Combatting antibiotic-resistant bacteria using nanomaterials

The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from b...

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Published inChemical Society reviews Vol. 48; no. 2; pp. 415 - 427
Main Authors Gupta, Akash, Mumtaz, Shazia, Li, Cheng-Hsuan, Hussain, Irshad, Rotello, Vincent M
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 21.01.2019
Subjects
Anti-Bacterial Agents - pharmacology
anti-infective agents
Anti-Infective Agents - chemistry
Anti-Infective Agents - pharmacology
Anti-Infective Agents - therapeutic use
antibiotic resistance
Antibiotics
Antiinfectives and antibacterials
Antimicrobial agents
Bacteria
Bacteria - drug effects
Bacterial infections
Bacterial Infections - drug therapy
Chemical compounds
Disease control
Drug Carriers - chemistry
Drug Resistance, Bacterial - drug effects
human health
Humans
Infections
Nanomaterials
Nanoparticles
Nanoparticles - chemistry
Nanoparticles - therapeutic use
Nanoparticles - toxicity
neoplasms
Pharmacology
Polymers - chemistry
Surface Properties
virulent strains
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Abstract The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this tutorial review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections, providing crucial insight into the design of elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo. Nanomaterials as self-therapeutic agents and drug-delivery vehicles for antimicrobial therapies.
AbstractList The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this tutorial review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections, providing crucial insight into the design of elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo.
The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this tutorial review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections, providing crucial insight into the design of elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo.The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this tutorial review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections, providing crucial insight into the design of elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo.
The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that the world is on the verge of entering the "post-antibiotic era", one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this tutorial review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections, providing crucial insight into the design of elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo. Nanomaterials as self-therapeutic agents and drug-delivery vehicles for antimicrobial therapies.
The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and Prevention has recently stated that world is on the verge of entering the “post-antibiotic era”, one where more people will die from bacterial infections than from cancer. Recently, nanoparticles (NPs) have emerged as new tools that can be used to combat deadly bacterial infections. Nanoparticle-based strategies can overcome the barriers faced by traditional antimicrobials, including antibiotic resistance. In this Tutorial Review, we have highlighted multiple nanoparticle-based approaches to eliminate bacterial infections providing crucial insight on the design elements that play critical roles in creating antimicrobial nanotherapeutics. In particular, we have focused on the pivotal role played by NP-surface functionality in designing nanomaterials as self-therapeutic agents and delivery vehicles for antimicrobial cargo. Nanomaterials as self-therapeutic agents and drug-delivery vehicles for antimicrobial therapies.
Author Gupta, Akash
Hussain, Irshad
Mumtaz, Shazia
Rotello, Vincent M
Li, Cheng-Hsuan
AuthorAffiliation Department of Chemistry
Syed Babar Ali School of Science and Engineering
University of Massachusetts Amherst
Lahore University of Management Sciences (LUMS)
DHA
Department of Chemistry and Chemical Engineering
AuthorAffiliation_xml – sequence: 0
  name: Syed Babar Ali School of Science and Engineering
– sequence: 0
  name: Lahore University of Management Sciences (LUMS)
– sequence: 0
  name: Department of Chemistry
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  name: Department of Chemistry and Chemical Engineering
– sequence: 0
  name: University of Massachusetts Amherst
– sequence: 0
  name: DHA
– name: Department of Chemistry, University of Massachusetts Amherst, 710 North Pleasant Street, Amherst, Massachusetts 01003, United States
– name: Department of Chemistry, Syed Babar Ali School of Science and Engineering, Lahore University of Management Sciences (LUMS), DHA, Lahore Cantt – 54792, Lahore, Pakistan
Author_xml – sequence: 1
  givenname: Akash
  surname: Gupta
  fullname: Gupta, Akash
– sequence: 2
  givenname: Shazia
  surname: Mumtaz
  fullname: Mumtaz, Shazia
– sequence: 3
  givenname: Cheng-Hsuan
  surname: Li
  fullname: Li, Cheng-Hsuan
– sequence: 4
  givenname: Irshad
  surname: Hussain
  fullname: Hussain, Irshad
– sequence: 5
  givenname: Vincent M
  surname: Rotello
  fullname: Rotello, Vincent M
BackLink https://www.ncbi.nlm.nih.gov/pubmed/30462112$$D View this record in MEDLINE/PubMed
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Notes Cheng-Hsuan Li received his bachelor and master in chemistry from Chung Yuan Christian University and National Tsing Hua University, respectively. He is currently a graduate student under the supervision of Prof. Vincent M. Rotello. His research focus on incorporating phytochemicals into nanomaterials for antimicrobial use.
Irshad Hussain received his MSc (Chemistry) from Quaid-i-Azam University, Islamabad, and PhD in Chemistry (Nanomaterials) from the University of Liverpool, UK, in 2005. Currently, he is Associate Professor in Department of Chemistry & Chemical Engineering, SBA School of Science & Engineering, LUMS, Lahore. His research interests include the applications of metal/metal oxide nanoparticles in biomedical sciences and renewable energy technologies.
Shazia Mumtaz received her MPhil from University of Sargodha and PhD from the Department of Chemistry & Chemical Engineering, SBA School of Science & Engineering, LUMS, Lahore, Pakistan, in 2018. Currently, she is Assistant Professor in Higher Education Department (HED), Punjab, Pakistan. Her research interests include the use of inorganic nanomaterials for the sensing and killing of bacteria.
Vincent Rotello is Goessmann Professor of Chemistry and Distinguished University Professor at the University of Massachusetts-Amherst. He joined the University of Massachusetts in 1993, receiving the NSF CAREER, Cottrell Scholar and Camille Dreyfus Teacher-Scholar awards, the Sloan Fellowship, and the Langmuir Lectureship, and is a Fellow of the AAAS and the Royal Society of Chemistry (UK). He is the Editor-in-Chief of Bioconjugate Chemistry, and on the Editorial Board of 14 other journals. His research program focuses on engineering the interface between hard and soft materials for applications in nanotechnology and nanomedicine.
Akash Gupta received his Integrated MSc in Chemistry from IIT (ISM), Dhanbad, India in 2013. Currently, he is a graduate student in the Department of Chemistry at the University of Massachusetts, Amherst under the supervision of Professor Vincent M. Rotello. His current research focuses on designing engineered nanomaterials for imaging and therapy of bacteria and biofilm-associated infections.
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Snippet The dramatic increase in antimicrobial resistance for pathogenic bacteria constitutes a key threat to human health. The Centers for Disease Control and...
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SubjectTerms Anti-Bacterial Agents - pharmacology
anti-infective agents
Anti-Infective Agents - chemistry
Anti-Infective Agents - pharmacology
Anti-Infective Agents - therapeutic use
antibiotic resistance
Antibiotics
Antiinfectives and antibacterials
Antimicrobial agents
Bacteria
Bacteria - drug effects
Bacterial infections
Bacterial Infections - drug therapy
Chemical compounds
Disease control
Drug Carriers - chemistry
Drug Resistance, Bacterial - drug effects
human health
Humans
Infections
Nanomaterials
Nanoparticles
Nanoparticles - chemistry
Nanoparticles - therapeutic use
Nanoparticles - toxicity
neoplasms
Pharmacology
Polymers - chemistry
Surface Properties
virulent strains
Title Combatting antibiotic-resistant bacteria using nanomaterials
URI https://www.ncbi.nlm.nih.gov/pubmed/30462112
https://www.proquest.com/docview/2168874153
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https://pubmed.ncbi.nlm.nih.gov/PMC6340759
Volume 48
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