and 77% in food- handling
establishments. There was no significant different between the overall bacteria load of the external surface in Pe.
americana (64.04%) and Bl. germanica (35.96%). However the predominant bacteria on cockroaches were
Klebsiella pneumonia, Escherichia coli, Enterobacter aerogenes, and Pseudomonas aeruginosa. However, Kl.
pneumoniae and Ps. aeruginosa were the most prevalent, drug-resistant strains were isolated from the cockroaches
with 100% resistance to sulfamethoxazole/ trimethoprim and ampicillin. For individual strains of bacteria, Esche-
richia coli was found to have multi-resistance to four antibiotic tested, Citrobacter freundii four, Enterobacter
aerogenes and Proteus mirabilis to three.
Conclusion: Cockroaches are uniformly distributed in domestic environment, which can be a possible vector for
transmission of drug-resistant bacteria and food-borne diseases.

Keywords: Periplaneta americana, Blattela germanica, Garm-Negative, Bacteria, Antimicrobial resistance

Introduction

Cockroaches have become most vital pest,
are commonly found in association with man
in areas where food is prepared and stored,
such as restaurants, kitchens, bakeries, and
grocery stores (Rivault et al. 1993a, Vythil-
ingam et al. 1997). These insects live in differ-
ent environments, like sewage pipes, latrines,
garbage, wall slits, baseboards and filthy places,
as they are attracted by food, organic waste

and fluids regularly discharged in such sites
(Graczyk TK et al. 2001, William J. Bell et al.
2007, Allotey J et al. 2009). ). There are two
cockroach species commonly found infesting
in domestic area, these are the German cock-
roach (Blattella germanica), and the American
cockroach (Periplanets americana) (Rivault
et al. 1993a, Gratz 1999, Graczyk et al. 2005,
Mpuchane et al. 2005, Bell et al. 2007). The

*Corresponding author: Dr Alireza Zahraei-
Ramazani, E-mail: azahraei@sina.tums.ac.ir

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German cockroach is more prevalent inside
the home while the American cockroaches
are common around the home and associated
with water drainage systems and water pipes
(Gratz 1999, Graczyk et al. 2005, Mpuchane et
al. 2005, Bell et al. 2007, Allotey et al. 2009).
Cockroaches have always been associated
with different sites of domestic environments,
by food, organic waste and fluids that are
regularly discharged in such sites (Rivault et
al. 1993b, Mpuchane et al. 2005).

Recently more than 40% of cockroach popu-
lations are found in domestic areas, because
of uncontrolled of domestic sewage, poor sani-
tation and environment pollution which makes
ideal environment for increase the cock-
roaches, population (Gratz 1999, Graczyk et
al. 2005). Furthermore, their feeding mecha-
nisms and filthy breeding habits make them
ideal carriers of various pathogenic microor-
ganisms (Chaichanawongsaroj et al. 2004,
Graczyk et al. 2005). More than 100 species
of bacteria have been isolated from or passed
through cockroaches, which were carried on
their rough body parts, cuticle, gut, vomits
and feces (Cruden and Markovetz 1987,
Allotey et al. 2009, Cloarec et al. 1992).

Cockroaches are mechanical carriers or per-
fect vector for harbouring and transmitting
virulent bacteria associated with food born in-
fections. Some of them demonstrate resistance
to antibiotics (Paul et al. 1992, Rivault et al.
1993, Mpuchane et al. 2005). Transmission
could occur by cockroach regurgitation or
fecal pellet deposition into human foodstuffs
(Cochran 1982, Bell et al. 2007). Although re-
cently several studies of cockroaches in do-
mestic environments have shown the pres-
ence of microorganisms spread on their ex-
ternal surfaces, such as Enterobacter sp.,
Escherichia coli, Pseudomonas aeruginosa,
Klebsiella pneumoniae and several other po-
tential pathogens (Oothuman et al. 1989, Le
Guyader et al. 1991, Prado et al. 2002,
Graczyk TK et al. 2005, Saitou K et al. 2009).

Although studies with Bl. Germanica showed

that when Ps. aeruginosa has been demon-
strated to multiply in the gut and excretion
of the bacteria continued up to 114 days
(Fotedar et al. 1993), also Salmonella typhi,
Shigella dysenteriae and toxigenic strains of
Es. coli can be retained in the gut of cock-
roaches for up to several days (Stek 1982).
Periplaneta americana harboured more
bacteria species than the Bl. germanica
(Fotedar et al. 1992a, Rivault et al. 1993,
Prado et al. 2002, Pai et al. 2003).

In hospitals, cockroaches have been con-
sidered to be a possible carrier of nosocom-
ial infections, especially the transmission of
drug-resistant bacteria (Fotedar et al. 1991,
Cotton et al. 2000, Prado et al. 2002, Saitou
et al. 2009), also they play a critical role in
transmitting food-borne diseases; such as
diarrhea, dysentery, cholera, tuberculosis, and
typhoid fever (Fotedar and Banerjee 1992,
Graczyk TK et al. 2005, Saitou K et al. 2009).
Cockroaches are possible vectors for carrying
TEM-type beta-lactamases producing Gram-
negative bacteria, most often found in Es.
coli and Kl. pneumonia, which showed am-
picillin and penicillin resistance (Fotedar R
1991, Cotton et al. 2000, Bradford PA 2001,
Paterson DL 2003).

The domestic pollution and poor sanitation
gives the favorable condition to growth and
development of population of cockroaches in
food preparation areas and multi-family dwell-
ings, the diversity of micro-organisms that
they are associated and the fact that some of
these bacteria highly resistance to recent an-
tibiotics, which is indicates one of the posi-
tive health risk for the human beings (Paul et
al. 1992, Rivault et al. 1993, Prado et al. 2002,
Graczyk TK et al. 2005, Saitou K et al. 2009).

The high population density with poor dis-
posal of left-over’s, lack of proper sanitation
and ideal temperature conditions in Varanasi
City could serve as a source of cockroaches’
infestation. With that in mind, this study was
an attempt to isolate and identify gram-neg-
ative pathogenic bacteria from Pe. americana

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and Bl. germanica in households (Kitchen, liv-
ing room, toilets and bed rooms) and food-
handling establishments (canteens, bakeries,
grocery stores, food storage stores, small food
processing plants and restaurants), in Vara-
nasi City in India. After isolating bacteria
from the trapped cockroaches we determined
to find their antibiotic resistance patterns,
and also we highlighted spatial distribution,
diversity and composition of bacteria in do-
mestic cockroaches.

Materials and Methods

Study area
The city of Varanasi is located in the middle

Ganges valley of North India, in the eastern
part of the state of Uttar Pradesh, along the
left crescent-shaped bank of the Ganges River.
The Varanasi Urban Agglomeration consist
of seven urban sub-units covers an area of
112.26km2. The urban agglomeration is
stretched between 82° 56’E - 83° 03’E and
25° 14’N-25° 23.5’N, being located in the
indo-gangetic plains of North India (Indian
Meteorology Department 2010).

Varanasi experiences a humid subtropical
climate with large variations between sum-
mer and winter temperatures. Summers are
from early April to October, with interven-
ing monsoon. The temperature ranges be-
tween 32 °C–46 °C in the summers. Winters
in Varanasi from December to February and
temperatures below 5 °C are not uncommon.
The average annual rainfall is 1,110mm
(Indian Meteorology Department 2010).

The catchment’s area consists of 29 towns,
with total a population of 3,138,670 (Census
of India 2001). However, the area under Va-
ranasi municipal council (Nagar Nigam) has
a population of 1,100,748 (Census of India
2001). Also approximately 138,000 people
in the municipal area live in slums (Census
of India 2001). Due to the high population
density the city produces about 350 million
litters per day of sewer and 425 tons per day

of solid waste (Planning Division, Central
Pollution Control Board, Archived, 2006).
The solid wastes are disposed in one landfill
site and sewage is drains into nearest river
(Planning Division, Central Pollution Con-
trol Board. Archived 2006).

Sampling and identification of microor-
ganisms

In order to select the target study are a
stratified random sampling procedure were
used. Ten places (Banaras Hindu University
and Lanka, Durgakund and Bhelpura, Gad-
owalia, Sigra, Cantonment Railway station,
City Railway Station, DLW, Sunderpur, Ganga
ghats around area, Kotwalia) were sampled
from the Varanasi City according to the geo-
graphical layout of the area. In the months of
April and May 2011, 203 cockroaches were
collected from 44 households (Kitchen, liv-
ing room, toilets and bed rooms) and 52 food-
handling establishments (canteens, Bakeries,
Grocery stores, food storage stores, small
food processing plants and restaurants), in
Varanasi City. These households and food-
handling establishments were selected ran-
domly, in addition the occupants were did
not use pesticides in the recent. Cockroaches
were caught in food-baited pitfall traps de-
scribe by Patterson (1989). Traps were kept
on the floor under bead, pantry, cupboards,
storage racks and bench for two or three con-
secutive nights. Each trapped cockroaches
was placed in a sterile test tube and was sub-
sequently taken to the laboratory. Trapped
Cockroaches were frozen at 0 °C for 5min,
and then species of cockroaches were iden-
tified under an Olympus SZX12 Dissecting
Stereo Microscope according to Harwood
and James (Harwood et al. 1979).

Bacterial isolation, identification and enu-
meration of enterobacteriaceae from ex-
ternal surfaces

Two milliliters of sterile normal saline (0.9 %)
were added to test tube containing one cock-

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roach, and the tube was thoroughly shaken for 2
minute to isolate micro-organisms from the ex-
ternal surface. Aliquots (0.01ml) of the washed
were then separately inoculated onto the blood
agar and MacConkey agar plates and incu-
bated overnight at 37 ºC. Bacterial colonies of
were identified by morphological appearance,
macroscopic examination, gram staining, and
biochemical tests according to national stand-
ard method describe by Health Protection
Agency (Health Protection Agency 2007,
2010). The overall load of bacteria carried by
each insect was counted and expressed as num-
ber and also as a colony forming unit (CFU).

Antibiotic susceptibility tests
The antibiotic susceptibility of Ps. aeruginosa,

Kl. pneumoniae, Es. coli, Proteus mirabilis,
Citrobacter freundii, Enterobacter aerogenes
species to 12 important antibiotics were test-
ed by the Kirby-Bauer disk diffusion method
according to the recommendations of the
Clinical Laboratory Standards institute (CLSI
2010). These antibiotics (Becton Dickinson,
Cockeysville, MD, USA) included ampicillin
(10g/ disk), gentamicin (10g/ disk), ciproflox-
acin (5g/ disk), ofloxacin (5g/ disk), chloram-
phenicol (30g/ disk), tetracycline (30g/ disk),
sulfamethoxazole/ trimethoprim (25g/ disk),
cephalothin (30g/ disk), ceftazidime (30g/
disk), imipenem (10g/ disk), piperacillin
(100g/ disk), and cefoperazone (75g/ disk).

Statistical analysis
Data on the concentration of the Gram Neg-

ative bacteria was entered into Excel and
transformed into log10 Colony-Forming Units
(CFU) of both Cockroach species. Rates were
compared using the chi square test. P< 0.05
was considered to be statistically significant.

Results

Cockroach infestation
Among the 44 households studied, 28(54%)

had cockroaches infestation: 16(57%) with Pe.

americana, 5(18%) with Bl. germanica, and 7
(25%) with both species. Totally 79 adult cock-
roaches were collected from households (Fig.
1): 52 Pe. americana, 27 with Bl. germanica.
In households, most of the Pe. americana
were collected from (66.7%) kitchen, also
16.4% in bed room, 9.8% in dining room
and less than 3% in toilet and living room.
As well as the higher rate of Bl. germanica
was found in the storage room (41.3%),
sleeping room (25.1%) and kitchen (22.6%).
The occurrence of Bl. germanica in dining
room and living room was 4.3 and 6.7%,
respectively.

A total 52 food- handling establishments
studied, 40(77%) had cockroaches infesta-
tion (Fig. 2): 21(53%) with Pe. americana,
8(20%) with Bl. germanica, and 11(28%)
with both species. Totally 124 adult cock-
roaches were collected from food-handling
establishments: 52 Pe. americana, 46 with Bl.
germanica. In the higher rate of Pe. ameri-
cana were collected from bakeries (36.3%)
and grocery stores (42.5%). The collection rate
of Pe. americana obtained in food storage
stores, restaurants and small food processing
plants were 12.7, 2.3 and 6.2%, respectively.
Bl. germanica was highly founded in the
food storage stores (28.3%), small food pro-
cessing plants (18.1%), restaurants (7.6%), also
bakeries (16.3%) and grocery stores (29.7%).

Bacterial isolation
Among the 203 cockroaches consisting of

Pe.  americana and Blattela germanica col-
lected from the households and Food-han-
dling establishments, eight different patho-
genic species of gram-negative belonging to
glucose non-fermenting Gram-negative rods
and enterobacteriaceae were identified from
the cuticles and gust of the cockroaches ana-
lyzed (Table 1). Moreover, 197 (97.04%) cock-
roaches of Pe. americana and Blattela ger-
manica were found to carry one or more
species of bacteria on the external surface.
There was no significant different between

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the overall bacteria load of the external sur-
face in Pe. americana (64.04%) and Bl. ger-
manica (35.96%), (P> 0.05).

The bacterial species were most frequently
in food-handling establishments, however few
bacterial species were identified from sam-
ples in households. Among these bacterial
pathogens, four bacterial species appeared
frequently, isolated in highest numbers from
cockroaches trapped around the food-han-
dling establishments, as compared with the
households (Table 1). These bacteria were
Klebsiella pneumoniae, Escherichia coli, and
Enterobacter cloacae, which are potential
pathogens. Although there was no significant
different between the overall bacteria load of
the external surface in cockroaches found in
the food-handling establishments (60.08%)
and households (39.92%), (P> 0.05) (Table 1).

Antibiotic Resistance
The results of the antibiotic sensitivity tests

showed that, among the 6 gram-negative
pathogenic bacteria species studied, had re-
sistance to 8 of 12 antibiotics (66.66%) were
tested (Table 2). Including Ps. aeruginosa
and Proteus mirabilis had resistance to 7 of
12 antibiotics tested, Kl. pneumoniae and
Enterobacter aerogenes to 4 and extended-
spectrum beta lactamase (ESBL), Escherichia
coli to 7 and Citrobacter freundii to 6 (Table 2).
However, Kl. pneumoniae and Ps. aeruginosa
were the most prevalent, drug-resistant strains
were isolated from the cockroaches with 100%
resistance to sulfamethoxazole/trimethoprim
and ampicillin. For individual strains of bac-
teria, Es. coli was found to have multi-re-
sistance to four antibiotic tested, Citrobacter
freundii four, Enterobacter aerogenes and
Proteus mirabilis to three (Table 2). An over-
all sensitivity to imipenem, cefoperazone,
ciprofloxacin and ofloxacin also was ob-
served.

Table 1. Gram-negative bacteria isolated from Periplaneta americana (n= 130) and Blatella germanica (n= 73)
collected in Households and Food-handling establishments

Bacteria

Cockroaches
Periplaneta americana Blatella germanica

Households (n= 52)
Food-handling estab-

lishments (n= 78)
Households (n= 27)

Food-handling
establishments

(n= 46)

No* % Mean Load* No* %
Mean
Load*

No* % Mean Load* No* %
Mean
Load*

Klebsiella pneumoniae 7.0 13.5 4.2 x 107 17.0 21.8 3.9 x108 7.0 25.9 4.1 x107 11.0 23.9 3.7 x108

Escherichia coli 9.0 17.3 3.5 x 106 14.0 17.9 4.0 x107 5.0 18.5 3.9 x106 8.0 17.4 4.1 x106

Enterobacter aerogenes 7.0 13.5 3.2 x 105 5.0 6.4 3.1 x104 3.0 11.1 3.9 x106 6.0 13.0 3.9 x106

Enterobacter cloacae 5.0 9.6 3.6 x104 11.0 14.1 3.5 x106 2.0 7.4 3.0 x105 5.0 10.9 3.4 x106

Salmonella spp 6.0 11.5 3.4 x 106 5.0 6.4 3.3 x105 4.0 14.8 3.8 x105 5.0 10.9 4.1 x105

Citrobacter freundii 5.0 9.6 4.0 x 104 9.0 11.5 4.3 x105 3.0 11.1 3.9 x105 4.0 8.7 4.2 x104

Proteus mirabilis 6.0 11.5 3.1 x 104 7.0 9.0 3.4 x105 2.0 7.4 3.1 x104 3.0 6.5 3.6 x 105

Pseudomonas aeruginosa 7.0 13.5 4.3 x 106 10.0 12.8 4.0 x108 1.0 3.7 4.1 x106 4.0 8.7 3.8 x 105

Total 52.0 100.0 78.0 100.0 27.0 100.0 46.0 100.0

*One insect may simultaneously harbour more than one species of bacteria.
*Mean Concentration of Gram Negative Bacteria (CFU)

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Fig. 1. Distribution (%) of the cockroaches infestation at households

Fig. 2. Distribution (%) of the cockroaches infestation at food- handling establishments

Table 2. Antimicrobial resistance of gram-negative bacteria isolated from cockroaches collected in households and
food-handling establishments

Gram-negative bacteria
Antimicrobial resistance (%)

AMP PIP CP CRP TE SXT CAZ CFP IMP GM CIP OFX

Pseudomonas aeruginosa (n=22) 100 0 60.1 50 51.6 100 0 0 0 28.6 0 0

Klebsiella pneumonia (n=42) 100 0 0 0 52.3 95.4 0 0 0 24.5 0 0
Escherichia coli (n=36) 58.4 13.7 53.4 10.3 82.1 22.3 8.6 0 0 0 0 0
Citrobacter freundii (n=21) 46.7 7.3 0 6.3 24.1 23.4 15.3 0 0 5.6 0 0
Enterobacter aerogenes (n=21) 78.6 0 0 0 50.1 91.3 0 0 0 17.5 0 0
Proteus mirabilis (n=18) 66.3 21.3 20.1 12.4 27.4 37.8 0 0 0 7.3 0 0

Abbreviations: AMP: ampicillin, PIP: piperacillin, CP: cephalothin, CRP: chloramphenicol,
TE: tetracycline, SXT: sulfamethoxazole/ trimethoprim, CFP: cefoperazone, CAZ: ceftazidime,
IMP: imipenem, GM: gentamicin, CIP: ciprofloxacin, OFX: ofloxacin.

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Discussion

Cockroaches are among the most notorious
pests, having nocturnal and filthy habits, which
do not only contaminate food by indiscrimi-
nate deposition of faecal materials and cause
food poisoning but also transmit bacteria and
other pathogenic microorganisms in infested
areas (Kopanic 1994, Czajka et al. 2003, Wil-
liam J et al. 2007). These are of major con-
cern for human health due to their capacity
to act as a potential mechanical vector for
transmitting more than 50 disease causing mi-
croorganisms (Cloarec et al. 1992, Rivault et
al. 1993a, William J et al. 2007). In this study,
there were 8 species of human pathogenic
gram-negative bacteria isolated from the ex-
ternal bodies of two species of cockroaches
(Pe. americana and Bl. germanica) from the
domestic area in Varanasi city.

The bacterial species most frequently identi-
fied from cockroaches are gram-negative ba-
cilli, especially in the family enterobacteriaceae
(Fotedar et al. 1991, Cloarec et al. 1992,
Rivault et al. 1993). In agreement with those
studies, we also collected seven different
species of bacteria belonging to family
enterobacteriaceae, Kl. pneumoniae, Es. coli,
En. aerogenes, En. cloacae, Salmonella spp.,
Citrobacter freundii, and Proteus mirabilis,
carried by the cockroaches from households
and food-handling establishments. These spe-
cies can cause urinary tract and wound infec-
tions, typhoid, diarrhoea, pneumonia, gastro-
enteritis and respiratory infections, among
others diseases in humans (Graczyk et al.
2005, Williams et al. 2010).

However, we found that makeup of the mi-
crobial population of the Pe. americana was
considerably higher than the Bl. germanica,
but there was no significant different be-
tween the overall bacteria load on the exter-
nal surface in these two species of cock-
roaches. It may depend with their size and as
well as the sanitation condition of domestic
environment (William et al. 2007). However

the predominant bacteria on cockroaches were
Kl. pneumonia, Es. coli, En. aerogenes, and
Ps. aeruginosa, as same with other numerous
investigations (Rivault et al. 1993a, Mpuchane
2005, Pai et al. 2005). These results coincide
with those found by Pai et al. (2005), there
were no relative differences between the spe-
cies of bacterial strains found in Pe. ameri-
cana and Bl. germanica. It was assumed that,
cockroaches were mechanically transmitting
pathogens obtained in the environment and
were capable of traveling while harboring
these bacteria.

Cockroaches are associated with an outbreak
of food-poisoning, gastro-enteritis and dys-
entery (Mackerras and Mackerras 1949, Rueger
and Olson 1969, Burgess and Chetwyn 1981,
S Mpuchane 2005). In urban area of Vara-
nasi, we found that distribution of these bac-
teria among the households and food-han-
dling establishments was no significantly dif-
ferent. However, most of the Pe. americana
collected from kitchen, bakeries and grocery
stores, where as higher rate of Bl. germanica
founded in the storage room, small food proc-
essing plants and restaurants. These results
are in conformance with those found by
Mpuchane et al. (2005). Cockroaches, espe-
cially species that come in contact with faeces
like German cockroaches may transmit bacteria
responsible for food poisoning (Cochran 1982,
Rivault et al. 1993b). They are attraction to
human and animal faeces, rotting food, se-
cretions from corpses, sputum, pus, and the
like gives them a well-earned disgust factor
among the general public (Rivault et al. 1993b,
S Mpuchane et al. 2005, William et al. 2007,
Sudershan et al. 2009). These finding sug-
gest the, these bacteria species are uniformly
distributed among the both places and espe-
cially this two cockroaches species are im-
portance of transmitting food-borne diseases.

Cockroaches may act as reservoirs for anti-
biotic resistant virulent bacteria found on do-

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mestic environment, which may cause seri-
ous health problems for Human beings (Pai
et al. 2005, Ahmad 2011). Similar with this,
in our study 6 gram-negative bacteria strains,
obtained from the households and food-han-
dling establishment environments, showed re-
sistant to antibiotics, ampicillin, tetracycline
and sulfamethoxazole/ trimethoprim.

Although, we have found that lower activ-
ity of ampicillin and tetracycline against
these bacterial strains, Kl. pneumoniae, Ps.
aeruginosa and Es. coli, may essentially due
to the natural resistance of the bacterial spe-
cies (Navarro Risueño et al. 2002). More-
over, the antibiotic resistant strain of Kl.
pneumoniae bacteria that cause pneumonia
has been found in patients and cockroaches
in a New Delhi hospital (Fotedar 1991). Also,
the less ssusceptibility of Es. coli and Citro-
bacter freundii against ceftazidime was may
due to the extended-spectrum b-lactamases
enzyme activity (Emery et al. 1997). But the
result of the test was not agreement with Pai
HH (2005).

However, the bacteria isolated from the cock-
roaches were relatively resistant to gentami-
cin. The results of were not in agreement with
Pai et al. (2005), but it coherence with those
found by Marinésia (2006). Also recently we
have found that Ps. aeruginosa isolated from
wound infection patients at different ward of
Sri Sundaralala Hospital, in a Banaras Hindu
University, showed resistant to all commonly
use antibiotics (Anupurba S 2006, Basu S
2009). This low susceptibility is attributable to
a concerted action of multidrug efflux pumps
with chromosomally-encoded antibiotic resis-
tance genes, inadequate use of antibiotics
and the low permeability of the bacterial
cellular envelopes (Poole 2004, Basu 2009).

We observed that activity of imipenem and
ciprofloxacin against Gram-negative bacteria,
showed 100% sensitivity. The results are in ac-
cordance to those found by Pai et al. (2005).

Based on our study, cockroaches are uni-
formly distributed among the places of house-

holds and food-handling establishments in Va-
ranasi area. We also determined that both spe-
cies of Pe. americana and Bl. germanica, have
equal potential to carry the pathogenic bacte-
ria as a vector in their external surface. More-
over, bacteria species were studied showed
relative resistance to antibiotic tested in our
study. It may possible threat for human health.

Conclusion

Most of the domestic area in Varanasi City,
especially food-handling establishments and
human dwellings, are highly polluted with
domestic pollutants, which play a key role for
the transmission of a wide range of patho-
genic bacteria and also provide ideal condi-
tions for the breeding and multiplication of
cockroach.

Acknowledgements

This research was supported in part by a
summer research project grant (FSS/2010-
2011/3625) from Vice Chancellor Research
found, Banaras Hindu University, Varanasi,
India. We are grateful to all who facilitated
our field work; Special appreciation is also
given to Dr Tanittha Chatsuwan, Faculty of
Medicine Chulalongkorn University, for her
special guidance in bacterial identification.
Also special thank is given to Coordinator
industrial Microbiology, Centre of Advanced
Study in Botany, Faculty of science, Banaras
Hindu University, for enamors support in
various issues. The authors declare that there
is no conflict of interest.

References

Allotey J, Mpuchane S, Gashe BA, Simpanya
M, Matsheka I (2009) Trapping of Blat-
tella germanica (L) populations in human
dwellings in Gaborone, Botswana.  J
Appl Zoo Res. 20(2): 175–188.

http://jad.tums.ac.ir
Published Online: December 18, 2013



J Arthropod-Borne Dis, June 2014, 8(1): 10–20 DL Wannigama et al.: Prevalence and …

18

Anupurba S, Bhattacharjee A, Garg A, Sen
MR (2006) Antimicrobial susceptibility
of Pseudomonas aeruginosa isolated
from wound infections. Indian J Der-
matol. 51: 286–288.

Aqeel Ahmad, Anuradha Ghosh, Coby Schal,
Ludek Zurek (2011) Insects in con-
fined swine operations carry a large
antibiotic resistant and potentially vir-
ulent enterococcal community. BMC
Microbiology. 11:23doi:10.1186/1471-
2180-11-23.

Basu S, Ramchuran Panray T, Bali Singh T,
Gulati AK, Shukla VK (2009) A pro-
spective, descriptive study to identify
the microbiological profile of chronic
wounds in outpatients. Ostomy Wound
Manage Jan. 55(1): 14–20.

Bradford PA (2001) Extended spectrum lac-
tamases in the 21st century: characteri-
zation, epidemiology, and detection of
this important resistance threat. Clin
Microbial Rev. 48: 933–951.

Burgess NRH, Chetwyn KN (1981) Associ-
ation of cockroaches with an outbreak
of dysentery. Trans R Soc Trop Med
Hyg. 75: 332–333.

Census of India (2006) (Provisional). "Slum
Population in Million Plus Cities (Mu-
nicipal Corporations): Part A". Office of
the Registrar General, India. 22 Janu-
ary 2002. Retrieved 18 August 2006.

Census of India (2006) (Provisional). "Popu-
lation, Population in the age group 0–6
and literates by sex– Urban Agglom-
eration/Town: 2001". Office of the Reg-
istrar General, India, pp. 53–54. Re-
trieved 17 August 2006.

Census of India (2006) (Provisional). "Urban
Agglomerations/Cities having popula-
tion of more than one million in 2001".
Office of the Registrar General, India.
25 July 2001. Retrieved 18 August 2006.

Chaichanawongsaroj N, Vanichayatanarak K,
Pipatkullachat T, Polrojpanya M, Som-
kiatcharoen S (2004) Isolation of gram-

negative bacteria from cockroaches
trapped from urban environment. South-
east Asian J Trop Med Public Health.
35(3): 681–684.

Clinical Laboratory Standards (CCLS) (2010)
Performance Standards for Antimicro-
bial Disk Susceptibility Tests, Approved
Standard, tenth ed. NCCLS,Villanova,
PA.

Cloarec A, Rivault G, Fontaine F, LeGuyader
A (1992) Cockroaches as carriers of
bacteria in multifamily dwellings. Epi-
demiology of Infection. 109.

Cochran DG (1982) Cockroaches-biology and
control. WHO, Vector Biology and Con-
trol Geneva, Switzerland, Series. 82.856.

Cotton MF, Wasserman E, Pieper CH, Theron
DC, van Tubbergh D, Campbell G, Fang
FC, Barnes AJ (2000) Invasive disease
due to extended spectrum beta-lac-
tamaseproducing Klebsiella pneumoniae
in a neonatal unit: the possible role of
cockroaches. J Hosp Infect. 44: 13–17.

Cruden DL, Markovetz AJ (1987) Microbial
ecology of the cockroach gut. Ann Rev
Microbial. 41: 617–643.

Czajka E, Pancer K, Kochman M,
Gliniewicz A, Sawicka B, Rabczenko
D, Stypulkowska MH, (2003) Charac-
teristics of bacteria isolated from body
surface of German cockroaches caught
in hospitals. Przegl Epidemiol. 57:
655–662.

Czech University of Agriculture, Prague,
Czech Republic (Edited by Wm H
Robinson, F Rettich and GW Rambo).

Emery CL, Weymouth LA (1997) Detection
and clinical significance of extended
spectrum β-lactamases in a tertiary-
care medical center. J Clin Microbiol.
35(8): 2061–2067.

Fotedar R, Banerjee U, Samantary JC,
Shriniwas (1992) Vector potential of
hospital houseflies with special refer-
ence to Klebsiella species. Epidemiol
Infect. 109: 143–147.

http://jad.tums.ac.ir
Published Online: December 18, 2013



J Arthropod-Borne Dis, June 2014, 8(1): 10–20 DL Wannigama et al.: Prevalence and …

19

Fotedar R, Shriniwas UB, Banerjee U,
Samantray JC, Nayar E, Verma A
(1991a) Nosocomial infections: cock-
roaches as possible vectors of drug-re-
sistant Klebsiella. J Hosp Infect. 18:
155–159.

Fotedar R, Shriniwas, Banerjee U, Saman-
tray JC, Nayar E, Verma A (1991b)
Nosocomial infections: cockroaches as
possible vectors of drug-resistant Kleb-
siella. J Hosp Infect. 18(2): 155–159.

Fotedar R, Bannerjee U (1992) Nosocomial
fungal infections: study of the possible
role of cockroaches (Blattella germanica)
as vectors. Acta Trop. 50(40): 339–343.

Graczyk TK, Knight R, Gilman RH, Cran-
field MR (2001) The role of non-biting
flies in the epidemiology of human in-
fectious diseases. Microb Infect. 3:
231–235.

Graczyk TK, Knight R, Tamang L (2005) Me-
chanical transmission of human proto-
zoan parasites by insects. Clin Micro-
biol Rev.18: 128–132.

Gratz NG (1999) Urbanization, arthropod
and rodent pests and human health, In
Proceedings of the 3rd International
Conference on Urban Pests, pp. 51–58.

Harwood RF, James MT (1979) Entomology
in Human and Animal Health, seventh
ed. Macmillan Publishing, New York,
NY.

Health Protection Agency (2007) Identifica-
tion of glucose non-fermenting Gram-
negative rods National Standard Meth-
od BSOP ID 17 Issue 2.

Health Protection Agency (2010) Identifica-
tion of Enterobacteriaceae. National
Standard Method BSOP ID 16 Issue 3.

Indian Meteorology Department (2010) Sea-
sonal Weather Averages, Retrieved.
Seasonal Weather Averages data from
Indian Meteorology Department.

Kopanic RJ (1994) Cockroaches as vectors
of Salmonella: laboratory and field tri-
als. J Food Prot. 57: 125–132.

Le Guyader A, Rivault C, Chaperon J (1989)
Microbial organisms carried by brown-
banded cockroaches in relation to their
spatial distribution in a hospital. Epi-
demiol Infect. 102: 485–492.

Mackerras IM, Mackerras MJ (1949) An epi-
demic of infantile gastroenteritis caused
by Salmonella bovis morbificans. J Hyg.
47: 166–181.

Marinésia Aparecida Prado, Milca Severino
Pereira, Cleomenes Reis Ribeirão Preto
(2006) Profile of Antimicrobial Resis-
tance of Bacteria Isolated from Cock-
roaches (Periplaneta americana) in a
Brazilian Health Care Institution. Braz
J Infect Dis. 10(1): 26–32.

Mpuchane S, Allotey J, Gashe BA, Matsheka
MI, Coetzee A, Jordaan A, Oteng M
(2005) Association between German
cockroaches (Blattella germanica) and
street food vending: Implications for
food safety in Botswana, In Proceed-
ings of the 5th International Confer-
ence on Insect Pests in Urban Environ-
ment, Suntech, Singapore (Edited by
Lee Chang and WH Robinson), pp.
123–130.

Navarro Risueño F, Miró Cardona E, Mirelis
Otero B (2002) Interpretive reading of
the antibiogram of enterobacteria.
Enferm Infecc Microbiol Clin. 20:
225–234.

Oothuman P, Jeffery J, Aziz AH, Abu Bakar
E, Jegathesan M (1989) Bacterial patho-
gens isolated from cockroaches trapped
from paediatric wards in peninsular
Malaysia. Trans R Soc Trop Med Hyg.
83: 133–135.

Pai HH, Chen WC, Peng CF (2005) Isolation
of bacteria with antibiotic resistance
from household cockroaches (Pe. amer-
icana and Blattella germanica). Acta
Trop. 93: 259–265.

Pai HH, Ko YC, Chen ER (2003) Cock-
roaches (Periplaneta americana and
Blattella germanica) as potential me-

http://jad.tums.ac.ir
Published Online: December 18, 2013



J Arthropod-Borne Dis, June 2014, 8(1): 10–20 DL Wannigama et al.: Prevalence and …

20

chanical disseminators of Entamoeba
histolytica. Acta Trop. 87: 355–359.

Paterson DL, Hujer KM, Hujer AM, Yeiser
B, Bonomo MD, Rice LB, Bonomo RA
(2003) Extended-spectrum b-lactamases
in Klebsiella pneumoniae bloodstream
isolates from seven countries: domi-
nance and widespread prevalence of
SHV- and CTX-M-type b-lactamases.
Antimicrob Agents Chemother. 47(11):
3554–3560.

Paul S, Khan AM, Baqui MA, Muhibullah
M (1992) Evaluation of the common
cockroach Periplaneta americana (L)
as carrier of medically important bac-
teria. J Commun Dis. 24: 206–210.

Poole K (2004) Efflux-mediated multi-
resistance in Gram-negative bacteria.
Clin Microbiol Infect. 10(1): 12–26.

Prado MA, Pimenta FC, Hayashid M, Souza
PR, Pereira MS, Gir E (2002) Entero-
bacteria isolated from cockroaches (Pe-
riplaneta americana) captured in a Bra-
zilian hospital. Pan Am J Public Health.
11(2): 93–98.

Sudershan Rv, Pratima Rao, Kalpagam
Polasa (2009) Food safety research in
India: a review. As J Food ag-ind.
2(03): 412–433.

Rivault G, Cloarec A, Le Guyader A (1993a)
Bacterial load of cockroaches in rela-
tion to urban environment. Epidemiol
Infect. 110: 317–325.

Rivault G, Cloarec A, Le Guyader A (1993b)
Bacterial contamination of food by
cockroaches. J Environ Health. 55:
21–22.

Rueger ME, Olson TA (1969) Cockroaches
(Blattaria) as vectors of food poisoning

and food infection organisms. J Med
Entomol. 6: 185–189.

Saitou K, Furuhata K, Kawakami Y, Fuku-
yama M (2009) Isolation of Pseudo-
monas aeruginosa from cockroaches
Captured in hospitals in Japan, and
their antibiotic susceptibility. Biocontrol
Sci Dec. 14(4): 155–159.

Status of landfill sites in 59 cities (2009)
Management of municipal solid wastes.
Planning Division, Central Pollution
Control Board. Archived from the
original on 17 July 2006. Retrieved 18
August 2009.

Stek M (1982) Cockroaches and enteric
pathogens. Trans R Soc Trop Med
Hyg. 76(4): 566–567.

Vythilingam I, Jeffery J, Oothuman P, Abdul
Razak A, Sulaimman A (1997) Cock-
roaches from urban human dwellings:
Isolation of bacterial pathogens and
control. Southeast Asian J Trop Med
Public Health. 28: 218–222.

Waste Generation and Composition (2009)
Management of municipal solid wastes.
Planning Division, Central Pollution
Control Board. Archived from the
original on 17 July 2006. Retrieved 18
August 2009.

Bell WJ, Roth LM, Nalepa CA (2007) Cock-
roaches: ecology, behaviour, and natu-
ral history, Microbes: Unseen influence:
76–88.

Williams KP, Gillespie JJ, Sobral BWS,
Nordberg EK, Snyder EE, Shallom
JM, Dickerman AW (2010) "Phylog-
eny of Gammaproteobacteria". J Bac-
teriol. 192(9): 2305–2314.

http://jad.tums.ac.ir
Published Online: December 18, 2013