SEARCH ARTICLES



LATEST ARTICLES

Table of Contents

2019 Month : June Volume : 8 Issue : 23 Page : 1825-1829

A STUDY ON MATERNAL SERUM TOTAL THIOLS AND HIGHLY SENSITIVE C-REACTIVE PROTEIN AS INDICATORS OF OXIDATIVE STRESS AND INFLAMMATION IN PREECLAMPSIA AND THEIR CORRELATION WITH OPHTHALMIC MANIFESTATIONS.

Rakhi Bandyopadhyay1, Tanima Mandal2, Pinaki Sarkar3, Jhuma Biswas4

1Associate Professor, Department of Ophthalmology, BSMCH, Bankura, West Bengal, India.
2Assistant Professor, Department of Biochemistry, BIN, IPGMER, Kolkata, West Bengal, India.
3Professor and HOD, Department of Biochemistry, BSMCH, Bankura, West Bengal, India.
4Associate Professor, Department of Obstetrics and Gynaecology, CNMC&H, Kolkata, West Bengal, India.

References :

1

Mihu D, Razvan C, Malutan A, et al. Evaluation of maternal systemic inflammatory response in preeclampsia. Taiwanese Journal of Obsterics and Gynaecology 2015;54(2):160-6.                                  

CrossRef | Google Scholar | PubMed
2

Uzan J, Carbonnel M, Piconne O, et al. Pre-eclampsia: pathophysiology, diagnosis and management. Vasc Health Risk Manag 2011;7:467-74.               

CrossRef | Google Scholar | PubMed
3

Bernardi F, Guolo F, Bortolin T, et al. Oxidative stress and inflammatory markers in normal pregnancy and preeclampsia. J Obstet & Gynaecol Res 2008;34(6):948-51.                                   

CrossRef | Google Scholar | PubMed
4

Hu ML. Measurement of protein thiol groups and glutathione in plasma. Methods Enzymol 1994;233:380-5.              

CrossRef | Google Scholar | PubMed
5

Hubel CA. Oxidative stress in the pathogenesis of preeclampsia. Proc Soc Exp Biol Med 1999;222(3):222-35.                              

Google Scholar | PubMed
6

Siddiqui IA, Jaleel A, Tamimi W, et al. Role of oxidative stress in the pathogenesis of preeclampsia. Arch Gynecol Obstet 2010;282(5):469-74.      

CrossRef | Google Scholar | PubMed
7

Rajimakers MT, Zusterzeal PL, Steegers EA, et al. Plasma thiol status in preeclampsia. Obstet Gynecol 2000;95(2):180-4.         

Google Scholar | PubMed
8

Reddy SC, Naliah S, Rani S, et al. Fundus changes in pregnancy induced hypertension. International Journal of Ophthalmology 2012;5(6):694-7.              

Google Scholar | PubMed
9

Tadin I, Bojic L, Mimica M, et al. Hypertensive retinopathy and preeclampsia. Collegium Antropologicum 2001;Suppl 25:77-81.               

Google Scholar | PubMed
10

Ranjan R, Sinha S, Seth S. Fundus changes and fetal outcomes in pregnancy induced hypertension: an observational study. International Journal of Scientific Study 2014;2(7):6-9.      

11

Rasdi AR, Nik-Ahmad-Zuky NL, Bakiah S, et al. Hypertensive retinopathy and visual outcome in hypertensive disorders of pregnancy. Med J Malaysia 2011;66(1):42-7.           

CrossRef | Google Scholar | PubMed
12

Karki P, Malla P, Das H, et al. Association between pregnancy-induced hypertensive fundus changes and fetal outcomes. Nepal J Ophthalmol 2010;2(1):26-30.

Google Scholar | PubMed
13

Bharathi RN, Raju NRS, Prasad PK, et al. Fundus changes in pregnancy induced hypertension: a clinical study. J of Evolution of Med and Dent Sci 2015;4(9):1552-62.        

CrossRef | Google Scholar |
14

Korkmaz V, Korduglu Z, Asilik M, et al. Impairment of thiol-disulphide homeostasis in preeclampsia. J Matern Fetal Neonatal Med 2016;29(23):3848-53.           

CrossRef | Google Scholar | PubMed
15

Ozler S, Erel O, Oztas E, et al. Serum Thiol/disulphide homeostasis in preeclampsia. Hypertens Pregnancy 2015;34(4):474-85.       

CrossRef | Google Scholar | PubMed
16

Yuvaci HU, Akdemir N, Bostanci MS, et al. Evaluation of the level of Thiol-disulphide homeostasis in patients with mild and severe preeclampsia. Pregnancy Hypertens 2016;6(4):394-9.                                    

CrossRef | Google Scholar | PubMed
17

De Lucca L, Rodrigues F, Jantsch LB, et al. Delta- aminolevulinate dehydratase activity and oxidative stress markers in preeclampsia. Biomedicine and Pharmacology 2016;84:224-9.                                      

CrossRef | Google Scholar | PubMed
18

Kundi H, Ates I, Kiziltunc E. A novel oxidative stress marker in acute myocardial infarction: thiol/disulphide homeostasis. Am J Emerg Med 2015;33(11):1567-71.                 

CrossRef | Google Scholar | PubMed
19

Babaoglu E, Kilic H, Hezer H, et al. Comparison of thiol/disulphide homeostasis parameters in patients of COPD, asthma and ACOs. Eur Rev Med Pharmacol Sci 2016;20(8):1537-43.               

CrossRef | Google Scholar | PubMed
20

Qian J, Fang J, Zhu Q, et al. Serum protein thiol levels in patients with hospital-acquired acute kidney injury. Kidney Blood Press Res 2015;40(6):623-9.         

CrossRef | Google Scholar | PubMed
21

Prakash M, Shetty JK, Tripathy S, et al. Serum total thiol status in alcohol abusers. Asian Journal of Biochemistry 2008;3(1):48-51.               

CrossRef | Google Scholar |
22

Gumusyala S, Vural G, Bektas H, et al. A novel oxidative stress marker in patients with Alzeimers disease: dynamic thiol/disulphide homeostasis. Acta Neuropsychiatr 2016;28(6):315-20.                    

CrossRef | Google Scholar | PubMed
23

Gulpumuk B, Koc M, Karatepe MS, et al. Novel assessment of oxidative stress biomarkers in patients with keratoconus: thiol/disulphide homeostasis. Current Eye Research 2017;42(9):1215-9.               

CrossRef | Google Scholar | PubMed
24

Tetkoglu M, Aktas S, Sagdik HM, et al. Thiol/disulphide homeostasis in Pseudoexfoliation syndrome. Current Eye Research 2017;42(6):876-9.     

CrossRef | Google Scholar | PubMed
25

Torkuglu EB, Dikci S, Celic E, et al. Thiol/disulphide homeostasis in patients with central serous chorioretinopathy. Curr Eye Res 2016;41(11):1489-91.         

CrossRef | Google Scholar | PubMed
26

Elbay A, Ozer OF, Altinisik M, et al. A novel tool reflecting the role of oxidative stress in cataracts: thiol/disulphide homeostasis. Scandinavian J Clin Lab Invest 2017;77(3)223-7.                     

CrossRef | Google Scholar | PubMed
27

Ayatollahi H, Hasanzade M, Farzadnia M, et al. Serum level of highly sensitive C - reactive protein in normal and pre-eclamptic pregnancies. Iran J Pathology 2007;2(3):100-4.                       

CrossRef | Google Scholar |
28

Kumru S, Golakmerdan A, Kutlu S, et al. Correlation of maternal serum high-sensitive C-reactive protein levels with biochemical and clinical parameters in preeclampsia. Eur J Obstet & Gynecol Reprod Biol 2006;124(2):164-7.             

CrossRef | Google Scholar | PubMed
29

Paternoster DM, Fantinato S, Stella A, et al. C-reactive protein in hypertensive disorders in pregnancy. Clinical and Applied Thrombosis/ Hemostasis 2006;12(3):330-7.               

CrossRef | Google Scholar | PubMed
30

Daniella OM, Costin N, Maria PD, et al. Evaluation of inflammatory markers in pregnant women at risk, for the prediction of preeclampsia. Acta Medica Marisiensis 2014;60(3):94-8.  

Google Scholar |
31

Hwang HS, Kwon JY, Kim MA, et al. Maternal serum highly sensitive C - reactive protein in normal pregnancy and pre-eclampsia. Int J Gynaecol & Obstet 2007;98(2):105-9.                                 

CrossRef | Google Scholar | PubMed
32

Jonas JB, Wei WB, Xu L, et al. Systemic inflammation and eye diseases. The Beijing Eye Study. PLoS One 2018;13(10):e0204263.

CrossRef | Google Scholar | PubMed
33

Coban E, Nizam I, Topal C, et al. The association of low-grade systemic inflammation with hypertensive retinopathy. Clin Exp Hypertens 2010;32(8):528-31

CrossRef | Google Scholar | PubMed
34

Yanchuan D, Jian W, Pengquang Z, et al. The relation of serum HS-CRP to risk factors and target organ damage in hypertensive patients. Heart 2012;98(Suppl 2):E1-E319.

35

Elmas B, Yildiz T, Yazar H, et al. New oxidative stress markers useful in the diagnosis of acute appendicitis in children: Thiol/disulphide homeostasis and the asymmetric dimethylarginine level. Pediatr Emerg Care 2017.               

CrossRef | Google Scholar | PubMed
36

Altiparmak IH, Erkus ME, Sezen H, et al. Evaluation of thiol levels, thiol/disulphide homeostasis and their relation with inflammation in cardiac syndrome X. Coron Artery Dis 2016;27(4):295-301. 

CrossRef | Google Scholar | PubMed
37

De Jong FJ, Ikram MK, Witterman JC, et al. Retinal vessel diameters and the role of inflammation in cerebrovascular disease. Ann Neurol 2007;61(5):491-5.  

CrossRef | Google Scholar | PubMed
38

Klein R, Klein BEK, Knudtson MD, et al. Are inflammatory factors related to retinal vessel caliber? The Beaver Dam Eye Study. Arch Ophthalmol 2006;124(1):87-94.              

CrossRef | Google Scholar | PubMed
39

Sanchez-Aranguren LC, Pada CE, Riano-Medina CE, et al. Endothelial dysfunction and preeclampsia: role of oxidative stress. Front Physiol 2014;5:372.              

CrossRef | Google Scholar | PubMed