INTRODUCTION: We have previously reported results of precipitation studies for neonatal parenteral nutrition solutions
containing calcium chloride and sodium phosphate using visual methods to determine compatibility. The purpose of this
study was to do further testing of compatibility for solutions containing calcium chloride using more sensitive methods.
METHODS: Solutions of...
INTRODUCTION: We have previously reported results of precipitation studies for neonatal parenteral nutrition solutions
containing calcium chloride and sodium phosphate using visual methods to determine compatibility. The purpose of this
study was to do further testing of compatibility for solutions containing calcium chloride using more sensitive methods.
METHODS: Solutions of...
Full Text:
Studies Using Laser Methodology
Huston, R. K., Christensen, J. M., Karnpracha, C., Rosa, J. E., Clark, S
Background:
Previous studies of compatibility of calcium chloride (CaCl₂) and phosphates have not included particle counts in the range specified by the United States Pharmacopeia. Micro-flow imaging techniques have been shown to be comparable to light obscuration when determining particle count and size in pharmaceutical solutions.
Objective:
The purpose of...
Background:
Previous studies of compatibility of calcium chloride (CaCl₂) and phosphates have not included particle counts in the range specified by the United States Pharmacopeia. Micro-flow imaging techniques have been shown to be comparable to light obscuration when determining particle count and size in pharmaceutical solutions.
Objective:
The purpose of...
Background:
Previous studies of compatibility of calcium chloride (CaCl₂) and phosphates have not included particle counts in the range specified by the United States Pharmacopeia. Micro-flow imaging techniques have been shown to be comparable to light obscuration when determining particle count and size in pharmaceutical solutions.
Objective:
The purpose of...
Full Text:
Robert K. Huston1*, J. Mark Christensen2, Sultan M. Alshahrani2, Sumeia M. Mohamed2,
Sara M. Clark3