Efficacy of oseltamivir compared with zanamivir in COPD patients with seasonal influenza virus infection: a randomized controlled trial

Influenza viruses exacerbate chronic obstructive pulmonary disease (COPD) with considerable morbidity and mortality. Zanamivir and oseltamivir are effective in treating influenza. However, their efficacy in relieving influenza symptoms in COPD patients remains unknown, with the lack of controlled trials in this subject. Therefore, we conducted this randomized controlled trial to investigate the clinical efficacy of both interventions in this population. Patients were allocated to two groups (80 patients each): oseltamivir (OSELTA) and zanamivir (ZANA) groups. Oseltamivir (75 mg) was orally administered twice daily for 5 days, while zanamivir (10 mg) was inhaled twice daily for 5 days. Clinical parameters including body temperature, influenza symptoms (i.e., sore throat, cough, etc.), and serial blood tests were recorded on days 1, 3, and 7. We analyzed primary (changes in body temperature) and secondary outcomes (changes in non-specific symptoms) using the pre-protocol and intention-to-treat analyses. Differences between groups were assessed using t-test. Oseltamivir and zanamivir significantly reduced body temperature on the 3rd day after treatment; however, the number of patients who reported clinical improvement in influenza-like symptoms was significantly higher in the OSELTA group compared to the ZANA group on days 3 (85 vs 68.8%, P=0.015) and 7 (97.5 vs 83.8%, P=0.003). However, no significant changes in hematological (white blood cells and its subtypes) and inflammatory (C-reactive protein) parameters were noted (P>0.05). Our results suggested that oseltamivir and zanamivir are effective in reducing body temperature, while oseltamivir led to better clinical improvement regarding influenza-like symptoms in patients with COPD.

Novel identification and characterisation of Transient receptor potential melastatin 3 ion channels on Natural Killer cells and B lymphocytes: effects on cell signalling in Chronic fatigue syndrome/Myalgic encephalomyelitis patients

BACKGROUND: Transient receptor potential melastatin 3 (TRPM3) cation channels are ubiquitously expressed by multiple cells and have an important regulatory role in calcium-dependent cell signalling to help maintain cellular homeostasis. TRPM3 protein expression has yet to be determined on Natural Killer (NK) cells and B lymphocytes. Multiple single nucleotide polymorphisms have been reported in TRPM3 genes from isolated peripheral blood mononuclear cells, NK and B cells in Chronic fatigue syndrome/Myalgic encephalomyelitis (CFS/ME) patients and have been proposed to correlate with illness presentation. The object of the study was to assess TRPM3 surface expression on NK and B lymphocytes from healthy controls, followed by a comparative investigation examining TRPM3 surface expression, and cytoplasmic and mitochondrial calcium influx in CD19+ B cells, CD56bnght and CD56dim cell populations from CFS/ME patients. RESULTS: TRPM3 cell surface expression was identified for NK and B lymphocytes in healthy controls (CD56bright TRPM3 35.72 % ± 7.37; CD56dim 5.74 % ± 2.00; B lymphocytes 2.05 % ± 0.19, respectively). There was a significant reduction of TRPM3 surface expression on CD19+ B cells (1.56 ± 0.191) and CD56bright NK cells (17.37 % ± 5.34) in CFS/ME compared with healthy controls. Anti-CD21 and anti-IgM conjugated biotin was cross-linked with streptavidin,and subsequently treatment with thapsigargin. This showed a significant reduction in cytoplasmic calcium ion concentration in CD19+ B lymphocytes. CD56bright NK cells also had a significant decrease in cytoplasmic calcium in the presence of 2-APB and thapsigargin in CFS/ME patients. CONCLUSIONS: The results from this preliminary investigation identify, for the first time, TRPM3 surface expression on both NK and B lymphocytes in healthy controls. We also report for the first time, significant reduction in TRPM3 cell surface expression in NK and B lymphocytes, as well as decreased intracellular calcium within specific conditions in CFS/ME patients. This warrants further examination of these pathways to elucidate whether TRPM3 and impaired calcium mobilisation has a role in CFS/ME.

Betalactámicos con inhibidores de betalactamasas: Amoxicilina-sulbactam / Betalactam antibiotics combined with bectalactamases inhibitors: Amoxicillin-sulbactam

La producción de betalactamasas constituye uno de los principales mecanismos de resistencia bacteriana a los antibióticos betalactámicos. La utilización de inhibidores de betalactamasas en combinación con antibióticos betalactámicos permite la inactivación de determinadas betalactamasas producidas por gérmenes Gram positivos, Gram negativos, anaerobios, y aun por micobacterias. Los inhibidores de betalactamasas representan una alternativa terapéutica mejorada respecto del resto de los betalactámicos al asegurar, en la mayoría de los casos, un mayor espectro antimicrobiano comparado con el de sus análogos. La actividad enzimática de las betalactamasas está dirigida específicamente a la hidrólisis del anillo betalactámico, con producción de un compuesto sin actividad antibacteriana. De acuerdo con su posición genómica dentro de los microorganismos, las betalactamasas pueden ser cromosómicas o plasmídicas. Actualmente existen tres inhibidores de betalactamasas localmente disponibles: ácido clavulánico, sulbactam y tazobactam. De ellos, sólo el sulbactam posee actividad antimicrobiana intrínseca sobre las proteínas ligadoras de penicilina. La experiencia clínica acumulada durante más de 20 años confirma que las combinaciones de betalactámicos-inhibidores de betalactamasas son efectivas en el tratamiento empírico inicial de infecciones respiratorias, intraabdominales, urinarias y ginecológicas, incluidas las de origen polimicrobiano. En el caso particular de amoxicilina-sulbactam, la evidencia citada indica que esta combinación es efectiva para el tratamiento de absceso periamigdalino, otitis media, sinusitis, neumonía extrahospitalaria, exacerbación aguda de enfermedad pulmonar obstructiva crónica (EPOC), infección del tracto urinario e infecciones ginecoobstétricas. Por su espectro y propiedades farmacológicas, la combinación amoxicilina-sulbactam constituye una excelente opción también para el tratamiento de infecciones de piel y partes blandas e infecciones intraabdominales.

Betalactamases production is one of the main bacterial resistance mechanisms to betalactam antibiotics. The use of bectalactamases inhibitors combined with betalactam antibiotics allows the inactivation of certain betalactamases produced by Gram positive, Gram negative and anaerobic organisms, and even by mycobacteria. Betalactamases inhibitors are an improved therapeutic alternative compared with the other betalactam since, in most cases, they cover a wider antimicrobial spectrum than their analogues. Betalactamases enzimatic activity is specifically directed to the betalactam ring hydrolisis, producing a compound without antibacterial activity. According to their genomic position within microorganisms, betalactamases can be either chromosomic or plasmidic. Currently there are three betalactamases inhibitors locally available: clavulanic acid, sulbactam and tazobactam. Of them, only sulbactam has an intrinsic antimicrobial activity against penicillin binding proteins. The clinical experience from over 20 years confirms that the combination of betalactam antibiotics is effective in the empirical initial treatment of respiratory, intraabdominal, urinary tract and gynecologic infections, including those of polymicrobial origin. In the specific case of amoxicillin-sulbactam, experiences have shown the effectiveness of the combination in the treatment of peritonsillar abscess, otitis media, sinusitis, community acquired pneumonia, acute exacerbation of chronic obstructive pulmonar disease (COPD), urinary tract infection and obstetric/ gynecologic infections. The spectrum and pharmacologic properties of this combination makes it also an excellent option for the treatment of skin/soft tissue and intraabdominal infections.