Nitric oxide inhalation reduces brain damage, prevents mortality, and improves neurological outcome after subarachnoid hemorrhage by resolving early pial microvasospasms

Subarachnoid hemorrhage is a stroke subtype with particularly bad outcome. Recent findings suggest that constrictions of pial arterioles occurring early after hemorrhage may be responsible for cerebral ischemia and – subsequently – unfavorable outcome after subarachnoid hemorrhage. Since we recently hypothesized that the lack of nitric oxide may cause post-hemorrhagic microvasospasms, our aim was to investigate whether inhaled nitric oxide, a treatment paradigm selectively delivering nitric oxide to ischemic microvessels, is able to dilate post-hemorrhagic microvasospasms; thereby improving outcome after experimental subarachnoid hemorrhage. C57BL/6 mice were subjected to experimental SAH. Three hours after subarachnoid hemorrhage pial artery spasms were quantified by intravital microscopy, then mice received inhaled nitric oxide or vehicle. For induction of large artery spasms mice received an intracisternal injection of autologous blood. Inhaled nitric oxide significantly reduced number and severity of subarachnoid hemorrhage-induced post-hemorrhage microvasospasms while only having limited effect on large artery spasms. This resulted in less brain-edema-formation, less hippocampal neuronal loss, lack of mortality, and significantly improved neurological outcome after subarachnoid hemorrhage. This suggests that spasms of pial arterioles play a major role for the outcome after subarachnoid hemorrhage and that lack of nitric oxide is an important mechanism of post-hemorrhagic microvascular dysfunction. Reversing microvascular dysfunction by inhaled nitric oxide might be a promising treatment strategy for subarachnoid hemorrhage.

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Influence of inhaled nitric oxide and steroids on edema formation in lung and abdomen in an animal sepsis model

European Journal of Anaesthesiology ◽

10.1097/00003643-200406002-00604 ◽

2004 ◽

Vol 21 (Supplement 32) ◽

pp. 167

Author(s):

C. Willms ◽

L. Chen ◽

G. Hedenstierna

Keyword(s):

Nitric Oxide ◽

Inhaled Nitric Oxide ◽

Edema Formation ◽

Sepsis Model

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Role of endothelial nitric oxide synthase for early brain injury after subarachnoid hemorrhage in mice

Journal of Cerebral Blood Flow & Metabolism ◽

10.1177/0271678x20973787 ◽

2020 ◽

pp. 0271678X2097378

Author(s):

Irina J Lenz ◽

Nikolaus Plesnila ◽

Nicole A Terpolilli

Keyword(s):

Nitric Oxide ◽

Subarachnoid Hemorrhage ◽

Early Brain Injury ◽

Unfavorable Outcome ◽

Proper Function ◽

Microcirculatory Dysfunction ◽

Pial Arterioles ◽

Oxide Synthase ◽

Endothelial Nitric Oxide

The first few hours and days after subarachnoid hemorrhage (SAH) are characterized by cerebral ischemia, spasms of pial arterioles, and a significant reduction of cerebral microperfusion, however, the mechanisms of this early microcirculatory dysfunction are still unknown. Endothelial nitric oxide production is reduced after SAH and exogenous application of NO reduces post-hemorrhagic microvasospasm. Therefore, we hypothesize that the endothelial NO-synthase (eNOS) may be involved in the formation of microvasospasms, microcirculatory dysfunction, and unfavorable outcome after SAH. SAH was induced in male eNOS deficient (eNOS–/–) mice by endovascular MCA perforation. Three hours later, the cerebral microcirculation was visualized using in vivo 2-photon-microscopy. eNOS–/– mice had more severe SAHs, more severe ischemia, three time more rebleedings, and a massively increased mortality (50 vs. 0%) as compared to wild type (WT) littermate controls. Three hours after SAH eNOS–/– mice had fewer perfused microvessels and 40% more microvasospasms than WT mice. The current study indicates that a proper function of eNOS plays a key role for a favorable outcome after SAH and helps to explain why patients suffering from hypertension or other conditions associated with impaired eNOS function, have a higher risk of unfavorable outcome after SAH.

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Sites of vasodilation by inhaled nitric oxide vs. sodium nitroprusside in endothelin-constricted isolated rat lungs

Journal of Applied Physiology ◽

10.1152/jappl.1994.77.1.51 ◽

1994 ◽

Vol 77 (1) ◽

pp. 51-57 ◽

Cited By ~ 37

Author(s):

C. M. Roos ◽

G. F. Rich ◽

D. R. Uncles ◽

M. O. Daugherty ◽

D. U. Frank

Keyword(s):

Nitric Oxide ◽

Sodium Nitroprusside ◽

Pulmonary Veins ◽

Inhaled Nitric Oxide ◽

Large Artery ◽

Rat Lungs ◽

Large Vein ◽

Arteries And Veins ◽

Inhaled No ◽

Isolated Rat

We localized the sites of vasodilation of inhaled nitric oxide (NO), a selective pulmonary vasodilator, and sodium nitroprusside (SNP) in isolated rat lungs. The sites were determined by analyzing the arterial, venous, and double-occlusion data with a two-resistor (small arteries and veins) three-capacitor (large arteries, large veins, and capillaries) model of the pulmonary vascular bed. Inhaled NO (170 and 670 ppm) and SNP (22.5 and 45.0 micrograms) decreased the small-artery resistance by 7.4 +/- 1.6, 17.2 +/- 2.2, 14.2 +/- 2.8, and 21.4 +/- 3.4% and the small-vein resistance by 13.5 +/- 3.2, 20.3 +/- 3.4 (SNP of 22.5 micrograms not significant), and 9.3 +/- 3.3%, respectively, in blood-perfused lungs (n = 12). Similar results were observed in Krebs-perfused lungs (n = 12). Capillary compliance was unaffected by inhaled NO and SNP. SNP increased the large-artery capacitance by 40.0 +/- 8.6 and 69.3 +/- 9.7%, whereas inhaled NO had no effect. SNP increased the large-vein capacitance by 31.0 +/- 8.7 and 48.0 +/- 10.7%, whereas inhaled NO had no effect in blood-perfused lungs. However, in Krebs-perfused lungs inhaled NO and SNP (45.0 micrograms only) increased the large-vein capacitance by 43.3 +/- 11.9, 41.4 +/- 14.2, and 44.2 +/- 11.0%. In conclusion, in blood-perfused isolated rat lungs inhaled NO and SNP dilate small-resistance arteries and veins, whereas SNP but not inhaled NO dilates larger capacitance arteries and veins. Furthermore, blood appears to prevent the downstream vasodilation by inhaled NO on larger capacitance pulmonary veins.

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Transfusion of Stored Autologous Blood Alters Reactive Hyperemia and Circulating Nitrite Levels in Healthy Volunteers

Blood ◽

10.1182/blood.v118.21.2327.2327 ◽

2011 ◽

Vol 118 (21) ◽

pp. 2327-2327

Author(s):

Lorenzo Berra ◽

Walter Sunny Dzik ◽

Andrea Coppadoro ◽

Kenneth D. Bloch ◽

Binglan Yu ◽

...

Keyword(s):

Nitric Oxide ◽

General Hospital ◽

Massachusetts General Hospital ◽

Autologous Blood ◽

Reactive Hyperemia ◽

Bmp Signaling ◽

Inhaled Nitric Oxide ◽

Mortality And Morbidity ◽

Packed Red Blood Cells ◽

Plasma Nitrite

Abstract Abstract 2327 Background: Transfusion of human blood stored for over 2 weeks is associated with increased mortality and morbidity. During storage, packed red blood cells (PRBC) progressively release hemoglobin, which avidly binds nitric oxide (NO). We hypothesized that the NO mediated hyperemic response following ischemia would be reduced after transfusion of PRBC stored for 40 days. Methods and results: We conducted a cross-over randomized interventional study, enrolling ten healthy adults. Nine volunteers completed the study. Each volunteer received one unit of 40-day and one of 3-day stored autologous leukoreduced PRBC, on different study days according to a randomization scheme. Blood withdrawal and reactive hyperemia index (RHI) measurements were performed before and 10 minutes, 1 hour, 2 hours, and 4 hours after transfusion. The RHI was lower (13% mean post-transfusion difference) after transfusion of 40-day as compared to 3-day stored PRBC (p=0.01). Plasma cell-free hemoglobin and bilirubin levels were higher after transfusion of 40-day than after 3-day stored PRBC (p=0.02 and 0.001, respectively). Plasma levels of potassium, LDH, haptoglobin, cytokines, as well as blood pressure, did not differ between the two transfusions and remained within the normal range. Plasma nitrite concentrations increased after transfusion of 40-day stored PRBC, but not after transfusion of 3-day stored PRBC (p=0.01). Conclusions: Transfusion of autologous PRBC stored for 40 days is associated with increased hemolysis and reduced RHI, possibly due to enhanced NO scavenging by cell-free oxyhemoglobin. Disclosures: Bloch: Massachusetts General Hospital: Patents & Royalties, The Massachusetts General Hospital has filed patents related to the use of small molecule inhibitors of BMP signaling to modulate iron metabolism, and PBY, RTP and KDB may be eligible to receive royalties. Yu:Massachusetts General Hospital: Patents & Royalties. Zapol:Dr. Warren Zapol receives royalties from patents on inhaled nitric oxide licensed by Massachusetts General Hospital to Linde Corp, Munich, Germany, and Ikaria Corp, Clinton, New Jersey. Dr. Zapol has applied for patents on inhaled nitric oxide and blood t: Patents & Royalties.

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Influence Of Inhaled Nitric Oxide On Stored Red Blood Cell autotransfusion In Overweight Volunteers With Endothelial Dysfunction: Preliminary Results

Blood ◽

10.1182/blood.v122.21.790.790 ◽

2013 ◽

Vol 122 (21) ◽

pp. 790-790

Author(s):

Lorenzo Berra ◽

Riccardo Pinciroli ◽

Binglan Yu ◽

Christopher P. Stowell ◽

Kenneth D. Bloch ◽

...

Keyword(s):

Nitric Oxide ◽

Blood Transfusion ◽

Autologous Blood ◽

Reactive Hyperemia ◽

Inhaled Nitric Oxide ◽

Entire Study ◽

Plasma Hemoglobin ◽

Reactive Hyperemia Index ◽

No Consumption ◽

Stored Blood

Abstract Introduction Transfusion of stored packed erythrocytes is associated with excessive intra and extravascular hemolysis. High plasma cell-free hemoglobin levels rapidly scavenge endogenous nitric oxide (NO) leading in many species to systemic and pulmonary vasoconstriction, and a pro-inflammatory, pro-thrombotic state. Methods We conducted a crossover randomized interventional study of autologous stored blood transfusion. We enrolled fourteen overweight adults (BMI 28 to 40 Kg/m2) who also had evidence of impaired endothelial function.Endothelial dysfunction was determined by a reduced Reactive Hyperemia Index following 5 minutes of forearm tourniquet ischemia (RHI<1.8). Over 8 months each volunteer returned to the blood bank on 3 occasions to donate a unit of blood. In a randomized scheme,autologous blood was leukoreduced and stored in AS-3, and re-infused after a) 3-days of storage (3-d), b) 40-days of storage (40-d), or c) 40-days of storage and breathing 80 parts per million (ppm) NO (40-d+NO). Venous blood was sampled before and at 10min, 1h, 2h, 4h and 24h after autotransfusion. Plasma hemoglobin measurement Plasma hemoglobin was measured with a QuantiChrom Hemoglobin Assay Kit (BioAssaySystems, Hayward, CA). These samples were collected using 16 G catheters avoiding negative aspirating pressures to minimize ex vivo hemolysis (1). Plasma NO consumption The ability of plasma hemoglobin to scavenge NO was measured with an NO consumption assay with a NO chemiluminescenceanalyzer (Sievers, Boulder, CO) (2) Results Eleven volunteers completed the entire study. Volunteer characteristics at baseline were (mean ± SD): age: 41± 13 years; sex: 9 males, 5 females; BMI 33.2 ± 4.9 Kg/m2; reactive hyperemia index 1.59±0.18, and plasma levels of C-Reactive Protein 4.75 ±3.44 md/L. After autotransfusion the plasma hemoglobin and serum iron concentrations were increased from 1 to 4 hours after transfusing 40-days stored blood. No increase was detected after transfusing 3-days stored blood (p<0.01 value differs from b and c) (Figures 1a and 2). The plasma NO consumption assay showed an increased level in the 40-d group (p<0.05 value differs from both b and c) (Figure 1b). Plasma concentrations of potassium, lactate dehydrogenase, haptoglobin, cytokines, and systemic blood pressure did not differ between a, b and c and all remained within the normal range. Conclusions Transfusion of autologous packed erythrocytes stored for 40 days in AS3 is associated with increased hemolysis and increased plasma NO consumption,the latter is prevented by breathing 80 ppm NO. References 1. Berra L, Coppadoro A, Yu B, Lei C, Spagnolli E, Steinbicker AU, Bloch KD, Lin T, Sammy FY, Warren HS, Fernandez BO, Feelisch M, Dzik WH, Stowell CP, Zapol WM. Transfusion of stored autologous blood does not alter reactive hyperemia index in healthy volunteers. Anesthesiology. 2012;117(1):56-63. 2. Wang X, Tanus-Santos JE, Reiter CD, Dejam A, Shiva S, Smith RD, Hogg N, Gladwin MT. Biological activity of nitric oxide in the plasmatic compartment. ProcNatlAcadSci USA 2004;101:11477-11482. Disclosures: Off Label Use: Breathing Nitric Oxide during autologous stored blood transfusion. Bloch:MGH: Patents & Royalties. Zapol:IKARIA: Inhaled Nitric Oxide, Inhaled Nitric Oxide Patents & Royalties.

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