W. Kubey scite author profile

W. Kubey

5Publications

82Citation Statements Received

12Citation Statements Given

How they've been cited

129

How they cite others

Affiliations

Baxter (United States), University of New Mexico

Publications

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Comparison of Large Volume Culture to Other Methods for Isolation of Microorganisms from Dialysate

et al. 1990

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Patients on continuous ambulatory peritoneal dialysis (CAPD) who reside long distances from a CAPD center often use community medical laboratories to document and manage episodes of peritonitis. We examined the feasibility of using large volume cultures as an alternative to more costly and labor intensive methods and to enhance earlier recovery of microorganisms from these patients. Three methods of processing dialysate from patients on CAPD were compared: (a) inoculation of 400 mL dialysate into a transfer bag (Baxter Healthcare, Inc., Round Lake, IL) containing 100 mL of 5-fold concentrate of trypticase-soy broth: (b) inoculation of 5 mL into each of two Bactec bottles (Johnston Laboratories, Towson, MD): and (c) centrifugation of 50 mL and culture of the sediment without white cell lysis on plated media and two Bactec bottles. Of the 58 specimens cultured, 34 (59%) were positive by one or more methods. Antimicrobial activity was detected in 20158 (34%) dialysates, which represent 54% of all no-growth cultures. Of the 34 culture-positive specimens, microorganisms were recovered on plated media in 22 (65%); by the centrifugation system in 32 (94%); by the routine Bactec system in 28 (82%); and by large volume culture in 30 (88%). The large volume culture system is an acceptable alternative to the more costly Bactec System and the labor intensive centrifugation method but does not significantly improve recovery of microorganisms.

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Effect of monophosphoryl lipid A on host resistance to bacterial infection

Chase¹,

Kubey²,

Dulek³

et al. 1986

Infect Immun

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The ability of monophosphoryl lipid A (MPLA) to enhance nonspecific host resistance to bacterial infections was studied. Mice were treated with MPLA prior to intraperitoneal challenge with Escherichia coli or Staphylococcus epidermidis. Animals received additional MPLA for 2 days postinfection, and survival rates were determined. Ten micrograms of MPLA per mouse significantly improved the survival of animals infected with either bacterial species. Dose-response studies showed significant MPLA-induced protection at doses of 6 micrograms/kg against E. coli challenge and 60 micrograms/kg against S. epidermidis challenge.

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Effectiveness of Various Chemical Disinfectants versus Cleaning Combined with Heat Disinfection on <i>Pseudomonas</i> Biofilm in Hemodialysis Machines

Holmes

Degremont²,

Kubey³

et al. 2004

Blood Purif

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The development of bacterial biofilms in the hydraulic circuit of hemodialysis machines is routinely prevented by frequent use of a variety of chemical and heat disinfection strategies. This study compared the effectiveness of several chemical disinfectants, commonly used either alone or in combination with a treatment regimen that involved cleaning plus heat disinfection using an in vitro Pseudomonas biofilm model. Effectiveness of these procedures was evaluated using total and viable biomass quantitation and polysaccharide and endotoxin determination. The chemical disinfection procedures were only partially successful in removing all biofilm components. Heat disinfection alone killed viable biofilm bacteria, but did not remove all the biomass components, including endotoxin. The combination of cleaning with citric acid followed by heat disinfection was the most effective in eliminating all biofilm components from the hydraulic circuit of the in vitro model.

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Viability of Microorganisms in Fluorouracil and Small-volume Injections

Holmes

Kubey

Love

1988

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An in vitro Bacterial Touch Contamination Risk Assessment of Two CAPD Twinbag Systems

Kubey

Straka²,

Holmes³

2000

Blood Purif

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The objective of this study was to compare, using in vitro quantitative microbiology, the ability of two commercially available peritoneal dialysis solution delivery systems to prevent and remove, via convective fluid flow, intralumenal fluid path bacterial contamination. The two systems (A and B) differed in both the configuration of their flow control, or Y-junction and the method of fluid flow control and also in the design of their Luer tubing connectors. System A had a tubing type Y-junction that requires clamps to control fluid flow and uses a connector with a male Luer that is deeply recessed within a shroud. System B has a dial-type rigid Y-junction with in-line flow control and a connector with a male Luer that is shrouded but not recessed. System A connectors allowed significantly (p < 0.0001) fewer bacteria to be transferred into the fluid path than System B after simulated touch contamination. Also, when an equivalent number of bacteria were deliberately placed into the fluid paths of both systems, System A was more effective in removal of the bacterial contamination by convective fluid flow than System B (p < 0.0001), resulting in fewer organisms infused into the simulated peritoneum. Specific design features of System A, such as a recessed male Luer, and a Y-junction fluid flow path with low turbulence were likely explanations for its superior results. This study emphasizes the importance of connector and fluid path flow design in the aseptic performance of peritoneal dialysis delivery systems.

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W. Kubey

Comparison of Large Volume Culture to Other Methods for Isolation of Microorganisms from Dialysate

Effect of monophosphoryl lipid A on host resistance to bacterial infection

Effectiveness of Various Chemical Disinfectants versus Cleaning Combined with Heat Disinfection on <i>Pseudomonas</i> Biofilm in Hemodialysis Machines

Viability of Microorganisms in Fluorouracil and Small-volume Injections

An in vitro Bacterial Touch Contamination Risk Assessment of Two CAPD Twinbag Systems

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