Your search keyword '"Carlos Montejo González, Juan"' showing total 3 results

1. Farmacodinamia y farmacocinética de la micafungina en adultos, niños y neonatos

Author

Catalán-González, Mercedes and Carlos Montejo-González, Juan

Published

2009

2. Papel del músculo en el paciente crítico.

Author

Carlos Montejo González, Juan, Sánchez-Bayton Griffith, María, Orejón García, Lydia, and Montejo González, Juan Carlos

Subjects

*CRITICALLY ill, *MUSCLE weakness, *REHABILITATION, *ENTERAL feeding, *PARENTERAL feeding, *CATASTROPHIC illness, *CRITICAL care medicine, *MUSCLE strength, *POLYNEUROPATHIES, *HEALTH self-care, *SELF-evaluation, *SKELETAL muscle, *FERRANS & Powers Quality of Life Index, *DISEASE complications

Abstract

Introduction: Polyneuropathy in the critically ill patient was defined as a generalized weakness, acquired during Intensive Care Unit (ICU) admittance and attributed to lesion of the peripheral nerve. Research in this field progressed over time, revealing the crucial role of muscle injury in this disease, to the point of re-naming the disorder as ICU adquired weakness (ICUAW). Muscle damage is common in severe illness, and may be classified in qualitative (weakness) or quantitative (decrease in mass) muscle loss. The most frequent scenario in these patients, is simultaneous change in quality and quantity of muscle; resulting in a challenging and delayed recovery during hospital admittance and after discharge. Multiple causes have been identified in the pathogenesis of this disorder, such as: prolonged bed rest, inadequate intake of nutrients and exposure to drugs that affect muscle structure and contraction. The assessment of muscle mass using images provided by ultrasound or computerized tomography may guide follow up. The prevention and treatment of ICUAW requires a multimodal approach: early mobilization and exercise, appropriate nutritional prescription and, occasionally, muscle protein synthesis stimulants. Further studies will clarify more aspects regarding critically ill patients suffering from muscle injury, in order to better address prevention and treatment of ICUAW. [ABSTRACT FROM AUTHOR]

Published

2019

3. [Pharmacodynamics and pharmacokinetics of micafungin in adults, children and neonate].

Author

Catalán-González M and Carlos Montejo-González J

Subjects

Adolescent, Adult, Aged, Animals, Antifungal Agents adverse effects, Antifungal Agents pharmacokinetics, Antifungal Agents therapeutic use, Aspergillus drug effects, Aspergillus enzymology, Biotransformation, Candida drug effects, Candida enzymology, Child, Child, Preschool, Drug Evaluation, Preclinical, Drug Interactions, Echinocandins adverse effects, Echinocandins pharmacokinetics, Echinocandins therapeutic use, Humans, Infant, Newborn, Lipopeptides adverse effects, Lipopeptides pharmacokinetics, Lipopeptides therapeutic use, Micafungin, Microbial Sensitivity Tests, Middle Aged, Molecular Structure, Pneumocystis carinii drug effects, Pneumocystis carinii enzymology, Young Adult, Antifungal Agents pharmacology, Echinocandins pharmacology, Fungal Proteins antagonists & inhibitors, Glucosyltransferases antagonists & inhibitors, Lipopeptides pharmacology, Mycoses drug therapy

Abstract

Background: Invasive fungal infections are a significant cause of morbidity and mortality among immunocompromised patients. Although several new antifungal agents have been developed in the past few years, the management of serious fungal infections continues to be problematic., Aims: To review the pharmacodynamics and pharmacokinetics of a new antifungal agent: micafungin., Methods: A systematic review of biomedic databases (EBSCO Open Journals, Ovid Online, Proquest Medical Library, PubMed/Medline, Science Direct, Springer Links and Wiley Interscience) has been performed. Search was conducted from 2000 to 2008. Supplementary sources included abstracts from the Interscience Conference on Antimicrobial Agents (ICAAC) and Chemotherapy and the Infectious Diseases Society of America (IDSA) from 1998 to 2008., Results: Micafungin has a potent mechanism of action: inhibits beta-1,3-D-glucan synthase interfering with fungal cell wall synthesis. This agent shares with caspofungin an identical spectrum of in vitro activity against Candida albicans, non-albicans Candida species, and Aspergillus. Due to the limited oral availability, micafungin is available for parenteral administration only. Micafungin is characterized by a linear pharmacokinetic profile and substantially fewer toxic effects. Micafungin is a poor substrate for the cytochrome P450 enzymes, and compared to azoles, fewer drug interactions have been described. No dose reduction is required in renal impairment or in mild to moderate liver failure., Conclusions: The pharmacodynamic and pharmacokinetic profiles of micafungin imply that this drug is a safe alternative for the treatment of fungal infections. Micafungin can be safely co-administered with most drugs without the need for dosage adaptation even in patients with renal o liver function impairment.

Published

2009