Isolation and Identification of Multi-Drug Resistant Strains of Non-Lactose Fermenting Bacteria from Clinical Refuses in Major Hospitals of Khyber Pakhtunkhwa, Pakistan ()
1. Introduction
To develop anti-biotic resistance is quite natural and common in microbes. It is a natural process, which cannot be ceased and checked due to constantly evolving nature of microbes to the chemicals around them. The phenomenon is very important regarding its practical and economic implications. It is the same anti-biotic resistance issue that people cannot be effectively treated and have to stay ill for longer periods of time. The development of tolerance in microbes to more than one drug is commonly coined as multi drug resistance as per definition criteria (MDR) [1] . Among different bacteria, non-fermenters are gram-negative bacteria that cannot ferment sugars to produced energy for their physiology of life. Such Gram negative non-fermenting bacteria (NFGNB) were isolated from different clinical specimens, which are usually discarded at hospital and clinical levels [2] . Because of the extreme multidrug resistance problems, species of this group offer serious challenges for healthcare management. As mostly, non-fermenting (gram-negative) bacteria are of niche pathogens that readily cause serious and considerable infections in unhealthy individuals. Contrarily, on the other side, they are primarily healthcare-associated pathogens so they rarely cause infection in healthy persons [3] .
There are many reasons which indicate that why bacterial resistance should be an important concern for physicians. Bacterial resistance often results in treatment failure, which can pose considerable economic costs, especially in critically ill patients. For the management and treatment of infections in hospitalized patients, multidrug resistant bacteria required new approaches [4] . The major problem at clinic levels is emergence of multiple resistances. That is why the physician must know that the sensitivity level of pathogen before treatment could be started [5] . Antimicrobial resistance has become a major health problem worldwide, affecting every country to some degree. Because of the significant problem of increasing antimicrobial resistance, the global scientific community has tried to find new solutions; one of the most important ones is the evaluation and use of old antibiotic compounds. This study will help physicians, clinicians and consultants to decide its use in the most appropriate clinical infections. Microbial drug resistance is an unavoidable outcome of the use of antimicrobial agents [6] . The present study identified the various non-fermenters by staining techniques. The non-fermenting bacteria were isolated from various clinical specimens from patients admitted at Services Hospital Peshawar. The study was conducted, to check out their clinical importance, patterns of susceptibility of anti-microbes and to recognize the different health care related infections they cause [2] .
Drug resistance also leads to prolonged epidemics, and consequently there is a greater risk of infection to others. Self-medication and improper unauthorized use of antibiotics can also lead to drug resistance. Drug resistance is a serious issue in Pakistan. Pakistan is a developing country and because of drug resistance, an enough chunk of revenue is annually allocated for the import of new drugs which could be alternatively used on other developmental programs as well. Patients are put on new drugs, and stay for a longer period in hospital. Thus more resources and time are consumed due to the problem of drug resistance in pathogenic microbes.
2. Materials and Methods
2.1. Sample Collection
A total 350 clinical samples were included in this study. Samples were collected from patients’ diagnosed by physicians, at their visit to different major hospitals at Peshawar. Sampling was made from 1st March to end of October 2012, for a period of 6 months. Clinical isolates were collected from pus/wound, urine, ascetic/plural fluids and blood.
2.2. Isolation of Clinical Specimens
The clinical samples isolation of were carried out according to the protocol [7] . The collected samples from pus/ wound, blood, urine and ascetic/plural fluids were spread on blood, MacConkey and Eosine Methyline Blue (EMB) agar plates and incubated at 37˚C for 24 - 48 hours.
2.3. Gram Staining
Gram staining was carried out as early described [8] to identify the NFGNB bacteria.
2.4. Antibiotic Sensitivity Test
The Kirby-Bauer Disc Diffusion Method was used to test the in vitro susceptibility of the identified isolates to Ceftazidime (30 µg), Cefoperazone (75 µg), Ceftriaxone (30 µg), Cefepime (30 µg), Imipenem (10 µg). Pseudomonas aeroginosa colonies were picked up from the culture plate with the help of a sterile platinum wire loop and emulsified in 4 ml of sterile peptone water to match with 0.5 McFarland turbidity standards (1.5 × 108 cfu/ml). The surface of Mueller Hinton Agar (Oxoid, Basingstoke, UK) in a Petri dish was inoculated evenly through a sterile swab and for 10 minutes was allowed the agar to dry. A multichannel disc dispenser (Oxoid, Basingstoke, UK) was used to deposit the antibiotics discs onto the surface of the inoculated medium. The plate was then incubated at 37˚C for 24 hours. With measuring scale the diameters of zone of inhibition were measured in millimeters after 24 hours of period of incubation [9] . The above procedure was repeated thrice for each P. mirabillis, M. morganii and for S. typhi isolates.
3. Results
A total of 324 drug resistant bacteria were isolated from 350 clinical samples processed at Microbiology Laboratory of Services Hospital Lahore. The identification of bacterial strains was then identified on the basis of morphological cultural, and biochemical analysis (Table 1). The occurrence of isolates was lower in males (47%, n = 324) as compared to females (53%, n = 324) while highest frequency of MDR-NFGNB was observed among young patients of age from 11 - 30 years 54.6%). As there were 171 cases out of 324 total study sample. As compared to rest of the age groups, the frequency of MDR-NFGNB was 23.1% in age group of 31 - 60 years age. Similarly it was 22.2% in case of age group from 61 - 74 years. The distribution of clinical isolates among different age group is showed in Table1 Overall infection rate was higher in young individuals (11 - 30 years) but P. aeroginosa infection was higher in old age (61 - 74), shown in Table1
The Distribution of MDR-NFGNB P. mirabilis, M. morganii, P. aeroginosa, and S. typhi in different clinical specimens (blood, pus/wound, urine, ascetic/pleural fluids) are shown in Table2 The results were presented on simple cylindrical bar graph in Figure 1. It was observed that Pseudomonas aeriginosa was found to be 77.00%, 62.90% resistant against Aztreonam and Gentamicin respectively. The resistance found in P. aeroginosa against other antibiotics included Ciprofloxacin (40.70%); Amikacin (18.50%); Tazocin (03.70%) as shown in Table3
MDR-Patteren in P. mirabilis was of a higher degree of resistance to Gentamicin (66.60%) was detected in P. mirabilis isolates. The frequency of resistance against was Aztreonam (62.90%); Amikacin (55.50%); Ciprofloxacin (40.03%); Tazocin (22.20%) (Table 3). As Tazocin showed lower resistance to P. mirabilis.
MDR-Patteren in Salmonella typhi isolates exhibited high resistance against Amikacin (62.90%). Resistance to other antibiotics included Aztreonam (48.10%); Tazocin (40.70%); Ciprofloxacin (37.03%); Gentamicin (29.60%) and thus a lower resistance to Cefepime were observed (Table 3). For the sake of convenience, results in Table 3 were presented on simple horizontal bar graph in Figure 2.
4. Discussion
Multi-drug resistance in bacteria is of very much concern to clinicians as of development of resistance to multi drugs in microorganisms [10] . In microorganisms, antibiotic resistant pathogens causes financial burden, in
Figure 1. MRD-Bacteria percent isolated samples from different parts of Patients’ bodies.
Figure 2. Antibiotics percent resistance in Multi Drug Resistant Bacteria from isolated samples.
creases chances of treatment failure and readily spread from person to other person/patients [11] . In the last fifty years, due to the widespread use of antibiotics, non-fermentative gram negative bacilli have emerged important health care-associated pathogens. Recently studies were conducted on important areas like identification of nonfermentative gram negative bacilli and monitoring their susceptibility patterns for the appropriate management of its infections. Further to make clear the fact that it is important to establish the clinical relevance of the isolated non fermentative gram negative bacilli, before they are considered as pathogens. This would prevent unnecessary usage of antibiotics and the rise of drug-resistant strains [12] . A very limited data on the prevalence and resistance pattern of NFGNB is available especially in the sampling area. The present study was aimed to highlight the issues.
MDR-NFGNB was isolated from suspected patients of different age groups (11 - 74). The highest number of MDR-NFGNB was isolated from age group of 11 - 30 years, followed by age group of 31 - 60 and 61 - 74 years. People were susceptible to infection at the early and middle age (11 - 30 years) because at this age the people are more active, have more social contacts, so will have more chances of infection. Chances of infection depend on number of exposure to the injurious microbes. With increasing age the social contact of an individual decreases so have less chances of developing infectin.
In the present study, Gender wise distribution of MDR-NFGNB was isolated both from males and females and highest numbers were recorded in females. This could be due to the social activity of females in their life in developing countries like Pakistan. Where females are much ignored as compared to male so their food cleanliness is not good as males, as a result their immune system is weak. Furthermore, females give birth child’s so admitted frequently to hospitals and thus has more chances of infection.
Different non-lactose fermenting bacteria P. aeroginosa, M. morganii, P. mirabillis and S. typhi were isolated and identified from blood, pus/wound, urine and ascetic fluids. The present results were similar to the results
Table 1 . Distribution of MDR-bacteria in relation to gender and age wise in present study.
*n for numbers: % for percentage.
reported by other investigators [2] [13] [14] for P. aeroginosa, Anjum et al. [15] , Javeed et al. [16] , for M. morganii, further Singla et al. [17] and Lee et al. [18] . A higher frequency of P. mirabillis was observed in pus (48.2%) as compared that reported by Saito et al. [19] and Jombo et al. [20] . Previous study of (Nagshtly et al. [21] ; Hassan et al. [22] and unique in the sense as it identified S. typhi from urine, blood, pus/wound, ascetic and pleural fluids 29.60%, 37.03%, 25.90%, 7.40% respectively.
In-vitro MDR-Patteren in P. aeroginosa showed 74.00%, 74.00%, and 18.50% resistance against Aztreonam, Gentamicin and Tazocin respectively in the current study. These results are consistent with the findings of some earlier studies carried out by Satti et al. [23] , Rajat et al. [24] and Romao et al. [25] reported the same results in Morganella morganii in-vitro MDR-Patteren showed 3.7% against Tazocin. These findings are quite in line with the findings of Falagas et al. [26] and Xiao et al. [27] . Our findings are well supported by their work [26] [27] . The findings of Lee et al. [18] and Falagas et al. [26] reported 9% resistance against Aztreonam, 8% against Ciprofloxacin, 4% against Amikacin. Our work is not in line with their work. All such findings are beyond the range and quite against our findings. This difference may be due to geographical differences as antibiotic resistance differs from region to region and from time to time.
In our present investigations, the in-vitro MDR―P. mirabillis showed 22.20%, 55.50% and 66.60% resistance against Tazocin, Amikacin, Gentamicin which are in clear contradiction with the findings of Falagas et al. [26] , who reported 100%, 100% and 0.3% resistance for the same antibiotics. The present study in-vitro MDR-Patteren S. Typhis showed 29.60% resistance against Gentamicin, and 37.03% resistance against Ciprofloxacin. These results are in agreement with the work of Akinyemi et al. [28] who identified 30% resistance against
Table 2 . Clinical isolates of gram negative non-fermenters bacteria from different sites in hospitals.
*n for numbers: % for percentage.
Table 3. Antibiotic resistance percentage of gram negative non fermented bacteria (n = 81) isolated from different clinical samples.
Gentamicin. Islam et al. [29] recoded 30% resistance against Ciprofloxacin in S. typhi. Likely, Pokhare et al. [30] reported 43% resistance against Ciprofloxacin. Salmonella typhi resistance against Tazocin, Aztreonam and Amikacin has been recoded for first time in this region with figures, i.e. 40.70%, 48.10% and 62.90% respectively.
Acknowledgements
The authors acknowledge with gratitude the invaluable support and assistance provided by Professor Dr. Abdul Hamid Jan. We are also thankful to Microbiology laboratories and its technical staff for extending us lab facilities.
NOTES
*Corresponding author.