Centrifugation-induced release of ATP from red blood cells

Mancuso, Jordan E.; Jayaraman, Anjana; Ristenpart, William D.

doi:10.1371/journal.pone.0203270

Cited by 12 publications

(12 citation statements)

References 39 publications

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“…53 The adverse effects to cells as associated with the spinning duration and centrifugal force was also explored and correlated to adenosine triphosphate (ATP) (organic compound that drives many metabolic processes in cells) release with haemolysis. 35 An increase in the concentration of ATP was observed (from 1.4-4.7 nM) as the centrifugation time increased from 1 to 5 min (Fig. 1c) while varying the applied centrifugal force from 900-16 000 Â g. 35 The magnitude of ATP in the packed RBCs obtained using the parameters explored suggests that care must be taken when interpreting ATP transduction data in experiments that utilize centrifugation.…”

Section: Spinning Durationmentioning

confidence: 95%

“…The main challenge of using centrifugation-based apheresis is the occurrence of haemolysis, or rupture of blood cells, caused by shear stress introduced during spinning. 35 The extent of haemolysis is dependent on centrifugal operating conditions such as operating mode to be used, centrifugal force, spinning duration and number of centrifugal cycles and will be discussed in this section.…”

Section: Ludovic F Dume ´Ementioning

confidence: 99%

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Blood apheresis technologies – a critical review on challenges towards efficient blood separation and treatment

et al. 2021

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Section: Spinning Durationmentioning

confidence: 95%

Section: Ludovic F Dume ´Ementioning

confidence: 99%

Blood apheresis technologies – a critical review on challenges towards efficient blood separation and treatment

et al. 2021

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“…Careful evaluation of the state of RBCs post processing is paramount in selecting the ideal biologic. Several laboratory investigations have confirmed that centrifugal forces in the range of 500-1,500 g for 10 minutes impart no hemolytic damage to blood samples; however repeat centrifugation cycles within such a g-force range could raise levels of PFH within the supernatant (79).…”

Section: Red Blood Cell (Rbc) Hemolysismentioning

confidence: 99%

Temporomandibular joint biosupplementation using platelet concentrates: a narrative review

Herrera-Vizcaíno¹,

Albilia²

2021

Front Oral Maxillofac Med

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The study aims to identify the latest treatment protocols implementing platelet concentrates (PCs) to treat temporomandibular joint internal derangement (TMJ-ID) alone or in combination with arthroscopy/arthrocentesis.Background: Biosupplementation to treat TMJ-ID refers to the injection of an autologous product which possesses biological activity in the synovial joint, insofar as modulation of the inflammatory process, and can set the stage for tissue repair and/or tissue regeneration. PCs are increasingly used and tested, as an easily accessible biosupplement, for TMJ-ID.Methods: A systematic approach was used to perform the literature search. The study involves a presentation of recent data and a general discussion in the form of a narrative review regarding the biological characteristics and preparation protocols of PCs, the treatment protocols for TMJ-ID and clinical outcomes. Conclusions:The PCs described in the literature to treat TMJ-ID are platelet rich plasma (PRP), plasma rich in growth factors (PRGF), platelet-rich fibrin (PRF) and concentrated growth factors (CGF). All studies reported PCs as a beneficial therapeutic for TMJ-ID, in terms of arthralgia, joint noises and mandibular range of motion. Despite the biological differences among the various PCs, there exists similarities that could explain the reported benefits. The authors recommend clinicians the implementation of the acronym AR2T3 to standardize the reporting of PC preparations in future studies. Our findings suggest that non-surgical treatment through biosupplementation using PCs provides an alternative therapy or adjunct for painful TMJ-ID. The reduction in pain and dysfunction may avoid the need for TMJ surgery.

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“…Supraphysiologic levels of mechanical force, resulting either from poorly controlled deformation as the primary stimulus, or from inadvertent mechanical force of gases used to bubble RBC solutions to induce hypoxia, will unquestionably lead to cell rupture and the release of cellular contents (RBC lysis) including ATP. Importantly, the centrifugation used to separate the plasma or supernatant from treated RBCs can itself be sufficient to produce hemolysis, with liberation of ATP (Mancuso et al, 2018). We recommend gentle centrifugation for supernatant separation.…”

Section: Rbc Mediators Deformation and Adhesion In Disease Statesmentioning

confidence: 99%

Red Blood Cell Deformability, Vasoactive Mediators, and Adhesion

McMahon

2019

Front. Physiol.

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Healthy red blood cells (RBCs) deform readily in response to shear stress in the circulation, facilitating their efficient passage through capillaries. RBCs also export vasoactive mediators in response to deformation and other physiological and pathological stimuli. Deoxygenation of RBC hemoglobin leads to the export of vasodilator and antiadhesive S-nitrosothiols (SNOs) and adenosine triphosphate (ATP) in parallel with oxygen transport in the respiratory cycle. Together, these mediated responses to shear stress and oxygen offloading promote the efficient flow of blood cells and in turn optimize oxygen delivery. In diseases including sickle cell anemia and conditions including conventional blood banking, these adaptive functions may be compromised as a result, for example, of limited RBC deformability, impaired mediator formation, or dysfunctional mediator export. Ongoing work, including single cell approaches, is examining relevant mechanisms and remedies in health and disease.

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Centrifugation-induced release of ATP from red blood cells

Cited by 12 publications

References 39 publications

Blood apheresis technologies – a critical review on challenges towards efficient blood separation and treatment

Blood apheresis technologies – a critical review on challenges towards efficient blood separation and treatment

Temporomandibular joint biosupplementation using platelet concentrates: a narrative review

Red Blood Cell Deformability, Vasoactive Mediators, and Adhesion

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