Liposome suspensions (0

Liposome suspensions (0.5 mL) were dissolved in methanol to break up Astemizole the liposomes and release the liposome-loaded dexamethasone. demonstrate the potential of actively targeted glucocorticoid therapy in the treatment of lung disease in Astemizole clinical practice. Introduction Glucocorticoids are steroidal hormones with strong anti-inflammatory and immunosuppressive actions, which are widely used in clinical practice. Long-term systemic steroid therapy is usually routinely administered for many respiratory diseases, including acute lung injury/acute respiratory distress syndrome (ALI/ARDS) and interstitial pneumonia, bronchial Rabbit polyclonal to ABHD12B asthma, sarcoidosis, and etc. [1], [2], [3]. Acute lung injury/Acute respiratory distress syndrome (ALI/ARDS) [4] are severe form of hypoxic lung disease due to many complicated causes and lead to a large number of deaths worldwide. They are defined clinically by gas exchange and chest radiographic abnormalities which occur shortly after a known predisposing injury and in the absence of heart failure. Acute respiratory distress syndrome (ARDS) represents the more severe end of the spectrum of this condition in which you will find widespread inflammatory changes throughout the lung, usually accompanied by aggressive fibrosis in later stage. The common pathological feature of ALI/ARDS is usually diffused alveolar inflammation which lead to severe hypoxia and mortality in more than 70% of cases [5]. Animal models of acute lung injury (ALI) have contributed significantly to our understanding of the pathogenesis and pathophysiology of the clinical syndrome of ALI/ARDS [6]. Bleomycin (BLM) is usually a chemotherapeutic drug used for a variety of human malignancies treatment. But its benefits are limited by severe side effect of inducing pneumonitis and progressing to fibrosis [7]. Therefore, bleomycin is usually used in establishing acute lung injury and pulmonary fibrosis models in vivo [8].This animal model has diffused alveolar inflammation after with bleomycin from day 3 to 14, and then gradually progress to fibrosis. The model shows the features of early inflammation and later fibrosis. The model standardizes and reproduces well. Hence, it is a good animal model of acute lung injury, we used it to explore the effect of our new lung targeting agent. Glucocorticoids have been utilized for treatment of ALI/ARDS for many years. However, systemic long-term or high-dose administration of glucocorticoids is usually often accompanied by adverse effects, disability and even life-threatening outcomes [3], [4], [9]. There is therefore an important unmet clinical need to reduce the severe side-effects of these glucocorticoids. Harnessing advanced Astemizole drug delivery techniques such as targeted delivery of therapeutic for such steroidal treatments holds great potential. Active targeting of drug delivery vehicles to a specific lesion can be achieved through coupling an antibody or antibody fragment to liposomes (known as immunoliposomes) [10], [11]. Liposomes have attracted considerable attention as drug delivery carriers because of Astemizole their biocompatible and non-toxic nature which protects their cargo from degradation by plasma enzymes, and can enhance transports of their weight through biological membranes [12], [13].Advantages Astemizole of immunoliposome drug delivery vehicles also include reduced toxicity and adverse effects, as well as pharmacokinetic improvements such as a potential increase in half-life [14], [15]. Surfactant protein A(SP-A) was the first pulmonary surfactant protein to be recognized. It is synthesized and released by type II alveolar epithelial cells. SP-A is usually rarely expressed outside lung tissue, but is usually highly expressed in the lung, indicating high lung-specificity. SP-A has been used as a classical indicator for identifying the origins of cells used in pathology [16], [17],.