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1.
Radiography (Lond) ; 27(1): 67-74, 2021 02.
Article in English | MEDLINE | ID: mdl-32693990

ABSTRACT

INTRODUCTION: This study investigates instances of elevated radiation dose on a radiation tracking system to determine their aetiologies. It aimed to investigate the impact of radiographer feedback on these alerts. METHODS: Over two six-month periods 11,298 CT examinations were assessed using DoseWatch. Red alerts (dose length products twice the median) were identified and two independent reviewers established whether alerts were true (unjustifiable) or false (justifiable). During the second time period radiographers used a feedback tool to state the cause of the alert. A Chi-Square test was used to assess whether red alert incidence decreased following the implementation of radiographer feedback. RESULTS: There were 206 and 357 alerts during the first and second time periods, respectively. These occurred commonly with CT pulmonary angiography, brain, and body examinations. Procedural documentation errors and patient size accounted for 57% and 43% of false alerts, respectively. Radiographer feedback was provided for 17% of studies; this was not associated with a significant change in the number of alerts, but the number of true alerts declined (from 7 to 3) (χ2 = 4.14; p = 0.04). CONCLUSION: Procedural documentation errors as well as patient-related factors are associated with false alerts in DoseWatch. Implementation of a radiographer feedback tool reduced true alerts. IMPLICATIONS FOR PRACTICE: The implementation of a radiographer feedback tool reduced the rate of true dose alerts. Low uptake with dose alert systems is an issue; the workflow needs to be considered to address this.


Subject(s)
Medical Order Entry Systems , Documentation , Feedback , Humans , Radiation Dosage , Tomography, X-Ray Computed
2.
Article in English | MEDLINE | ID: mdl-19022760

ABSTRACT

All mammalian somatic cells originate from a single fertilized cell, the zygote, and share identical genetic information despite the dramatic changes in cell structure and function that accompany organismal development. The genome is subjected to a wide array of epigenetic modifications during lineage specification, a process that contributes to the implementation and maintenance of specific gene expression programs in somatic cells. Nuclear transfer and cell-fusion experiments demonstrate that the epigenetic signature directing a cell identity can be erased and modified into that of another cell type. Furthermore, in the case of cloning, differentiated cells can be reprogrammed back to pluripotency to support the reexpression of all developmental programs. Recent breakthroughs highlight the importance of transcription factors as well as epigenetic modifiers in the establishment, maintenance, and rewiring of cell identity. By focusing on reprogramming of terminally differentiated lymphocytes, we review and highlight recent insights into the molecular mechanisms and cellular events potentially underlying programming and reprogramming of somatic cell identity in mammals.


Subject(s)
Cell Differentiation/genetics , Animals , Cell Differentiation/physiology , Cloning, Organism , Epigenesis, Genetic , Hybrid Cells/cytology , Hybrid Cells/physiology , Lymphocytes/cytology , Lymphocytes/physiology , Mice , Models, Biological , Nuclear Transfer Techniques , Pluripotent Stem Cells/cytology , Pluripotent Stem Cells/physiology , Stochastic Processes , Transcriptional Activation
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