Tajehmiri A, Rahbar S, Oubari F.Probiotics for Control of Nosocomial Infections. Biomed. Pharmacol. J.;8(1)
Manuscript received on :
Manuscript accepted on :
Published online on: 07-11-2015
How to Cite    |   Publication History
Views Views: (Visited 405 times, 1 visits today)   Downloads PDF Downloads: 699

Ahmad Tajehmiri*1, Saeid Rahbar2, Farhad Oubari1

1Medical Biology Research Center, Kermanshah University of Medical Sciences, Kermanshah, Iran. 2Department of Microbiology, Faculty of Science, Lahijan Branch, Islamic Azad University, Lahijan, Iran.

DOI : https://dx.doi.org/10.13005/bpj/592

Abstract

Probiotics are usually defined as live microbial food ingredients beneficial to health which comprise of normal commensally bacteria as a part of the healthy human gut microflora. Different species of microorganisms such as lactic acid bacteria (Bifidobacteriumand Lactobacillusspp.) or yeasts have been proposed for human use.Nosocomial infections occur worldwide and affect both developed and poor countries.The most common organisms causing nosocomialinfection in neonates include Staphylococcus, Pseudomonas aeruginosa,Escherichiacoli,Klebsiella, and Candida.There is preliminary evidence that probiotic type microorganisms may control the growth of nosocomial pathogens.The aim of this review is to consider the current evidence on the effects of probiotics for control of nosocomial infections.

Keywords

Probiotics; nosocomial infections; safety; Infection control

Download this article as: 
Copy the following to cite this article:

Tajehmiri A, Rahbar S, Oubari F.Probiotics for Control of Nosocomial Infections. Biomed. Pharmacol. J.;8(1)

Copy the following to cite this URL:

Tajehmiri A, Rahbar S, Oubari F.Probiotics for Control of Nosocomial Infections. Biomed Pharmacol J 2015;8(1). Available from: http://biomedpharmajournal.org/?p=418

Introduction

Probiotics can be defined as nonpathogenic microorganisms that, when ingested, exert a positive influence on the health of the host. They consist of either yeast or bacteria, especially lactic acid bacteria. The most commonly used organisms in probiotic products belongs to Lactobacillus and Bifidobacterium spp., Other organisms have also been used including Bacillus spp., and yeast such as Saccharomyce boulardii (Darsanaki and Aliabadi, 2013). In Table 1 are listed some of the known probiotics available (Mombelli and Gismondo, 2000).

Table 1: Common Probiotics for Human Use

Lactobacillus species Bifidobacterium species Other bacteria Non-lactic acid producing bacteria
L. acidophilus B. lactis L. lactis S. cerevisiae
L. casei B. animalis E. faecium B. subtilis
L. crispatus B. bifidum E. faecalis S. boulardii
L. gasseri B. infantis P. acidilactici B. cereus
L. johnsonii B. adolescentis
L. reuteri
L. rhamnosus

 

Probiotics can produce inhibitory compounds such as lactic acid, bacteriocin, hydrogen peroxide, acetaldehyde anddiacetyl. These compounds are able to inhibit the growth of pathogenic microorganisms (Zapata, 2013). Probiotics could be used for several conditions such as Urinary Tract Infections, Irritable Bowel Syndrome, Immune Disorders, Lactose Intolerance, Hyper Cholesterolaemia, Inflammatory Bowel Disease,Cancer, Allergy andDiarrhea(Zerehpoosh and darsanaki, 2013). Nosocomial infections occur worldwide and affect both poor and developed countries. Infections acquired in health care settings are among the major causes of death and increased morbidity among hospitalized patients. They are a significant burden both for the patient and for public health (WHO, 2002). Over the past 50 years, the epidemiology of pathogens responsible for nosocomial infections in neonates has changed dramatically. During the 1950s, Staphylococcusaureus was the most common nosocomial pathogen in hospitalized infants. During the 1960s, gram-negative bacilli, including Pseudomonas aeruginosa, Klebsiella sp, and Escherichia coli, became the most common pathogens. By the 1970s, coagulasenegative staphylococci (CONS) (S. epidermidis) and S. aureus, including methicillinresistant S. aureus (MRSA), became the predominant causes of hospital-acquired infections in the neonatal intensive care unit. Today, gram-positive cocci continue to cause the largest proportion of infections, and many, including CONS,MRSA, and vancomycin-resistant enterococci(VRE), are multidrug-resistant. Gram-negative bacilli are responsible for 20% to 30% of cases of lateonset sepsis and 30% of nosocomial pneumonias (Table. 2) (Polin and Saiman, 2003).

Table 2: Common Nosocomial Infections

Common Pathogens Less Common Pathogens Site of Infection
Pseudomonas aeruginosa

Staphylococcus aureus

Candida sp.

Coagulase negative staphylococci

Enterococci

Klebsiella sp.

Serratia marcescens

Enterobacter sp.

Malassezia sp.

Bloodstream/sepsis
Gram-negative bacilli

Enterococci

Candida sp. Urinary tract
S. aureus

Coagulase negative staphylococci

Enterococci

S.marcescens

Aspergillus sp.

Skin/soft tissue/surgical site
S. aureus

P. aeruginosa

Coagulase negative staphylococci

Respiratory syncytial virus

Enterococci

Klebsiella sp.

S. marcescens

 

Pneumonia
S. aureus

Coagulase negative staphylococci

Candida sp. Endocarditis
Coagulase negative staphylococci

S. aureus

S.marcescens

Enterobacter sp.

Candida sp.

Central nervous system

 

There is preliminary evidence that probiotic type microorganisms may control the growth of nosocomial pathogens (Falagas and Makris, 2009).The aim of this review is to consider the current evidence on the effects of probiotics for control of nosocomial infections.

Control of Nosocomial Infections by Probiotics

Due to concerns regarding development of antibiotic resistance in hospitals, rising healthcare costs and lack of new antimicrobial classes being developed, probiotics have been considered a good prophylactic or therapeutic alternative in numerous conditions. Probiotics do not have the risk of antimicrobial resistance and offer practical benefits like low-cost preparation, long shelf life, and ease of administration (Oudhuis et al, 2011) .We identified 29studies involving in-vitro experiments on the potential role of probiotics in the inhibition of nosocomial pathogens (bacterial or fungal) (Table 3).

Table 3 : In-vitro Studies Regarding the Effect of Probioticsin the Inhibition of Nosocomial Pathogens

Probiotic used Isolated from Nosocomial pathogens Region Reference
L. plantarum,

L. delbruekii,

L. acidophilus,

L. brevis,

L. casei

Sausages S. aureus

 

Iran Nowroozi et al., 2004
Lactobacillus and Bifidobacterium spp.

 

Probiotic Milk S. aureus ATCC 25922

S. pneumoniae ATCC 41619

USA Rosario et al., 2005
L. casei

L. bulgaricus

Various Foods P.aeroginosa,

S. aureus

Klebsiella

Enterobacter

Turkey Erdourul and Erbulur, 2006
L. plantarum

L. casei subsp. Paracasei

L. casei

Standard P. aeruginosa

S. aureus

 

Romania Iordache etal., 2008
Lactobacillus spp. Yogurt

Cheese

S. aureus MRSA

P. aeruginosa

E. coli

Bulgaria Petrova etal.,2009
L. acidophilus

B. animalis

L. paracasei subsp. paracasei

Propionibacterium freudenreichii subsp.shermanii

Satandard S. aureus

E. coli

Australia Tharmaraj and shah, 2009
L.   acidophilus

B. bifidum

Probiotic Tablet S. aureus PTCC 1431

P. aeruginosa ATCC 27853

E. coli PTCC 1399

Iran Darsanaki et al., 2011
L. lactis

L. delbrecukii

Traditional Dairy Product S. aureus

E. coli

 

Sudan Salih et al., 2011
Lactobacillus, Streptococcus and Bifidobacterium spp. Yoghurt S. aureus, E. coli,

P. aeruginosa.

Iran Hami et al., 2011
L. bulgaricus Yoghurt E. coliATCC 10536

S. aureus ATCC 6538

 

Pakistan Maria etal, 2011
Lactobacillus spp. Traditional Dairy Products E.coli PTCC1399

 

 

Iran Jafari etal, 2011
Lactobacillus, Bifidobacterium, Lactococcus andStreptococcus Cabbage, Milk, Cheese

and

Human origin

E. coli

S. aureus

United Kingdom Tejero etal., 2012
L. Plantarum

L. casei

L. brevis

Fresh Vegetables S. aureus PTCC 1431

E. coli PTCC 1399

Iran Darsanaki et al., 2012
Lactobacillusand

Streptococcus spp.

Fermented Toddy Enterobacter

E.coli

Klebsiella sp.

S. aureus

India Krishnamoorthy and Arjun, 2012
L. acidophilus

L. casei

L. brevis

Traditional Yoghurt E. coli PTCC1399

S. aureus PTCC 1431

 

Iran Issazadeh1 et al., 2013
Lactobacillusand

Bifidobacterium

spp.

Cheeses

Yoghurt,

Milk

Kishk

S. aureus

E. coli

Egypt Ali etal., 2013
Lactobacillus,

Bifidobacterium and

Propionibacterium sp.

Sourdough, Vegetables, Yoghurt, Cheese

and

Human origin

E. coli ATCC 25922

E. coli ATCC 8739

S. aureus ATCC 25093

P. aeruginosa ATCC 9027

S. aureus ATCC 6538

Aspergillus

Bulgaria Denkova et al., 2013
L. acidophilus

L. bulgaricus,

L. casei, L. plantarum

Traditional Yoghurt P. aeruginosa,

S. aureus (MRSA)

Iraq Ahmed, 2013
Lactobacillus spp. Yoghurt

Milk

E. coli

S. aureus

Saudi Arabia Abdallah etal., 2013
L. fermentum

L. rhamnosus

L. plantarum

L. casei

L. delbrueckii subspp.bulgaricus

Standard P. aeruginosa, S. aureus India

 

Srinu et al., 2013
L. bulgaricus

S. thermophiles

L. lactis

 

Dairy products Enterococcus

S. epidermitidis

Algeria Mezaini and

Bouras, 2013

L. plantarum Grass silage

 

 

E. coli India Prema, 2013
L. sakei subsp sakei PTCC 1712

L. casei subsp casei PTCC 1608

L. plantarum subsp plantarum PTCC1745

L. lactis subsp lactis PTCC 1336

Standard S. aureus Clinical

S. aureus PTCC 1431

E. coli Clinical

E. coli PTCC 1399

Iran Chakoosari et al, 2014
L. acidophilus

L. Plantarum

L. casei

L. delbrueckii subsp. bulgaricus

Commercial Yoghurt E. coli PTCC1399

S. aureus PTCC 1431

Iran Tajehmiri et al., 2014
L. plantarum

L. rhamnosus

L. casei

L. acidophilus

L.   brevis

Traditional Yogurt E. coli PTCC1399

S. aureus PTCC 1431

Iran Nasiri Moslem et al., 2014
Lactobacillus ssp. Standard S. aureus MTCC1144

E. coli 0157:H7

India Vij etal., 2014
Bifidobacterium

Lactobacillus Spp.

Commercial probiotic strains P. aeroginosa PTCC 1707

S. aureus PTCC 1431

Enterococci

Iran Darabi etal., 2014
Lactobacillus spp. Fermented Rice Candida spp.

E. coli ATC 259222

Srilanka Jeygowri etal., 2014
Lactobacillus spp. Human origin S. epidermidis ATCC 12228

E. coli ATCC 29181

S. aureus

Malaysia Shokryazdan etal., 2014

 

Conclusion

However, there are still many questions to be answered before probiotics can be used routinely as therapy. At presence, with increasing of the antibiotic resistance and side effects of chemical drugs, it seems, we need to use alternative remedies. Probiotics can have therapeutic application in future.

References

  1. Abdallah, M. Nasr, A. Elaziz, M.A. (2013) Antibacterial efeecys of probiotics isaolation from milk products aginst some common bacterial pathogens. Egypt . J. of Appl. Sci; 28 (8): 272-294.
  2. Ahmed, A.A. (2013) In vitro Screening of Lactobacillus species from Homemade Yoghurt for Antagonistic Effects against Common Bacterial Pathogens. Jordan Journal of Biological Sciences; 6(3):211-216.
  3. Ali F.S. Saad O.A. Hussein A. (2013) Antimicrobial activity of probiotic bacteria. Egypt. Acad. J. Biolog. Sci; 5(2): 21-34.
  4. Chakoosari,M.M. Faezi Ghasemi, M. Masiha A.(2014) Antimicrobial Activities of Lactic Acid Bacteria. Bull. Env. Pharmacol. Life Sci; 3 (2): 275-278.
  5. Dasari, S. Shouri, R.N.D, Wudayagiri, R. Valluru, L. (2014) Antimicrobial activity of Lactobacillus against microbial flora of cervicovaginal infections. Asian Pacific Journal of Tropical Disease; 4 (1):18-24.
  6. Darabi, P. Goudarzvand, M. Natanzi, M .M. Khodaii Z. (2014) Antibacterial Activity of Probiotic Bacteria Isolated from Broiler Feces and Commercial Strains. Int J Enteric Pathog; 2(3): e18877.
  7. Darsanaki, R.K, Aliabadi, M.A. (2013) Probiotics and Helicobacter pylori. Journal of Biology and today’s world; 2(4):210-216.
  8. Darsanaki, R.K. Ghaemi, N. Mirpour, M. (2011) Evaluation antimicrobial activity of probiotic bacteria isolated from probiotic products. Journal of Microbial Biotechnology; 2(7):29-36.
  9. Darsanaki, R.K. Laleh rokhi, M. Aliabadi, M.A. Issazadeh. K. (2012) Antimicrobial Activities of Lactobacillus Strains Isolated from Fresh Vegetables. Middle-East Journal of Scientific Research; 11 (9): 1216-1219.
  10. Denkova, R. Denkova, Z. Yanakieva, V. Blazheva D. (2013) Antimicrobial activity of probiotic lactobacilli, bifidobacteria and propionic acid bacteria, isolated from different sources. Microbial pathogens and strategies for combating them: science, technology and education; 857-864.
  11. Erdourul, Ö. Erbulur, F. (2006) Isolation and characterization of Lactobacillus bulgaricus and Lactobacillus casei from various foods. Turkish Journal of Biology; 30 (1):39-44
  12. Falagas, M.E. Makris G.C. (2009) Probiotic bacteria and biosurfactants for nosocomial infection control: a hypothesis. Journal of Hospital Infection; 71:301-306.
  13. Hami, K. (2011) Antibacterial effects of probiotics isolated from yoghurts against some common bacterial pathogens. African Journal of Microbiology Research; 5 (25):4363-4367.
  14. Iordache et al. (2008) Antimicrobial and immunomodulatory activity of some probiotic fractions with potential clinical application. Archiva Zootechnica;11: 41-51
  15. Issazadeh, K. Aliabadi, M.A. Darsanaki,R.K. Alikhani, F. Dadras, H. Tajehmiri, A. (2013) Isolation, Identification and Analysis of Probiotic Properties of Lactobacillus spp from Traditional Yoghurts in North of Iran. Journal of Pure and Applied Microbiology; 7(4): 2965-2971.
  16. Jeygowri, N. et al. (2014) ANTIMICROBIAL ACTIVITY OF POTENTIALLY PROBIOTIC LACTOBACILLUS SPECIES ISOLATED FROM FERMENTED RICE. Proceedings of the Peradeniya Univ. International Research Sessions, Sri Lanka, Vol. 18, 4th & 5th July, 182
  17. Jafari, B. Rezaie, A. Alizadeh, S. (2011) Isolation and Identification of potentially probiotic bacteria from Traditional Dairy Products of Ardabil region in Iran. Annals of Biological Research; 2 (6):311-317.
  18. Krishnamoorthy, M. Arjun, P. (2012) Probiotic and antimicrobial activity of bacteria from fermented toddy of Cocus nucifera. J. Acad. Indus. Res; 1(3): 127-131.
  19. Maria, T. Shahzad, H. Farnaz, M. Tahira, M. Ghazala, P. Shazia, S. Amina, W. Rashid, M. Rafique, A.C. Alia, S (2011) Isolation and evaluation of antibacterial activity of bacteriocin produced by Lactobacillus bulgaricus from yogurt. African Journal of Microbiology Research; 5 (22):3842-3847.
  20. Mezaini, A. Bouras, A.D. (2013) Antibacterial activity and probiotic properties of some lactic acid bacteria isolated from dairy products. African Journal of Biotechnology; 12 (20):2949-2956.
  21. Mombelli, B. Gismondo, M.R. (2000) The use of probiotics in medical practice, International Journal of Antimicrobial Agents; 16:531–536.
  22. Nasiri Moslem, M.Tavakoli Lakeh,M. Lozoumi, Z.Issapour,F. Irani, M.(2014)Isolation, Identification of Probiotic Lactobacilli from Traditional Yogurts Produced in Rural Areas of Mazandaran Province (Northern Iran). Asian Journal of Biological and Life Sciences; 3(2). 133-136.
  23. Nowroozi, J. Mirzaii, M. Norouzi, M. (2004) Study of Lactobacillus as Probiotic Bacteria. Iranian J Publ Health; 33 (2): 1 -7.
  24. G.J. Bergmans, C.J.J. Verbon, A.Probiotics for prevention of nosocomial infections: efficacy and adverse effects.Curr Opin Crit Care; 17:487–492
  25. Petrova, M. Georgieva, R. Dojchinovska, L. Kirilov, N. Iliev, I. Antonova, S. Hadjieva, N. Ivanova, I. Danova, S. (2009) Lactic Acid Bacteria against pathogenic microbes. Trakia Journal of Sciences;7 (2):33-39.
  26. Polin, R.A. Saiman, L. (2003) Nosocomial Infections in the Neonatal Intensive Care Unit. NeoReviews; 4 (3):81-89
  27. Prema, P. (2013) In vitro antagonistic activity of a probiotic Lactobacillus plantarum against water borne pathogens. Int J Pharm phar Sci; 5 (4):175-178
  28. Rosario, S.C. Cruz, C. Faustino, V. Alexander O. (2005) IN VITRO Study on the Antimicrobial activity of probiotic milk against common pediatric community acquired respiratory pathogens. PIDSP; 9(2):25-29.
  29. Salih, A.M. Hassan, Z.R. El Sanousi S.M. (2011) Antimicrobial Activity of Selected Probiotic Bacteria Isolated from Sudanese Traditional Dairy Product “Rob”.Pakistan Journal of Nutrition; 10 (7): 637-639.
  30. Shokryazdan, P. Sieo, C.C. Kalavathy, R. Liang, J.B. Alitheen, N.B. Faseleh Jahromi, M. Ho, Y.W. (2014) Probiotic Potential of Lactobacillus Strains with Antimicrobial Activity against Some Human Pathogenic Strains. Biomed Res Int:927268. doi: 10.1155/2014/927268.
  31. Srinu, B. Rao,T. Reddy, P. Reddy, K. (2013) Evaluation of different lactic acid bacterial strains for probiotic characteristics. Veterinary World; 6 (10):785-788.
  32. Tajehmiri, A. Darsanaki, R.K. Nasiri Moslem, M. Lozoumi, Z. Hassani Kolavani, M. Aliabadi, M.A. (2014) Antimicrobial Activity of Lactobacillus Isolated from Commercial Yoghurts against Pathogenic Bacteria. Journal of Pure and Applied Microbiology; 8(3); 2211-2215.
  33. Tejero-Sariñena, S. Barlow, J. Costabile, A. Gibson, G.R. Rowland I. (2012) In vitro evaluation of the antimicrobial activity of a range of probiotics against pathogens: Evidence for the effects of organic acids. Anaerobe; 18: 530-538.
  34. Tharmaraj, N. Shah, N.P. (2009) Antimicrobial effects of probiotics against selected pathogenic and spoilage bacteria in cheese-based dips. International Food Research Journal; 16 (3):261-276.
  35. Vij, S. Chandra, P. Bachanti, P.R. (2014) Antimicrobial Activity of Casein Fermentate of Probiotic Lactobacillus Spp. International Journal of Genetic Engineering and Biotechnology; 5 (2): 201-208.
  36. WHO(2002) Prevention of hospital-acquired infections. 1-72.
  37. Zapata, A.A. (2013) Antimicrobial Activities of Lactic Acid Bacteria Strains Isolated from Nile Tilapia Intestine (Oreochromisniloticus). Journal of Biology and Life Science; 4(1): 164-171.
  38. Zerehpoosh, S. Darsanaki, R.K. (2013) Probiotics and Health. Journal of Biology and today’s world; 2(1): 41-52.
Share Button
(Visited 405 times, 1 visits today)

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.