Your search keyword '"Cecilie H. Jepsen"' showing total 18 results

1. Fresh Frozen Plasma Resuscitation Provides Neuroprotection Compared to Normal Saline in a Large Animal Model of Traumatic Brain Injury and Polytrauma

Author

John O. Hwabejire, Ted Bambakidis, Cecilie H. Jepsen, Simone E. Dekker, Guang Jin, Ayesha M. Imam, Martin Sillesen, Ihab Halaweish, Hasan B. Alam, Anesthesiology, and ICaR - Circulation and metabolism

Subjects

Resuscitation, Mean arterial pressure, Traumatic brain injury, Sus scrofa, Enzyme-Linked Immunosorbent Assay, Blood volume, Shock, Hemorrhagic, Plasma, medicine, Animals, Intracranial pressure, Multiple Trauma, business.industry, Original Articles, medicine.disease, Polytrauma, Disease Models, Animal, Neuroprotective Agents, Brain Injuries, Anesthesia, Shock (circulatory), Female, Neurology (clinical), Fresh frozen plasma, medicine.symptom, business

Abstract

We have previously shown that early treatment with fresh frozen plasma (FFP) is neuroprotective in a swine model of hemorrhagic shock (HS) and traumatic brain injury (TBI). However, it remains unknown whether this strategy would be beneficial in a more clinical polytrauma model. Yorkshire swine (42-50 kg) were instrumented to measure hemodynamic parameters, brain oxygenation, and intracranial pressure (ICP) and subjected to computer-controlled TBI and multi-system trauma (rib fracture, soft-tissue damage, and liver injury) as well as combined free and controlled hemorrhage (40% blood volume). After 2 h of shock (mean arterial pressure, 30-35 mm Hg), animals were resuscitated with normal saline (NS; 3×volume) or FFP (1×volume; n=6/group). Six hours postresuscitation, brains were harvested and lesion size and swelling were evaluated. Levels of endothelial-derived vasodilator endothelial nitric oxide synthase (eNOS) and vasoconstrictor endothelin-1 (ET-1) were also measured. FFP resuscitation was associated with reduced brain lesion size (1005.8 vs. 2081.9 mm(3); p=0.01) as well as swelling (11.5% vs. 19.4%; p=0.02). Further, FFP-resuscitated animals had higher brain oxygenation as well as cerebral perfusion pressures. Levels of cerebral eNOS were higher in the FFP-treated group (852.9 vs. 816.4 ng/mL; p=0.03), but no differences in brain levels of ET-1 were observed. Early administration of FFP is neuroprotective in a complex, large animal model of polytrauma, hemorrhage, and TBI. This is associated with a favorable brain oxygenation and cerebral perfusion pressure profile as well as higher levels of endothelial-derived vasodilator eNOS, compared to normal saline resuscitation.

Published

2015

2. Fresh frozen plasma resuscitation attenuates platelet dysfunction compared with normal saline in a large animal model of multisystem trauma

Author

Marc DeMoya, George C. Velmahos, Martin Sillesen, Hasan B. Alam, Cecilie H. Jepsen, Pär I. Johansson, Guang Jin, Ayesha M. Imam, John O. Hwabejire, Danielle K. DePeralta, Lars S. Rasmussen, and Michael Duggan

Subjects

Blood Platelets, medicine.medical_specialty, Resuscitation, Swine, Blood volume, Sodium Chloride, Critical Care and Intensive Care Medicine, Endothelial activation, Plasma, Internal medicine, medicine, Animals, Platelet, Platelet activation, Liver injury, medicine.diagnostic_test, Multiple Trauma, business.industry, Platelet Activation, medicine.disease, Thromboelastography, Disease Models, Animal, Endocrinology, Anesthesia, Female, Surgery, Fresh frozen plasma, business

Abstract

BACKGROUND: Platelet dysfunction following trauma has been identified as an independent predictor of mortality. We hypothesized that fresh frozen plasma (FFP) resuscitation would attenuate platelet dysfunction compared with 0.9% normal saline (NS). METHODS: Twelve swine were subjected to multisystem trauma (traumatic brain injury, liver injury, rib fracture, and soft tissue injury) with hemorrhagic shock (40% of estimated blood volume). Animals were left in shock (mean arterial pressure, 30-35 mm Hg) for 2 hours followed by resuscitation with three times shed volume NS (n = 6) or one times volume FFP (n = 6) and monitored for 6 hours. Platelet function was assessed by adenosine diphosphate (ADP)-induced platelet aggregation at baseline, after 2 hours of shock following resuscitation, and 6 hours after resuscitation. Fibrinogen levels and markers of platelet activation (transforming growth factor β [TGF-β], sP-Selectin, and CD40L) as well as endothelial injury (intercellular adhesion molecule 1 [ICAM-1], vascular cell adhesion molecule 1 [VCAM-1]) were also assayed. Thromboelastography was used to measure clotting activity. RESULTS: ADP-induced platelet aggregation was significantly higher in the FFP group (46.3 U vs. 25.5 U, p < 0.01) following resuscitation. This was associated with higher fibrinogen levels (202 mg/dL vs. 80 mg/dL, p < 0.01) but lower endothelial activation (VCAM-1, 1.25 ng/mL vs. 3.87 ng/mL, p = 0.05). Other markers did not differ.After 6 hours of observation, ADP-induced platelet aggregation remained higher in the FFP group (53.8 U vs. 37.0 U, p = 0.03) as was fibrinogen levels (229 mg/dL vs. 153 mg/dL, p < 0.01). Endothelial activation was lower (ICAM-1, 21.0 ng/mL vs. 24.4 ng/mL, p = 0.05), whereas TGF-β levels were higher (2,138 pg/mL vs. 1,802 pg/mL, p = 0.03) in the FFP group. Other markers did not differ. Thromboelastography revealed increased clot strength in the FFP group at both postresuscitation time points. CONCLUSION: Resuscitation with FFP resulted in an immediate and sustained improvement in platelet function and clot strength compared with high-volume NS resuscitation. This was associated with an increase in fibrinogen levels and an attenuation of endothelial activation.

Published

2014

3. Tracheal intubation with a flexible fibreoptic scope or the McGrath videolaryngoscope in simulated difficult airway scenarios

Author

Mikael Rewers, Cecilie H. Jepsen, Charlotte V. Rosenstock, Mona Ring Gätke, Bente Thøgersen, Birgitte Ruhnau, and Lene T. Mollerup

Subjects

medicine.medical_specialty, Cervical rigidity, medicine.diagnostic_test, business.industry, medicine.medical_treatment, Laryngoscopy, Tracheal intubation, respiratory system, Surgery, Anesthesiology and Pain Medicine, Pharyngeal obstruction, Anesthesia, medicine, Intubation, Airway management, In patient, business, Difficult airway

Abstract

Background Flexible fibreoptic endoscopic (FFE) intubation is considered the 'gold-standard' when difficult airway management is anticipated. Several videolaryngoscopes have been developed to facilitate intubation by laryngoscopy. Objective The aim of the study was to compare the performance of the McGrath series 5 videolaryngoscope (McGrath videolaryngoscope) and the FFE for tracheal intubation in manikins with a simulated difficult airway, hypothesizing that the McGrath videolaryngoscope intubation would prove faster than FFE intubation. Design A randomised controlled study. Setting The Danish Institute for medical simulation between December 2009 and June 2010. Participants Twenty-eight anaesthesia residents participating in the Danish mandatory 3-day airway management course. Interventions All participants received instructions and training in the use of the McGrath videolaryngoscope and FFE. The participants then performed tracheal intubation on a SimMan manikin once with the McGrath videolaryngoscope and once with the FFE in three difficult airway scenarios: (1) pharyngeal obstruction; (2) pharyngeal obstruction and cervical rigidity; (3) tongue oedema. Main outcome measures We measured successful intubations, defined as intubation within 120 s, and time to tracheal intubation. Results The trachea was intubated within 120 s with the McGrath videolaryngoscope in 25 out of 27 (93%), 25 out of 28 (89%) and 18 out of 28 (64%) occasions compared with 11 out of 28 (40%), 11 out of 28 (40%) and 16 out of 28 (57%) with the FFE in scenarios (1), (2) and (3), respectively. Time to tracheal intubation was shorter with the McGrath videolaryngoscope in scenarios (1) and (2) than with the FFE (Wilcoxon signed rank sum test, P Conclusion The McGrath videolaryngoscope is a valuable device with higher success rate and a quicker performance in simulated difficult airways. In patients, videolaryngoscopy may have a role in difficult airway algorithms, but the optimal device has yet to be found.

Published

2014

4. Synergistic effects of fresh frozen plasma and valproic acid treatment in a combined model of traumatic brain injury and hemorrhagic shock

Author

Danielle K. DePeralta, Simona Socrate, Marc DeMoya, Jennifer Lu, Hasan B. Alam, Martin Sillesen, Cecilie H. Jepsen, John O. Hwabejire, Guang Jin, Baoling Liu, Ayesha M. Imam, and Michael Duggan

Subjects

Resuscitation, Swine, Traumatic brain injury, medicine.medical_treatment, Blood volume, Shock, Hemorrhagic, Lesion, Plasma, medicine, Animals, Craniotomy, Intracranial pressure, business.industry, Valproic Acid, Hemodynamics, Brain, medicine.disease, Brain Injuries, Anesthesia, Shock (circulatory), Female, Surgery, Fresh frozen plasma, medicine.symptom, business

Abstract

Traumatic brain injury (TBI) and hemorrhagic shock (HS) are major causes of trauma-related deaths and are especially lethal as a combined insult. Previously, we showed that early administration of fresh frozen plasma (FFP) decreased the size of the brain lesion and associated swelling in a swine model of combined TBI+HS. We have also shown separately that addition of valproic acid (VPA) to the resuscitation protocol attenuates inflammatory markers in the brain as well as the degree of TBI. The current study was performed to determine whether a combined FFP+VPA treatment strategy would exert a synergistic effect.Yorkshire swine (42-50 kg) were instrumented to measure hemodynamic parameters, intracranial pressure, and brain tissue oxygenation. TBI was created through a 20-mm craniotomy using a computer-controlled cortical impactor: 15-mm cylindrical tip impactor at 4 m/s velocity, 100 ms dwell time, and 12-mm penetration depth. The TBI was synchronized with the initiation of volume-controlled hemorrhage (40 ± 5% of total blood volume). After a 2-hour period of shock, animals were randomized to 1 of 3 resuscitation groups (n = 5 per group): (1) 0.9% saline (NS); (2) FFP; and (3) FFP and VPA 300 mg/kg (FFP+VPA). The resuscitative volume for FFP was equivalent to the shed blood, whereas NS was 3 times this volume. VPA treatment was started 1 hour after hemorrhage. Animals were monitored for 6 hours post-resuscitation. At this time the brains were harvested, sectioned into 5-mm slices, and stained with 2,3,5-triphenyltetrazolium chloride to quantify the lesion size (mm(3)) and brain swelling (percent change compared with the uninjured side).The combined TBI+HS model resulted in a highly reproducible brain injury. Lesion size and brain swelling (mean value ± standard error of the mean) in the FFP+VPA group (1,459 ± 218 mm(3) and 13 ± 1%, respectively) were less than the NS group (3,285 ± 131 mm(3) [P.001] and 37 ± 2% [P.001], respectively), and the FFP alone group (2,160 ± 203 mm(3) [P.05] and 22 ± 1% [P.001], respectively).In a large animal model of TBI+HS, early treatment with a combination of FFP and VPA decreases the size of brain lesion and the associated swelling.

Published

2013

5. Platelet activation and dysfunction in a large-animal model of traumatic brain injury and hemorrhage

Author

Lars S. Rasmussen, Pär I. Johansson, John O. Hwabejire, Guang Jin, Cecilie H. Jepsen, Michael Duggan, Martin Sillesen, Marc DeMoya, Jennifer Lu, George C. Velmahos, Ayehsa M. Imam, and Hasan B. Alam

Subjects

Blood Platelets, medicine.medical_specialty, Platelet Aggregation, P-selectin, Swine, Traumatic brain injury, CD40 Ligand, Inflammation, Critical Care and Intensive Care Medicine, Transforming Growth Factor beta, Internal medicine, Animals, Medicine, Platelet, Platelet activation, CD40, biology, business.industry, Brain Hemorrhage, Traumatic, Platelet Activation, medicine.disease, Thrombelastography, nervous system diseases, Disease Models, Animal, P-Selectin, Coagulation, Brain Injuries, biology.protein, Cardiology, Female, Surgery, medicine.symptom, business, Large animal

Abstract

Traumatic brain injury (TBI) and hemorrhage are the leading causes of trauma-related mortality. Both TBI and hemorrhage are associated with coagulation disturbances, including platelet dysfunction. We hypothesized that platelet dysfunction could be detected early after injury, and that this dysfunction would be associated with early activation, as measured by circulating levels of platelet activation markers.A total of 33 swine were allocated to TBI and hypotension (n = 27, TBI and volume-controlled 40% blood loss) or controls (n = 6, anesthesia and instrumentation only). Animals in the TBI/Hemorrhage group were left hypotensive, defined as mean arterial pressure of 35 mm Hg, for 2 hours. Blood samples were drawn at baseline and 3 minutes and 15 minutes following injury as well as following 2 hours of shock. Samples were analyzed for platelet aggregation using impedance aggregometry with agonists collagen, arachidonic acid, and adenosine diphosphate (ADP) and thromboelastography (TEG) and circulating levels of platelet activation markers transforming growth factor-β (TGF-β), CD40 ligand, and sP-selectin.Platelet ADP aggregation was significantly lower in the TBI/Hemorrhage group when compared with the control group 15 minutes following injury (62.4 vs. 80.4 U, p = 0.03) as well as following 2 hours of hypotension (59.9 vs. 73.5 U, p0.01). The latter was associated with lower TEG measured clot strength (TEG-MA, 74.1 vs. 79.4 mm, p = 0.05). No difference in collagen or arachidonic acid aggregation was observed. TGF-β levels were significantly higher in the TBI/Hemorrhage group following 2 hours of hypotension (1,764 vs. 1,252 pg/mL, p = 0.01). No differences in CD40 ligand or sP-selectin levels were observed.In this combined model of TBI and hemorrhage, a significantly lower ADP-induced platelet aggregation was detected 15 minutes following injury that was further aggravated during the 2-hour shock period. This dysfunction was associated with an increase in platelet activation marker TGF-β.

Published

2013

6. Effect of valproic acid and injury on lesion size and endothelial glycocalyx shedding in a rodent model of isolated traumatic brain injury

Author

Cecilie H. Jepsen, Pär I. Johansson, Anders Perner, Sisse R. Ostrowski, Marc A. deMoya, Martin Sillesen, and Hasan B. Alam

Subjects

Male, medicine.medical_specialty, Endothelium, Traumatic brain injury, medicine.medical_treatment, S100 Calcium Binding Protein beta Subunit, Critical Care and Intensive Care Medicine, Glycocalyx, Lesion, Rats, Sprague-Dawley, Internal medicine, medicine, Animals, Endothelial dysfunction, Saline, Valproic Acid, business.industry, Brain, medicine.disease, Endothelial glycocalyx, Rats, Histone Deacetylase Inhibitors, Disease Models, Animal, Endocrinology, medicine.anatomical_structure, Neuroprotective Agents, Anesthesia, Brain Injuries, lipids (amino acids, peptides, and proteins), Surgery, Endothelium, Vascular, Syndecan-1, medicine.symptom, business, medicine.drug

Abstract

Background In isolated traumatic brain injury (TBI), little is known about the endothelial response and the effects of endothelial glycocalyx shedding. We have previously shown that treatment with valproic acid (VPA) improves outcomes following TBI and hemorrhagic shock.In this model, we hypothesized that severe isolated TBI would cause shedding of the endothelial glycocalyx, as measured by serum syndecan-1 (sSDC-1) levels. We further hypothesized that VPA treatment would reduce this response and reduce lesion size volume. Methods Forty Sprague-Dawley rats were allocated to TBI + VPA (n = 8), TBI + saline vehicle control infusion (n = 8), sham + saline vehicle control infusion (n = 6), or sham + VPA (n = 8). TBI animals were subjected to severe controlled cortical impact and killed 6 hours after injury. VPA 300 mg/kg was given as an intravenous bolus 30 minutes after injury. Serum samples were analyzed for sSDC-1, and lesion size was determined on Nissl-stained cryosections. Results sSDC-1 was significantly elevated in injured compared with uninjured animals at 3 hours (p = 0.0009) and 6 hours (p = 0.0007) after injury. This effect was significantly more pronounced in the animals treated with VPA (p = 0.019) 3 hours after injury, in which sSDC-1 levels were also significantly inversely correlated with lesion size (ρ = -0.55, p = 0.038).Lesion size was significantly smaller in TBI + VPA (40.45 mm ± 13.83 mm) as compared with vehicle control (59.57 mm ± 16.83 mm) (p = 0.023). Conclusion Severe isolated TBI caused shedding of the endothelial glycocalyx. Treatment with VPA was associated with increased glycocalyx shedding and reduced lesion size volume in injured animal.

Published

2014

7. Reply to: performance of videolaryngoscope and flexible fibreoptic endoscope in simulating difficult airways

Author

Mona Ring Gätke, Charlotte V. Rosenstock, and Cecilie H. Jepsen

Subjects

medicine.medical_specialty, Laryngoscopy, business.industry, medicine.medical_treatment, Anesthesiology and Pain Medicine, Anesthesiology, Intubation, Intratracheal, Medicine, Intubation, Flexible fibreoptic endoscope, Humans, Radiology, Airway Management, business

Published

2014

8. Differential effects of fresh frozen plasma and normal saline on secondary brain damage in a large animal model of polytrauma, hemorrhage and traumatic brain injury

Author

Yongqing Li, Cecilie H. Jepsen, Martin Sillesen, Marc DeMoya, Jennifer Lu, John O. Hwabejire, Baoling Liu, Ayesha M. Imam, Guang Jin, and Hasan B. Alam

Subjects

Resuscitation, Intracranial Pressure, Traumatic brain injury, Swine, Excitotoxicity, Brain damage, Shock, Hemorrhagic, Critical Care and Intensive Care Medicine, medicine.disease_cause, Plasma, medicine, Animals, Cerebral perfusion pressure, business.industry, Multiple Trauma, Hemodynamics, Oxygenation, medicine.disease, Prognosis, Polytrauma, Disease Models, Animal, Anesthesia, Brain Injuries, Surgery, Female, Fresh frozen plasma, medicine.symptom, Isotonic Solutions, business

Abstract

BACKGROUND We have previously shown that the extent of traumatic brain injury (TBI) in large animal models can be reduced with early infusion of fresh frozen plasma (FFP), but the precise mechanisms remain unclear. In this study, we investigated whether resuscitation with FFP or normal saline differed in their effects on cerebral metabolism and excitotoxic secondary brain injury in a model of polytrauma, TBI, and hemorrhagic shock. METHODS Yorkshire swine (n = 10) underwent Grade III liver injury, rib fracture, standardized TBI, and volume-controlled hemorrhage, (40% ± 5%) and were randomly resuscitated with either FFP or normal saline. Hemodynamic parameters and brain oxygenation were continuously monitored, while microdialysis was used to measure the brain concentrations of pyruvate, lactate, glutamate, and glycerol at baseline; 1 hour and 2 hours after shock; immediate postresuscitation (PR); as well as 2, 4, and 6 hours PR. Cells from the injured hemisphere were separated into mitochondrial and cytosolic fractions and analyzed for activity of the pyruvate dehydrogenase complex (PDH). RESULTS There were no baseline differences in cerebral perfusion pressure, brain oxygenation, as well as concentrations of pyruvate, lactate, glutamate, and glycerol between the groups. At 2 hours and 4 hours PR, the FFP group had significantly higher cerebral perfusion pressures (52 [5] mm Hg vs. 43 [2] mm Hg, p = 0.016; and 50 [7] mm Hg vs. 37 [1] mm Hg, p = 0.008, respectively). There was a sustained and significant (p < 0.05) drop in the glutamate and glycerol levels in the FFP group, implying a decrease in excitotoxicity and brain damage, respectively. Mitochondrial PDH activity was significantly higher (2,666.2 [638.2] adjusted volume INT × mm vs. 1,293.4 [88.8] adjusted volume INT × mm, p = 0.008), and cytosolic PDH activity was correspondingly lower (671.4 [209.2] adjusted volume INT × mm vs. 3070.7 [484.3] adjusted volume INT × mm, p < 0.001) in the FFP group, suggesting an attenuation of mitochondrial dysfunction and permeability. CONCLUSION In this model of TBI, polytrauma, and hemorrhage, FFP resuscitation confers neuroprotection by improving cerebral perfusion, diminishing glutamate-mediated excitotoxic secondary brain injury and reducing mitochondrial dysfunction.

Published

2013

9. Early treatment with lyophilized plasma protects the brain in a large animal model of combined traumatic brain injury and hemorrhagic shock

Author

Michael Duggan, Hasan B. Alam, Ayesha M. Imam, Cecilie H. Jepsen, Baoling Liu, Marc DeMoya, Jennifer Lu, George C. Velmahos, Guang Jin, Martin Sillesen, and John O. Hwabejire

Subjects

Intracranial Pressure, Traumatic brain injury, Swine, Resuscitation, Hemodynamics, Shock, Hemorrhagic, Critical Care and Intensive Care Medicine, Plasma, Edema, Medicine, Animals, Intracranial pressure, business.industry, medicine.disease, nervous system diseases, Disease Models, Animal, Treatment Outcome, Anesthesia, Shock (circulatory), Brain Injuries, Hemorrhagic shock, Surgery, Female, Fresh frozen plasma, medicine.symptom, business, Large animal

Abstract

Combination of traumatic brain injury (TBI) and hemorrhagic shock (HS) can result in significant morbidity and mortality. We have previously shown that early administration of fresh frozen plasma (FFP) in a large animal model of TBI and HS reduces the size of the brain lesion as well as the associated edema. However, FFP is a perishable product that is not well suited for use in the austere prehospital settings. In this study, we tested whether a shelf-stable, low-volume, lyophilized plasma (LSP) product was as effective as FFP.Yorkshire swine (42-50 kg) were instrumented to measure hemodynamic parameters, intracranial pressure, and brain tissue oxygenation. A prototype, computerized, cortical impact device was used to create TBI through a 20-mm craniotomy: 15-mm cylindrical tip impactor at 4 m/s velocity, 100-millisecond dwell time, and 12-mm penetration depth. Volume-controlled hemorrhage was induced (40-45% total blood volume) concurrent with the TBI. After 2 hours of shock, animals were treated with (1) normal saline (NS, n = 5), (2) FFP (n = 5), and (3) LSP (n = 5). The volume of FFP and LSP matched the shed blood volume, whereas NS was 3 times the volume. Six hours after resuscitation, brains were sectioned and stained with TTC (2, 3, 5-Triphenyltetrazolium chloride), and lesion size (mm) and swelling (percent change in volume compared with the contralateral, uninjured side) were measured.This protocol resulted in a highly reproducible brain injury, with clinically relevant changes in blood pressure, cardiac output, tissue hypoperfusion, intracranial pressure, and brain tissue oxygenation. Compared with NS, treatment with LSP significantly (p0.05) decreased brain lesion size and swelling (51% and 54%, respectively).In a clinically realistic combined TBI + HS model, early administration of plasma products decreases brain lesion size and edema. LSP is as effective as FFP, while offering many logistic advantages.

Published

2013

10. Pharmacologic modulation of cerebral metabolic derangement and excitotoxicity in a porcine model of traumatic brain injury and hemorrhagic shock

Author

Hasan B. Alam, Cecilie H. Jepsen, John O. Hwabejire, Danielle K. DePeralta, Ayesha M. Imam, Yongqing Li, Michael Duggan, Martin Sillesen, Guang Jin, Marc DeMoya, and Jennifer Lu

Subjects

Blood Glucose, medicine.medical_specialty, Traumatic brain injury, Swine, Microdialysis, Excitotoxicity, Pyruvate Dehydrogenase Complex, Brain damage, Shock, Hemorrhagic, medicine.disease_cause, Cerebral edema, Adenosine Triphosphate, Internal medicine, medicine, Animals, Cerebral perfusion pressure, Membrane Potential, Mitochondrial, business.industry, Valproic Acid, Glutamate receptor, Brain, medicine.disease, Pyruvate dehydrogenase complex, Disease Models, Animal, Endocrinology, Neuroprotective Agents, Biochemistry, Brain Injuries, Cerebrovascular Circulation, Surgery, Calcium, Female, Fresh frozen plasma, medicine.symptom, business

Abstract

Background Cerebral metabolic derangement and excitotoxicity play critical roles in the evolution of traumatic brain injury (TBI). We have shown previously that treatment with large doses of valproic acid (VPA) decreases the size of brain lesion. The goal of this experiment was to determine whether this effect was owing to metabolic modulation. Methods Yorkshire swine (n = 9) underwent a protocol of computer-controlled TBI and 40% hemorrhage and were resuscitated randomly with either fresh frozen plasma equal to the volume of shed blood (FFP; n = 4) or VPA (300 mg/kg) and FFP (FFP+VPA; n = 5). Hemodynamics, brain oxygenation, and blood glucose were monitored continuously for 6 hours after resuscitation. Cerebral microdialysis was used to measure glucose, lactate, pyruvate, glutamate, and glycerol levels at baseline, 1 and 2 hours post-shock, post-resuscitation (PR), and at 2, 4, and 6 hours PR. Brain samples from the injured side were then separated into mitochondrial and cytosolic fractions, and activity of pyruvate dehydrogenase complex (PDH) was measured using a dipstick assay kit. Results At baseline, there was no difference in brain lactate, pyruvate, glycerol, and glutamate concentrations between the groups. At all time points, there were no differences between the groups in brain oxygenation, cerebral perfusion pressure, or blood and brain glucose concentrations. After VPA infusion (PR time point), however, there was sustained decrease in lactate (0.91 ± 0.47 vs 2.54 ± 0.59 mmol/L; P < .01) and pyruvate (12.80 ± 4.89 vs 46.25 ± 9.22; P < .001) concentrations compared with the FFP alone group, implying superior glucose utilization for ATP production. There was also a decrease in concentrations of glutamate (6.64 ± 3.68 vs 42.25 ± 27.07 mmol/L; P = .02) and glycerol (19.20 ± 6.76 vs 69.75 ± 30.07 mmol/L; P = .01), in the FFP+VPA group, signifying lesser degree of excitotoxicity and brain damage, respectively. Brain PDH activity was greater in the mitochondrial fractions (5,984 ± 504 adjusted volume intensity [INT] × mm2 vs 4,332 ± 1,055 INT × mm2; P = .04) and lower in cytosolic fractions in the FFP+VPA group (1,597 ± 1,395 vs 4,026 ± 1,067 INT × mm2; P = .03), indicating better mitochondrial membrane function and enhanced mitochondrial PDH retention. Conclusion VPA treatment attenuates perturbation of post-traumatic cerebral metabolism by mitigating mitochondrial dysfunction, and decreases glutamate-mediated excitotoxic damage. These properties could explain its effectiveness in decreasing lesion size and post-traumatic cerebral edema.

Published

2013

11. Fresh-frozen plasma resuscitation after traumatic brain injury and shock attenuates extracellular nucleosome levels and deoxyribonuclease 1 depletion

Author

Lars S. Rasmussen, John O. Hwabejire, Cecilie H. Jepsen, Guang Jin, Rahmi Oklu, Ayesha M. Imam, Martin Sillesen, Hasan B. Alam, Hassan Albadawi, Pär I. Johansson, and Sisse R. Ostrowski

Subjects

medicine.medical_specialty, Mean arterial pressure, Resuscitation, Pathology, Traumatic brain injury, Swine, Neuroprotection, Lesion, Plasma, Internal medicine, medicine, Extracellular, Animals, Deoxyribonuclease I, business.industry, Shock, medicine.disease, Nucleosomes, Endocrinology, Shock (circulatory), Brain Injuries, Surgery, Female, Fresh frozen plasma, medicine.symptom, business

Abstract

Traumatic brain injury and shock are among the leading causes of trauma-related mortality. We have previously shown that fresh-frozen plasma (FFP) resuscitation reduces the size of brain lesion and associated swelling compared with crystalloids. We hypothesized that this effect would be associated with an attenuation of circulating nucleosome levels, a biomarker of injury with cytotoxic potential, through reconstitution of circulating deoxyribonuclease-1 (DNAse1), an enzyme identified as critical in nucleosome clearance from the circulation.Twelve swine underwent a protocol of traumatic brain injury followed by 40% volume-controlled hemorrhage. Animals were left in shock (mean arterial pressure of 35 mmHg) for 2 hours before they were resuscitated with normal saline (NS) or FFP. Circulating levels of nucleosomes and DNAse1 were measured whereas extracellular nucleosomes were quantified on brain histology. Lesion size and brain swelling were also quantified.Nucleosome levels were significantly greater in the NS group 6 hours after resuscitation (0.32 mU vs 0.15 mU, P = .030) whereas DNAse1 levels were substantially greater in the FFP group (9.82 ng/mL vs 4.54 ng/mL, P = .010). Circulating nucleosomes levels correlated with lesion size (rho = 0.79, P = .002) as well as brain swelling (rho = 0.89, P.001) whereas DNAse1 levels correlated with brain swelling (rho = -0.61, P = .036) but not lesion size (rho = -0.47, P = .124). Brain staining revealed nucleosome extracellularization in both groups, but this appeared more frequent in the NS-resuscitated animals.Our results show that resuscitation with FFP attenuates circulating nucleosome levels and prevents DNAse1 depletion. These factors may play a role in the neuroprotective effects observed during early resuscitation with FFP.

Published

2013

12. Pharmacologic resuscitation for hemorrhagic shock combined with traumatic brain injury

Author

Ali Y. Mejaddam, Hasan B. Alam, Guang Jin, Ayesha M. Imam, Cecilie H. Jepsen, Simona Socrate, Michael Duggan, Marc DeMoya, Jennifer Lu, George C. Velmahos, Baoling Liu, Martin Sillesen, John O. Hwabejire, and William Michael Smith

Subjects

Resuscitation, Traumatic brain injury, Swine, Hemodynamics, Blood volume, Shock, Hemorrhagic, Critical Care and Intensive Care Medicine, Lesion, Hydroxyethyl Starch Derivatives, medicine, Animals, Hetastarch, Intracranial pressure, Inflammation, business.industry, Valproic Acid, medicine.disease, Disease Models, Animal, Anesthesia, Shock (circulatory), Brain Injuries, Surgery, Drug Therapy, Combination, Female, medicine.symptom, Isotonic Solutions, business

Abstract

Background We have previously demonstrated that valproic acid (VPA), a histone deacetylase inhibitor, can improve survival after hemorrhagic shock (HS), protect neurons from hypoxia-induced apoptosis, and attenuate the inflammatory response. We have also shown that administration of 6% hetastarch (Hextend [Hex]) after traumatic brain injury (TBI) decreases brain swelling, without affecting size of the lesion. This study was performed to determine whether addition of VPA to Hex would decrease the lesion size in a clinically relevant large animal model of TBI + HS. Methods Yorkshire swine (42-50 kg) were instrumented to measure hemodynamic parameters, intracranial pressure, and brain tissue oxygenation. A custom-designed, computer-controlled cortical impact device was used to create a TBI through a 20-mm craniotomy: 15-mm cylindrical tip impactor at 4-m/s velocity, 100-millisecond dwell time, and 12-mm penetration depth. Volume-controlled hemorrhage was started (40% blood volume) concurrent with the TBI. After 2 hours of shock, animals were randomized to one of three resuscitation groups (n = 7 per group) as follows: (1) isotonic sodium chloride solution; (2) 6% hetastarch, Hex; and (3) Hex and VPA 300 mg/kg (Hex + VPA). Volumes of Hex matched the shed blood, whereas that of the isotonic sodium chloride solution was three times the volume. VPA treatment was started after an hour of shock. After 6 hours of postresuscitation monitoring, brains were sectioned into 5-mm slices and stained with 2, 3, 5-Triphenyltetrazolium chloride to quantify the lesion size (mm) and brain swelling (percent change compared with uninjured side). Levels of acetylated histone H3 were determined to quantify acetylation, and myeloperoxidase and interleukine-1β (IL-1β) levels were measured as markers of brain inflammation. Results Combination of 40% blood loss with cortical impact and a period of shock (2 hours) and resuscitation resulted in a highly reproducible brain injury. Lesion size and brain swelling in the Hex + VPA group (1,989 [156.8] mm, and 19% [1.6%], respectively) were significantly smaller than the isotonic sodium chloride solution group (3,335 [287.9] mm and 36% [2.2%], respectively). Hex alone treatment significantly decreased the swelling (27% [1.6%]) without reducing the lesion size. The number of CD11b-positive cells as well as myeloperoxidase and IL-1 levels in the brains were significantly reduced by the VPA treatment. Conclusion In a combined HS and TBI model, treatment with artificial colloid (Hex) improves hemodynamic parameters and reduces swelling, without affecting the actual size of the brain lesion. Addition of VPA effectively reduces both the size of brain lesion and associated swelling by attenuating the inflammatory response.

Published

2012

13. Fresh frozen plasma resuscitation attenuates platelet dysfunction and endothelial activation in a large animal model of poly-trauma

Author

Hasan B. Alam, Lars S. Rasmussen, Marc DeMoya, George C. Velmahos, John O. Hwabejire, Guang Jin, Cecilie H. Jepsen, Pär I. Johansson, Martin Sillesen, and Ayesha M. Imam

Subjects

Endothelial activation, Resuscitation, business.industry, Platelet dysfunction, Anesthesia, Medicine, Surgery, Fresh frozen plasma, business, Large animal

Published

2013

14. Synergistic Effects of Fresh Frozen Plasma and Valproic Acid Treatment in a Combined Model of Traumatic Brain Injury and Hemorrhagic Shock

Author

Marc DeMoya, Jennifer Lu, Guang Jin, Danielle K. DePeralta, Ayesha M. Imam, Martin Sillesen, John O. Hwabejire, Cecilie H. Jepsen, Yongqing Li, Hasan B. Alam, Michael Duggan, Simona Socrate, and Baoling Liu

Subjects

Valproic Acid, business.industry, Traumatic brain injury, Anesthesia, Hemorrhagic shock, Medicine, Surgery, Fresh frozen plasma, business, medicine.disease, medicine.drug

Published

2013

15. Valproic acid attenuates platelet dysfunction, endothelial glycocalyx shedding and protein C activation in a porcine model of traumatic brain injury and shock

Author

Marc DeMoya, Hasan B. Alam, George C. Velmahos, Guang Jin, Lars S. Rasmussen, Ayesha M. Imam, Cecilie H. Jepsen, Per I. Johansson, John O. Hwabejire, and Martin Sillesen

Subjects

Valproic Acid, medicine.medical_specialty, Traumatic brain injury, business.industry, Platelet dysfunction, medicine.disease, Endothelial glycocalyx, Endocrinology, Internal medicine, Shock (circulatory), Immunology, medicine, Surgery, medicine.symptom, business, Protein C, medicine.drug

Published

2013

16. Valproic acid increases endothelial glycocalyx shedding and decreases lesion size volume in a rodent model of severe isolated traumatic brain injury

Author

Hasan B. Alam, Cecilie H. Jepsen, Pär I. Johansson, Marc DeMoya, Anders Perner, and Martin Sillesen

Subjects

Valproic Acid, Pathology, medicine.medical_specialty, business.industry, Traumatic brain injury, Rodent model, medicine.disease, Endothelial glycocalyx, Lesion, Medicine, Surgery, medicine.symptom, business, medicine.drug

Published

2013

17. Pharmacological Modulation of Mitochondrial Dysfunction-induced Cerebral Metabolic Derangement and Excitotoxicity in a Porcine Model of Traumatic Brain Injury and Hemorrhagic Shock

Author

John O. Hwabejire, Ayesha M. Imam, Ginger Jin, Cecilie H. Jepsen, Danielle K. DePeralta, Martin Sillesen, Yongqing Li, Marc DeMoya, Jennifer Lu, George C. Velmahos, Simona Socrate, Michael Duggan, and Hasan B. Alam

Subjects

Pathology, medicine.medical_specialty, Metabolic derangement, business.industry, Traumatic brain injury, Excitotoxicity, medicine.disease, medicine.disease_cause, Anesthesia, Hemorrhagic shock, Medicine, Surgery, Pharmacological modulation, business

Published

2013

18. Fresh Frozen Plasma Attenuates Circulating Nucleosome Levels and DNASe1 Depletion Following Traumatic Brain Injury and Shock

Author

Pär I. Johansson, Hasan B. Alam, Lars S. Rasmussen, Ayesha M. Imam, Danielle K. DePeralta, Sisse R. Ostrowski, John O. Hwabejire, Hassan Albadawi, Ginger Jin, Cecilie H. Jepsen, Rahmi Oklu, Martin Sillesen, Jennifer Lu, George C. Velmahos, and Michael Duggan

Subjects

Traumatic brain injury, business.industry, Shock (circulatory), Anesthesia, medicine, Nucleosome, Surgery, Fresh frozen plasma, medicine.symptom, medicine.disease, business

Published

2013