Você está em: Start > Publications > View > Computational modeling in nanomedicine: prediction of multiple antibacterial profiles of nanoparticles using a quantitative structure-activity relationship perturbation model
Computational modeling in nanomedicine: prediction of multiple antibacterial profiles of nanoparticles using a quantitative structure-activity relationship perturbation model
Title
Computational modeling in nanomedicine: prediction of multiple antibacterial profiles of nanoparticles using a quantitative structure-activity relationship perturbation model
Type
Article in International Scientific Journal
Year
2015
Authors
Speck Planche, A
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Kleandrova, VV
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Luan, F
(Author)
Other
The person does not belong to the institution.
The person does not belong to the institution.
The person does not belong to the institution.
Without AUTHENTICUS
Without ORCID
Natalia N D S Cordeiro
(Author)
FCUP
View Personal Page
You do not have permissions to view the institutional email.
Search for Participant Publications
View Authenticus page
View ORCID page
Journal
Indexing
Other information
Authenticus ID:
P-00A-5BJ
DOI:
10.2217/nnm.14.96
Abstract (EN):
Aims: We introduce the first quantitative structure-activity relationship (QSAR) perturbation model for probing multiple antibacterial profiles of nanoparticles (NPs) under diverse experimental conditions. Materials & methods: The dataset is based on 300 nanoparticles containing dissimilar chemical compositions, sizes, shapes and surface coatings. In general terms, the NPs were tested against different bacteria, by considering several measures of antibacterial activity and diverse assay times. The QSAR perturbation model was created from 69,231 nanoparticle-nanoparticle (NP-NP) pairs, which were randomly generated using a recently reported perturbation theory approach. Results: The model displayed an accuracy rate of approximately 98% for classifying NPs as active or inactive, and a new copper-silver nanoalloy was correctly predicted by this model with consensus accuracy of 77.73%. Conclusion: Our QSAR perturbation model can be used as an efficacious tool for the virtual screening of antibacterial nanomaterials.
Language:
English
Type (Professor's evaluation):
Scientific
No. of pages:
12
Documents
We could not find any documents associated to the publication.
Related Publications
Of the same authors
Review of Structures Containing Fullerene-C-60 for Delivery of Antibacterial Agents. Multitasking Model for Computational Assessment of Safety Profiles (2015)
Another Publication in an International Scientific Journal
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
Another Publication in an International Scientific Journal
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
In Silico Assessment of the Acute Toxicity of Chemicals: Recent Advances and New Model for Multitasking Prediction of Toxic Effect (2015)
Another Publication in an International Scientific Journal
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
Another Publication in an International Scientific Journal
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
QSAR-based studies of nanomaterials in the environment (2015)
Chapter or Part of a Book
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
Chapter or Part of a Book
Kleandrova, VV; Luan, F; Speck Planche, A; Natalia N D S Cordeiro
Of the same journal
Nanocarriers for pulmonary administration of peptides and therapeutic proteins (2011)
Another Publication in an International Scientific Journal
Fernanda Andrade; Mafalda Videira; Domingos Ferreira; Bruno Sarmento
Another Publication in an International Scientific Journal
Fernanda Andrade; Mafalda Videira; Domingos Ferreira; Bruno Sarmento
Liposomes as drug delivery systems for the treatment of TB (2011)
Another Publication in an International Scientific Journal
Marina Pinheiro; Marlene Lucio; Jose L F C Lima; Salette Reis
Another Publication in an International Scientific Journal
Marina Pinheiro; Marlene Lucio; Jose L F C Lima; Salette Reis
Current advances in the development of novel polymeric nanoparticles for the treatment of neurodegenerative diseases (2020)
Another Publication in an International Scientific Journal
Cano, A; Sanchez Lopez, E; Ettcheto, M; Lopez Machado, A; Espina, M; Souto, EB; Galindo, R; Camins, A; Garcia, ML; Turowski, P
Another Publication in an International Scientific Journal
Cano, A; Sanchez Lopez, E; Ettcheto, M; Lopez Machado, A; Espina, M; Souto, EB; Galindo, R; Camins, A; Garcia, ML; Turowski, P
Advanced biofabrication strategies for skin regeneration and repair (2013)
Another Publication in an International Scientific Journal
Ruben F Pereira; Cristina C Barrias; Pedro L Granja; Paulo J Bartolo
Another Publication in an International Scientific Journal
Ruben F Pereira; Cristina C Barrias; Pedro L Granja; Paulo J Bartolo
Targeting nanoparticles across the blood-brain barrier with monoclonal antibodies (2014)
Article in International Scientific Journal
J.A. Loureiro; Bárbara Gomes; M. A. N. Coelho ; M. do Carmo Pereira; Sandra Rocha
Article in International Scientific Journal
J.A. Loureiro; Bárbara Gomes; M. A. N. Coelho ; M. do Carmo Pereira; Sandra Rocha
Copyright 1996-2025 © Instituto de Ciências Biomédicas Abel Salazar
I Terms and Conditions
I Acessibility
I Index A-Z
Page created on: 2025-06-21 at 10:03:36 | Acceptable Use Policy | Data Protection Policy | Complaint Portal
Page created on: 2025-06-21 at 10:03:36 | Acceptable Use Policy | Data Protection Policy | Complaint Portal