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Advances in Antiparasitic Therapies and Drug Delivery.

Elsevier ScienceDirect eBook - Immunology and Microbiology 2024 Available online

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Format:
Book
Author/Creator:
Kesharwani, Prashant.
Contributor:
Gupta, Neelima.
Language:
English
Subjects (All):
Antiparasitic agents.
Drug delivery systems.
Physical Description:
1 online resource (443 pages)
Edition:
1st ed.
Place of Publication:
San Diego : Elsevier Science & Technology, 2024.
Summary:
This book, 'Advances in Antiparasitic Therapies and Drug Delivery,' edited by Prashant Kesharwani and Neelima Gupta, provides a comprehensive exploration of recent developments in antiparasitic treatments and drug delivery systems. It covers a wide range of topics including traditional medicine, nanomedicine, and novel drug delivery methods such as microneedles and nanoemulsions. The text discusses challenges in treating parasitic infections, with a focus on malaria, and offers insights into the potential repurposing of antiparasitic drugs for other diseases. Additionally, it addresses issues of antimicrobial resistance and introduces emerging concepts like aptamers for managing parasitic diseases. Designed for researchers and healthcare professionals, the book aims to enhance understanding and advancement in the field of antiparasitic therapy. Generated by AI.
Contents:
Front Cover
Advances in Antiparasitic Therapies and Drug Delivery
Copyright Page
Contents
List of contributors
1 An introduction to the pathophysiology of parasitic infection
Introduction
Parasitic infections
Malaria
Leishmaniasis
Filariasis
Onchocerciasis (River Blindness)
Ascariasis, hookworm infection, and trichuriasis
Toxoplasmosis
Amebic meningoencephalitis
Granulomatous amebic encephalitis
Other parasitic infections
Schistosomiasis
Amebiasis
Blastocystis hominis
Giardiasis
Conclusion
Acknowledgment
Declarations of Interest
Funding
References
2 Traditional medicine and natural products as antiparasitic agents
Abbreviation
Human parasitic diseases
Alkaloids
Quinine and related compounds
Emetine and related compounds
Indole alkaloids
Isoquinoline alkaloids
Benzoquinolizidine and naphthylisoquinoline alkaloids
Acridone alkaloids
Steroidal alkaloids
Miscellaneous alkaloids
Diterpene alkaloids
Essential oils
Quinones
Phenolics
Terpenes
Antiplasmodial terpenes
Terpenes mechanism against Plasmodium falciparum
Iridoids and monoterpenes
Sesquiterpenes
Diterpenes
Tetranorditerpenes
Terpenoid Benzoquinones and Analogs
Steroids
Quassinoids
Limonoids
Cucurbitacins
Lanostanes
Other triterpenes
Miscellaneous compounds
Diterpene-benzoate macrolides and analogs
Cannabis in malaria
Schistosomicidal terpenes
Terpenes mechanism against Schistosoma
Anthelmintic activity of terpenes
Terpenes against trichomonas vaginalis
Terpenes against trypanosomes (trypanosoma and leishmania)
Trypanomiasis
Terpenes in trypanosoma
Antitrypanosomal activities and cytotoxicities of monterpenes.
Antitrypanosomal activities and cytotoxicities of sesquiterpenes
Antitrypanosomal activities and cytotoxicities of diterpenes
Terpenes in leishmaniasis
Terpenes mechanism against schistosoma
Green nanoparticles as antiparasitic agents
3 Antiparasitic drugs: a definition and scope
Antiprotozoal agents
Antimalarials
Antibabesial agents
Antiamebic agents
Antigiardial agents
Trypanocidal agents
Antileishmanial agents
Anti-toxoplasma agents
Antitrichomoniasis agents
Antihelminthic agents
Ectoparasiticides
4 Ectoparasitic and endoparasitic drug delivery approaches for therapy
Chiggers
Bed bugs
Lice
Scabies
Demodex
Controlled drug delivery systems
Hydrogel
Microspheres
Microemulsion
Nanoemulgel
Discussion and conclusion
5 Microneedles in antiparasitic drug delivery applications
Overview of antiparasitic drugs and challenges
Approaches to overcome the challenges
Microneedles comprising antiparasitic medications
6 Nanotechnology: an approach to faster diagnosis of parasitic infections
Ectoparasites
Helminth parasites
Protozoan parasite
Correlation of nanotechnology and parasitic-induced diseases diagnosis: current and future perspectives
Author Contributions
Reference
7 Nanomedicine for parasitic helminth infections
Abbreviations
A brief overview through helminth and parasitic worms
Current anthelmintics-soil-transmitted helminth
Current anthelmintics-schistosomiasis
Current anthelmintics-lymphatic filariasis
Current anthelmintics-onchocerciasis.
Anthelmintic/nanotechnology and nanomedicine
Albendazole nanocrystals
Gold nanoparticles
Zinc oxide and iron oxide nanoparticles
Polyaniline-coated silver nanoparticles of momordica charantia extract
Nanovaccines
8 Pathogenesis, treatments, and challenges associated with malaria and nanomedicines for antimalarial therapy
Pathogenesis of malaria
Cerebral malaria
Sever malaria anemia
Malaria-associated acute respiratory distress syndrome
Current treatment options for malaria
Challenges in malaria management
Nanomedicines for antimalarial therapy
9 Repurposing antiparasitic drugs for the treatment of other diseases
Search methods
Antiparasitic drug
kinds of pharmacological aspect
Anthelmintic drugs
Drugs effective on nematodes
Ivermectin
Albendazole and mebendazole
Diethylcarbamazine
Drugs effective on trematodes
Praziquantel
Bithionol
Metrifonate
Oxamniquine
Drugs effective on cestodes
Niclosamide
Antiprotozoal drugs
Quinine
Chloroquine
Artemisinin
Mefloquine
Primaquine
Antifungal drugs
Amphotericin B
Azoles
Flucytosine
Echinocandins
Griseofulvin
Allylamines
Antiparasitic drugs
antiinflammatory properties
Mebendazole
Albendazole
Chloroquine and hydroxychloroquine
Evidences of antiparasitic drugs in the treatment of inflammatory disease
COVID-19
IVC
Quinacrine
Cancer
Pyrvinium pamoate
Levamisole
Pentamidine
Kidney diseases
Pneumonia
Diabetes
Gastrointestinal diseases
Pentamidine.
Quinacrine
Cardiac diseases
P. pamoate
Other diseases
10 Marketed antiparasitic nanotechnology-based products and drawbacks
Method of research
Nanotechnology-based products
Fungizone
Abelcet
AmBisome
Amphotec
Challenges of antiparasitic products based on nanotechnology
Regulatory concerns
Developmental and manufacturing cost
Scale-up issues
Declarations of interest
11 Fighting parasites during the post-antibiotic era
Antibiotic therapy of parasitic infections
Novel treatments of parasitic infections post-antibiotics
Plants
Nanotechnology
Conclusion and future perspectives
12 Antimicrobial resistance and recent advancement to combat parasitic infections
development of resistance to antihelmint...
Antiparasitic control agents
Therapeutic agents and resistance in Plasmodium species
Development of resistance in Plasmodium falciparum
Antiparasitic agents for amebiasis and other parasites
Chemotherapeutic agents against Leishmaniasis
Resistance against antiparasitic agents in other parasites
Chemotherapeutic agents against trypanosomes (Table 12.5)
Chemotherapeutic agents against fascioliasis and other parasites
Resistance development to antiparasitic agents
The emergence of resistance toward antiparasitic agents
Selection pressure of the drug
Mutations, life cycle, and susceptibility of the stage of the parasite for drug therapy
Factors related to antiparasitic agents
Ecological and geographical factors
Drug pressure
Refugia parasites
Competition or fitness
Mechanism of action of the antiparasitic agent.
Evading the action of the drugs
Measures to combat antiparasitic resistance
13 Aptamers as an emerging concept for the management of parasitic diseases
Vaccines development and challenges
Aptamers as promising tools
Identification of aptamers
SELEX technology
Modification of production processes of aptamers for augmenting production or efficacy
Increasing efficacy of the aptamers
Monoclonal antibodies versus aptamers
Peptide aptamers or "peptamers"
Applications of aptamers
Aptamers find wide applications in diagnosis, proteomics, pathology, cell sorting, and affinity purification
Aptamers for targeted delivery
Aptamers in cancer diagnosis
Therapy using aptamers
Aptamers in parasitic diseases
Aptamers targeting Plasmodium spp
Aptamers targeting Entamoeba histolytica
Aptamers targeting Trypanosoma species
Aptamers targeting Leishmania species
Aptamers targeting Cryptosporidium parvuum
Limitations and challenges of aptamers
14 Where do we stand? Insight on patented products and those under clinical trials
Novel antiparasitic drug properties
Liposomes
Solid lipid nanoparticles
Nanostructured lipid carriers
Polymeric micro- and nanoparticles
Nanoemulsion and nanocapsule
Nanosuspension
Nanoparticles toxicity and safety
Recent clinical trial on antiparasitics drugs
Tricobendazole
Moxidectin
Benznidazole
Tafenoquine
Miltefosine
Nitazoxanide
Recent FDA-approved drugs
what are their features?
Moxidection
Artemether-lumefantrine
Consideration of future antiparasitic drugs
References.
15 Challenges and opportunities in antiparasitic drug discovery and delivery.
Notes:
Description based on publisher supplied metadata and other sources.
Part of the metadata in this record was created by AI, based on the text of the resource.
ISBN:
9780443151798
0443151792
OCLC:
1410592336

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