Advanced Vaccination Technologies for Infectious and Chronic Diseases
portes grátis
Advanced Vaccination Technologies for Infectious and Chronic Diseases
A guide to Vaccinology
Vora, Lalitkumar K.; Chavda, Vivek P.; Apostolopoulos, Vasso
Elsevier Science Publishing Co Inc
03/2024
528
Mole
Inglês
9780443185649
15 a 20 dias
Descrição não disponível.
1: History of Vaccination
2: Vaccine Adjuvants and carriers
3: Conventional vaccination methods: Inactivated and Live attenuated vaccines
4: Subunit protein based Vaccines
5: Peptide based vaccines and altered peptide ligands: Multiple Sclerosis paving the way
6: Vector based vaccine delivery and associated immunity: Current Status and Way Forward
7: It's all about the delivery: How to augment the efficiency of DNA vaccination
8: Plant-based biotechnological vaccines for emerging infectious diseases
9: Expression system and purification process for the vaccine production
10: Targeting dendritic cells for antigen delivery for vaccine design
11: Parenteral Vaccine delivery: from basic principles to new developments
12: Mucosal Vaccine delivery
13: Personalized vaccines, novel vaccination technologies and future prospects
14: The application of nanoparticle-based delivery systems in vaccine development
15: Preclinical and clinical development for vaccines and formulations
16: Regulatory processes involved in clinical trials and IPR around vaccine development
17: Vaccine safety, efficacy, and ethical considerations
18: Regulatory consideration and pathways for vaccine development
19: New approaches to vaccines for infectious diseases
20: New approaches to vaccines for cancer
21: New approaches to vaccines for autoimmunity
22: The fast-track development COVID-19 vaccines
23: Myths and Facts about Vaccination: Dispelling Myths and Misconceptions with Science
24: Proteogenomics and immunopeptidomics in the development of advanced vaccines
25: Future Vaccine Technologies
2: Vaccine Adjuvants and carriers
3: Conventional vaccination methods: Inactivated and Live attenuated vaccines
4: Subunit protein based Vaccines
5: Peptide based vaccines and altered peptide ligands: Multiple Sclerosis paving the way
6: Vector based vaccine delivery and associated immunity: Current Status and Way Forward
7: It's all about the delivery: How to augment the efficiency of DNA vaccination
8: Plant-based biotechnological vaccines for emerging infectious diseases
9: Expression system and purification process for the vaccine production
10: Targeting dendritic cells for antigen delivery for vaccine design
11: Parenteral Vaccine delivery: from basic principles to new developments
12: Mucosal Vaccine delivery
13: Personalized vaccines, novel vaccination technologies and future prospects
14: The application of nanoparticle-based delivery systems in vaccine development
15: Preclinical and clinical development for vaccines and formulations
16: Regulatory processes involved in clinical trials and IPR around vaccine development
17: Vaccine safety, efficacy, and ethical considerations
18: Regulatory consideration and pathways for vaccine development
19: New approaches to vaccines for infectious diseases
20: New approaches to vaccines for cancer
21: New approaches to vaccines for autoimmunity
22: The fast-track development COVID-19 vaccines
23: Myths and Facts about Vaccination: Dispelling Myths and Misconceptions with Science
24: Proteogenomics and immunopeptidomics in the development of advanced vaccines
25: Future Vaccine Technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>Vaccine; Immunity; Immunotherapy; Vaccine Manufacturing; Mucosal- Intranasal- Nucleic acid- protein- viral vector vaccines; adjuvants; carriers; antigen delivery</p>
1: History of Vaccination
2: Vaccine Adjuvants and carriers
3: Conventional vaccination methods: Inactivated and Live attenuated vaccines
4: Subunit protein based Vaccines
5: Peptide based vaccines and altered peptide ligands: Multiple Sclerosis paving the way
6: Vector based vaccine delivery and associated immunity: Current Status and Way Forward
7: It's all about the delivery: How to augment the efficiency of DNA vaccination
8: Plant-based biotechnological vaccines for emerging infectious diseases
9: Expression system and purification process for the vaccine production
10: Targeting dendritic cells for antigen delivery for vaccine design
11: Parenteral Vaccine delivery: from basic principles to new developments
12: Mucosal Vaccine delivery
13: Personalized vaccines, novel vaccination technologies and future prospects
14: The application of nanoparticle-based delivery systems in vaccine development
15: Preclinical and clinical development for vaccines and formulations
16: Regulatory processes involved in clinical trials and IPR around vaccine development
17: Vaccine safety, efficacy, and ethical considerations
18: Regulatory consideration and pathways for vaccine development
19: New approaches to vaccines for infectious diseases
20: New approaches to vaccines for cancer
21: New approaches to vaccines for autoimmunity
22: The fast-track development COVID-19 vaccines
23: Myths and Facts about Vaccination: Dispelling Myths and Misconceptions with Science
24: Proteogenomics and immunopeptidomics in the development of advanced vaccines
25: Future Vaccine Technologies
2: Vaccine Adjuvants and carriers
3: Conventional vaccination methods: Inactivated and Live attenuated vaccines
4: Subunit protein based Vaccines
5: Peptide based vaccines and altered peptide ligands: Multiple Sclerosis paving the way
6: Vector based vaccine delivery and associated immunity: Current Status and Way Forward
7: It's all about the delivery: How to augment the efficiency of DNA vaccination
8: Plant-based biotechnological vaccines for emerging infectious diseases
9: Expression system and purification process for the vaccine production
10: Targeting dendritic cells for antigen delivery for vaccine design
11: Parenteral Vaccine delivery: from basic principles to new developments
12: Mucosal Vaccine delivery
13: Personalized vaccines, novel vaccination technologies and future prospects
14: The application of nanoparticle-based delivery systems in vaccine development
15: Preclinical and clinical development for vaccines and formulations
16: Regulatory processes involved in clinical trials and IPR around vaccine development
17: Vaccine safety, efficacy, and ethical considerations
18: Regulatory consideration and pathways for vaccine development
19: New approaches to vaccines for infectious diseases
20: New approaches to vaccines for cancer
21: New approaches to vaccines for autoimmunity
22: The fast-track development COVID-19 vaccines
23: Myths and Facts about Vaccination: Dispelling Myths and Misconceptions with Science
24: Proteogenomics and immunopeptidomics in the development of advanced vaccines
25: Future Vaccine Technologies
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
