The panel also recommended using the term ‘immune’ Nutlin-3 solubility dmso rather than ‘idiopathic’ thrombocytopenia, emphasizing the role of underlying immune mechanisms. The 2011 American Society of Haematology’s evidence-based guidelines for the treatment of ITP present the most recent authoritative diagnostic and therapeutic recommendations [13]. ITP is considered to be primary if it occurs in isolation and secondary, if it is associated with an underlying disorder. In
adults, ITP tends to be chronic, presenting with a more indolent course than in childhood, and unlike childhood ITP, infrequently following a viral infection [2]. Oxidative stress, defined as ‘the imbalance between oxidants and antioxidants in favour of the oxidants, potentially leading to damage’
has been associated with several autoimmune diseases, such as colon malignancies, multiple sclerosis, neurodegenerative diseases, psoriasis, vitiligo and alopecia areata [14-17]. Oxidative damage may be involved in the pathogenesis of these autoimmune diseases. Under some conditions, increase in oxidants and decrease in antioxidants cannot be prevented, and the oxidative/antioxidative balance shifts towards the oxidative status. In response to oxidative stress, living organisms have developed an antioxidant defence, which prevents the harmful effects of free radical overproduction. Although free radicals act as a part of the defence system of the body in appropriate Selleckchem MG-132 conditions, they may cause tissue damage when inappropriately produced [18]. The antioxidant defence system of the body eliminates these harmful effects. Oxidant stress appears when the free radical formation rate exceeds the antioxidant defence mechanism capacity. ITP has characteristics of an immune disease [19-21]. Increased oxidative stress is thought to
have a role in the pathogenesis of autoimmune disorders because of its contribution to inflammation and its role in apoptotic cell death, in addition to decreasing immune system functions [22]. Zhang et al. reported that gene expression and molecular-oxidative stress presented as causative factors for chronic ITP in children [23, 24]. The numbers many of the patient/control groups entered the study, however are small, but ongoing oxygen stress may play an important part in the immune pathogenesis in patients with chronic ITP, and the specific mechanism is still unclear. But, the exact triggering event remains elusive. A direct link between platelets in ITP and oxidative stress has not yet been addressed. Kamhieh-Milz et al. [25] found that the intracellular platelet antioxidant capacity (AOC) of ITP patients in the active phase was drastically reduced, with significantly high mean fluorescence intensity values.