Nanotechnology and vaccine development

Kim, Mi‐Gyeong; Park, Joo Yeon; Shon, Yuna; Kim, Gunwoo; Shim, Gayong; Oh, Yu‐Kyoung

doi:10.1016/j.ajps.2014.06.002

Cited by 120 publications

(90 citation statements)

References 72 publications

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“…These include DNA vaccines, subunit vaccines, recombinant vaccines, plant/edible vaccines, virus-like particles, nano vaccine etc. (Dhama et al, 2008, Dhama et al, 2013cDelany et al, 2014;Finco & Rappuoli, 2014;Kim et al, 2014;Singh et al, 2014c;Pany et al, 2015;Singh et al, 2015b). Along with this, for designing, developing and producing effective vaccines the usage of modern adjuvants (TLRs), immunomodulators, and delivery systems is the need of the hour for providing better protection to animals after vaccination (Reed et al, 2013;Dhama et al, 2015b;Singh et al, 2015b).…”

Section: Strategies For Prevention Control and Eradication Of Diseasesmentioning

confidence: 99%

Prevalence, diagnosis, management and control of important diseases of ruminants with special reference to indian scenario

Saminathan¹,

Rana²,

Ramakrishnan³

et al. 2016

JEBAS

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India possess huge livestock population, which is endangered by different endemic infectious diseases (bacterial, viral, protozoan and parasitic), which collectively causes significant economic losses to the landless poor farming community. Infectious diseases impose economic losses by causing morbidity, mortality, decreased production (milk, meat, wool etc.), decreased feed conversion ratio which results in reduced weight gain, decreased draught power and fertility. Furthermore, economic burden is also due to the cost of treatment, abortion, consequences on internal livestock movement, germplasm and international trade. In addition, some of the diseases are zoonotic and inflicts considerable impact on public health. Uncertain agrarian climate, unpredictable weather, drought, floods, migration of livestock, scarcity of fodders, and unhygienic zoo-sanitary and healthcare practices together resulted in endemicity of diseases ultimately leads to more incidence and prevalence of livestock and poultry diseases throughout the year. Synchronized monitoring and surveillance of disease throughout the country is a fundamental requirement for sustainable livestock production. With fairly developed telecommunication in India, following technologies like interactive voice response system, SMS through mobile/cell phones and toll-free landline phones (voice mail) are required for enhancing the effectiveness and efficiency of

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Section: Strategies For Prevention Control and Eradication Of Diseasesmentioning

confidence: 99%

Prevalence, diagnosis, management and control of important diseases of ruminants with special reference to indian scenario

Saminathan¹,

Rana²,

Ramakrishnan³

et al. 2016

JEBAS

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“…It has advantage of improved efficiency in terms of antigen recognition and presentation by facilitating the cellular uptake of antigens (Oyewumi et al, 2010). Emulsions, synthetic or natural polymers to carbon based systems have been used as nanocarreirs in vaccination (Kim et al, 2014). Coating of these nanocarriers with molecules such as peptides or carbohydrates or lipidswill facilitate higher efficiency in delivery of antigen and adjuvant for the production of specific immune response against vaccines.…”

Section: Nanotechnology Based Approaches In Vaccine Delivery For Mapmentioning

confidence: 99%

Nanotechnology Based Therapeutics, Drug Delivery Mechanisms and Vaccination approaches for Countering Mycobacterium avium subspecies paratuberculosis (MAP) Associated Diseases

Stephen¹,

Jain²,

Dhama³

et al. 2015

Asian J. of Animal and Veterinary Advances

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Johne's Disease (JD) is a contagious fatal granulomatous enteritis, known to affect ruminants and is caused by the acid-fast Mycobacterium avium subspecies paratuberculosis (MAP). The bacterium has also been linked to Crohn's Disease (CD) in humans. Treatment options are scarce with culling practiced in the case of Johne's Disease (JD) and administration of anti-inflammatory drugs for pain and inflammation in case of CD. In both cases antimicrobial therapy against MAP does not have the ultimate potential. The very promising, yet untapped potential of nanotechnology offers a suitable platform for developing new therapeutic strategies for diseases caused by the bacteria. Uniformity, specificity and reproducibility are some of the characteristics of nanotechnology that can be exploited for the treatment of infectious diseases. Factors like cost, efficacy, safety and bioavailability of drugs can be greatly improved when the drugs are delivered with precision and at a controlled delivery rate to the target location. Nanotechnology can help in achieving these targets. This review discusses the current scenario of available therapeutic approaches and proposes drugs targeting strategies and vaccine development methods for the treatment and prevention of MAP related diseases.

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“…An ideal Zika virus vaccine should have important qualities like administration of a single dose vaccination protecting from Zika viral disease, a safe vaccine which can be used in pregnancy, and rendering long lasting immunity (Palacios et al 2016). Apart from conventional vaccines (live attenuated or inactivated), newer and advanced technologies of vaccine development need to be explored to their full potential for developing effective vaccine against Zika virus such as DNA vaccines, subunit vaccines, recombinant vaccines, vectored vaccines, transgenic plant vaccines, reverse vaccinology, virusÀlike particles, gene/mutantÀde-leted vaccines, nanovaccines, and adjuvanted vaccines which are showing promising results for countering various infectious pathogens (Petrovsky and Aguilar 2004;Dhama, et al 2008;Delany et al 2014;Finco and Rappuoli 2014;Kim et al 2014;Reed et al 2013;Singh et al 2015;Zhou et al 2014;Pany et al 2015;Ulmer et al 2015). A futuristic perspective needs to have a better understanding of the immune mechanisms, immunobiology, pathogenesis and molecular characterization of Zika virus, necessary modifications of vaccine components with immunogenic antigens, and incorporating modern adjuvants such as TLRs, improving the vaccine delivery systems and appropriate immunomodulatory approaches.…”

Section: Vaccinesmentioning

confidence: 99%

Zika virus – emergence, evolution, pathology, diagnosis, and control: current global scenario and future perspectives – a comprehensive review

Singh

Dhama

Malik

et al. 2016

Veterinary Quarterly

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This review converses the Zika virus which has attained global concern due to its rapid pandemic potential and impact on humans. Though Zika virus was first isolated in 1947, till the recent large-scale outbreak which occurred in Micronesia, in 2007, the virus was placed into the innocuous pathogen category. The World Health Organization on 1 February 2016 declared it as a 'Public Health Emergency of International Concern.' Of the note, American as well as Pacific Island strains/isolates is relatively closer to Asian lineage strains. The African and American strains share more than 87.5% and 95% homologies with Asian strains/isolates, respectively. Asian strains form independent clusters, except those isolated from China, suggesting relatively more diversity than African strains. Prevention and control are mainly aimed at the vector population (mosquitoes) with Aedes aegypti being the main species. Surveys in Africa and Asia indicated seropositivity in various animal species. However, so far its natural reservoir is unknown. There is an urgent need to understand why Zika virus has shifted from being a virus that caused mild illness to unforeseen birth defects as well as autoimmune-neurological problems. Unfortunately, an effective vaccine is not available yet. Availability of cryo-electron microscopy based on 3.8 A resolution revealing mature Zika virus structure and the probable virus attachment site to host cell would provide critical insights into the development of antiviral treatments and vaccines.

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Nanotechnology and vaccine development

Cited by 120 publications

References 72 publications

Prevalence, diagnosis, management and control of important diseases of ruminants with special reference to indian scenario

Prevalence, diagnosis, management and control of important diseases of ruminants with special reference to indian scenario

Nanotechnology Based Therapeutics, Drug Delivery Mechanisms and Vaccination approaches for Countering Mycobacterium avium subspecies paratuberculosis (MAP) Associated Diseases

Zika virus – emergence, evolution, pathology, diagnosis, and control: current global scenario and future perspectives – a comprehensive review

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