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檢測(cè)心臟受損標(biāo)志物ELISA試劑盒,用于動(dòng)物心血管研究

來(lái)源:seebio.cn作者:西寶生物人氣:-發(fā)表時(shí)間:2013-08-22 13:57:00【

檢測(cè)心臟受損標(biāo)志物ELISA試劑盒

心臟受損時(shí)就會(huì)釋放心臟生物標(biāo)志物到血液中,檢測(cè)生物標(biāo)志物的水平可指示心臟受損的程度。標(biāo)志物比如心肌肌鈣蛋白-I是專一用于檢測(cè)心臟受損的標(biāo)志物,而肌紅蛋白,脂肪酸結(jié)合蛋白和MLC-1升高也是骨骼肌受損的結(jié)果。在人體中,肌紅蛋白和脂肪酸結(jié)合蛋白是高于基線的標(biāo)志物,心臟受損后2-4h增加就可以測(cè)定,9-12h達(dá)到高峰,24-36h又回到基線。心肌肌鈣蛋白-I在4-6h超過(guò)基線,12-24h達(dá)到高峰,6-10天仍然會(huì)升高。我們一般的經(jīng)驗(yàn)是動(dòng)物心臟標(biāo)志物在受損(1-2h)快速達(dá)到高峰,在1-2天又回到基線。
西寶生物供應(yīng)美國(guó)進(jìn)口心肌肌鈣蛋白-I,肌紅蛋白,脂肪酸結(jié)合蛋白和肌球蛋白輕鏈-1.小鼠,大鼠,兔,狗和猴的試劑盒,用于這些物種的心血管研究。自2003年我們的試劑盒就得到了廣泛應(yīng)用,并在科學(xué)文獻(xiàn)中廣泛引用。在2011年11月份我們推出了一系列超靈敏的心肌肌鈣蛋白-I 試劑盒,能夠用于血清和血漿中重要生物標(biāo)志物的檢測(cè),超靈敏的試劑盒是高靈敏試劑盒的4倍。我們的目標(biāo)是提供高質(zhì)量產(chǎn)品,加速新的心血管藥物和診治策略的開(kāi)發(fā)。

ELISA試劑盒相關(guān)產(chǎn)品:

ELISA Kit(96-well kit)
范圍 (ng/ml)
中文名稱
產(chǎn)品編號(hào)
Mouse Cardiac Tn-I (for serum)
0.156 – 10
小鼠心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0709A
Mouse Cardiac Tn-I (for plasma)
0.156 – 10
小鼠心肌肌鈣蛋白-I ELISA試劑盒(用于血漿)
ADM0710A
Mouse Cardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.039 – 2.5
小鼠心肌肌鈣蛋白-I 超靈敏ELISA試劑盒(用于血漿或血清)
ADM0711A
Rat Cardiac Tn-I (for serum)
0.156 – 10
大鼠心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0712A
Rat Cardiac Tn-I (for plasma)
0.156 – 10
大鼠心肌肌鈣蛋白-I ELISA試劑盒(用于血漿)
ADM0713A
Rat Cardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.039 – 2.5
大鼠心肌肌鈣蛋白-I 超靈敏ELISA試劑盒(用于血漿或血清)
ADM0714A
Dog Cardiac Tn-I (for serum)
0.156 – 10
狗心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0715A
Dog Cardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.039 – 2.5
狗心肌肌鈣蛋白-I 超靈敏ELISA試劑盒(用于血漿或血清)
ADM0716A
Pig Cardiac Tn-I (for serum)
0.039 – 2.5
豬心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0717A
Pig Cardiac Tn-I (for plasma)
0.039 – 2.5
豬心肌肌鈣蛋白-I ELISA試劑盒(用于血漿)
ADM0718A
Pig Cardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.0156 – 1.0
豬心肌肌鈣蛋白-I 超靈敏ELISA試劑盒(用于血清或血漿)
ADM0719A
Monkey Cardiac Tn-I (for serum)
0.156 – 10
猴心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0720A
Monkey Cardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.039 – 2.5
猴心肌肌鈣蛋白-I 超靈敏ELISA試劑盒(用于血清或血漿)
ADM0721A
Rabbit Cardiac Tn-I (for serum)
0.156 – 10
兔心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0722A
RabbitCardiac Tn-I, Ultra Sensitive (for serum or plasma)1
0.0195 – 1.25
兔心肌肌鈣蛋白-I超靈敏 ELISA試劑盒(用于血清)
ADM0723A
Guinea Pig Cardiac Tn-I (for serum)
0.2 – 12.5
豚鼠心肌肌鈣蛋白-I ELISA試劑盒(用于血清)
ADM0724A
ELISA Kit (96-well kit)
范圍(ng/ml)
中文名稱
產(chǎn)品編號(hào)
Mouse Myoglobin (for serum, plasma, & urine)
3.9 – 250
小鼠肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0726A
Rat Myoglobin (for serum, plasma, & urine)
1.56 – 100
大鼠肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0727A
Rabbit Myoglobin (for serum, plasma, & urine)
2 – 125
兔肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0728A
Dog Myoglobin (for serum, plasma, & urine)
3.9 – 250
狗肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0729A
Pig Myoglobin (for serum, plasma, & urine)
0.5 – 31.25
豬肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0730A
Monkey Myoglobin (for serum, plasma, & urine)
2 – 125
猴肌紅蛋白ELISA試劑盒(用于血清,血漿和尿)
ADM0731A
Guinea Pig Myoglobin (for serum, plasma, & urine)
1.56 – 100
豚鼠肌紅蛋白ELISA試劑盒(用于血清,血漿和尿
ADM0732A
ELISA Kit (96-well kit)
范圍 (ng/ml)
中文名稱
產(chǎn)品編號(hào)
Mouse Cardiac FABP (for serum & urine)
0.31 – 20
小鼠心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0733A
Rat Cardiac FABP (for serum & urine)
0.078 – 5
大鼠心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0734A
Dog Cardiac FABP (for serum & urine)
0.31 – 20
狗心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0735A
Pig Cardiac FABP (for serum & urine)
0.78 – 25
豬心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0736A
Rabbit Cardiac FABP (for serum & urine)
1.56 – 100
兔心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0737A
Monkey Cardiac FABP (for serum)
3.9 – 250
猴心肌葉酸結(jié)合蛋白ELISA試劑盒(用于血清和尿)
ADM0738A
ELISA Kit (96-well kit)
范圍 (ng/ml)
中文名稱
產(chǎn)品編號(hào)
Rat & Mouse Cardiac MLC-1 (for serum)
0.078 – 2.5
大鼠&小鼠心肌肌球蛋白輕鏈-1ELISA試劑盒(用于血清)
ADM0739A
使用我們的動(dòng)物肌鈣蛋白-I,肌紅蛋白,脂肪酸結(jié)合蛋白試劑盒結(jié)果見(jiàn)下圖。血漿取自于兔心臟局部缺血前,缺血中及再灌注后,下圖就體現(xiàn)出各自標(biāo)志物的水平。和人的臨床表現(xiàn)相同,肌紅蛋白和脂肪酸結(jié)合蛋白在肌鈣蛋白-I增加之前增加,并且肌鈣蛋白-I比肌紅蛋白和脂肪酸結(jié)合蛋白增加的時(shí)間要長(zhǎng)。
以下所列為使用我們?cè)噭┖邪l(fā)表的文獻(xiàn):
Mouse cTnI Publications
  1. Tajiri K, et al.Pitavastatin regulates helper T-cell differentiation and ameliorates autoimmune myocarditis in mice. Cardiovasc Drugs Ther.[Epub ahead of print] (2013)
  2. Antoniak S, et al.PAR-1 contributes to the innate immune response during viral infection. J Clin Invest. [Epub ahead of print] (2013)http://www.jci.org/articles/view/66125
  3. Butcher A, et al.An allosteric modulator of the adenosine A1 receptor improves cardiac function following ischaemia in murine isolated hearts. Pharmaceuticals. 6(4):546-556 (2013)http://www.mdpi.com/1424-8247/6/4/546
  4. Taghiabadi E, et al.Protective effect of silymarin against acrolein-induced cardiotoxicity in mice. Evid Based Complement Alternat Med. 352091 (2012)http://www.hindawi.com/journals/ecam/2012/352091/
  5. Foy KC, et al. Immunotherapy with HER-2 and VEGF peptide mimics plus metronomic paclitaxel causes superior antineoplastic effects in transplantable and transgenic mouse models of human breast cancer. OncoImmunology. 1(7):1-13 (2012) http://www.landesbioscience.com/journals/53/article/21057/
  6. Zhang Y, et al. The comparison of α-bromo-4-chlorocinnamaldehyde and cinnamaldehyde on coxsackie virus B3-induced myocarditis and their mechanisms. Int Immunopharmacol. 14(1):107-113 (2012)
  7. Bhushan S, et al. Selective β2-Adrenoreceptor Stimulation Attenuates Myocardial Cell Death and Preserves Cardiac Function After Ischemia-Reperfusion Injury. Arterioscler Thromb Vasc Biol. 32(8):1865-1874 (2012) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3401356/
  8. Predmore BL, et al. The polysulfide diallyl trisulfide protects the ischemic myocardium by preservation of endogenous hydrogen sulfide and increasing nitric oxide bioavailability. Am J Physiol Heart Circ Physiol. 302(11):H2410-8 (2012)
  9. De Meyer SF, et al. Protective anti-inflammatory effect of ADAMTS13 on myocardial ischemia/reperfusion injury in mice. Blood. [Epub ahead of print] (2012)
  10. Peart JN, See Hoe L, Pepe S, Johnson P and Headrick JP. Opposing effects of age and calorie restriction on molecular determinants of myocardial ischemic tolerance. Rejuvenation Res. 15(1):59-70 (2012)
  11. Kean TJ, et al. Development of a peptide-targeted, myocardial ischemia-homing, mesenchymal stem cell. J Drug Target. 20(1): 23-32 (2012)
  12. Xu Z, Desai M, Philip J, Sivsubramanian N,BowlesNEand Vallejo JG. Conditional transgenic expression of TIR-domain-containing adaptor-inducing interferon-β (TRIF) in the adult mouse heart is protective in acute viral myocarditis. Basic Res Cardiol. 106(6):1159-1171 (2011)
  13. Kiraly A, Koffman B, Hacker M, Gunning W, Rasche S, Quinn A. A novel aza-anthrapyrazole blocks the progression of experimental autoimmune encephalomyelitis after the priming of autoimmunity. Clin Immunol. 141(3):304-316 (2011)
  14. Ling Y, Pong T, Vassiliou CC, Huang PL and Cima MJ. Implantable magnetic relaxation sensors measure cumulative exposure to cardiac biomarkers. Nat Biotechnol. 29(3):273-277 (2011)
  15. Xu B, Strom J and Chen QM. Dexamethasone induces transcriptional activation of Bcl-xL gene and inhibits cardiac injury by myocardial ischemia. Eur J Pharmacol. 668(1-2):194-200 (2011)
  16. Braunersreuther V, et al. Chemokine CCL5/RANTES inhibition reduces myocardial reperfusion injury in atherosclerotic mice. J Mol Cell Cardiol. 48(4):789-798 (2010)
  17. Haas MS, Alicot EM, Schuerpf F, Chiu I, Li J, Moore FD and Carrol MC. Blockade of self-reactive IgM significantly reduces injury in a murine model of acute myocardial infarction. Cardiovascular Research 87:618-627 (2010)
  18. Maas JE, Wan TC, Figler RA, Gross GJ and Auchampach JA. Evidence that the acute phase of ischemic preconditioning does not require signaling by the A 2B adenosine receptor. J Mole Cell Cardiol. 49(5):886-893 (2010) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2958103/
  19. Cao Z, Hu Y, Wu W, Ha T, Kelley J, Deng C, Chen Q, Li J and Li Y. The TIR/BB-loop mimetic AS-1 protects the myocardium from ischemia/reperfusion injury. Cardiovascular Research 84:442-451 (2009)
  20. Engle SK, et al. Qualification of cardiac troponin-I concentration in mouse serum using isoproterenol and implementation in pharmacology studies to accelerate drug development. Toxicologic Pathology 37:617-628 (2009)
  21. Qi D, Hu X. Wu X, Merk M, Leng L, Bucala R and Young LH. Cardiac Macrophage migration inhibitory factor inhibits JNK pathway activation and injury during ischemia/reperfusion. J Clin Invest. 119:3807-3816 (2009)
  22. Richer MJ, Lavallée DJ, Shanina I, Horwitz MS. Toll-Like Receptor 3 Signaling on Macrophages Is Required for Survival Following Coxsackievirus B4 Infection. PLoS ONE 4(1): e4127. doi:10.1371/journal.pone.0004127 (2009)
  23. Atkinson C., et al. Complement-dependent inflammation and injury in a murine model of brain dead donor hearts. Circulation Research. 105:1094-1101 (2009)
  24. Buyse MG, et al. Long-term blinded placebo-controlled study of SNT-MC17/idebenone in the dystrophin deficient mdx mouse: cardiac protection and improved exercise performance. Eurpoean Heart Journal 30:116-124 (2009)
  25. Elrod JW et.al. Hydrogen sulfide attenuates myocardial ischemia-reperfusion injury by preservation of mitochondrial function. PNAS 104:15560-15565 (2007)
  26. Eckle T, et al. Cardioprotection by Ecto-5′-Nucleotidase (CD73) and A2B Adenosine Receptors. Circulation 115:1581-1590 (2007)
  27. Eckle T, et al. Systematic evaluation of a novel model for cardiac ischemic preconditioning in mice. Am J Physiol Heart Circ. Physiol. 291:H2533-H2540 (2006)
  28. Hardarson HS, et al. Toll-like receptor 3 is an essential component of the innate stress response in virus-induced cardiac injury. Am J Physiol Heart Circ. Physiol 292:H251-H258 (2006)
  29. Madonna R, Rinaldi L, Rossi C, Geng Y-J and De Caterina R. Prostacyclin improves transcoronary myocardial delivery of adipose tissue-derived stromal cells. Clinical Research 27:2054-2061 (2006)
  30. Morrison RR, Tan XL, Ledent C, Mustafa SJ and Hifmann PA. Targeted deletion of A2Aadenosine receptors attenuates the protective effects of myocardial postconditioning. Am J Physiol Heart Circ Physiol. 293:H2523-H2529 (2007)
  31. Engle,SKet al. Strain differences in serum cardiac troponin-I concentration and myocardial necrosis after isoproterenol treatment in mice. Abstract No. 383. The Toxicologist CD — An official Journal of the Society of Toxicology, Volume 96, Number S-1 (2007)
  32. Hou G, Dick R, Zeng C, Brewer GJ. Comparison of lowering copper levels with tetrathiomolybdate and zinc on mouse tumor and doxorubicin models. Translational Research 148:309-314 (2006)
  33. Huber SA, Feldman AM and Sartini D. Coxsackievirus B3 induces T regulatory cells, which inhibit cardiomyopathy in tumor necrosis factor-a transgenic mice. Circ Res. 99:1109-1116 (2006)
  34. Mullick A, Leon Z, Min-Oo G, Berghout J, Lo R, Daniels E and Gros P. Cardiac failure in C5-deficient mice after Candida albicans infection. Infection and Immunity. 74(8):4439-4451 (2006)Hou G, Dick R, Abrams GD, Brewer GJ., Tetrathiomolybdate protects against cardiac damage by doxorubicin in mice. J Lab Clin Med.146(5):299-303 (2005Tao L, Liu H-R, Gao F, Qu Y, Christopher TA, Lopez BL and Ma XL. Mechanical traumatic injury without circulatory shock causes cardiomyocyte apoptosis: rol of reactive nitrogen and reactive oxygen species. Am J Heart Circ Physiol. 288:H2811-H2818 (2005)
Rat cTnI Publications
  1. Yeh CH, et al.Potent cardioprotection from ischemia-reperfusion injury by a 2-domain fusion protein comprising Annexin V and Kunitz protease inhibitor.J Thromb Haemost.doi: 10.1111/jth.12314 (2013)
  2. Doods H and Wu D.Sabiporide reduces ischemia-induced arrhythmias and myocardial infarction and attenuates ERK phosphorylation and iNOS induction in rats. BioMed Res Int. 2013:504320 (2013)http://www.hindawi.com/journals/bmri/2013/504320/
  3. Ke D, Fang J, Fan L, Chen Z, Chen L.Regulatory T cells contribute to rosuvastatin-induced cardioprotection against ischemia-reperfusion injury.Coron Artery Dis. [Epub ahead of print] (2013)
  4. Watts JA, Gellar MA,FulkersonMB, Kline JA.A soluble guanylate cyclase stimulator, BAY 41-8543, preserves right ventricular function in experimental pulmonary embolism.Pulm Pharmacol Ther. [Epub ahead of print] (2012)
  5. Cheng K, et al. Magnetic enhancement of cell retention, engraftment and functional benefit after intracoronary delivery of cardiac-derived stem cells in a rat model of ischemia/reperfusion. Cell Transplant. 21(6):1121-1135 (2012) http://www.ingentaconnect.com/content/cog/ct/2012/00000021/00000006/art00006
  6. Juneman EB, Saleh L, Lancaster JJ, Thai HM,MarkhamB and Goldman S. The effects of poloxamer-188 on left ventricular function in chronic heart failure after myocardial infarction. J Cardiovasc Pharmacol. 60(3):293-298 (2012)
  7. Govindan S, et al. Cardiac myosin binding protein-C is a potential diagnostic biomarker for myocardial infarction. J Mol Cell Cardiol. 52(1):154-164 (2012)
  8. Huang CH, et al. Acute cardiac dysfunction after short-term diesel exhaust particles exposure. Toxicol Lett. 192(3):349-355 (2012)
  9. Shin IW, et al. Myocardial protective effect by ulinastatin via an anti-inflammatory response after regional ischemia/reperfusion injury in an in vivo rat heart model. Korean J Anesthesiol. 61(6):499-505 (2011) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3249573/
  10. Li T, et al. Polymerized human placenta hemoglobin given before ischemia protects rat heart from ischemia reperfusion injury. Artif Cells Blood Substit Immobil Biotechnol. 39(6):392-397 (2011)
  11. Zisa D, et al. Intramuscular VEGF activates an SDF1-dependent progenitor cell cascade and an SDF1-independent muscle paracrine cascade for cardiac repair. Am J Physiol Heart Circ Physiol. 301(6):H2422-2432 (2011)
  12. Shin IW, et al. Propofol has delayed myocardial protective effects after a regional ischemia/reperfusion injury in an in vivo rat heart model. Korean J Anesthesiol. 58(4):378-382 (2010) http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2876860/
  13. Todorova VK, Kaufman Y, Hennings LJ and Klimberg VS. Glutamine regulation of doxorubicin accumulation in hearts versus tumors in experimental rats. Cancer Chemother Pharmacol 66:315-323 (2010)
  14. Ji X, Takahashi R, Hiura Y, Hirokawa G, Fukushima Y and Iwai N. Plasma miR-208 as a Biomarker of Myocardial Injury. Clin Chem. 55(11):1944-1949 (2009)
  15. Yue T-L, et.al. In vivo activation of peroxisome proliferator-activated redeptor-d protects the heart from ischemia/reperfusion injury in Zucker fatty rats. J. Pharm. Exp. Ther. 325:466-474 (2008)
  16. Zagorski J, Gellar MA, Obraztsova M, Kline JA andWattsJA. Inhibition of CINC-1 decreases right ventricular damage caused by experimental pulmonary embolism in rats. The Journal of Immunology 179:7820-7826 (2007)
  17. Legare JF, Oxner A, Heimrath O, Myers T and Currie RW. Heat Shock treatment results in increased recruitment of labeled PMN following myocardial infarction. Am J Physiol Heart Circ Physiol. 293(5):H3210-5 (2007)
  18. Chopra M and Sharma AC. Distinct cardiodynamic and molecular chracteristics during early and late stages of sepsis-induced myocardial dysfunction. Life Sciences. epub. July 2007
  19. Liu J, Pang Y, Chang T, Bounelis P,ChathamJC, and Marchase RB. Increased hexoseamine biosynthesis and protein O-GlcNAc levels associated with myocardial protection against calcium paradox and ischemia. J Mol. Cell Cardiol. 40 303-312 (2006)
  20. Wang P and Chatham JC. Onset of diabetes in Zucker diabetic fatty (ZDF) rats leads to improved recovery of function after ischemia in the isolated perfused heart. Am J Physiol Endocrinol Metab 286:E725-E736 (2004)
Rabbit cTnI Publications
  1. Booth EA, and Lucchesi BR. Medroxyprogesterone acetate prevents the cardioprotective and anti-inflammatory effects of 17beta-estradiol in an in vivo model of myocardial ischemia and reperfusion. Am J Physiol Heart Circ Physiol. 293(3):H1408-15 (2007)
  2. Lauver DA, Booth EA, White AJ, Poradosu E & Lucchesi BR. Sulodexide attenuates myocardial ischemia/reperfusion injury and the deposition of C-reactive protein in areas of infarction without affecting hemostasis. J Pharm. Exp. Ther. 312(2):794-800 (2005)
  3. Lauver DA, Lockwood SF and Lucchesi BR. Disodium disuccinate astaxanthin (Cardax) attenuates complement activation and reduces myocardial injury following ischemia/reperfusion. J Pharm. Exp. Ther. 314(2):686-692 (2005)
  4. Booth EA, Obeid NR and Lucchesi BR. Activation of estrogen receptor-alpha protects the in vivo rabbit heart from ischemia-reperfusion injury. Am J Physiol Heart Circ Physiol. 289(5):H2039-47 (2005)
Pig cTnI Publications
  1. Uitterdijk A, et al.Serial measurement of hFABP and high sensitivity Troponin I post PCI in STEMI. How fast and accurate can Myocardial Infarct Size and No-Reflow be predictedAm J Physiol Heart Circ Physiol. [Epub ahead of print] (2013)
  2. Wu D, Kraut J, and Abraham WM.Sabiporide improves cardiovascular function, decreases the inflammatory response and reduces mortality in acute metabolic acidosis in pigs. PLoS one. 8(1): e53932 (2013)http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0053932
  3. Wu D and Qi J. Mechanisms of the beneficial effect of NHE1 inhibitor in traumatic hemorrhage: inhibition of inflammatory pathways. Resuscitation. 83(6):774-781 (2012)
  4. Gill RS, et al. Cyclosporine treatment improves cardiac function and systemic hemodynamics during resuscitation in a newborn piglet model of asphyxia: a dose-response study. Crit Care Med. 40(4): 1237-1244 (2012)
  5. Bebarta VS, et al. Hydroxocobalamin and Epinephrine Both Improve Survival in a Swine Model of Cyanide-Induced Cardiac Arrest. Ann Emerg Med. [Epub ahead of print] (2012)
  6. Wu D, Qi J, Dai H, Doods H and Abraham WM. Resuscitation with Na+/H+ exchanger inhibitor in traumatic haemorrhagic shock: cardiopulmonary performance, oxygen transport and tissue inflammation. Clin Exp Pharmacol Physiol. 37(3):337-342. (2010)
  7. Liu J-Q, Lee T-F, Bigam DL and Cheung P-Y. Effects of post-resuscitation treatment with N-acetylcysteine on cardiac recovery in hypoxic newborn piglets. PLoS one 5(12): e15322 (2010)
  8. Osipov RM, et al. Effect of hydrogen sulfide on myocardial protection in the setting of cardioplegia and cardiopulmonary bypass. Interactive CardioVascular and Thoracic Surgery 10: 506-512 (2010)
  9. Adams JA, et al. Periodic acceleration (pGz) prior to whole body ischemia reperfusion injury provides early cardioprotective preconditioning. Life Sciences 86: 707-715 (2010)
  10. Wu D, Bassuk J, Arias J, Doods H andAdamsJA. Cardiovascular effects of Na+/H+ exchanger inhibition with BIIB513 following hypovolemic circulatory shock. Shock 23(3):269-274 (2005)
Monkey cTnI Publications
  1. Minimo H, et al. Characteristics of troponins as myocardial damage biomarkers in cynomolgus monkeys. J Toxicol Sci. 34(6): 589-601 (2009)
Mouse Myoglobin Publications
  1. Nogales-Gadea G, et al. Knock-in mice for the R50X mutation in the PYGM gene present with McArdle disease. Brain. 135(Pt 7): 2048-2057 (2012)
  2. Ling Y, Pong T, Vassiliou CC, Huang PL, Cima MJ. Implantable magnetic relaxation sensors measure cumulative exposure to cardiac biomarkers. Nat Biotechnol. 29(3):273-277 (2011)
Rat Myoglobin Publications
  1. Ohta M, Kawano H, Notsu T, Naba H and Imada K. Eicosapentaenoic acid attenuates statin-induced ER stress and toxicity in myoblast. Biochem Biophys Res Commun. 424(2):301-307 (2012)
  2. Kerkweg U, Pamp K, Fieker J, Petrat F, Hider RC and de Groot H. Release of redox-active iron by muscle crush trauma: no liberation into the circulation. Shock. 33(5):513-518 (2010) http://journals.lww.com/shockjournal/Fulltext/2010/05000/Release_of_Redox_Active_Iron_By_Muscle_Crush.11.aspx
Rat Cardiac FABP Publications
  1. Hasic S, et al. Heart-type fatty acid-binding protein and its relation with morphological changes in rat myocardial damage model induced by isoproterenol. Bosn J Basic Med Sci. 11(4):240-244(2011) http://bjbms.org/archives/2011/4/240
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