Faculty Mentor(s)

Dobroslawa Bialonska

Campus

Dahlonega

Proposal Type

Poster

Subject Area

Biology

Location

Library Technology Center 3rd Floor Common Area

Start Date

24-3-2017 12:45 PM

End Date

24-3-2017 2:00 PM

Description/Abstract

It is known that bacteria can be found on commercial ball pits. Due to ball pits moist, dark, warm environments, bacteria flourish, increasing risk of transmission. No study has been conducted on clinical therapeutic ball pits. These ball pits may be used constantly, yet no protocol exists on sanitation, or its frequency. Infrequent cleanings allow bacteria to reproduce to potentially infectious levels. Risk increases if the individual has lesions, abrasions, or is immunocompromised. An understanding in microbial communities of therapeutic ball pits and proper cleaning protocol was sought.

A study was conducted using six clinical ball pits in Georgia. Sampling consisted of selecting random balls, swabbing five locations (four corners and center), and different strata (depths). Samples were plated on tryptic soy agar (TSA) plates, and incubated for twenty-four hours at 33 °C. Afterwards, microbial colonies were tallied. Colonies were identified using the Biolog GEN III Bacterial Identification System.

Differences were found between clinics and the amount of colony forming units (CFU) from each sample. Clinic B had the least amount of CFU with 36% of balls having less than 3.0x101 CFU, and 7% with greater than 3.0x104 colonies. Clinic D had the largest CFU with 93% of balls having greater than 3.0x104 CFU. Potential opportunistic pathogens identified are Enterococcus faecalis, Acinetobacter lwoffii, Paoultella terrigena, Psychrobacter immobilis, Paenibacillus xylanilyficus, Klebsiella variicola, and Moraxella caprae. Balls with floor exposure had the most CFU; middle stratum balls had the least CFU; and balls with surface exposure had the second highest CFU.

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Mar 24th, 12:45 PM Mar 24th, 2:00 PM

25. Isolation and Identification of Bacteria from Therapeutic Ball Pits Located in Hospital Settings

Library Technology Center 3rd Floor Common Area

It is known that bacteria can be found on commercial ball pits. Due to ball pits moist, dark, warm environments, bacteria flourish, increasing risk of transmission. No study has been conducted on clinical therapeutic ball pits. These ball pits may be used constantly, yet no protocol exists on sanitation, or its frequency. Infrequent cleanings allow bacteria to reproduce to potentially infectious levels. Risk increases if the individual has lesions, abrasions, or is immunocompromised. An understanding in microbial communities of therapeutic ball pits and proper cleaning protocol was sought.

A study was conducted using six clinical ball pits in Georgia. Sampling consisted of selecting random balls, swabbing five locations (four corners and center), and different strata (depths). Samples were plated on tryptic soy agar (TSA) plates, and incubated for twenty-four hours at 33 °C. Afterwards, microbial colonies were tallied. Colonies were identified using the Biolog GEN III Bacterial Identification System.

Differences were found between clinics and the amount of colony forming units (CFU) from each sample. Clinic B had the least amount of CFU with 36% of balls having less than 3.0x101 CFU, and 7% with greater than 3.0x104 colonies. Clinic D had the largest CFU with 93% of balls having greater than 3.0x104 CFU. Potential opportunistic pathogens identified are Enterococcus faecalis, Acinetobacter lwoffii, Paoultella terrigena, Psychrobacter immobilis, Paenibacillus xylanilyficus, Klebsiella variicola, and Moraxella caprae. Balls with floor exposure had the most CFU; middle stratum balls had the least CFU; and balls with surface exposure had the second highest CFU.