Reviewers’ Notes
Lab-on-a-chip technologies offer new ways to assess stored red blood cells
Ziya Isiksacan, PhD, a research fellow in the Center for Engineering in Medicine and Surgery (CEMS) is the lead author, and Osman Berk Usta, PhD, an investigator in the CEMS at Massachusetts General Hospital and an associate professor of Surgery at Harvard Medical School, is the senior author of a new study published in PNAS, Assessment of Stored Red Blood Cells Through Lab-on-a-Chip Technologies for Precision Transfusion Medicine.
The article is a collaboration between multiple international institutes and disciplines, and seeks to create discussion and change towards better assessment of stored blood.
What question were you investigating?
This is a perspective article that is prompted by issues regarding the quality of stored Red Blood Cells (RBCs) and the lack of good assessment prior to their transfusion. Specifically, we and others posit that stored RBCs, under current practices, are not always safe to transfuse due to donor, time, and processing factors. This is especially problematic for critically ill patients, those on chronic transfusion regimens, and surgeries where large volumes of RBCs are transfused.
Accordingly, we have, in this perspective, highlighted the lack of quantitative assessment of stored RBCs before transfusion on a unit-by-unit basis, a notable failure in this era of personalized medicine. We foresee that, over the next decade, state-of-the-art technologies such as -omics and machine learning can be combined to first identify a set of key quantitative quality metrics (i.e., a quality index) for stored RBCs. These quality indices can then guide lab-on-a-chip platforms armed with novel biosensors to continuously monitor stored RBC quality and then match the properties of the RBC unit to the needs of the patient.
What were your findings?
What makes this article unique is the wide breadth of authors representing the different stakeholders that will ultimately contribute to the solutions proposed in the perspective article. Specifically, we have recruited experts from hematology, transfusion medicine, blood storage and biopreservation, -omics, engineering and life sciences, global health, and ethics who represent both academic and industrial points of view.
Lab-on-a-chip technologies can ensure a more successful transfusion workflow by enabling objective assessment of stored RBC units using quality metrics identified by -omics and machine learning, thus ushering in a new era of precision transfusion medicine. Addressing the potential and challenges of precision transfusion medicine will facilitate the proposed convergent future whereby each stored RBC unit is assessed prior to transfusion via a quality index. This will require all stakeholders (including experts in blood banking, biopreservation, transfusion medicine, -omics, machine learning, bioengineering, ethics, regulation, and ultimately patients) to participate in multidisciplinary discussions and collaborations rather than their current isolated efforts. This Perspective – where we have a diverse team of such stakeholders – is a step towards this envisioned era of precision in transfusion medicine.
What are the clinical implications?
Our envisioned workflow, discussed in this perspective, was conceived for safer (less adverse effects and complications) and more efficacious transfusion. As noted, lack of quality assessment of stored RBCs can be especially problematic for critically ill patients, those on chronic transfusion regimens, and surgeries where large volumes of RBCs are transfused. Thus, if the envisioned workflows are realized, they would represent a momentous step forward for patient safety.
What are the next steps?
This perspective was written by a consortium of authors representing different stakeholders with the goal of envisioning and creating a better future for transfusion medicine safety with the use of advanced technologies. As such, our next steps are to create interactive forums (conferences and workgroups) to engage and mobilize a larger number of stakeholders to realize the envisioned goals outlined in this perspective.
Massachusetts General Hospital
Isiksacan Z, D'Alessandro A, Wolf SM, McKenna DH, Tessier SN, Kucukal E, Gokaltun AA, William N, Sandlin RD, Bischof J, Mohandas N, Busch MP, Elbuken C, Gurkan UA, Toner M, Acker JP, Yarmush ML, Usta OB (2023). Assessment of stored red blood cells through lab-on-a-chip-technologies for precision transfusion medicine. PNAS 10.1073/pnas.2115616120
Posted in: Device / Technology News | Medical Science News
Tags: Biochemistry, Bioengineering, Bioethics, Blood, Cell, Children, CHIP, Chronic, Diagnostics, Global Health, Healthcare, Hematology, Hospital, Infectious Diseases, Lab-on-a-Chip, Machine Learning, Medical School, Medicine, Metabolomics, Microfluidics, Morphology, Pathology, Proteomics, Red Blood Cells, Research, Surgery, Technology, Tissue Engineering