Current drug targets
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Current drug targets · Aug 2012
Bacterial cell wall compounds as promising targets of antimicrobial agents I. Antimicrobial peptides and lipopolyamines.
The first barrier that an antimicrobial agent must overcome when interacting with its target is the microbial cell wall. In the case of Gram-negative bacteria, additional to the cytoplasmic membrane and the peptidoglycan layer, an outer membrane (OM) is the outermost barrier. The OM has an asymmetric distribution of the lipids with phospholipids and lipopolysaccharide (LPS) located in the inner and outer leaflets, respectively. ⋯ Therefore, a given antimicrobial agent must ideally have a double character, namely, it must overcome the bacterial cell wall barrier, without inducing the liberation of the pro-inflammatory amphiphiles. Here, new data are presented which describe the development and use of membrane-active antimicrobial agents, in particular antimicrobial peptides (AMPs) and lipopolyamines. In this way, essential progress was achieved, in particular with respect to the inhibition of deleterious consequences of bacterial infections such as severe sepsis and septic shock.
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Current drug targets · Jun 2012
ReviewGeneral anesthetics in pediatric anesthesia: influences on the developing brain.
Millions of newborn and infants receive anesthetic, sedative and analgesic drugs for surgery and painful procedures on a daily basis. However, recent laboratory reports clearly demonstrate that anesthetic and sedative drugs induced both neuroapoptosis and neurocognitive deficits in laboratory models. This issue is of paramount interest to pediatric anesthesiologists and intensivists because it questions the safety of anesthetics used for fetal and neonatal anesthesia. ⋯ Conversely, painful stimuli without analgesia and anesthesia have been implicated in triggering neuro-apoptosis in juvenile mammalian models. Published retrospective reviews demonstrate temporary neurological sequelae after prolonged anesthetic exposure in young children and larger studies identify long-term neurodevelopmental impairment after neonatal surgery and anesthesia. This paper examines the evidence for the effects of commonly used anesthetics on neuronal structure and neurocognitive function in laboratory models and reviews the relevant clinical human epidemiologic data.
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Hypovolemia is the most common cause of circulatory failure in children and may lead to critical tissue perfusion and eventually multiple-organ failure. Administration of fluids to maintain or restore intravascular volume represents a common intervention after hemorrhagic shock occurring during surgical procedures or in patients with trauma. Notwithstanding, there is uncertainty whether the type of fluid may significantly influence the outcome, especially in pediatrics. ⋯ Hydroxyethylstarch (HES) preparations have been introduced recently, becoming very popular for vascular loading both in adults and children. However, the number of pediatric studies aimed at evaluating HES efficacy and tolerance is limited. Given the ongoing controversies on the use of colloids in childhood, this review will focus on the pharmacodynamics of synthetic and non synthetic colloids for the treatment of critical blood loss in pediatrics.
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The pediatric loco-regional techniques are considered very safe and effective, first of all because they target the therapy directly to the site of surgery, decreasing the risks of intravenous analgesia. The quality of local anesthesia is influenced by structural and biophysical characteristics of local anesthetics drug, dose, site of injection, mixture of local anesthetics and possible addition of a vasoconstrictor or an adjuvant to prolong the analgesic effect. In children, unlike adults, small nerve diameters and short distance between Ranvier nodes permit to use large volumes and low concentrations of local anesthetics. ⋯ Among the adjuvant, clonidine and ketamine showed the best pharmacokinetic and pharmacodynamic profiles of effective and safety, improving and prolonging the action of associated local anesthetics. Therefore, the use of enantiomers, in association with adjuvants as clonidine or ketamine, using the multimodal approach of integrated anesthesia, makes the clinical practice effective and safe in the pediatric operating rooms. This review focuses on the overview of local anesthetics and adjuvants used today in locoregional pediatric anesthesia, with an emphasis on the advantages and disadvantages of each drug.
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Circulatory failure recognition and treatment represents an important issue in critically ill infants and children. Early diagnosis and prompt institution of adequate treatment may be life-saving for pediatric patients with cardiocirculatory instability in the setting of intensive care. However, the hemodynamic status of the critically ill child is poorly reflected by baseline vital parameters or laboratory blood tests. ⋯ Advanced hemodynamic monitoring consists - among others - of measuring cardiac output, predicting fluid responsiveness and calculating systemic oxygen delivery. Identification and quantifying of pulmonary edema has also been recently appreciated in pediatric critical care. In the last decade, the number of vasoactive drugs has increased, together with a better understanding of clinical application of both different monitoring devices and treatment strategies.