Objectives
To investigate registered nurses’ awareness and implementation of oral health care in patients who are hospitalized in general wards or intensive care units (ICUs) in South Korea.
Methods
This research was performed as a descriptive survey of 149 nurses working in nine general hospitals with at least 100 beds in major Korean cities.
Results
Approximately half (40.9%) of the survey respondents reported providing oral health care for hospitalized patients but that relevant protocols were not available at most hospitals or wards (89.5%). Nurses working in an ICU were significantly more likely to provide oral health care than those working in general wards (83.9% vs 15.1%; P < .001). Most respondents (83.2%) were aware of the importance of providing oral health care for hospitalized patients; however, the proportion considering that such care should be provided by dental hygienists was greater than that considering it should be provided by nurses (36.4% vs 26.0%; P < .001). Agreement that oral health care should be provided for hospitalized patients by dental hygienists was highest in nurses working in ICUs (53.3%; P < .001).
Conclusions
According to this survey, oral healthcare provision is generally low in hospitalized patients and differs between ICUs and general wards. Most respondents considered that dental hygienists should provide oral health care for hospitalized patients. There is an opportunity for nurses and dental hygienists to work collaboratively towards development of an evidence‐based protocol for oral health care in hospitalized patients.
We describe an unusual clinical strain of catalase-negative methicillin-resistant Staphylococcus aureus sensu stricto. Sequence analysis of its catalase gene showed 99.60% identities to the catalase genes of the reference strains. A 5-base deletion, however, led to a shift of the nucleotide reading frame and a loss of the enzymatic activity.
It was recently reported that a UK company has developed a naturally non-toxic magnetoferritin to act as a draw solute for drawing water in forward osmosis process. The gist of this technology is the utilization of the magnetic nanoparticle and high-gradient magnetic separation for draw solute separation and reuse. However, any demonstration on this technology has not been reported yet. In this study, a feasibility test of magnetic separation using magnetic nanoparticle was therefore performed to investigate the possibility of magnetic separation in water treatment such as desalination. Basically, a magnetic separation system consisted of a column packed with a bed of magnetically susceptible wools placed between the poles of electromagnet and Fe3O4 magnetic nanoparticle was used as a model nanoparticle. The effect of nanoparticle size to applied magnetic field in separation column was experimentally investigated and the magnetic field distribution in a magnet gap and the magnetic field gradient around stainless steel wool wire were analyzed through numerical simulation. The amount of magnetic nanoparticle captured in the separator column increased as the magnetic field strength and particle size increased. As a result, if magnetic separation is intended to be used for draw solute separation and reuse, both novel nanoparticle and large-scale high performance magnetic separator must be developed.
The preparation of bicontinuous nanoporous covalent frameworks, which are promising for caging active enzymes, is demonstrated. The frameworks have three- dimensionally continuous, hydrophilic pores with widths varying between 5 and 30 nm. Enzymes were infiltrated into the bicontinuous pore by applying a pressured enzyme solution. The new materials and methods allowed the amount of caged proteins to be controlled precisely. The resulting enzyme-loaded framework films could be recycled many times with nearly no loss of catalytic activity. Entropic trapping of proteins by a bicontinuous pore with the right size distribution is an unprecedented strategy toward facile in vitro utilization of biocatalysts.
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