Antiviral Therapeutics - Technologies, Markets & Companies

Table of Contents

Part I: Technologies & Products

0. Executive Summary  

1. Introduction to Virology 

• Introduction  
• Evolution of viruses  
• Virus databases  
• A practical classification of viruses  
• The human virome  
• Viral genomics  
• Viruses and human health  
• Endogenous retroviruses  
• Endogenous retrovirus-disease link  
• Pathomechanism of viral diseases relevant to therapy  
• Viral entry into host cells  
• Immune response to viruses  
• Intrinsic host defense against retroviruses  
• Interferon-induced B cell deletion in chronic viral infections  
• Drosha as an interferon-independent antiviral factor  
• Life cycle of virus as basis for antiviral approaches  
• Genetic switch in virus infections  
• Emerging viruses  
• Viral-induced cancer  
• Viral infections of the brain  
• Brain’s response to viral infections  
• Viral encephalitis 
• Antibody-mediated encephalitis  
• Eastern equine encephalitis  
• Endogenous retrovirus related neurological disorders  
• Amyotrophic lateral sclerosis  
• Dementia  
• Multiple sclerosis  
• Combination of antivirals with immunosuppression in viral encephalitis 
• Molecular diagnosis of viral diseases  
• Prophylaxis versus therapy 
• Economic impact of viral diseases  
• Historical landmarks in the development of antiviral therapies  

2. Antiviral Approaches  

• Classification  
• Antiviral drug discovery and development  
• Antiviral drug targets − viral versus cellular  
• Antivirals based on double-stranded RNA activated caspase oligomerizer  
• Antimicrobial peptides  
• Human DDX3 protein as a target for developing broad spectrum antiviral agents  
• Immunological approaches  
• Basics of immune regulation in relation to viruses  
• Effect of viruses on the immune system  
• Latent viral infections and the immune system  
• Immunomodulating agents  
• Amplification of innate immunity  
• Blocking the effects of thromboxane A2 on thromboxane receptor  
• Enhancers of immune system  
• Promoting immune-mediated clearance of a chronic viral infections  
• Immunoglobulins  
• Bovine lactoferrin  
• Quercetin  
• Monoclonal antibodies  
• Antibody production technologies  
• Bavituximab  
• Treatment of viral infection with radiolabeled MAbs  
• Limitations of MAbs and measures to overcome these  
• Interferon-based approaches  
• Cholesterol-25-hydroxylase  
• Novel antiviral approaches  
• Phosphatidylethanolamine inhibitors as potential antivirals  
• Squalamine  
• Synthetic modified hypericin compounds 
• Targeting Toll-like receptors  
• Potential and drawbacks of TLR-ligands in viral diseases  
• Use of CRISPR/Cas9 gene editing in antiviral approaches  
• Targeting RNA viruses  
• Inhibition of viral transport from cytoplasm into the cell nucleus 
• Nitric Oxide based antiviral therapeutics  
• Amino acid cognate anticodon binding specificity  
• Antisense approaches to viral infections  
• Antisense oligonucleotides  
• Limitations of antisense oligonucleotides as antivirals  
• Phosphorodiamidate morpholino oligomers  
• Gene therapy for viral infections  
• RNAi  
• RNAi screens of viral genomes  
• RNAi for treatment of viral infections  
• Promise and pitfalls of RNAi gene therapy  
• Role of proteomics in virology  
• Interaction of proteins with viruses  
• Quantitative temporal viromics  
• Management of rapidly evolving pathogens  
• Personalized medicine and viral diseases  
• Genomic epidemiology of viral diseases  
• An integrated approach to viral diseases  
• Current problems and needs in antiviral therapy  
• Immunoinformatic approach to vaccine design for emerging infections  
• Broad-spectrum antiviral agents  

3. Vaccines for Virus Infections  

• Introduction  
• Types of vaccines  
• DNA vaccines  
• Live attenuated virus vaccines  
• Measles-vectored vaccines  
• mRNA vaccines  
• Nanotechnology-based vaccines 
• Nanobead adjuvants  
• Recombinant viral vaccines  
• SMART vaccines  
• Synthetic peptides as vaccines  
• Virally vectored vaccines  
• Virosomes  
• Vaccines based on reverse genetics  
• Virus-like particles  
• Routine vaccination in children against viral infections  
• Personalized vaccines  
• Limitations of vaccines  
• Neurological complications of vaccination  
• Future of antiviral vaccines  

4. Role of Nanotechnology in Developing Antiviral Agents 

• Introduction  
• Study of interaction of nanoparticles with viruses  
• Exosomes and viral infections  
• Nanoparticle antiviral agents  
• Silver nanoparticles  
• Fullerenes  
• Nanoparticles mimic RNAi for the treatment of viral infections  
• Nanoviricides  
• Role of micelles in nanopharmaceuticals  
• Some physicochemical characteristics common to polymeric micelles  
• Structure and function of nanoviricides  
• Mechanism of action of NanoViricides  
• Advantages of NanoViricides 

5. Delivery of Antivirals  

• Introduction  
• Methods of delivery of antiviral agents  
• Local application of antivirals  
• Systemic delivery of of protein-polymer antiviral drugs  
• Controlled delivery of antivirals  
• Targeted delivery of antivirals  
• Delivery of antivirals to the brain across the blood-brain barrier  
• Antiviral vaccine delivery systems  
• Minicell vaccine delivery  
• Transnasal delivery of vaccines by Newcastle disease virus as vector  
• Transdermal delivery of vaccines  
• Dissolvable microneedle array for vaccine delivery  
• Electroporation for administering DNA vaccines  
• HIV/AIDS vaccination by transdermal application  
• Microneedles for transdermal delivery of vaccines  
• Needle-free delivery of vaccines  
• Transdermal vaccines for influenza  
• Use of nanotechnology for improving delivery of antivirals  
• Macrophage-based nanoformulated antiretroviral therapy  
• Improvement of antiviral vaccine delivery by nanotechnology  
• Bacterial spores for delivery of vaccines  
• Chitosan-derived nanoparticles for vaccine delivery  
• Dendrimer-based intracellular delivery of antibodies  
• Gold nanorods for delivery of RNA immune activator molecules  
• Lipid nanoparticles for immunostimulatory RNA delivery  
• Liposomal antiviral vaccine preparations  
• Nanoparticles for DNA vaccines  
• Nanospheres for controlled release of viral antigens  
• Proteosomes™ as vaccine delivery vehicles  
• Polymeric micellae for delivery of DNA vaccine  
• “Smart” nanoparticles for delivery of vaccines  
• Nanocoating for local viricidal effect  
• Delivery of gene-based antiviral drugs  
• Limitations of delivery of gene, RNAi and antisense therapies  
• Systemic delivery of NanoViricides  
• Concluding remarks on delivery of antiviral agents  

6. Competitive Assessment of Antiviral Approaches  

• Introduction  
• An ideal antiviral agent  
• SWOT analysis  
• Concluding remarks  

7. Influenza Viruses 

• Introduction  
• Clinical features of influenza  
• Colds due to rhinovirus  
• Effects of influenza on the respiratory system  
• Effect of avian influenza on the nervous system  
• Epidemiology  
• Supermap of avian influenza  
• Influenza A  
• Avian influenza affecting humans  
• Human infection with a H7N9 Virus  
• Human influenza versus avian influenza 
• H1N1 influenza  
• Immune system and influenza  
• Immune Epitope Database and Analysis Resources  
• Role of Tpl2 in antiviral host defense mechanisms  
• Anti-influenza approaches  
• Pharmaceuticals 
• Neuraminidase inhibitors  
• Mechanism of action  
• Tamiflu  
• Zanamivir  
• CS-8958  
• Peramivir  
• Resistance to neuraminidase inhibitors  
• Adverse effects of neuraminidase inhibitors  
• Concluding remarks on neuraminidase inhibitors  
• Other drugs for influenza  
• Adamantanes  
• Baloxavir marboxil  
• Probenecid  
• Current recommendations for the use of antiviral agents for influenza  
• Vaccines  
• Seasonal influenza vaccines  
• Live attenuated influenza vaccine vs. inactivated vaccine  
• Recombinant influenza vaccine  
• Vaccines for H1N1 influenza  
• Vaccine for H5N1 influenza A  
• Vaccines for H7N9 influenza  
• Current status of influenza vaccines  
• Limitations of current influenza vaccines  
• Needs of influenza vaccines  
• Problems with demand and supply of influenza vaccines  
• Problems with access to virus samples  
• FluVac project for development of pandemic influenza vaccine  
• Influenza vaccines for multiple strains of influenza  
• Quadrivalent influenza vaccine  
• Universal influenza vaccines  
• FLU-v universal vaccine  
• Future of influenza vaccines  
• Application of new technologies for influenza vaccines  
• Adjuvants  
• Cell culture-derived influenza vaccines  
• DNA vaccines for avian influenza 
• Epitope-based vaccines for influenza  
• Gene-based vaccines for influenza  
• Live attenuated vaccines  
• MAbs for passive immunization against avian influenza  
• M2e-based human influenza A vaccine.  
• RNA vaccines against influenza A  
• Pre-pandemic split antigen H5N1 vaccine  
• Recombinant-protein based influenza vaccines  
• Synthetic avian influenza vaccine  
• Viral vectors for influenza vaccination  
• Virus-like particles as influenza vaccines  
• RNAi-based approaches  
• Inhibition of influenza virus by siRNAs  
• Limitations of RNAi approach to influenza  
• Challenges and future prospects of siRNAs for influenza  
• Antisense approaches  
• NEUGENE® antisense for inhibition of multiple strains of influenza A  
• Nanoviricides against influenza  
• Other innovative approaches  
• Abatacept  
• Bacteriophage for blocking influenza virus entry  
• Polymeric coatings to inactivate influenza virus  
• Cytotoxic therapy  
• Cyanovirin  
• Fludase  
• Multiferon® 
• Pyrrolidine dithiocarbamate  
• Value of antivirals in preventing spread of influenza after exposure  
• Resistance to influenza therapy and efforts to overcome it  
• FLUCURE project  
• NIAID Centers of Excellence for research on pandemic influenza viruses  
• Research on influenza viruses at Bayer  
• Concluding remarks and future  

8. AIDS/HIV  

• Introduction  
• Epidemiology  
• Current concepts of pathomechanisms  
• Decoding the structure of an entire HIV genome  
• Genetic basis of resistance against HIV  
• Host-pathogen interactions that regulate HIV-1 replication 
• Pathogenesis of AIDS  
• Visualization of the interaction of HIV-1 proteins with target cells  
• Viral latency in HIV  
• Complications of AIDS  
• HIV in the brain  
• Neurological complications of AIDS  
• AIDS dementia  
• AIDS wasting syndrome  
• Coexistent HIV-1 and HSV-2  
• Coexistent hepatitis virus infections with HIV  
• HIV and HBV  
• HIV and HCV  
• Opportunistic infections in AIDS  
• HIV and tuberculosis  
• Current therapies  
• Aim of anti-HIV drugs  
• Nucleoside reverse transcriptase inhibitors  
• Non-nucleoside reverse transcriptase inhibitors  
• Efavirenz  
• Etravirine  
• Protease inhibitors  
• Tipranavir  
• Darunavir 
• Fusion inhibitors  
• Enfuvirtide  
• Combinations of drugs for AIDS  
• Truvada  
• Raltegravir, enfuvirtide, and darunavir  
• Current antiretroviral regimens  
• Impact of antiretroviral treatment on transmission of HIV  
• Preexposure prophylaxis against HIV  
• Postexposure prophylaxis against HIV  
• Antiretroviral therapy in early asymptomatic HIV infection  
• Limitations of current therapies 
• Adverse effects of antiretroviral therapy  
• Drug resistance in AIDS  
• Effect of interruption of HIV treatment  
• Reservoirs of HIV Infection  
• Persistance of low-level viremia in HIV-1 patients on retroviral therapy  
• Reconsideration of abandoned therapies for AIDS  
• Therapies in development  
• Drugs in development for HIV/AIDS  
• NRTIs in development  
• NNRIs in development  
• Novel protease inhibitors  
• Overcoming HIV-1 resistance to PIs  
• PPL-100  
• Entry inhibitors targeting CCR5 receptor  
• Maraviroc  
• SP-01A  
• MAbs targeting CCR5 receptor  
• PRO 140  
• Ibalizumab  
• Integrase inhibitors  
• Raltegravir (Isentress)  
• Elvitegravir  
• Dolutegravir  
• S/GSK1265744  
• LEDGINs  
• Design of fusion inhibitor peptides against enfuvirtide-resistant HIV-1  
• gp120 attachment inhibitors  
• Maturation inhibitors  
• Blocking of pre-integration complex translocation  
• Immune enhancers  
• Pyrimidinediones  
• Other innovative antiviral approaches against HIV/AIDS  
• A filtration device for HIV-1 as an adjunct to the immune system  
• Anti-HIV therapies based on editing enzymes  
• Anti-HIV activity of drugs that stimulate cholesterol efflux  
• Antiviral hyperactivation-limiting therapeutics  
• ATR kinase as a target for anti-HIV drug discovery  
• Drugs from natural sources  
• Enhancing immune response by blockade of PD-1 receptor  
• IL-2 as adjunct to antiretroviral therapy  
• In vitro evaluation of antiviral drug activity  
• Methods for sustaining antiviral activity  
• Microbicidal agents for local application in HIV/AIDS  
• Investigational microbicidals against HIV and their limitations  
• CCR5 receptor blockers  
• PSC-Rantes and recombinant chemokine analogs  
• HIV-1 entry inhibitor griffithsin as a topical microbicide  
• Nanotechnology-based topical microbicides  
• Next generation microbicides for HIV  
• Vaginal application of anti-retroviral drugs against HIV  
• Nanoviricides for HIV/AIDS  
• Prophylactic measures to prevent HIV infection  
• Selective targeting of ITK to block multiple steps of HIV replication  
• T cell receptors from HIV controllers  
• Cell therapy for HIV/AIDS  
• hESCs converted to T cells for treatment of HIV infection  
• Transplantation of genetically modified hematopoietic cells  
• Transplantation of genetically modified T cells  
• Overlapping Peptide-pulsed Autologous Cells  
• Gene therapy strategies in HIV/AIDS  
• Gene editing for HIV-1  
• Inhibition of HIV-1 replication by lentiviral vectors  
• VRX496-T (Lexgenleucel-T)  
• Insertion of protective genes into target cells  
• Use of genes to chemosensitize HIV-1 infected cells  
• Autocrine interferon- production by somatic cell gene therapy  
• Intracellular immunization in HIV  
• Engineered cellular proteins such as soluble CD4s  
• Intracellular antibodies  
• Selection of T cell vaccine antigens  
• Glycoprotein 120 as target for neutralizing HIV-1 antibodies  
• Anti-rev single chain antibody fragment  
• HIV/AIDS vaccines  
• Cell-based vaccines for HIV  
• Delivery of HIV vaccine by an adenoviral vector  
• DNA vaccines for HIV/AIDS  
• Epitope-based DNA vaccines against HIV  
• Gene transfer for HIV vaccination  
• Recombinant HIV proteins  
• Vaccination after discontinuation of antiretroviral treatment  
• Innovations in HIV/AIDS vaccine  
• Attenuated rabies virus-based vaccine for HIV  
• Dendritic cell-based vaccine for HIV  
• DermaVir  
• Early control of HIV by an effector memory T cell vaccine  
• Immunogens for inducing broadly neutralizing antibodies  
• MVA nef vaccine  
• Peptide-based vaccine for HIV  
• Personalized vaccine for HIV 
• RV144 HIV vaccine trial  
• Transdermal nanoparticles for immune enhancement in HIV 
• Vaccine to prevent HIV entry at the mucosal level  
• Limitations and future of HIV vaccines  
• Antisense approaches to AIDS  
• Antisense oligodeoxynucleotides  
• Antisense efforts with PNA constructs  
• RNA decoys  
• Ribozymes  
• RNAi applications in HIV/AIDS  
• A multiple shRNA approach for silencing of HIV-1  
• Aptamer-mediated delivery of anti-HIV siRNAs  
• Bispecific siRNA constructs  
• Role of the nef gene during HIV-1 infection and RNAi  
• siRNA-directed inhibition of HIV-1 infection  
• Synergistic effect of snRNA and siRNA  
• Targeting CXCR4 with siRNAs  
• Targeting CCR5 with siRNAs  
• Concluding remarks on RNAi approach to HIV/AIDS  
• Companies involved in developing gene therapy for HIV/AIDS  
• Conclusions regarding gene therapy of HIV/AIDS  
• Testing for new anti-HIV therapies  
• Personalized approach to management of HIV  
• Differences in response of the body to HIV  
• Variations in action of drugs on HIV  
• Drug-resistance in HIV  
• PhenoSense® to test HIV drug resistance  
• Role of biomarkers in management of HIV/AIDS  
• Role of diagnostic testing in management of HIV  
• Prevention of adverse reactions to antiviral drugs  
• Nanoviricides as a personalized approach to HIV  
• Concluding remarks and future  

9. Hepatitis Viruses  

• Introduction  
• Hepatitis delta virus infection  
• Hepatitis A virus infection  
• Hepatitis E virus infection  
• Epidemiology  
• Structure of the HEV  
• Treatment of HEV infection  
• Ribavirin  
• Zinc as a potential anti-HEV agent  
• Vaccines for hepatitis E  
• Epidemiology of HBV  
• Pathogenesis of HBV-induced liver disease 
• Current approaches to management of HBV  
• Entecavir  
• Adefovir dipivoxil  
• Telbivudine  
• Pegylated interferon-alpha  
• Limitations of current therapies and needs of HBV  
• Personalized management of HBV  
• Innovations in the management of HBV  
• Tenofovir disoproxil fumarate  
• Hepatitis B immune globulins  
• Nabi-HB  
• HepaGam B  
• Hepatitis B vaccine composed in a novel nanoemulsion adjuvant  
• Innovative pharmaceuticals for HBV  
• AGX-1009  
• Clevudine  
• Helioxanthin analog 8-1  
• HepDirect prodrugs  
• Monoclonal antibodies for HBV  
• RNAi-based therapy of HBV  
• Personalized treatment of hepatitis B  
• Concluding remarks and future prospects of management of hepatitis B  
• Epidemiology of HCV  
• HCV characteristics  
• Pathomechanism of HCV infection  
• Mechanism of HCV entry  
• HCV and the immune system  
• Mechanism of HCV replication and response to interferon 
• Current approaches to management of HCV  
• Diagnostic approaches to HCV  
• Recommended treatment protocols for HCV  
• Interferon therapy for HCV  
• Limitations of current HCV therapies  
• Novel approaches to HCV  
• HCV protease inhibitors  
• ABT-450  
• Boceprevir  
• Combined daclatasvir and asunaprevir  
• Faldaprevir  
• Glecaprevir/pibrentasvir combination  
• Narlaprevir  
• Sofosbuvir  
• Simeprevir  
• Small molecule HCV protease inhibitors  
• Telaprevir  
• Innovations in interferon therapy for HCV  
• AlbIFN-2b 
• Directed evolution of gene-shuffled IFN-α for treatment of HCV  
• GEA007.1  
• Omega DUROS  
• PEG-IFN-  
• Personalizing interferon therapy of HCV  
• Innovative ribavirin-based treatments  
• Targeted delivery of hemoglobin-ribavirin conjugate for HCV  
• Taribavirin  
• Nucleoside polymerase inhibitor  
• Deleobuvir  
• Valopicitabine  
• Host cell targets for hepatitis C therapy  
• SP-10  
• NS5a inhibitors  
• Ledipasvir  
• NS5b inhibitors  
• Novel combination of a protease inhibitor and a NS5a inhibitor  
• Zepatier™  
• Compounds targeting HCV receptor E2  
• Cyclophilin inhibitors  
• Alisporivir  
• Methylene blue  
• Naringenin  
• Nitazoxanide  
• Cyclosporine and analogs as anti-HCV agents  
• Clemizole and HCV  
• RNAi-based approaches to HCV  
• Use of adenoviral vectors for RNAi  
• siRNAs for HCV  
• Limitations and drawbacks of siRNA therapy for HCV  
• Role of miRNA in viral infections  
• miR-122 antagonists  
• Gene therapy for HCV  
• Vaccines for HCV  
• HCV vaccine based on viral vectors to boost T cell memory  
• Vaccine based on neutralizing antibodies to HCV  
• Clinical trials of HCV therapeutics  
• Limitations to the development of effective anti-HCV therapeutics  
• Causes of treatment failure in chronic hepatitis C  
• HCV drug resistance  
• Personalized management of HCV infection  
• Role of sequencing in personalized management of HCV  
• Concluding remarks about HCV therapy  
• Drug combinations for HCV  
• IFN-free combinations for HCV  
• Search for new drugs for HCV  
• Future needs in HCV therapy  

10. Miscellaneous Commercially Important Virus Infections  

• Introduction  
• Herpes viruses  
• Neuroinvasive herpesviruses  
• Herpes simplex virus  
• Treatment of HSV-1  
• Acyclovir  
• Vaccines for HSV 
• Antisense therapy for HSV-1  
• Herpes simplex virus 2 and genital herpes  
• Famciclovir  
• Pritelivir  
• Intravaginal microbicidal agents for HSV-2  
• Vaccines for HSV-2  
• Herpes simplex keratitis  
• Herpes simplex encephalitis  
• Limitations of current HSV therapies  
• Genomic diversity of HSV-1 as a cause of failure of vaccines  
• Recombinations in HSV-1 and HSV-2  
• Herpes zoster virus  
• Herpes zoster and chicken pox  
• Epidemiology of herpes zoster  
• Treatment of herpes zoster  
• Herpes zoster vaccines  
• Epstein-Barr virus  
• Latent herpes virus infection  
• Cytomegalovirus  
• Current treatment of CMV  
• Brincidofovir (CMX001)  
• Valganciclovir hydrochloride  
• Limitations of current treatment and future  
• Letermovir  
• T cell therapy for CMV  
• Vaccines for CMV  
• Gene therapy of CMV  
• Antisense approach to CMV  
• siRNA treatment of CMV  
• Human papilloma virus  
• Epidemiology  
• Vaccines for HPV  
• Gardasil  
• Cervarix  
• DNA vaccine VGX-3100  
• GTL001 and GTL002  
• Vaccine based on fusion proteins of HPV envelope  
• Safety and limitations of HPV vaccines  
• Antivirals for HPV  
• Imiquimod  
• Novel approaches against HPV  
• Intrabody strategies for the treatment of HPV  
• A novel peptide to inhibit HPV  
• Heat shock protein-based antivirals  
• Respiratory syncytial virus  
• Epidemiology  
• Current management of RSV  
• Palivizumab  
• MDT-637 
• GS-5806  
• RNAi approach to RSV  
• Other approaches to RSV antivirals  
• Vaccines for RSV  
• BCG as a vaccine against RSV  
• Oral DNA vaccine for RSV 
• Neutralizing antibodies against preactive form of hRSV_F protein  
• Challenges for development of RSV antivirals  
• Other respiratory viruses  
• Parainfluenzavirus type 3  
• Human metapneumovirus  
• Gastrointestinal viruses  
• Noroviruses  
• Potential for development of antiviral agents against noroviruses  
• Vaccines against noroviruses  
• Precautionary measures during a novovirus outbreak  
• Concluding remarks  

11. Viruses with High Impact but Low Commercial Significance  

• Introduction  
• Chikungunya fever  
• Chikungunya antiviral therapy  
• Chikungunya vaccines  
• Enteroviruses  
• Enterovirus 71  
• Coxsackie virus  
• Japanese encephalitis  
• Vaccines for JE  
• Parvovirus  
• Polyomavirus JC  
• Rabies  
• Rabies vaccines  
• Recombinant viral vaccines for rabies  
• DNA vaccine against rabies  
• Rabies immune globulin  
• Monoclonal antibodies for rabies  
• NanoViricides approach for rabies  
• Protein-protein interactions as targets for antirabies drug discovery  
• siRNA-based approach against rabies  
• The Milwaukee protocol for rabies  
• Rotavirus  
• Epidemiology  
• Rotavirus genome  
• Vaccines against rotavirus  
• Viral hemorrhagic fevers  
• Bas-Congo virus associated with acute hemorrhagic fever  
• Crimean-Congo hemorrhagic fever  
• Dengue 
• Epidemiology  
• Antivirals in development against dengue  
• Dengue vaccines  
• Dengvaxia  
• Elimination of dengue vector mosquitoes by fungus 
• Genetic elimination of dengue vector mosquitoes  
• Ebola virus  
• Pathogenesis and diagnosis of Ebola virus  
• Sequencing of the Ebola genome  
• Antiviral approaches to Ebola virus infection  
• Antivirals for Ebola based on inhibition of RNA polymerase  
• Cell entry blockers as antivirals for filoviruses  
• Development of RNAi-based antiviral drugs for Ebola 
• EbolaCide  
• Monoclonal antibody immunotherapy for Ebola  
• Vaccines for Ebola  
• Ebola whole virus vaccines  
• Companies developing antivirals against Ebola  
• Concluding remarks and future  
• Human hanta viruses  
• Lassa fever  
• Marburg hemorrhagic fever  
• Therapies in development against Marburg virus  
• Yellow fever  
• Vaccines for yellow fever 
• Sequencing of Aedes aegypti genome and control of yellow fever  
• West Nile virus  
• Epidemiology  
• Pathogenesis  
• Treatment of West Nile neuroinvasive disease  
• Vaccines against WNV  
• Innovative treatments for WNV 
• Zika virus  
• Introduction to Zika virus  
• ZIKV in the USA  
• Clinical features of ZIKV  
• Molecular epidemiology of ZIKV  
• Molecular diagnosis of ZIKV infection  
• Neurological complications of ZIKV infection  
• Pathomechanism of neurological complications of Zika 
• Microcephaly  
• Guillain-Barré syndrome  
• Prevention and treatment of ZIKV infection  
• Antiviral agents against ZIKV  
• Preventive measures against ZIKV infection  
• Vaccines for ZIKV  
• WHO views on challenges in management of ZIKV  
• Western equine encephalitis  
• Tick-borne encephalitis  
• TBE vaccines  
• Zoonotic viral infections  
• Risk of spillover of new zoonotic viruses to humans  
• Vaccines for zoonotic viral diseases  
• Measles  
• Nipah virus  
• Virus bioterrorism and biowarfare  
• Smallpox as a biological weapon  
• Status of smallpox vaccination  
• Dryvax vaccine  
• Modified Vaccinia Ankara (MVA)  
• Strategies against virus bioterrorism and biowarfare  
• Increasing resistance by stimulating innate immune mechanisms  
• Nanoviricides for combating viral bioterrorism  
• Concluding remarks  

12. Human coronaviruses  

• Introduction  
• SARS  
• Therapeutic approaches to SARS  
• MAbs for SARS  
• siRNA treatment of SARS  
• Middle East respiratory syndrome coronavirus  
• Development of therapeutics for MERS-CoV  
• MERS vaccines  
• Future directions for management of MERS  
• Coronavirus China 2019  
• Introduction and epidemiology  
• Genomics of coronaviruses  
• Genetic susceptibility for severity of COVID-19  
• Risk factors that increase morbidity and mortality in COVID-19  
• Molecular diagnosis of COVID-19  
• Serological assay for detection of SARS-CoV-2 antibodies  
• Reassessment of molecular diagnostics for COVID-19  
• Point-of-care tests for COVID-19 
• Pathogenesis of COVID-19  
• Pathogenesis of pulmonary complications  
• Pathogenesis of neurological complications 
• Strategies for developing therapies for COVID-19  
• Antivirals for COVID-19  
• Clinical trials of COVID-19 therapies  
• Dexamethasone  
• Hydroxychloroquine  
• Favipiravir  
• Molnupiravir  
• Remdesivir  
• Monoclonal antibodies for COVD-19  
• Nanobodies for COVID-19  
• Management of cytokine release syndrome in COVID-19  
• Role of IL-6 in CRS  
• Tocilizumab  
• Edaravone 
• Management of hypoxia in COVID-19  
• Hyperbaric oxygen in COVID-19  
• Discovery and development of new therapies for COVID-19  
• Cell therapy for COVID-19 
• Exosomes derived from bone marrow mesenchymal stem cells  
• Gene editing with for COVID-19 by RNA-targeting CRISPR systems  
• Nanosponges for COVID-19  
• Role of vitamin D sufficiency in reducing COVID-19 mortality  
• Immunotherapies for COVID-19  
• Antibodies from patients as immune therapy for COVID-19  
• Monoclonal antibodies for COVID-19 
• Monoclonal antibodies and future vaccines  
• Vaccines for COVID-19  
• mRNA vaccines for COVID-19  
• Adenoviral vectors carrying gene for COVID-19 spike protein  
• Age-related reduction in immunity by vaccine against SARS-CoV-2  
• Comparison of vaccines for COVID-19  
• Operation Warp Speed  
• Oral COVID-19 vaccine  
• DNA vaccine for COVID-19  
• Other vaccines for COVID-19  
• Pitfalls in developing vaccines for COVID-19  
• Personalized vaccines for COVID-19  
• Personalized approach to passive antibody therapy for COVID-19  
• Protection from re-infection after COVID-19 as well as by vaccination  
• Protection against COVID-19 variants  
• Regulatory approval of COVID-19 vaccines  
• Safety of vaccination in pregnancy and during lactation  
• Future of tackling with coronaviruses 
• New antiviral targets  
• Repurposing drugs for COVID-19  
• Inhibiting complement hyper-activation in the lungs  
• Improving ability to respond to future coronavirus outbreaks  

Tables
Table 1-1: A practical classification of viruses  
Table 1-2: Viruses causing encephalitis  
Table 1-3: Vaccines vs therapeutics for viral diseases 
Table 1-4: Historical landmarks in the development of antiviral therapies  
Table 2-1: Classification of antiviral strategies  
Table 2-2: Viral vs cellular targets for discovery of antivirals  
Table 2-3: Viruses amenable to antisense oligonucleotides  
Table 2-4: Inhibition of viral replication by RNAi  
Table 3-1: Types of vaccines for viral diseases  
Table 4-1: Role of nanobiotechnology in virology  
Table 5-1: Methods of delivery of antiviral agents  
Table 5-2: Role of nanotechnology for improving delivery of antivirals  
Table 5-3: Commercially available liposomal antiviral vaccines  
Table 6-1: SWOT of monoclonal antibodies  
Table 6-2: SWOT of agents that prevention viral entry into cells  
Table 6-3: SWOT of drugs interfering with intracellular replication  
Table 6-4: SWOT of protease inhibitors  
Table 6-5: SWOT of integrase inhibitors  
Table 6-6: SWOT of maturation inhibitors  
Table 6-7: SWOT of neuraminidase inhibitors  
Table 6-8: SWOT of targeting Toll-like receptors (TLRs) 
Table 6-9: SWOT of topical antivirals agents against viral infections  
Table 6-10: SWOT of gene therapy, antisense oligonucleotides, RNAi  
Table 6-11: SWOT of vaccines  
Table 6-12: SWOT of NanoViricides  
Table 7-1: Anti-influenza approaches  
Table 7-2: Antiviral drugs used for influenza  
Table 7-3: Various approaches to production of influenza vaccines  
Table 8-1: Drugs in clinical development for HIV/AIDS  
Table 8-2: Strategies for gene therapy of AIDS  
Table 8-3: Classification of HIV/AIDS vaccines in clinical trials  
Table 8-4: Companies involved in developing gene therapy for HIV/AIDS  
Table 9-1: Innovations in the treatment of HBV  
Table 9-2: Recommended regiments for management of chronic HCV  
Table 9-3: Innovations for management of HCV  
Table 9-4: Antiviral agents for HCV targeting host cells  
Table 9-5: HCV drugs in clinical trials  
Table 10-1: Methods of delivery of acyclovir 
Table 11-1: Antiviral strategies against Ebola virus infection  
Table 11-2: Companies developing antiviral products against Ebola  
Table 11-3: ZIKA vaccines in development 
Table 11-4: Strategies against virus bioterrorism and biowarfare  
Table 12-1: Drugs in development for COVID-19  
Table 12-2: Clinical trials of hyperbaric oxygen in COVID-19 patients  
Table 12-3: Vaccines in development for COVID-19  

Figures 
Figure 1-1: Endogenous retrovirus-disease link  
Figure 1-2: Varieties of host and cell responses to viral infections  
Figure 1-3: Cycle of infection and replication of a retrovirus  
Figure 1-4: Viral-induced cancer  
Figure 2-1: Pathogen sequencing as a guide to personalized management viral infections  
Figure 2-2: An integrated approach to viral diseases  
Figure 2-3: Safe-in-man broad-spectrum antiviral agents  
Figure 3-1: Mechanisms of immune activation by virally vectored vaccines  
Figure 4-1: Schematic representation of NanoViricide attacking a virus particle  
Figure 7-1: Evolution of mutations associated with virulence/drug resistance in H5N1  
Figure 7-2: Mechanism of development of resistance to oseltamivir  
Figure 8-1: Mode of action of some current anti-HIV drugs  
Figure 8-2: Nanocarrier-mediated siRNA delivery for treatment of HIV/AIDS  
Figure 9-1: Steps of HBV replication and site of action of various drugs  
Figure 9-2: Omega DUROS device for interferon delivery in chronic hepatitis C  
Figure 11-1: Strategies for development of ZIKV vaccines 

Part II: Markets & Companies

13. Markets for Antivirals  

• Introduction 
• Markets according to disease
• Influenza market  
• HIV/AIDS market 
• Hepatitis B and C markets 
• Economics of care of hepatitis C and impact on the market  
• Markets for diseases with low commercial significance  
• Markets according to products and approaches 
• Market values of monoclonal antibodies for viral diseases 
• Market values of vaccines for viral diseases 
• Markets for vaccines against HPV 
• Research investment and potential markets for HIV/AIDS vaccines  
• Markets for vaccines against COVID-19 
• Markets for other antiviral vaccines 
• Markets according to geographical areas
• Emerging markets for antiviral therapeutics  
• Geographical distribution of HIV/AIDS market  
• Unmet needs in antivirals 
• Policies regarding conquered viral diseases 
• Future of polio vaccine 
• Policies concerning HPV vaccine for prevention of cervical cancer 
• HPV vaccine in developing countries  
• Future of innovative approaches
• US Government support of antiviral efforts
• US Government support for R & D in avian influenza vaccines  
• US Government support for developing anti-bioterrorism agents 
• The European Union support of antiviral research 
• European Commission’s research support for anti-HIV/AIDS programs  
• European Commission's support anti-influenza programs 
• Collaboration of biotechnology companies with big pharma  
• Strategies for marketing

14. Companies  

• Introduction 
• Top companies
• Profiles of pharmaceutical companies
• Profiles of biopharmaceutical companies with antiviral products 
• Profiles of antiviral drug companies 
• Profiles of viral vaccine companies 
• Collaborations

15. References 

Tables

Table 13-1: Worldwide market for all antiviral approaches 2020-2030 
Table 13-2: Markets for antiviral drugs according to virus infections 2020-2030 
Table 13-3: Markets values of all drugs for HIV/AIDS 2020-2030  
Table 13-4: Market values of monoclonal antibodies for viral diseases 2020-2030 
Table 13-5: Market values of vaccines for viral diseases 2020-2030  
Table 13-6: Markets for antiviral drugs according to geographical areas 2020-2030  
Table 13-7: Markets for antiviral vaccines according to geographical areas 2020-2030 
Table 13-8: Emerging markets for antiviral drugs according to countries 2020-2030 
Table 13-9: Emerging markets for antiviral vaccines according to countries 2020-2030 
Table 14-1: Top antiviral companies 
Table 14-2: Roche antiviral products in development  
Table 14-3: Collaborations of antiviral companies  

Figures

Figure 13-1: Unmet needs in antivirals 

Samples