Evaluating the effects of hypoxic storage on platelet function and health using a novel storage system.

Background: Thousands of units of whole blood (WB) and blood components are transfused daily to treat trauma patients. Improved methods for blood storage are critical to support trauma-related care. The Hemanext ONE® system offers a unique method for hypoxic storage of WB, with successfully demonstrated storage of clinically viable RBCs.

Hypoxically stored RBC resuscitation in a rat model of traumatic brain injury and severe hemorrhagic shock.

This study aims to investigate the effects of hypoxically stored Red Blood Cells (RBCs) in a rat model of traumatic brain injury followed by severe hemorrhagic shock (HS) and resuscitation. RBCs were made hypoxic using an O depletion system (Hemanext Inc. Lexington, MA) and stored for 3 weeks.

Global burden of transfusion in sickle cell disease.

Sickle cell disease (SCD) is the most common hereditary hemoglobinopathy. The underlying pathophysiology of the red blood cell (RBC) leads to pan-systemic complications which manifest at an early age. While curative and disease-modifying treatments exist for SCD, a key intervention in the management and treatment of SCD is RBC transfusion, which can alleviate or prevent many complications.

Safety of hypoxic red blood cell administration in patients with transfusion-dependent hematological malignancies: An interim analysis.

Anemia is a common symptom of hematological malignancies and red blood cell (RBC) transfusion is the primary supportive treatment, with many patients becoming transfusion dependent. Hemanext Inc. (Lexington, MA, United States) has developed a CE mark certified device to process and store RBCs hypoxically - citrate-phosphatedextrose (CPD)/phosphate-adenine-glucose-guanosine-saline-mannitol (PAGGSM) RBCs, leukocytes-reduced (LR), O/CO reduced - with the aim of improving RBC quality for transfusion.

Effect of Hypoxic Blood Infusion on Pulmonary Physiology.

The ability to store red blood cells (RBCs) and other components for extended periods of time has expanded the availability and use of transfusion as a life-saving therapy. However, conventional RBC storage has a limited window of effective preservation and is accompanied by the progressive accumulation of a series of biochemical and morphological modifications, collectively referred to as "storage lesions." These lesions have been associated with negative clinical outcomes (i.