In vitro characteristics of cryopreserved platelet concentrates using fresh frozen or lyophilized plasma

AbstractCapacitive–resistive electric transfer therapy is used in physical rehabilitation and sports medicine to treat muscle, bone, ligament and tendon injuries. The purpose is to analyze the temperature change and transmission of electric current in superficial and deep knee tissues when applying different protocols of capacitive–resistive electric transfer therapy. Five fresh frozen cadavers (10 legs) were included in this study. Four interventions (high/low power) were performed for 5 min by a physiotherapist with experience. Dynamic movements were performed to the posterior region of the knee. Capsular, intra-articular and superficial temperature were recorded at 1-min intervals and 5 min after the treatment, using thermocouples placed with ultrasound guidance. The low-power protocols had only slight capsular and intra-capsular thermal effects, but electric current flow was observed. The high-power protocols achieved a greater increase in capsular and intra-articular temperature and a greater current flow than the low-power protocols. The information obtained in this in vitro study could serve as basic science data to hypothesize capsular and intra-articular knee recovery in living subjects. The current flow without increasing the temperature in inflammatory processes and increasing the temperature of the tissues in chronic processes with capacitive–resistive electric transfer therapy could be useful for real patients.

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Complete Inactivation of Blood Borne Pathogen Trypanosoma cruzi in Stored Human Platelet Concentrates and Plasma Treated With 405 nm Violet-Blue Light

Frontiers in Medicine ◽

10.3389/fmed.2020.617373 ◽

2020 ◽

Vol 7 ◽

Author(s):

Katarzyna I. Jankowska ◽

Rana Nagarkatti ◽

Nirmallya Acharyya ◽

Neetu Dahiya ◽

Caitlin F. Stewart ◽

...

Keyword(s):

Trypanosoma Cruzi ◽

Human Plasma ◽

Blue Light ◽

Chagas Disease ◽

Light Treatment ◽

Platelet Concentrates ◽

Complete Inactivation ◽

Pathogen Reduction ◽

Biochemical Indices

The introduction of pathogen reduction technologies (PRTs) to inactivate bacteria, viruses and parasites in donated blood components stored for transfusion adds to the existing arsenal toward reducing the risk of transfusion-transmitted infectious diseases (TTIDs). We have previously demonstrated that 405 nm violet-blue light effectively reduces blood-borne bacteria in stored human plasma and platelet concentrates. In this report, we investigated the microbicidal effect of 405 nm light on one important bloodborne parasite Trypanosoma cruzi that causes Chagas disease in humans. Our results demonstrated that a light irradiance at 15 mWcm−2 for 5 h, equivalent to 270 Jcm−2, effectively inactivated T. cruzi by over 9.0 Log10, in plasma and platelets that were evaluated by a MK2 cell infectivity assay. Giemsa stained T. cruzi infected MK2 cells showed that the light-treated parasites in plasma and platelets were deficient in infecting MK2 cells and did not differentiate further into intracellular amastigotes unlike the untreated parasites. The light-treated and untreated parasite samples were then evaluated for any residual infectivity by injecting the treated parasites into Swiss Webster mice, which did not develop infection even after the animals were immunosuppressed, further demonstrating that the light treatment was completely effective for inactivation of the parasite; the light-treated platelets had similar in vitro metabolic and biochemical indices to that of untreated platelets. Overall, these results provide a proof of concept toward developing 405 nm light treatment as a pathogen reduction technology (PRT) to enhance the safety of stored human plasma and platelet concentrates from bloodborne T. cruzi, which causes Chagas disease.

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Pharmacokinetic and toxicology assessment of INTERCEPT (S-59 and UVA treated) platelets

Human & Experimental Toxicology ◽

10.1191/096032701718120319 ◽

2001 ◽

Vol 20 (10) ◽

pp. 533-550 ◽

Cited By ~ 55

Author(s):

V Ciaravino ◽

T McCullough ◽

A D Dayan

Keyword(s):

Ex Vivo ◽

Reproductive Toxicity ◽

In Vivo Studies ◽

Pathogen Inactivation ◽

Platelet Concentrates ◽

Baxter Healthcare ◽

Safety Margins ◽

Toxicology Assessment

The pathogen inactivation process developed by Cerus and Baxter Healthcare Corporations uses the psoralen, S-59 (amotosalen) in an ex vivo photochemical treatment (PCT) process to inactivate viruses, bacteria, protozoans, and leukocytes in platelet concentrates and plasma. Studies were performed by intravenous infusion of S-59 PCT formulations-compound adsorption device (CAD) treatment and with non-UVA illuminated S-59, using doses that were multiples of potential clinical exposures. The studies comprised full pharmacokinetic, single and repeated-dose (up to 13 weeks duration) toxicity, safety pharmacology (CNS, renal, and cardiovascular), reproductive toxicity, genotoxicity, carcinogenicity testing in the p53- mouse, vein irritation, and phototoxicity. No specific target organ toxicity (clinical or histopathological), reproductive toxicity, or carcinogenicity was observed. S-59 and/or PCT formulations demonstrated CNS, ECG, and phototoxicity only at supraclinical doses. Based on the extremely large safety margins (>30,000 fold expected clinical exposures), the CNS and ECG observations are not considered to have any toxicological relevance. Additionally, after a complete assessment, mutagenicity and phototoxicity results are not considered relevant for the proposed use of INTERCEPT platelets. Thus, the results of an extensive series of in vitro and in vivo studies have not demonstrated any toxicologically relevant effects of platelet concentrates prepared by the INTERCEPT system.

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Metalloproteinase inhibitors improve the recovery and hemostatic function of in vitro–aged or –injured mouse platelets

Blood ◽

10.1182/blood-2003-04-1305 ◽

2003 ◽

Vol 102 (12) ◽

pp. 4229-4235 ◽

Cited By ~ 121

Author(s):

Wolfgang Bergmeier ◽

Peter C. Burger ◽

Crystal L. Piffath ◽

Karin M. Hoffmeister ◽

John H. Hartwig ◽

...

Keyword(s):

Shape Change ◽

Surface Expression ◽

Severe Thrombocytopenia ◽

Aged Mouse ◽

Platelet Concentrates ◽

Duration Of Treatment ◽

Mitochondrial Injury ◽

Metalloproteinase Activity ◽

Platelet Transfusions

Abstract Platelet transfusions are a crucial component of support for patients with severe thrombocytopenia. Storage of platelet concentrates, however, is associated with a reduction in platelet posttransfusion recovery and hemostatic function. In this study, we established a model of mitochondrial injury that resembles platelet storage lesion. Mitochondrial injury, provoked by incubation of platelets with carbonyl cyanide m-chlorophenylhydrazone (CCCP), led to reduced posttransfusion recovery in mice, an effect that directly correlated with the duration of treatment. Damaged platelets were characterized by shape change, disruption of membrane asymmetry, surface expression of P-selectin, and profound proteolysis of GPIbα. Using our model, we identified a key role for endogenous metalloproteinase(s) in platelet clearance, as their inhibition markedly improved posttransfusion recovery of both the mitochondria-injured and in vitro-aged mouse platelets. Metalloproteinase inhibition also prevented proteolysis of GPIbα on damaged platelets, thereby improving the hemostatic function of these cells in vivo. We propose that inhibition of metalloproteinase activity during storage could significantly improve the effectiveness of platelet transfusions. Surface expression of GPIbα might be a powerful marker to determine the quality of platelet concentrates, because it reflects metalloproteinase activity in vitro. (Blood. 2003;102: 4229-4235)

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In vitro evaluation of COM.TEC apheresis platelet concentrates using a preparation set and pathogen inactivation over a storage period of five days

Journal of Clinical Apheresis ◽

10.1002/jca.20025 ◽

2004 ◽

Vol 19 (4) ◽

pp. 185-191 ◽

Cited By ~ 11

Author(s):

R. Moog ◽

A. Fröhlich ◽

V. Mayaudon ◽

L. Lin

Keyword(s):

Storage Period ◽

Pathogen Inactivation ◽

Platelet Concentrates ◽

In Vitro Evaluation

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In vitro and in vivo evaluation of cotton wool filtration of platelet concentrates obtained by automated and manual apheresis

Transfusion ◽

10.1046/j.1537-2995.1992.32492263446.x ◽

1992 ◽

Vol 32 (4) ◽

pp. 328-333 ◽

Cited By ~ 12

Author(s):

S Holme ◽

E Snyder ◽

A Heaton ◽

T Keegan ◽

P Napychank

Keyword(s):

Cotton Wool ◽

Platelet Concentrates ◽

In Vivo Evaluation

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The quality of platelet concentrates related to corrected count increment: linking in vitro to in vivo

Transfusion ◽

10.1111/trf.14868 ◽

2018 ◽

Vol 59 (2) ◽

pp. 697-706 ◽

Cited By ~ 5

Author(s):

Anno Saris ◽

Aukje L. Kreuger ◽

Anja Brinke ◽

Jean Louis H. Kerkhoffs ◽

Rutger A. Middelburg ◽

...

Keyword(s):

Platelet Concentrates ◽

Corrected Count Increment

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Redefining Knee Balance in a Medially Stabilized Prosthesis: An In-Vitro Study

The Open Orthopaedics Journal ◽

10.2174/1874325001711011165 ◽

2017 ◽

Vol 11 (1) ◽

pp. 1165-1172

Author(s):

Philippe Van Overschelde ◽

Vera Pinskerova ◽

Peter P. Koch ◽

Christophe Fornasieri ◽

Sandro Fucentese

Keyword(s):

Soft Tissue ◽

Soft Tissues ◽

In Vitro Study ◽

Lateral Release ◽

Soft Tissue Release ◽

Iliotibial Band ◽

Soft Tissue Envelope ◽

Medial Side ◽

Fresh Frozen

Background: To date, there is still no consensus on what soft tissues must be preserved and what structures can be safely released during total knee arthroplasty (TKA) with a medially stabilized implant. Objective: The aim of this study was to analyze the effect of a progressive selective release of the medial and lateral soft tissues in a knee implanted with a medially stabilized prosthesis. Method: Six cadaveric fresh-frozen full leg specimens were tested. In each case, kinematic pattern and mediolateral laxity were measured in three stages: firstly, prior to implantation; secondly, after the implantation of the trial components, but before any soft tissue release; and thirdly, progressively as soft tissue was released with the trial implant in place. The incremental impact of each selective release on knee balance was then analyzed. Results: In all cases sagittal stability was not affected by the progressive release of the lateral soft tissue envelope. It was possible to perform progressive lateral release provided the anterior one-third of the iliotibial band (ITB) remained intact. Progressive medial release could be performed on the medial side provided the anterior fibers of the superficial medial collateral ligament (sMCL) remained intact. Conclusion: The medially conforming implant remains stable provided the anterior fibers of sMCL and the anterior fibers of the ITB remain intact. The implant’s sagittal stability is mainly dependent on its medial ball-in-socket design.

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