Extracorporeal therapy of sepsis by purified granulocyte concentrates: ex vivo circulation model

Klinkmann, Gerd; Wild, T. Cameron; Heskamp, Benjamin; Doß, Sandra; Milej, Magdalena; Thiele, Lea‐Marie; Goudeva, Lilia; Blasczyk, Rainer; Reuter, Daniel A.; Altrichter, Jens; Mitzner, Steffen

doi:10.1111/aor.14507

Artificial Organs

2023

DOI: 10.1111/aor.14507

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Extracorporeal therapy of sepsis by purified granulocyte concentrates: ex vivo circulation model

Gerd Klinkmann

T. Cameron Wild²,

Benjamin Heskamp³

et al.

Abstract: Background Immune cell dysfunction is a central part of immune paralysis in sepsis. Granulocyte concentrate (GC) transfusions can induce tissue damage via local effects of neutrophils. The hypothesis of an extracorporeal plasma treatment with granulocytes is to show beneficial effects with fewer side effects. Clinical trials with standard GC have supported this approach. This ex vivo study investigated the functional properties of purified granulocyte preparations during the extracorporeal plasma treatment. Me… Show more

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2024

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Cited by 3 publications

References 26 publications

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„Bridge over troubled water“ oder „road to nowhere“?

Klinkmann,

Au,

Mitzner

et al. 2024

Nephrologie

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„Bridge over troubled water“ oder „road to nowhere“?

Klinkmann,

Au,

Mitzner

et al. 2024

Nephrologie

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Purified Granulocyte Concentrates from Buffy Coats with Extended Storage Time

Klinkmann,

Doss,

Doss

et al. 2024

Transfus Med Hemother

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Background: Granulocyte concentrates (GCs) are usually prepared by single-donor apheresis after G-CSF pretreatment and have to be transfused within 24 h after cell collection because of the rapid decrease in pH and cell survival due to high lactate production by red blood cell contamination. GCs pooled from buffy coats of whole blood donations could improve the availability of these products. Methods to reduce red blood cell and platelet contamination may improve storability. We developed a manufacturing process for pooled GCs and investigated cell viability and functionality over time. Methods: Six ABO blood group-identical buffy coats were pooled. Subsequently, the red blood cells spontaneously sedimented after the addition of hydroxyethyl starch. The resulting leukocyte-enriched supernatant was washed twice with saline to reduce platelets and was resuspended in ABO-identical donor plasma. The leukocyte concentrate was transferred to a platelet storage bag and stored up to 72 h at 20–24°C w/o agitation. Cell count and viability, pH, blood gases, phagocytosis, and oxidative burst activity were monitored. Results: The number of red blood cells and platelets was reduced to 0.4% and 6.1% of the baseline levels. About 50% of the original present leukocytes could be extracted (n = 76). In the course of 72 h of storage, there were no significant changes in white blood cell counts (p = 0.12). The viability exceeded 98% during the entire period. The rate of granulocytes performing phagocytosis and oxidative burst remained above 95% anytime. Conclusion: GCs prepared from pooled buffy coats provide a precious alternative to granulocytes obtained from apheresis. Reduction of red blood cells and platelets by more than 90% extends the maximum shelf life of GCs from 24 h to 72 h. For a therapeutic dose of at least 1 × 1010 granulocytes, 15–20 buffy coats are required.

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Purified granulocytes in extracorporeal cell therapy: A multifaceted approach to combat sepsis-induced immunoparalysis

Klinkmann,

Brabandt,

Möller

et al. 2024

Int J Artif Organs

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Background: Immune cell dysfunction plays a central role in sepsis-induced immunoparalysis. Targeted treatment using healthy donor immune cell transfusions, particularly granulocyte concentrates (GC) potentially induces tissue damage. Initial trials using GC in an extracorporeal immune cell perfusion system provided evidence for beneficial effects with fewer side effects, by separating patient and donor immune cell compartments. A multicenter clinical trial is exploring feasibility and effects of a 6-h treatment (NCT06143137). This ex vivo study examines technical feasibility and cellular effects of an extended treatment interval up to 24 h. Methods: Standard GC were purified to increase the potential storage time and subsequently implemented in the extracorporeal immune cell perfusion system. Parameters assessed included cell viability, phagocytosis activity, oxidative burst, cytokine release, and metabolic parameters of purified. GC during an extended circulation time of up to 24 h. Results: After storage of 72 h granulocytes were viable throughout the study period and exhibited preserved functionality and metabolic activity. The findings highlight a time-dependent nature of cytokine release by neutrophils in the extracorporeal circuit, as cytokine secretion patterns showed IL-8 peaking within 6 h, while MCP-1, IL-6, IL-1β, and TNF-α increased after 24 h of circulation. Conclusion: Purified GC remain functional after 72 h of storage and additional 24 h in the circulating treatment model. Cytokine secretion patterns revealed a significant increase, especially between 10 and 24 h of treatment. Extending treatment time holds promise for enhancing immune response against sepsis-induced immunoparalysis. These findings provide valuable insights for optimizing immune-targeted therapeutic interventions.

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Extracorporeal therapy of sepsis by purified granulocyte concentrates: ex vivo circulation model

Cited by 3 publications

References 26 publications

„Bridge over troubled water“ oder „road to nowhere“?

„Bridge over troubled water“ oder „road to nowhere“?

Purified Granulocyte Concentrates from Buffy Coats with Extended Storage Time

Purified granulocytes in extracorporeal cell therapy: A multifaceted approach to combat sepsis-induced immunoparalysis

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