Enhanced inhibition of Listeria monocytogenes by a combination of cold pressed terpeneless Valencia orange oil and antibiotics.

This study was designed to evaluate the ability of cold pressed terpeneless Valencia orange oil (CPTVO) to enhance the effectiveness of antibiotics against 10 strains of Listeria monocytogenes. Disc diffusion assays were performed to determine the effects of CPTVO and two antibiotics with different mechanisms of action (i.e., penicillin and chloramphenicol) individually and in combination with CPTVO. CPTVO alone produced zones ranging from 16.5 to 19.9 mm. Penicillin at 2 or 10 units produced zones ranging from <6 to 13.4 mm, and from 16 to 19.5 mm, respectively. Chloramphenicol at 5 or 30 µg had zones ranging from <6 to 6.9 mm, and from 10.8 to 15.9 mm, respectively. Penicillin (2 and 10 units) plus CPTVO produced zones ranging from 20.2 to 25.3 mm, and from 21.9 to 28 mm, respectively. Chloramphenicol (5 or 30 µg) plus CPTVO produced zones of from 20.1 to 26.6 mm, and from 19.5 to 23.9 mm, respectively. In conclusion, the combination of antibiotics with CPTVO increases their ability to inhibit L. monocytogenes.

Inhibition of Listeria monocytogenes by exposure to a combination of nisin and cold-pressed terpeneless Valencia oil.

Listeria monocytogenes is an important foodborne pathogen and its control in foods is a significant challenge. This study evaluated the effectiveness of nisin and cold-pressed terpeneless Valencia oil (CPTVO) on limiting L. monocytogenes growth. Disk diffusion assays were performed to determine the effects of CPTVO and nisin individually and in combination. Together, these antimicrobials produced a zone of inhibition that was significantly larger (P < 0.05) than zones correlating to CPTVO or nisin individually. Furthermore, L. monocytogenesΔsigB had an increased sensitivity to the combination treatment. Growth experiments performed in brain heart infusion (BHI) broth revealed the effects of nisin and CPTVO, individually and in combination on L. monocytogenes growth rate. When L. monocytogenes was grown in BHI containing 0.025% CPTVO and 26 IU/mL nisin, no growth inhibition was observed relative to the control. However, exposure to CPTVO at 0 h followed by the introduction of nisin at 15 h resulted in a statistically significant (P < 0.05) reduction in growth. This approach to inhibiting L. monocytogenes has potential as an all-natural, generally-recognized-as-safe multiple hurdle intervention that may be applicable for ready-to-eat products in which L. monocytogenes is likely to cause foodborne illness.

Efficacy of cold-pressed terpeneless Valencia oil and its primary components on inhibition of Listeria species by direct contact and exposure to vapors.

This study used disk diffusion assays to evaluate the effectiveness of cold-pressed terpeneless Valencia oil (CPTVO) and its primary components (linalool, citral, and decanal) at inhibiting Listeria via direct contact or exposure to vapors. In general, all Listeria strains tested responded similarly to CPTVO and its components. Direct contact with linalool produced zones of inhibition that were significantly smaller (P < 0.0001) than those associated with all other antimicrobials tested. Zones of inhibition for sealed plates were significantly larger (P < 0.0001) than those observed for unsealed plates, although the method for sealing the plates was insignificant. Exposure to CPTVO vapors resulted in zones of inhibition that were significantly smaller than those resulting from decanal vapors (P < 0.0001). The difference observed between the zones of inhibition produced by antimicrobial exposure via vapors or direct contact was only slightly significant (P = 0.02). Antimicrobial essential oil (EO) vapors may be an effective alternative to direct contact EOs to safely and effectively inhibit microorganisms while minimizing undesired organoleptic changes sometimes associated with EO contact. CPTVO and its primary components, decanal and citral, may have potential in the food industry as all natural, generally recognized as safe antimicrobials used in modified atmosphere packaging designed to inhibit Listeria without requiring direct contact with food products.