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Comparison of platelet quality and function across apheresis collection platforms

Thomas, Kimberly A. ; Srinivasan, Amudan J. ; McIntosh, Colby ; [et al.]

Wiley ; 2023

In: Transfusion Vol. 63, No. S3 ( 2023-05)

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In: Transfusion, Wiley, Vol. 63, No. S3 ( 2023-05)

Abstract: Platelet concentrates (PLT) can be manufactured using a combination of apheresis collection devices and suspension media (plasma or platelet additive solution (PAS)). It is unclear how platelet quality and hemostatic function differ across the current in‐use manufacturing methods in the United States. The objective of this study was therefore to compare baseline function of PLT collected using different apheresis collection platforms and storage media. Study Design and Methods PLT were collected at two sites with identical protocols ( N = 5 per site, N = 10 total per group) on the MCS® + 9000 (Haemonetics; “MCS”), the Trima Accel® 7 (Terumo; “Trima”), and the Amicus Cell Separator (Fresenius Kabi, “Amicus”). MCS PLT were collected into plasma while Trima and Amicus PLT were collected into plasma or PAS (Trima into Isoplate and Amicus into InterSol; yielding groups “TP”, “TI” and “AP”, “AI”, respectively). PLT units were sampled 1 h after collection and assayed to compare cellular counts, biochemistry, and hemostatic function. Results Differences in biochemistry were most evident between plasma and PAS groups, as anticipated. MCS and TP had the highest clot strength as assessed by viscoelastometry. AI had the lowest thrombin generation capacity. Both TP and TI had the highest responses on platelet aggregometry. AI had the greatest number of microparticles. Discussion Platelet quality and function differ among collection platforms at baseline. MCS and Trima platelets overall appear to trend toward higher hemostatic function. Future investigations will assess how these differences change throughout storage, and if these in vitro measures are clinically relevant.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.v63.S3

DOI: 10.1111/trf.17370

Language: English

Publisher: Wiley

Publication Date: 2023

detail.hit.zdb_id: 2018415-3

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Effect of Extended Platelet Storage on Platelet Metabolism and Clot Retraction

Nair, Prajeeda M ; Meledeo, Michael Adam ; Wu, Xiaowu ; [et al.]

American Society of Hematology ; 2019

In: Blood Vol. 134, No. Supplement_1 ( 2019-11-13), p. 2450-2450

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In: Blood, American Society of Hematology, Vol. 134, No. Supplement_1 ( 2019-11-13), p. 2450-2450

Abstract: Background: Platelet (PLT) hemostatic responses are heavily dependent on PLT bioenergetics which drives the generation of PLT contractile forces and contribute to mechanical hemostasis. Although effective clot retraction (CR) requires PLT adhesion, aggregation and formation of strong clots, CR remains an understudied PLT function. In this work, we hypothesize that well-conserved PLT bioenergetics during storage is crucial for highly energy-dependent PLT functions including CR. To further investigate this correlation, we characterized the effect of extended PLT storage for up to 15 days on PLT bioenergetics and CR at room temperature (22°C, RT) and refrigeration (4°C, 4C). Methods: Apheresis PLT concentrates in plasma were collected from 5 healthy donors and stored for 21 days at RT with agitation, or stored stationary in the cold (4C). Fresh PLTs were treated with metabolic inhibitors for 1 hour at 37°C, recalcified with 20mM calcium chloride, and incubated at 37°C to initiate CR. The clot weights were measured post retraction, and the clots were prepared for immunohistochemistry to assess clot structure. Similarly, extent of retraction and mitochondrial respiration levels were estimated in PLTs stored for 5, 10 and 15 days. Additionally, Platelet additive solution (PAS) stored PLTs were tested as a viable alternative to plasma storage to improve metabolic exhaustion during storage. Results: 4C-stored PLTs in plasma retracted similar to fresh PLTs for up to 15 days. In comparison, RT-stored PLTs in plasma did not retract after 10 days, whereas PLTs stored in PAS at RT or 4C seemed to retain their contractile function for up to 15 days (Fig 1A). 4C-stored and fresh PLTs yielded heavier clots with a highly organized structure compared to the disorganized structure of clots from RT-stored PLTs. Mitochondrial respiration was significantly reduced over 10 days in RT- plasma stored PLTs, which was mitigated by PAS storage. Similarly, 4C storage in PAS mitigated the reduction in respiration seen in 15 days 4C- stored PLTs in plasma (Fig 1B). Conclusion: Retraction properties of 4C-stored PLTs were similar to those of fresh PLTs, together with superior clot structure and function compared to RT- stored PLTs. This suggests that 4C storage could be a suitable alternative for extended storage. In RT-stored PLTs, reduction in mitochondrial respiration did not show any correlation with the reduced ability of PLTs to retract, suggesting that preserved glycolysis in PAS- stored RT-stored PLTs enabled CR. Thus, storing PLTs in PAS at RT or 4C could potentially mitigate mitochondrial dysfunction during extended storage. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2019-131116

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2019

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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An in vitro pilot study of apheresis platelets collected on Trima Accel system and stored in T‐PAS+ solution at refrigeration temperature (1‐6°C)

Reddoch‐Cardenas, Kristin M. ; Sharma, Umang ; Salgado, Christi L. ; [et al.]

Wiley ; 2019

In: Transfusion Vol. 59, No. 5 ( 2019-05), p. 1789-1798

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In: Transfusion, Wiley, Vol. 59, No. 5 ( 2019-05), p. 1789-1798

Abstract: Using platelet additive solution (PAS) to dilute fibrinogen during long‐term cold storage of platelets (PLTs) decreases PLT activation and increases functional PLT shelf life. We performed a randomized, paired study to assess the in vitro quality of PLTs stored in the cold in T‐PAS+ for up to 18 days evaluated against PLTs stored under currently allowable conditions (5‐day room temperature–stored PLTs [RTP] and 3‐day cold‐stored PLTs [CSP] ). STUDY DESIGN AND METHODS PLTs were collected from healthy volunteers (n = 10) and diluted to 65% T‐PAS+/35% plasma before cold storage. Double‐dose apheresis PLTs (in 100% plasma) were collected from the same donors and split into two bags (one bag RTP, one bag CSP). All bags were sampled on the day of collection (Day 0). CSP and RTP bags were sampled on Days 3 and 5, respectively. T‐PAS+ samples were assessed on Days 3, 5, 14, 16, and 18 of storage for metabolism, hemostatic function, and activation. RESULTS After 18 days of storage in T‐PAS+, pH was 6.71 ± 0.04, PLT count was comparable to Day 3 CSP, PLT function (aggregation and clot strength) was comparable to Day 5 RTP, and PLT activation was significantly increased. CONCLUSION Refrigerated PLTs stored in T‐PAS+ for 18 days met FDA pH standards. Functional metrics suggest activity of T‐PAS+‐stored PLTs and the potential to contribute to hemostasis throughout 18 days of storage. Extending the shelf life of PLTs would increase access to hemostatic resuscitation for bleeding patients in military and civilian settings.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.2019.59.issue-5

DOI: 10.1111/trf.15150

Language: English

Publisher: Wiley

Publication Date: 2019

detail.hit.zdb_id: 2018415-3

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Cold storage of platelets in platelet additive solution maintains mitochondrial integrity by limiting initiation of apoptosis‐mediated pathways

Reddoch‐Cardenas, Kristin M. ; Peltier, Grant C. ; Chance, Tiffani C. ; [et al.]

Wiley ; 2021

In: Transfusion Vol. 61, No. 1 ( 2021-01), p. 178-190

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In: Transfusion, Wiley, Vol. 61, No. 1 ( 2021-01), p. 178-190

Abstract: Cold storage of platelets in plasma maintains hemostatic function and is an attractive alternative to room temperature platelets (RTPs). We have recently shown that functional differences between cold‐stored platelets (CSPs) and RTPs after 5‐day storage are associated with mitochondrial respiration and that CSPs in platelet (PLT) additive solution (PAS) can maintain hemostatic function for at least 15 days. Study Design and Methods This study tested the hypothesis that cold storage in PAS preserves mitochondrial integrity by reducing PLT apoptosis. CSPs and RTPs in plasma or PAS were stored and assayed for up to 15 days for mitochondrial function and integrity, mitochondrial‐associated mRNA transcript expression, apoptotic proteins, and apoptotic flow cytometry metrics. Results CSP preserved mitochondria‐associated mRNA comparable to baseline levels, improved mitochondrial respiration, and minimized depolarization to Day 15. Additionally, CSPs had minimal induction of caspases, preservation of plasma membrane integrity, and low expression of pro‐apoptotic Bax. Storage in PAS appeared to be protective for RTPs in some parameters and enhanced the effects of CSPs. Conclusion Mitochondrial function and molecular analyses defined CSP priming as distinctly different from the well‐documented RTP storage lesion. While current blood bank storage at room temperature is limited to 5 to 7 days, refrigeration and storage in PAS for up to 15 days may represent an opportunity to enhance inventories and access to PLT hemostatic support for bleeding patients.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.v61.1

DOI: 10.1111/trf.16185

Language: English

Publisher: Wiley

Publication Date: 2021

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Hyperbaric treatment of platelets is comparable to cold storage alone over 14 days

Reddoch‐Cardenas, Kristin M. ; Pidcoke, Heather F. ; Ramasubramanian, Anand K. ; [et al.]

Wiley ; 2023

In: Transfusion Vol. 63, No. S3 ( 2023-05)

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In: Transfusion, Wiley, Vol. 63, No. S3 ( 2023-05)

Abstract: Platelets stored at room temperature (22–24°C) for transfusion purposes have a shelf life of 5–7 days, or 72 h when stored refrigerated (1–6°C). The limited shelf life of platelet products severely compromises platelet inventory. We hypothesized that cold storage of platelets in 100% plasma using xenon gas under high pressure would extend shelf life to 14 days. Study Design and Methods Double apheresis platelet units were collected and split equally between two bags. One unit was placed in a hyperbaric chamber, pressurized to 4 bars with a xenon/oxygen gas mixture, and placed in a refrigerator for 14 days (Xe). The remaining unit was aliquoted into mini‐bags (10 ml) for storage at room temperature (RTP) or in cold (CSP). Samples were assayed on days 5 (RTP) or 14 (Xe and CSP) for count, metabolism, clot strength, platelet aggregation, and activation markers. Results The platelet count in Xe samples was lower than that of RTP but significantly higher than CSP. Despite similar levels of glucose and lactate, the pH of Xe samples was significantly lower than CSP. Glycoprotein expression was better preserved by Xe storage compared to CSP, but no differences in activation were observed. Thromboelastography and aggregometry results were comparable between all groups. Discussion Cold storage of platelets in plasma with hyperbaric xenon provides no significant improvement in platelet function over cold storage alone. The use of a hyperbaric chamber and the slow off‐gassing of Xe‐stored units complicate platelet storage and delivery logistics.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.v63.S3

DOI: 10.1111/trf.17376

Language: English

Publisher: Wiley

Publication Date: 2023

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Recent advances in use of fresh frozen plasma, cryoprecipitate, immunoglobulins, and clotting factors for transfusion support in patients with hematologic disease

Nair, Prajeeda M. ; Rendo, Matthew J. ; Reddoch-Cardenas, Kristin M. ; [et al.]

Elsevier BV ; 2020

In: Seminars in Hematology Vol. 57, No. 2 ( 2020-04), p. 73-82

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In: Seminars in Hematology, Elsevier BV, Vol. 57, No. 2 ( 2020-04), p. 73-82

Type of Medium: Online Resource

ISSN: 0037-1963

URL: Article

DOI: 10.1053/j.seminhematol.2020.07.006

RVK:

XA 10000

Language: English

Publisher: Elsevier BV

Publication Date: 2020

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Evaluation of a lyophilized platelet‐derived hemostatic product

Bynum, James A. ; Meledeo, Michael A. ; Peltier, Grantham C. ; [et al.]

Wiley ; 2019

In: Transfusion Vol. 59, No. S2 ( 2019-04), p. 1490-1498

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In: Transfusion, Wiley, Vol. 59, No. S2 ( 2019-04), p. 1490-1498

Abstract: Current limitations of platelet shelf life to 5 days have led to an increasingly greater demand for hemostatic agents with greater longevity. The objective of this study was to evaluate the function of a lyophilized platelet‐derived hemostatic product (thrombosome [TS]) as a potential alternative to fresh platelets. METHODS Platelets were collected from whole blood from healthy donors. TSs were reconstituted with water and added to various configurations of reassembled whole blood (platelets, plasma, and RBCs); measures included rotational thromboelastometry (ROTEM), optical aggregometry, mitochondrial function, calibrated automated thrombogram, collagen adhesion under flow (shear flow assay), and flow cytometry. RESULTS In ROTEM, no differences were observed between maximum clot formation values for contact pathway activation thromboelastometry tests with TSs or platelet samples. Significantly decreased aggregation was observed in the TSs versus platelets (p 〈 0.001 for all agonists). Flow cytometry measures demonstrated significant decreases in glycoprotein Ib expression and increases in phosphatidylserine expression in the TS group (p 〈 0.01). The calibrated automated thrombogram assay was suggestive (lag time and peak thrombin) that the TSs might have some thrombogenic properties. Measurements of mitochondrial function revealed that TSs had no functional mitochondria. CONCLUSION In this study, TSs were shown to have nonfunctional mitochondria. ROTEM measures revealed that the TSs had no impact on clot strength. Likewise, compared to platelets, the TSs displayed minimal aggregation, had significantly more phosphatidylserine (measure of activation status), but had the ability to adhere to a collagen surface under flow conditions and contribute to clot formation and induced greater thrombin generation.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.2019.59.issue-S2

DOI: 10.1111/trf.15167

Language: English

Publisher: Wiley

Publication Date: 2019

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Cold storage of whole blood in an additive solution containing apoptotic and necrotic inhibitors

Reddoch‐Cardenas, Kristin M. ; McIntosh, Colby ; Barrera, Gema ; [et al.]

Wiley ; 2023

In: Transfusion Vol. 63, No. S3 ( 2023-05)

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In: Transfusion, Wiley, Vol. 63, No. S3 ( 2023-05)

Abstract: Whole blood (WB) reigns superior to component therapy for the treatment of hemorrhagic shock on the battlefield. Though cold storage of WB offers a shelf life of 21 to 35 days, storage lesions and the potential for blood wastage remain. Storing WB in an additive solution (AS) containing apoptotic inhibitors may help preserve blood cell viability and improve blood quality over extended cold storage. Study Design and Methods Non‐leukoreduced WB was obtained from healthy individuals and dosed with: AS, AS+Necrostatin‐1 (AS+N1), AS+Boc‐D‐fmk (AS+B; apoptosis inhibitor), AS+Q‐VD‐OPh (AS+Q; apoptosis inhibitor), and Control (0.9% saline). Blood bags were kept refrigerated (1°–6°C) for 21 days. Bags were tested on days 0, 7, 14, and 21 for complete blood count, metabolism, clot formation, aggregation function, platelet activation, and red blood cell quality. Results Platelet count was better preserved in all AS‐containing samples. All groups displayed increased glucose consumption and lactate production with storage. Furthermore, all groups displayed a similar decline in clot strength (max amplitude) over the 21‐day storage period. Bags that received AS displayed greater preservation of GPIIb expression and lower phosphatidylserine exposure. P‐selectin expression was increased in all AS groups. Discussion Treatment of hemorrhagic shock with WB transfusion is logistically simpler than component therapy. Results from our study suggest that refrigerated WB stored with an AS containing apoptotic and necrotic inhibitors helps better preserve platelet count but does not improve platelet function. The future development of WB ASs is warranted to optimize both platelet quality and hemostatic function.

Type of Medium: Online Resource

ISSN: 0041-1132 , 1537-2995

URL: Issue

URL: Article

DOI: 10.1111/trf.v63.S3

DOI: 10.1111/trf.17355

Language: English

Publisher: Wiley

Publication Date: 2023

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Can’t get platelets to your bleeding patients? Just chill… the solution is in your refrigerator!

Cap, Andrew P. ; Reddoch-Cardenas, Kristin M.

Elsevier BV ; 2018

In: Transfusion Clinique et Biologique Vol. 25, No. 3 ( 2018-09), p. 217-219

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In: Transfusion Clinique et Biologique, Elsevier BV, Vol. 25, No. 3 ( 2018-09), p. 217-219

Type of Medium: Online Resource

ISSN: 1246-7820

URL: Article

DOI: 10.1016/j.tracli.2018.06.008

Language: English

Publisher: Elsevier BV

Publication Date: 2018

detail.hit.zdb_id: 2038528-6

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Ticagrelor Induced Platelet Dysfunction Can be Assessed Under Shear Conditions and Correction By Platelets Is Influenced By Storage Temperature

Scorer, Thomas ; Sharma, Umang ; Peltier, Grantham ; [et al.]

American Society of Hematology ; 2018

In: Blood Vol. 132, No. Supplement 1 ( 2018-11-29), p. 526-526

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In: Blood, American Society of Hematology, Vol. 132, No. Supplement 1 ( 2018-11-29), p. 526-526

Abstract: Introduction: The use of antiplatelet (anti-PLT) drugs for prophylaxis and treatment of cardiovascular disease continues to rise. A significant problem with these medications is increased bleeding, which can be life threatening. Strategies to manage bleeding whilst on anti-PLT medication are limited and often include PLT transfusion. Evidence of efficacy is lacking, and it is not known whether storage conditions affect outcome. We sought to study this clinical problem using an in vitro system that simulates in vivo shear forces. We assessed PLT adhesion to collagen under arterial shear conditions in whole blood (WB) treated with Ticagrelor, a P2Y12 inhibitor. We tested the hypothesis that the storage temperature of PLTs would affect their ability to correct Ticagrelor-induced platelet dysfunction. Methods: WB was collectedand treated with a therapeutic concentration of Ticagrelor (1.0µM). After a 15 min incubation the treated WB was dosed with apheresis platelets (AP) to simulate PLT transfusion. The AP used were collected as hyperconcentrated double units from different healthy donors (n=3), diluted with T-PAS+ (65% T-PAS+, 35% plasma), and split equally amongst two bags. One bag was stored at room temperature (22±2°C; RTP) with agitation, and the other bag was cold-stored (4±2°C; CSP) without agitation. Ticagrelor-treated WB was dosed with RTP and CSP in increments equivalent to 1, 2, and 3 times the adult therapeutic doses (ATD) of PLTs (calculated using a 70kg person with a circulating blood volume of 5000ml) stored for 0 (fresh), 3, 7 and 10 days. Random WB donors were selected who were ABO RhD compatible with the AP unit. Bioflux 1000 (Fluxion) was used to evaluate PLT function of the treated and dosed WB. Briefly, WB (treated or dosed) was labelled with calcein and perfused through a collagen-coated chamber under arterial shear (19.83 dyn/cm2) for 10 min. PLT adhesion to collagen was recorded for 10 min, with images obtained every 30s. Fluorescence intensity and the percentage of area covered was determined using BioFlux Montage Software. Data was analysed and the t-test performed using GraphPad Prism version 7. Prior to dosing, RTP and CSP bags were analysed at each timepoint visually for aggregates and 'swirl', PLT count (HORIBA MICROS 60), light transmission aggregometry (Chronolog 700, agonists; ADP [10µM] and AA [0.5mM] ) and chemistry (iSTAT, CG4+ cartridge). Results: PLT counts dropped in both CSP and RTP but were not significantly different at any timepoint (Fig. 1A). PLT aggregation to ADP negligible after day 3 in RTP but was well maintained in the CSP out to 10 days (p 〈 0.03) (Fig. 1B). pH decreased in CSP and increased in RTP but did not reach significance (p=0.07). Lactate was significantly higher in RTP compared to CSP at day 10 (p=0.01) (Fig. 1D). Increments in PLT count in treated WB were lower with doses of CSP than RTP, with the mean increases of 10x106/ml and 26x106/ml per ATD respectively. For Bioflux runs, Ticagrelor treatment lowered PLT adhesion to collagen by 40-66% compared to control (WB treated with DMSO 0.1%) after 10 min of perfusion. On Day 0, PLT adhesion increased with increasing doses of fresh PLTs. At Day 3 of storage, both CSP and RTP performed equally. By day 7, CSP showed enhanced adhesion and aggregation to collagen compared to RTP, both continuing to exhibit a dose effect, with 1 dose of CSP being superior to 3 ATD RTP in all 3 donors. CSP-dosed samples effectively rescued Ticagrelor-treated WB out to 10 days storage. Addition of RTP stored beyond 7 days had a detrimental effect (i.e. lower adhesion than Ticagrelor treatment alone). Conclusions: This study has demonstrated that the anti-PLT effects of Ticagrelor can be observed and quantified under physiologic flow conditions using a BioFlux system and that these effects can be overcome using PLT transfusion in a dose-dependent manner. The storage temperature of AP affects their ability to rescue Ticagrelor-induced PLT dysfunction under shear conditions with cold storage providing better rescue of dysfunction than RTP even out to 10 days of storage. Further work is needed to assess the ability of PLT concentrates to rescue other causes of PLT dysfunction and to reduce bleeding. Disclosures No relevant conflicts of interest to declare.

Type of Medium: Online Resource

ISSN: 0006-4971 , 1528-0020

URL: Article

DOI: 10.1182/blood-2018-99-111428

RVK:

XA 33000

RVK:

XA 10000

Language: English

Publisher: American Society of Hematology

Publication Date: 2018

detail.hit.zdb_id: 1468538-3

detail.hit.zdb_id: 80069-7

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