1 / 1

T he Effectiveness of Condoms to Protect Against Bacterial Infections

T he Effectiveness of Condoms to Protect Against Bacterial Infections. Erica Salzano Department of Biology, York College. Results. Materials and Methods. Introduction

zeph-larson
Download Presentation

T he Effectiveness of Condoms to Protect Against Bacterial Infections

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. The Effectiveness of Condoms to Protect Against Bacterial Infections Erica Salzano Department of Biology, York College Results Materials and Methods • Introduction • Providenciastuartii, a member of the Enterobacteraceae family, is a common cause of urinary tract infections, both nosocomial and community-acquired (Poirel 2008). • Condoms provide a dual purpose to prevent pregnancies and protect against infection. • The ability of condoms to protect against P. stuartiiinduced UTI’s have not been previously studied. • Some condoms contain spermicide to help reduce risk of unwanted pregnancies. The detergent based lubricant that many condoms contain to further enhance pregnancy prevention also have anti-microbial effects (Zairi 2009). • For individuals that have a latex allergy, there are non-latex options like lambskin condoms. • There are no major studies on the microbial carriage rate in the spermicide or lubricant used for condoms. • Discussion • Condoms are not one hundred percent effective in preventing bacterial infections due to tearing, extreme stretching, or slippage (Warner et al. 2008). • After twenty-four hours incubating at body temperature, all of the sample condoms were stretched to a much larger size, which could have contributed to the higher bacterial transmittance. • Future Studies • Identify the other prominent bacteria that appear to grow in lubricant. • Further dilute the plated concentrations for the body temperature portion of the experiment, or less incubation time • Literature Cited • Poirel, L., Bruderer, T., Frei, R., Bernabeu, S., Graber, P., and Nordmann, P. 2008. Multidrug-resistant Providenciastuartii expressing extended-spectrum b-lactamase PER-1, originating in Kosovo. Journal of Antimicrobial Chemotherapy. 61: 1392-1393. • Zairi, A., Tangy, F., Bouassida, K., and Hani, K. 2008. Dermaseptins and magainins: antimicrobial peptides from frogs’ skin- new sources for a promising spermicides microbicides. Journal of Biomedicine and Biotechnology 2009:1-8. • Warner L. et al., 2008. Problems with condom use among patients attending sexually transmitted disease clinics: prevalence, predictors, and relation to incident gonorrhea and chlamydia. American Journal of Epidemiology 167:341-349. • Acknowledgments • Thanks to Dr. Mathur and Dr. Hagerty for all of their assistance with this research. Also thanks to Corinne Cusick and Rob Harvey for their formatting advice, and to James Bergenti for his support and lab help. Colony Variation Growth on Agar Plates • Methods Part I: Experimental Design • - All conditions were done in duplicate Gram negative rods ~ 1 um 50 mL P. stuartii culture (B) Gram negative rods ~ 2 um Condom suspended in broth 100 mL Nutrient broth (A) Gram negative rods ~ 1um • Conclusions • The non-lubricated condoms yeilded the least amount of bacterial transmission through the condom barrier. • There was greater transmission through the condom when the sample was incubated at . • There were additional bacteria detected within the lubricant samples. Gram negative rods ~ 0.5-1 um Table 1: Four different types of bacteria growth was seen. Bacteria types were morphologically described, stained, and viewed under the microscope. Type 1 is Providenciastuartii. Types 2,3, and 4are unknowns. Incubate for 24 hours at either room temperature or Colonies Per Condom at Room Temperature Plate samples A and B for standard plate count Microbial Morphology Colony Description • Methods Part II Data Analysis Streak Plates Gram Stains (photograph) Table 2: The average cell per mL was calculated for each individual colony type found outside corresponding condom type. Spermicide condom calculations are not available due to full lawn growth. • Objectives • Evaluate the efficacy of four types of condoms as barriers of transmission of Providenciastuartii. • Non-lubricated • Lubricated • Spermicidal • Lambskin Quantitative Analysis Calculate cell concentration: Cells/mL = Calculate the percent P. stuartii that passed through the condom: Figure 1: Providencia stuarttitransmission through condoms after incubating at room temperature. Based off a one-way ANOVA statistical test, there is no significant difference between the condom types [F(2,3)=2.386, P=0.2398]. Error bars indicate a 95% confidence interval. Samples at are not shown due to full transmittance through the condom.

More Related