Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet?
Objective: Hemorrhage is the leading cause of injury-related prehospital mortality. We investigated worst-case scenarios and possible requirements of the Turkish military. As we plan to use blood resources during casualty transport, the impact of transport-related mechanical stress on packed red blo...
| Published in: | Turkish Journal of Hematology |
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| Main Authors: | , , , , , , , , , , , |
| Format: | Article |
| Language: | English |
| Published: |
Turkish Society of Hematology
2018-08-01
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| Subjects: | |
| Online Access: | https://jag.journalagent.com/z4/download_fulltext.asp?pdir=tjh&un=TJH-68984 |
| _version_ | 1848652705946402816 |
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| author | Aytekin Ünlü Soner Yılmaz Özlem Yalçın Metin Uyanık Patrizio Petrone Rıza Aytaç Çetinkaya İbrahim Eker Murat Urkan Taner Özgürtaş İsmail Yaşar Avcı Nazif Zeybek Ali Cenk Aksu |
| author_facet | Aytekin Ünlü Soner Yılmaz Özlem Yalçın Metin Uyanık Patrizio Petrone Rıza Aytaç Çetinkaya İbrahim Eker Murat Urkan Taner Özgürtaş İsmail Yaşar Avcı Nazif Zeybek Ali Cenk Aksu |
| author_sort | Aytekin Ünlü |
| collection | DOAJ |
| container_title | Turkish Journal of Hematology |
| description | Objective: Hemorrhage is the leading cause of injury-related prehospital mortality. We investigated worst-case scenarios and possible requirements of the Turkish military. As we plan to use blood resources during casualty transport, the impact of transport-related mechanical stress on packed red blood cells (PRBCs) was analyzed. Materials and Methods: The in vitro experiment was performed in the environmental test laboratories of ASELSAN®. Operational vibrations of potential casualty transport mediums such as Sikorsky helicopters, Kirpi® armored vehicles, and the NATO vibration standard MIL-STD- 810G software program were recorded. The most powerful mechanical stress, which was created by the NATO standard, was applied to 15 units of fresh (≤7 days) and 10 units of old (>7 days) PRBCs in a blood cooler box. The vibrations were simulated with a TDS v895 Medium- Force Shaker Device. On-site blood samples were analyzed at 0, 6, and 24 h for biochemical and biomechanical analyses. Results: The mean (+-standard deviation) age of fresh and old PRBCs was 4.9+-2.2 and 32.8+-11.8 days, respectively. Six-hour mechanical damage of fresh PRBCs was demonstrated by increased erythrocyte fragmentation rates (p=0.015), hemolysis rates (p=0.003), and supernatant potassium levels (p=0.003) and decreased hematocrit levels (p=0.015). Old PRBC hemolysis rates (p=0.015), supernatant potassium levels (p=0.015), and supernatant hemoglobin (p=0.015) were increased and hematocrit levels were decreased (p=0.015) within 6 h. Two (13%) units of fresh PRBCs and none of the old PRBCs were eligible for transfusion after 6 h of mechanical stress. Conclusion: When an austere combat environment was simulated for 24 h, fresh and old PRBC hemolysis rates were above the quality criteria. Currently, the technology to overcome this mechanical damage does not seem to exist. In light of the above data, a new national project is being performed. |
| format | Article |
| id | doaj-cda4ff9d939f4e378729ae6df2ff4e33 |
| institution | Directory of Open Access Journals |
| issn | 1308-5263 |
| language | English |
| publishDate | 2018-08-01 |
| publisher | Turkish Society of Hematology |
| record_format | Article |
| spelling | doaj-cda4ff9d939f4e378729ae6df2ff4e332025-11-02T22:05:15ZengTurkish Society of HematologyTurkish Journal of Hematology1308-52632018-08-0135318519110.4274/tjh.2018.0081TJH-68984Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet?Aytekin Ünlü0Soner Yılmaz1Özlem Yalçın2Metin Uyanık3Patrizio Petrone4Rıza Aytaç Çetinkaya5İbrahim Eker6Murat Urkan7Taner Özgürtaş8İsmail Yaşar Avcı9Nazif Zeybek10Ali Cenk Aksu11University of Health Sciences, Gülhane Training and Research Hospital, Clinic of General Surgery, Ankara, TurkeyUniversity of Health Sciences, Gülhane Training and Research Hospital, Regional Blood and Training Center, Ankara, TurkeyKoç University Faculty of Medicine, Laboratory of Hemorheology, Hemodynamics, and Vascular Biology, İstanbul, TurkeyÇorlu State Hospital, Clinic of Biochemistry, Tekirdağ, TurkeyNYU Winthrop Hospital, Clinic of Surgery, Mineola; New York Medical College, Valhalla, New York, USA; University of Las Palmas de Gran Canaria, Canary Islands, SpainUniversity of Health Sciences, Sultan Abdulhamid Han Training and Research Hospital, Clinic of Infectious Diseases, İstanbul, TurkeyAfyon Kocatepe University Faculty of Medicine, Department of Pediatric Hematology, Afyonkarahisar, TurkeyUniversity of Health Sciences, Gülhane Training and Research Hospital, Clinic of General Surgery, Ankara, TurkeyUniversity of Health Sciences, Gülhane Training and Research Hospital, Clinic of Biochemistry, Ankara, TurkeyUniversity of Health Sciences, Gülhane Training and Research Hospital, Clinic of Infectious Diseases and Clinical Microbiology, Ankara, TurkeyUniversity of Health Sciences, Gülhane Training and Research Hospital, Clinic of General Surgery, Ankara, TurkeyKoç University Faculty of Medicine, Laboratory of Hemorheology, Hemodynamics, and Vascular Biology, İstanbul, TurkeyObjective: Hemorrhage is the leading cause of injury-related prehospital mortality. We investigated worst-case scenarios and possible requirements of the Turkish military. As we plan to use blood resources during casualty transport, the impact of transport-related mechanical stress on packed red blood cells (PRBCs) was analyzed. Materials and Methods: The in vitro experiment was performed in the environmental test laboratories of ASELSAN®. Operational vibrations of potential casualty transport mediums such as Sikorsky helicopters, Kirpi® armored vehicles, and the NATO vibration standard MIL-STD- 810G software program were recorded. The most powerful mechanical stress, which was created by the NATO standard, was applied to 15 units of fresh (≤7 days) and 10 units of old (>7 days) PRBCs in a blood cooler box. The vibrations were simulated with a TDS v895 Medium- Force Shaker Device. On-site blood samples were analyzed at 0, 6, and 24 h for biochemical and biomechanical analyses. Results: The mean (+-standard deviation) age of fresh and old PRBCs was 4.9+-2.2 and 32.8+-11.8 days, respectively. Six-hour mechanical damage of fresh PRBCs was demonstrated by increased erythrocyte fragmentation rates (p=0.015), hemolysis rates (p=0.003), and supernatant potassium levels (p=0.003) and decreased hematocrit levels (p=0.015). Old PRBC hemolysis rates (p=0.015), supernatant potassium levels (p=0.015), and supernatant hemoglobin (p=0.015) were increased and hematocrit levels were decreased (p=0.015) within 6 h. Two (13%) units of fresh PRBCs and none of the old PRBCs were eligible for transfusion after 6 h of mechanical stress. Conclusion: When an austere combat environment was simulated for 24 h, fresh and old PRBC hemolysis rates were above the quality criteria. Currently, the technology to overcome this mechanical damage does not seem to exist. In light of the above data, a new national project is being performed.https://jag.journalagent.com/z4/download_fulltext.asp?pdir=tjh&un=TJH-68984combat traumablood transportprehospital transfusionhemolysis |
| spellingShingle | Aytekin Ünlü Soner Yılmaz Özlem Yalçın Metin Uyanık Patrizio Petrone Rıza Aytaç Çetinkaya İbrahim Eker Murat Urkan Taner Özgürtaş İsmail Yaşar Avcı Nazif Zeybek Ali Cenk Aksu Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? combat trauma blood transport prehospital transfusion hemolysis |
| title | Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? |
| title_full | Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? |
| title_fullStr | Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? |
| title_full_unstemmed | Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? |
| title_short | Bringing Packed Red Blood Cells to the Point of Combat Injury: Are We There Yet? |
| title_sort | bringing packed red blood cells to the point of combat injury are we there yet |
| topic | combat trauma blood transport prehospital transfusion hemolysis |
| url | https://jag.journalagent.com/z4/download_fulltext.asp?pdir=tjh&un=TJH-68984 |
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