The impact of parent participation in a hospital-based kangaroo care program on time spent with their preterm infant in the neonatal intensive care unit

Occupational therapists and other health professionals are faced with the challenge of helping parents cope with the birth of their preterm infant and fostering parent-infant bonding and attachment. Kangaroo care, or skin to skin contact, has the potential to minimize the delay in the parent-infant attachment process and facilitate more normal infant growth and development. The present study investigated the impact of parent participation in a hospital-based kangaroo care program on time spent with their preterm infant in the NICU. Fourteen parents with preterm infants in the NICU participated in the study. The results indicated that parents who participated in the kangaroo care program spent significantly more time with their infant than the parents who did not participate in the program (p $<$.022). In addition, parents in the kangaroo care group visited their infant more frequently than the control group (p $<$.037). However, the mean time with baby per day did not show a significant difference between the groups (p $<$.194). This information may assist occupational therapists in developing family-centered early intervention programs beginning in the NICU. ^

Evaluation of non-contact sampling and detection of explosives using receiver operating characteristic curves

The growing need for fast sampling of explosives in high throughput areas has increased the demand for improved technology for the trace detection of illicit compounds. Detection of the volatiles associated with the presence of the illicit compounds offer a different approach for sensitive trace detection of these compounds without increasing the false positive alarm rate. This study evaluated the performance of non-contact sampling and detection systems using statistical analysis through the construction of Receiver Operating Characteristic (ROC) curves in real-world scenarios for the detection of volatiles in the headspace of smokeless powder, used as the model system for generalizing explosives detection. A novel sorbent coated disk coined planar solid phase microextraction (PSPME) was previously used for rapid, non-contact sampling of the headspace containers. The limits of detection for the PSPME coupled to IMS detection was determined to be 0.5-24 ng for vapor sampling of volatile chemical compounds associated with illicit compounds and demonstrated an extraction efficiency of three times greater than other commercially available substrates, retaining >50% of the analyte after 30 minutes sampling of an analyte spike in comparison to a non-detect for the unmodified filters. Both static and dynamic PSPME sampling was used coupled with two ion mobility spectrometer (IMS) detection systems in which 10-500 mg quantities of smokeless powders were detected within 5-10 minutes of static sampling and 1 minute of dynamic sampling time in 1-45 L closed systems, resulting in faster sampling and analysis times in comparison to conventional solid phase microextraction-gas chromatography-mass spectrometry (SPME-GC-MS) analysis. Similar real-world scenarios were sampled in low and high clutter environments with zero false positive rates. Excellent PSPME-IMS detection of the volatile analytes were visualized from the ROC curves, resulting with areas under the curves (AUC) of 0.85-1.0 and 0.81-1.0 for portable and bench-top IMS systems, respectively. Construction of ROC curves were also developed for SPME-GC-MS resulting with AUC of 0.95-1.0, comparable with PSPME-IMS detection. The PSPME-IMS technique provides less false positive results for non-contact vapor sampling, cutting the cost and providing an effective sampling and detection needed in high-throughput scenarios, resulting in similar performance in comparison to well-established techniques with the added advantage of fast detection in the field.