1 ney (heart-beating donor [HBD]), the dog was exsanguinated.

2 s developed to overcome the poor outcomes in exsanguinating abdominal trauma with traditional surgica

3 4.5, 24, or 48 hours) and then anesthetized, exsanguinated, and killed.

4                   After 5 minutes, rats were exsanguinated, and retinas were excised and incubated fo

5 at mice that lacked both PAR4 and fibrinogen exsanguinated at birth like prothrombin-deficient mice.

6 estored viable cardiovascular function after exsanguinating cardiac arrest in this swine model of liv

7 ing, irrespective of comorbidity, except for exsanguinating haemorrhage.

8 uma and the role of platelet transfusions in exsanguinating haemorrhage.

9                                              Exsanguinating hemorrhage and postshock organ failure ac

10                                              Exsanguinating hemorrhage is a common clinical feature o

11         Patients aged 16 years or older with exsanguinating hemorrhage were enrolled between October

12                      In trauma patients with exsanguinating hemorrhage, a strategy of REBOA and stand

13 e and bony injuries, and 31 had evidence for exsanguinating hemorrhage, with field tourniquets in pla

14 c veins were selectively injured, causing an exsanguinating hemorrhage.

15 hrombin-deficient mice that survive to birth exsanguinate in the perinatal period.

16                      Patients who previously exsanguinated on the operating table made it to intensiv

17                                    Dogs were exsanguinated over 5 mins to cardiac arrest no-flow of 6

18 ll victims of penetrating truncal trauma who exsanguinate rapidly to cardiac arrest.

19 ted at 24 hours and 48 hours, when mice were exsanguinated, tissues were harvested, and all were anal

20 emorrhagic shock group in which animals were exsanguinated to a mean arterial pressure level of 40 mm

21 uscle was dissected from the trachea of pigs exsanguinated under anesthesia.