View clinical trials related to Mycoses.
Filter by:To explore the PK/PD of deoxycholic amphotericin B in invasive fungal infection patients with sepsis/septic shock;To compare the PK/PD of deoxycholic amphotericin B in invasive fungal infection patients with sepsis and septic shock.
A study to learn about the bioequivalence (the biochemical similarity of two medicines that share the same active ingredient and desired outcome for patients) of the study medicine called APX001 in healthy participants.
Dermoscopic findings of small plaque parapsoriasis and patch stage mycosis fungoides (MF),histopathological correlation of the dermoscopic findings, and using these findings to differentiate two diseases by demonstrating the difference in diagnostic success of dermatologists
To assess the blood levels of hypericin and any electrocardiogram (ECG) changes during 8 weeks of HyBryte (topical hypericin ointment) photodynamic therapy.
Progress in the diagnosis of infectious pathogens depends on the development of effective methods and the discovery of suitable biomarkers. There are several kinds of methods that have been used in diagnosis of various pathogens, such as microscopic examination, culture, serologic diagnosis or molecular approaches, etc. However, these methods have similar limitations, that is, the single detection of reagents. More importantly, physicians seldom consider infections with rare pathogens. Recently developed metagenomic next-generation sequencing (mNGS) has the capability to overcome limitations of traditional diagnostic tests. This new technology could identify all pathogens directly from sample with a single run in a hypothesis-free and culture-independent manner. Studies have shown that mNGS is more sensitive than traditional culture method in clinical conditions such as blood stream, respiratory and general infections. More importantly, due to unbiased sampling, mNGS is theoretically able to identify not only known but also unexpected pathogens or even discovery novel organisms. It should be noted that mNGS also has some limitations such as human genome contamination and possibly environmental microbial contamination. The vast majority of reads in mNGS are derived from human host. This would impede the overall analytical sensitivity of mNGS for pathogen detection. Host depletion methods or targeted sequencing may help to partially mitigate this disadvantage. As mNGS could not, by itself, define whether the detected microbe is the causative pathogen or environmental microorganism, a multidisciplinary discussion by clinicians, microbiologists as well as the lab technicians is required to interpret the result.
Mycosis fungoides (MF) is an ultra-orphan disease of which the etiology remains unknown. MF is diagnosed by correlating clinical appearance with histopathological analysis of often multiple invasive skin punch biopsies. To move patient care and the development of novel treatments for MF forward, objective, sensitive and reliable tools that are preferably non-invasive are desired. Therefore, the objective of the current study is to phenotype the early stages of mycosis fungoides in detail and to assess the response of chlormethine (CL) gel monotherapy. With this approach the investigators aim to detect novel biomarkers and to establish methodologies for the (non-)invasive monitoring of MF.
The risk for invasive fungal infections is high in very low birth weight (VLBW) infants (< 1500 g) and highest for infants born at the youngest gestational ages who survive past the immediate postnatal period. Invasive fungal infections (IFIs) represent an increasing cause of severe morbidity and mortality in most neonatal intensive care units. Lactoferrin (LF) is secreted by epithelial cells into exocrine fluids: seminal fluid, tears, saliva, uterine secretions, and milk. LF is involved in innate immunity mechanisms with several documented anti-infective properties, including antifungal activity. Probiotics are microorganisms that are believed to provide health benefits when consumed. It is possible to adopt measures to modify the flora in our bodies and to replace the harmful microbes by useful microbes. There are certain commercially available strains of probiotic bacteria from the Bifido bacterium and Lactobacillus genera when taken by mouth in daily doses possess treatment efficacy
Self-care and self-medication are commonly the treatments of choice for the management of minor ailments. Minor ailments can be treated through community pharmacy using a Minor Ailment Service (MAS). The INDICA+PRO Impact Study, evaluated the clinical, economic and humanistic impact of a MAS, concluding that community pharmacies could greatly benefit the health system. Thus, the following objectives were defined for the INDICA+PRO implementation study. The primary objective is to implement a standardised MAS in usual practice in community pharmacy in Spain. The secondary objectives include an evaluation of the clinical and economic outcomes and the role and impact of two different models of change agents. A pragmatic study with an effectiveness-implementation hybrid design type 3 will be undertaken using the Framework for the Implementation of Services in Pharmacy (FISpH). The study will be carried between October 2020 and December 2022. Two type of practice change facilitators FaFa and SEFaFa. Their main function, using the Observe-Plan-Do-Study-Act process, will be to facilitate the implementation through individualised continuous support to providers of the MAS. The depth and breadth of support to pharmacist providers by each type of change agents will vary. Pharmaceutical Associations (PA) and/or Spanish Society of Community Pharmacy (SEFAC) will invite community pharmacies/pharmacists. Participating pharmacists will need to sign a commitment form. The second study population will consist of patients presenting with minor ailments or requesting a non-prescription medication. Recruitment of patients will be carried out by the pharmacist providers. The inclusion criteria will be: patients or caregivers (aged ≥18 years, or younger if they are accompanied by an adult) presenting with 31 minor ailments, grouped into five categories (respiratory, moderate pain, digestive, dermatological and other) with pre-agreed referral protocols. Other symptoms may be included at the discretion of the pharmacists. The exclusion criteria will be patients who do not provide informed consent. The patient/pharmacist intervention will consist of a MAS protocol adapted for each symptom. The consultation will be record in an electronic data capture system (SEFAC eXPERT®-) that provides a step-by-step approach with protocols and clinical information embedded. The FISpH model will be used to guide the implementation of MAS. Two types of change agents, FaFas and SeFaFas, previously trained for 18 hours, will be used to facilitate the implementation. During each of the stages (exploration, preparation, testing and operation, and initial sustainability), strategies will be used by FaFas and SeFaFas to moderate implementation factors. The impact of strategies will be evaluated. Data on pharmacy/pharmacist's provider performance and patient outcomes will be provided to pharmacist, change agents and PA and SEFAC. FaFas and SeFaFas will have a classification system for barriers and facilitators derived from the constructs in the Consolidated Framework for Implementation Research (CFIR). The classification system for implementation strategies consists of an adaptation of the facilitation activities listed by Dogherty et al. These will be documented in an electronic data capture system. FaFas will train their pharmacists (max. of 25 pharmacies) for 6 hours and subsequently provide at least monthly follow-up. The research team will provide ongoing feedback and support to the FaFas and SeFaFas through periodically, hold group meetings by video conference between the research group and all the FaFas and SeFaFas. The research group will provide formal reports on the implementation process and patient outcomes. Other forms of communication such as emails, telephone calls or WhatsApp messaging will also be available. Implementation and patient consultation process and outcome variables will be measured such as reach, fidelity and integration. Outcome service indicators will be clinical, economic and humanistic. A patient follow up will occur at a maximum of 10 days. Continuous variables will be reported using mean and standard deviation, or median and percentiles. Categorical variables will be reported using percentages. T Student's test or the ANOVA test or Kruskal-Wallis. χ2 test, Fisher's exact test or Yate's chi-squared will also be used. To determine the relationship between the dependent and the independent variables, logistic regression models will be performed including the variables with statistical significance in the bivariate model. The level of significance will be set at p <0.05. Machine learning and big data techniques are being considered for predictive modelling. The research team will only have access to de-identified data of pharmacists and patients. This study protocol has been approved by the Granada Research Ethics Committee on the 5th February 2020.
The aim of this study is to determine if fungal colonization is associated to severe bronchopulmonary dysplasia in premature infants less than 29 weeks of gestation, and to determine if an association exists between fungal colonization and complications of prematurity and death.
Resminostat is a potent, orally available inhibitor of Class I, IIb and IV histone deacetylases (HDACs), including a pronounced activity against HDAC6. Resminostat targets epigenetic changes observed in tumour cells and has the potential to provide significant benefit to patients with advanced malignancies by inhibiting tumour progression and metastasis or even inducing tumour regression. This will be a Phase 1, open-label, non-randomized, single dose study of the absorption, metabolism, excretion of [14C] resminostat following a single oral dose in healthy male participants. The purpose of this study is to determine the absorption, metabolism, and excretion (AME) of [14C] resminostat and to characterize and determine the metabolites present in plasma, urine, and, where possible, faeces in healthy male participants following a single oral administration. Knowledge of the metabolism and excretion of parent drug and its metabolites is useful for evaluating the Metabolites in Safety Testing requirements elucidated in the International Conference on Harmonisation (ICH) M3, and the likelihood of effects of renal or hepatic impairment on the disposition of resminostat, and the likelihood for drug-drug interactions with resminostat. The results from this study may guide future study designs using special populations or evaluating the potential for drug-drug interactions.