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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT03748082
Other study ID # EndoNO
Secondary ID
Status Recruiting
Phase Phase 2
First received
Last updated
Start date December 5, 2018
Est. completion date November 2023

Study information

Verified date November 2022
Source Massachusetts General Hospital
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This study is an ancillary (add-on) study to the clinical trial entitled "Effect of Nitric Oxide in Cardiac Surgery Patients With Endothelial Dysfunction", which has Clinical Trials.gov identifier NCT02836899. NCT02836899 trial randomizes cardiac surgical patients to receive either Nitric Oxide (NO) or a placebo during and after cardiac surgery. This ancillary study aims to assess the effects of Nitric Oxide on vascular responsiveness and on endothelial function during hemolysis in patients with pre-operative endothelial dysfunction undergoing cardiac surgery requiring prolonged cardiopulmonary bypass.


Description:

Endothelial cells regulate tissue perfusion by releasing nitric oxide (NO), a potent endogenous dilator of vascular smooth muscle cells, which modifies vascular tone. Under normal physiological conditions, vascular NO is released by endothelial NO synthase (eNOS). Impairment of the eNOS, as seen in patients with atherosclerosis, peripheral vascular disease, hypertension, obesity, and diabetes, is a feature of endothelial dysfunction.The inability to increment eNOS activity is particularly evident in conditions of decreased vascular NO bioavailability, such as during hemolysis associated with prolonged cardiopulmonary bypass (CPB>90 min). During hemolysis, ferrous plasma free hemoglobin (Oxy-Hb) is released into the circulation and can be injurious for the endothelial cells by exerting an oxidative and proinflammatory effect. Moreover, plasma free Oxy-Hb can scavenge vascular NO, reducing its bioavailability as ferrous Oxy-Hb is transformed into ferric methemoglobin (Met-Hb). The clinical results of reduced bioavailability of vascular NO have been found to be associated with both systemic and pulmonary vasoconstriction, ultimately leading to reduced tissue perfusion. The exogenous administration of NO has been shown to prevent the scavenging of endogenous NO by inactivating the highly oxidative-reactive ferrous plasma Oxy-Hb to ferric Met-Hb. Our group is conducting a randomized controlled trial at Massachusetts General Hospital (Boston, USA) in patients with signs and symptoms of endothelial dysfunction, undergoing cardiac surgery requiring prolonged CPB and randomized to receive NO or placebo. However, the mechanisms underlying the beneficial systemic effects of NO administration have still to be determined. This is an ancillary study that aims to (I) assess the effects of hemolysis on vascular responsiveness and on endothelial function in patients with pre-operative endothelial dysfunction and (II) to determine the vascular protective effects of NO administration.


Recruitment information / eligibility

Status Recruiting
Enrollment 40
Est. completion date November 2023
Est. primary completion date November 2023
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Eligible and randomized in the trial NCT02836899 - Provide written informed consent - Age = 18 years of age - Elective cardiac or aortic surgery with CPB >90 minutes - Clinical evidence of endothelial dysfunction assessed by a specifically designed questionnaire Exclusion Criteria: - Estimated Glomerular Filtration Rate less than 30 ml/min/1.73 m2 - Emergent cardiac surgery - Life expectancy < 1 year at the time of enrollment - Hemodynamic instability as defined by a systolic blood pressure <90 mmHg. - Mean pulmonary artery pressure = 40 mm Hg and PVR > 4 Wood Units. - Left ventricular ejection fraction < 30% by echocardiography obtained within three months of enrollment - Administration of one or more Packed Red Blood Cell (PRBC) transfusions in the week prior to enrollment - X-ray contrast infusion less than 48 hours before surgery - Evidence of hemolysis from any other origin: a. Intravascular: i. Intrinsic RBC defects leading to hemolytic anemia (eg, enzyme deficiencies, hemoglobinopathies, membrane defects) ii. Extrinsic: liver disease, hypersplenism, infections (eg, bartonella, babesia, malaria), treatment with oxidizing exogenous agents (eg, dapsone, nitrites, aniline dyes), exposure to other hemolytic agents (eg, lead, snake and spider bites), lymphocyte leukemia, autoimmune hemolytic disorders b. Extravascular: Infection (eg, clostridial sepsis, severe malaria), paroxysmal cold hemoglobinuria, cold agglutinin disease, paroxysmal nocturnal hemoglobinuria, iv infusion of Rho(D) immune globulin, iv infusion of hypotonic solutions

Study Design


Intervention

Drug:
Nitric Oxide
Inhaled nitric oxide (iNO) will be administered via the CPB machine and after CPB via the inspiratory limb of the anesthetic or ventilator circuit, and thereafter via the mechanical ventilator in the ICU. Test gas administration will commence at the onset of CPB and last for 24 hours. At the end of 24 hours, iNO will be weaned and discontinued.
Diagnostic Test:
Reactive Hyperemia Index
Vascular responsiveness will be assessed with peripheral arterial tonometry which measures the transient increase in forearm blood flow (Reactive Hyperemia Index, RHI) in response to a five-minute occlusion of the brachial artery with a pressure cuff.
Procedure:
Endothelial Cells Collection
Endothelial cells are collected before and after surgery from a peripheral vessel using a soft J-shaped wire inserted through an intravascular catheter.

Locations

Country Name City State
United States Boston Medical Center Boston Massachusetts
United States Massachusetts General Hospital Boston Massachusetts

Sponsors (6)

Lead Sponsor Collaborator
Massachusetts General Hospital Jennifer En-Sian Ho M.D., Massachusetts General Hospital, Marrazzo, Francesco, M.D., Massachusetts General Hospital, Naomi M Hamburg, M.D., Boston University, Spina, Stefano, M.D., Massachusetts General Hospital, Zadek, Francesco, M.D., Massachusetts General Hospital

Country where clinical trial is conducted

United States, 

References & Publications (4)

Hamburg NM, Keyes MJ, Larson MG, Vasan RS, Schnabel R, Pryde MM, Mitchell GF, Sheffy J, Vita JA, Benjamin EJ. Cross-sectional relations of digital vascular function to cardiovascular risk factors in the Framingham Heart Study. Circulation. 2008 May 13;117(19):2467-74. doi: 10.1161/CIRCULATIONAHA.107.748574. Epub 2008 May 5. — View Citation

Lei C, Berra L, Rezoagli E, Yu B, Dong H, Yu S, Hou L, Chen M, Chen W, Wang H, Zheng Q, Shen J, Jin Z, Chen T, Zhao R, Christie E, Sabbisetti VS, Nordio F, Bonventre JV, Xiong L, Zapol WM. Nitric Oxide Decreases Acute Kidney Injury and Stage 3 Chronic Kidney Disease after Cardiac Surgery. Am J Respir Crit Care Med. 2018 Nov 15;198(10):1279-1287. doi: 10.1164/rccm.201710-2150OC. — View Citation

Rezoagli E, Ichinose F, Strelow S, Roy N, Shelton K, Matsumine R, Chen L, Bittner EA, Bloch DB, Zapol WM, Berra L. Pulmonary and Systemic Vascular Resistances After Cardiopulmonary Bypass: Role of Hemolysis. J Cardiothorac Vasc Anesth. 2017 Apr;31(2):505-515. doi: 10.1053/j.jvca.2016.06.009. Epub 2016 Jun 8. — View Citation

Tabit CE, Shenouda SM, Holbrook M, Fetterman JL, Kiani S, Frame AA, Kluge MA, Held A, Dohadwala MM, Gokce N, Farb MG, Rosenzweig J, Ruderman N, Vita JA, Hamburg NM. Protein kinase C-ß contributes to impaired endothelial insulin signaling in humans with diabetes mellitus. Circulation. 2013 Jan 1;127(1):86-95. doi: 10.1161/CIRCULATIONAHA.112.127514. Epub 2012 Nov 30. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Other Endothelial Nitric Oxide Synthase (eNOS) enzymatic activity eNOS enzymatic activity will be measured in endothelial cells. Activation of eNOS will be assessed through quantification of its expression by quantitative immunofluorescence and through evaluation of phosphorylation levels at different enzymatic sites at baseline and in response to specific agonists; NO bioavailability will be evaluated through fluorescence intensity after challenge with agonists as A23187; additionally, nitrotyrosine levels and other markers will be measured to evaluate endothelial oxidative stress. Endothelial Cells will be collected perioperatively before anesthesia induction and at 24 hours after CPB during ICU admission.
Other Pulmonary vascular resistances (PVR) PVR will be measured through a pulmonary artery catheter (PAC) placed in the internal jugular vein after induction of anesthesia. Cardiac output will be measured with the thermodilution technique and pulmonary vascular resistances will be calculated. PVR will be measured every 6 hours after surgery for 24 hours after cardiopulmonary bypass start.
Other Systemic vascular resistances (SVR) SVR will be measured through a pulmonary artery catheter (PAC) placed in the internal jugular vein after induction of anesthesia. Cardiac output will be measured with the thermodilution technique and systemic vascular resistances will be calculated. SVR will be measured every 6 hours after surgery for 24 hours after cardiopulmonary bypass start.
Primary Reactive Hyperemia Index (RHI) A finger plethysmograph will measure the transient increase in forearm blood flow (Reactive Hyperemia Index, RHI) in response to a 5 minutes occlusion of the brachial artery with a pressure cuff (Peripheral Artery Tonometry). The test will be performed perioperatively before anesthesia induction and at 24 hours after CPB during ICU admission.
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