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Items: 1 to 20 of 112

1.

Evaluation of Freeze Thaw Cycles on stored plasma in the Biobank of the Norwegian Mother and Child Cohort Study.

Paltiel L, Rønningen KS, Meltzer HM, Baker SV, Hoppin JA.

Cell Preserv Technol. 2008 Sep 1;6(3):223-230.

2.

Measuring influenza RNA quantity after prolonged storage or multiple freeze/thaw cycles.

Granados A, Petrich A, McGeer A, Gubbay JB.

J Virol Methods. 2017 Sep;247:45-50. doi: 10.1016/j.jviromet.2017.05.018. Epub 2017 May 29.

PMID:
28572040
3.

Effect of repeated freeze-thaw cycles on routine plasma biochemical constituents in canine plasma.

Reynolds B, Taillade B, Médaille C, Palenché F, Trumel C, Lefebvre HP.

Vet Clin Pathol. 2006 Sep;35(3):339-40.

PMID:
16967422
4.

Clinical evaluation of the levels of 12 cytokines in serum/plasma under various storage conditions using evidence biochip arrays.

Guo GH, Dong J, Yuan XH, Dong ZN, Tian YP.

Mol Med Rep. 2013 Mar;7(3):775-80. doi: 10.3892/mmr.2013.1263. Epub 2013 Jan 4.

PMID:
23291902
5.

Effect of multiple freeze-thaw cycles on selected biochemical serum components.

Gislefoss RE, Lauritzen M, Langseth H, Mørkrid L.

Clin Chem Lab Med. 2017 Jun 27;55(7):967-973. doi: 10.1515/cclm-2016-0892.

PMID:
27987362
6.

The effect of storage time and freeze-thaw cycles on the stability of serum samples.

Cuhadar S, Koseoglu M, Atay A, Dirican A.

Biochem Med (Zagreb). 2013;23(1):70-7.

7.

Characterization of effect of repeated freeze and thaw cycles on stability of genomic DNA using pulsed field gel electrophoresis.

Shao W, Khin S, Kopp WC.

Biopreserv Biobank. 2012 Feb;10(1):4-11. doi: 10.1089/bio.2011.0016.

PMID:
24849748
8.

Serum hepatitis B DNA: stability in relation to multiple freeze-thaw procedures.

Sanlidag T, Akcali S, Ozbakkaloglu B.

J Virol Methods. 2005 Jan;123(1):49-52.

PMID:
15582698
9.

Strong impact on plasma protein profiles by precentrifugation delay but not by repeated freeze-thaw cycles, as analyzed using multiplex proximity extension assays.

Shen Q, Björkesten J, Galli J, Ekman D, Broberg J, Nordberg N, Tillander A, Kamali-Moghaddam M, Tybring G, Landegren U.

Clin Chem Lab Med. 2017 Oct 17. pii: /j/cclm.ahead-of-print/cclm-2017-0648/cclm-2017-0648.xml. doi: 10.1515/cclm-2017-0648. [Epub ahead of print]

PMID:
29040064
10.

Evaluation of Physicochemical Deterioration and Lipid Oxidation of Beef Muscle Affected by Freeze-thaw Cycles.

Rahman MH, Hossain MM, Rahman SM, Amin MR, Oh DH.

Korean J Food Sci Anim Resour. 2015;35(6):772-82. doi: 10.5851/kosfa.2015.35.6.772. Epub 2015 Dec 31.

11.

The Impact of Repeated Freeze-Thaw Cycles on the Quality of Biomolecules in Four Different Tissues.

Ji X, Wang M, Li L, Chen F, Zhang Y, Li Q, Zhou J.

Biopreserv Biobank. 2017 Oct;15(5):475-483. doi: 10.1089/bio.2017.0064. Epub 2017 Sep 20.

PMID:
28930488
12.

Instability of Plasma and Serum Progastrin-Releasing Peptide During Repeated Freezing and Thawing.

Lee JE, Lee JH, Hong M, Park SK, Yu JI, Shin SY, Kim SY.

Osong Public Health Res Perspect. 2016 Dec;7(6):351-355. doi: 10.1016/j.phrp.2016.11.004. Epub 2016 Nov 16.

13.

One-year in vitro stability of cardiac troponins and galectin-3 in different sample types.

Egger M, Dieplinger B, Mueller T.

Clin Chim Acta. 2018 Jan;476:117-122. doi: 10.1016/j.cca.2017.11.018. Epub 2017 Nov 21.

14.

Effect of freeze/thaw cycles on several biomarkers in urine from patients with kidney disease.

Zhang Y, Luo Y, Lu H, Wang N, Shen Y, Chen R, Fang P, Yu H, Wang C, Jia W.

Biopreserv Biobank. 2015 Apr;13(2):144-6. doi: 10.1089/bio.2014.0033.

PMID:
25880475
15.

Influence of Xanthan-Curdlan Hydrogel Complex on Freeze-Thaw Stability and Rheological Properties of Whey Protein Isolate Gel over Multiple Freeze-Thaw Cycle.

Shiroodi SG, Rasco BA, Lo YM.

J Food Sci. 2015 Jul;80(7):E1498-505. doi: 10.1111/1750-3841.12915. Epub 2015 May 25.

PMID:
26012512
16.

Micromechanical properties of canine femoral articular cartilage following multiple freeze-thaw cycles.

Peters AE, Comerford EJ, Macaulay S, Bates KT, Akhtar R.

J Mech Behav Biomed Mater. 2017 Jul;71:114-121. doi: 10.1016/j.jmbbm.2017.03.006. Epub 2017 Mar 7.

17.

Indices of immune function used by ecologists are mostly unaffected by repeated freeze-thaw cycles and methodological deviations.

Hegemann A, Pardal S, Matson KD.

Front Zool. 2017 Sep 1;14:43. doi: 10.1186/s12983-017-0226-9. eCollection 2017.

18.

The effects of multiple freeze-thaw cycles on the biomechanical properties of the human bone-patellar tendon-bone allograft.

Jung HJ, Vangipuram G, Fisher MB, Yang G, Hsu S, Bianchi J, Ronholdt C, Woo SL.

J Orthop Res. 2011 Aug;29(8):1193-8. doi: 10.1002/jor.21373. Epub 2011 Mar 4.

19.

Multicentric study of the effect of pre-analytical variables in the quality of plasma samples stored in biobanks using different complementary proteomic methods.

Mateos J, Carneiro I, Corrales F, Elortza F, Paradela A, Del Pino MS, Iloro I, Marcilla M, Mora MI, Valero L, Ciordia S, Fernández V, Fortuño MA, García-Sánchez I, Martínez R, Muñoz MA, Rodriguez C, Doménech N; ProteoRed Spanish Biobanks Network.

J Proteomics. 2017 Jan 6;150:109-120. doi: 10.1016/j.jprot.2016.09.003. Epub 2016 Sep 9.

PMID:
27620695
20.

Effect of multiple cycles of freeze-thawing on the RNA quality of lung cancer tissues.

Yu K, Xing J, Zhang J, Zhao R, Zhang Y, Zhao L.

Cell Tissue Bank. 2017 Sep;18(3):433-440. doi: 10.1007/s10561-016-9600-7. Epub 2017 Jun 1.

PMID:
28573389

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