Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight
Objective. Most of the previous studies of drone transport of blood samples examined normal blood samples transported under tranquil air conditions. We studied the effects of 1- and 2-hour drone flights using random vibration and turbulence simulation (10-30 g-force) on blood samples from 16 healthy...
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IEEE
2021-01-01
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| Series: | IEEE Journal of Translational Engineering in Health and Medicine |
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| Online Access: | https://ieeexplore.ieee.org/document/9328789/ |
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doaj-ea89627763f940839bf55bcf488d30da2021-03-29T18:41:47ZengIEEEIEEE Journal of Translational Engineering in Health and Medicine2168-23722021-01-01911010.1109/JTEHM.2021.30531729328789Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After FlightKarl Arne Johannessen0https://orcid.org/0000-0003-2679-0007Nina Kristin Steen Wear1Karin Toska2Morten Hansbo3Jens Petter Berg4https://orcid.org/0000-0003-0157-5888Erik Fosse5The Intervention Center, Oslo University Hospital, Oslo, NorwayDepartment of Medical Biochemistry, University of Oslo, Oslo, NorwayDepartment of Medical Biochemistry, Oslo University Hospital, Oslo, NorwayThe Norwegian Defense Research Establishment, Oslo, NorwayFaculty of Medicine, Institute of Clinical Medicine, University of Oslo, Oslo, NorwayThe Intervention Center, Oslo University Hospital, Oslo, NorwayObjective. Most of the previous studies of drone transport of blood samples examined normal blood samples transported under tranquil air conditions. We studied the effects of 1- and 2-hour drone flights using random vibration and turbulence simulation (10-30 g-force) on blood samples from 16 healthy volunteers and 74 patients with varying diseased. Methods: Thirty-two of the most common analytes were tested. For biochemical analytes, we used plasma collected in lithium heparin tubes with and without separator gel. Gel samples were analyzed for the effect of separation by centrifugation before or after turbulence. Turbulence was simulated in an LDS V8900 high-force shaker using random vibration (range, 5-200 Hz), with samples randomly allocated to 1- or 2-hour flights with 25 or 50 episodes of turbulence from 10 to 30 G. Results: For all hematologic and most biochemical analytes, test results before and after turbulence exposure were similar (bias <; 12%, intercepts <; 10%). However, aspartate aminotransferase, folate, lactate dehydrogenase and lipid index increased significantly in samples separated by gel and centrifugation prior to vibration and turbulence test. These changes increased form 10 G to 30 G, but were not observed when the samples were separated after vibration and turbulence. Conclusions: Whole blood showed little vulnerability to turbulence, whereas plasma samples separated from blood cells by gel may be significantly influenced by turbulence when separated by spinning before the exposure. Centrifugation of plasma samples collected in tubes with separator gel should be avoided before drone flights that could be subject to turbulence.https://ieeexplore.ieee.org/document/9328789/Biologic tolerancedrone transporthealth care |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Karl Arne Johannessen Nina Kristin Steen Wear Karin Toska Morten Hansbo Jens Petter Berg Erik Fosse |
| spellingShingle |
Karl Arne Johannessen Nina Kristin Steen Wear Karin Toska Morten Hansbo Jens Petter Berg Erik Fosse Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight IEEE Journal of Translational Engineering in Health and Medicine Biologic tolerance drone transport health care |
| author_facet |
Karl Arne Johannessen Nina Kristin Steen Wear Karin Toska Morten Hansbo Jens Petter Berg Erik Fosse |
| author_sort |
Karl Arne Johannessen |
| title |
Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight |
| title_short |
Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight |
| title_full |
Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight |
| title_fullStr |
Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight |
| title_full_unstemmed |
Pathologic Blood Samples Tolerate Exposure to Vibration and High Turbulence in Simulated Drone Flights, but Plasma Samples Should be Centrifuged After Flight |
| title_sort |
pathologic blood samples tolerate exposure to vibration and high turbulence in simulated drone flights, but plasma samples should be centrifuged after flight |
| publisher |
IEEE |
| series |
IEEE Journal of Translational Engineering in Health and Medicine |
| issn |
2168-2372 |
| publishDate |
2021-01-01 |
| description |
Objective. Most of the previous studies of drone transport of blood samples examined normal blood samples transported under tranquil air conditions. We studied the effects of 1- and 2-hour drone flights using random vibration and turbulence simulation (10-30 g-force) on blood samples from 16 healthy volunteers and 74 patients with varying diseased. Methods: Thirty-two of the most common analytes were tested. For biochemical analytes, we used plasma collected in lithium heparin tubes with and without separator gel. Gel samples were analyzed for the effect of separation by centrifugation before or after turbulence. Turbulence was simulated in an LDS V8900 high-force shaker using random vibration (range, 5-200 Hz), with samples randomly allocated to 1- or 2-hour flights with 25 or 50 episodes of turbulence from 10 to 30 G. Results: For all hematologic and most biochemical analytes, test results before and after turbulence exposure were similar (bias <; 12%, intercepts <; 10%). However, aspartate aminotransferase, folate, lactate dehydrogenase and lipid index increased significantly in samples separated by gel and centrifugation prior to vibration and turbulence test. These changes increased form 10 G to 30 G, but were not observed when the samples were separated after vibration and turbulence. Conclusions: Whole blood showed little vulnerability to turbulence, whereas plasma samples separated from blood cells by gel may be significantly influenced by turbulence when separated by spinning before the exposure. Centrifugation of plasma samples collected in tubes with separator gel should be avoided before drone flights that could be subject to turbulence. |
| topic |
Biologic tolerance drone transport health care |
| url |
https://ieeexplore.ieee.org/document/9328789/ |
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