ABSTRACT
RATIONALE: In-stent reocclusion after endovascular therapy has a negative impact on outcomes in acute ischemic stroke (AIS) due to tandem lesions (TL). Optimal antiplatelet therapy approach in these patients to avoid in-stent reocclusion is yet to be elucidated. AIMS: To assess efficacy and safety of intravenous tirofiban versus intravenous aspirin in patients undergoing MT plus carotid stenting in the setting of AIS due to TL. SAMPLE SIZE ESTIMATES: Two hundred forty patients will be enrolled, 120 in every treatment arm. METHODS AND DESIGN: A multicenter, prospective, randomized, controlled (aspirin group), assessor-blinded clinical trial will be conducted. Patients fulfilling the inclusion criteria will be randomized at MT onset to the experimental or control group (1:1). Intravenous aspirin will be administered at a 500-mg single dose and tirofiban at a 500-mcg bolus followed by a 200-mcg/h infusion during the first 24 h. All patients will be followed for up to 3 months. STUDY OUTCOMES: Primary efficacy outcome will be the proportion of patients with carotid in-stent thrombosis within the first 24 h after MT. Primary safety outcome will be the rate of symptomatic intracranial hemorrhage. DISCUSSION: This will be the first clinical trial to assess the best antiplatelet therapy to avoid in-stent thrombosis after MT in patients with TL. TRIAL REGISTRATION: The trial is registered as NCT05225961. February, 7th, 2022.
Subject(s)
Aspirin , Ischemic Stroke , Thrombosis , Tirofiban , Humans , Aspirin/adverse effects , Aspirin/therapeutic use , Platelet Aggregation Inhibitors/adverse effects , Platelet Aggregation Inhibitors/therapeutic use , Prospective Studies , Tirofiban/adverse effects , Tirofiban/therapeutic use , Randomized Controlled Trials as Topic , Multicenter Studies as TopicABSTRACT
Las infecciones del sistema nervioso central (SNC) causadas por patógenos mutiresistentes suponen un reto terapéutico. El paso de fluidos y de solutos al SNC está estrechamente regulado a través de la barrera hematoencefálica (BHE).La penetración de cualquier fármaco, inclusive los antibióticos, en el líquido cefalorraquídeo (LCR) depende del tamaño molecular, la lipofilicidad, la unión a proteínas plasmáticas y su afinidadpor transportadores de la BHE. La relación entre el área bajo la curva en el LCR y el suero AUCCSF (Area Bajo la Curva en LCR) / AUCS (Area Bajo la Curva en suero) de una sustancia es el parámetro más preciso para determinar su capacidad de difusión. Linezolid, algunas quinolonas y metronidazol consiguen altas concentraciones en LCR y son útiles para tratar microorganismos sensibles. Algunos antibióticos cuya permeabilidad a través de la BHE es baja pueden ser administrados directamente en el ventrículo a la vez que se realiza infusión intravenosa. El antibiótico ideal para tratar una infección del SNC es pequeño, no tiene alta tasa de unión a proteínas plasmáticas, es moderadamente lipofílico y no es un ligando de alta afinidad a bombas de expulsión de la BHE. Conocer la farmacocinética de los antibióticos y su interacción con la BHE permitirá mejorar el tratamiento de los pacientes con infecciones del SNC. En este artículo se exponen las propiedades físico-químicas de los principales grupos de antibióticos para evaluar cuáles son más prometedores en el tratamiento de las infecciones del SNC y cómo usarlos en la práctica clínica habitual (AU)
Central nervous system (CNS) infections caused by pathogens with a reduced sensitivity to drugs are a therapeutic challenge. Transport of fluid and solutes is tightly controlled within CNS, where vasculature exhibits a blood-brain barrier (BBB).The entry of drugs, including antibiotics, into the cerebro- spinal fluid (CSF) is governed by molecular size, lipophilicity, plasma protein binding and their affinity to transport systems at the BBB. The ratio of the AUCCSF (Area under the curve in CSF)/AUCS (Area under the curve in serum) is the most accurate parameter to characterize drug penetration into the CSF. Linezolid, some fluoroquinolones and metronidazole get high CSF concentrations and are useful for treating susceptible pathogens. Some highly active antibiotic compounds with low BBB permeability can be directly administered into the ventricles together with concomitant intravenous therapy. The ideal antibiotic to treat CNS infections should be that with a small moderately lipophilic molecule, low plasma protein binding and low affinity to efflux pumps at BBB. Knowledge of the pharmacokinetics and pharmacodynamics of antibiotics at the BBB will assist to optimize antibiotic treatment in CNS infections. This article reviews the physicochemical properties of the main groups of antibiotics to assess which compounds are most promising for the treatment of CNS infections and how to use them in the daily clinical practice (AU)
Subject(s)
Humans , Central Nervous System , Anti-Bacterial Agents/pharmacokinetics , Blood-Brain Barrier , Cerebrospinal Fluid , Central Nervous System Bacterial Infections/drug therapy , Drug Resistance, Multiple , Drug Resistance, Microbial , Area Under Curve , Brain Abscess/drug therapy , Meningitis, Bacterial/drug therapyABSTRACT
A 33-year-old man with gait instability, weakness of the left lower extremity, decreased visual acuity in the left eye, and urgency and urine incontinence was diagnosed of relapsing-remitting multiple sclerosis. He was treated with natalizumab (300 mg intravenously every 4 weeks) as first-line therapy, which reached at 6 months a favorable clinical evolution and dramatic radiological improvement (T2-weighted lesion load decreased by 50% and no gadolinium-enhancing T1 lesions) sustained over the course of 8 years. This clinical case shows the efficacy of natalizumab in a real-world setting and, particularly, the sustained effect of this drug in the long term as demonstrated by persistent radiological improvement. Natalizumab can be considered as the treatment of choice in relapsing-remitting multiple sclerosis forms presenting with two relapses and gadolinium-enhancing (Gd+) lesions.
