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Anti viral drugs

Antiviral drugs work by inhibiting the development of viruses rather than destroying them. They target specific steps in the virus replication process within host cells. Some common antiviral drugs are acyclovir for herpes viruses, ganciclovir for cytomegalovirus, amantadine for influenza A, and ribavirin which has broad-spectrum activity against various DNA and RNA viruses. Interferons are also used against certain viruses and work by interfering with viral RNA and protein synthesis. These drugs have varying mechanisms of action and pharmacokinetic profiles.

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Antiviral drugs are specialized treatments for viral infections. They inhibit virus development rather than destroying them. Natural antivirals exist while most drugs target HIV, herpes, hepatitis, and influenza.

Viruses require host cells to replicate, making them challenging to eliminate. Antiviral drugs target specific replication stages. Early therapy initiation during incubation improves effectiveness.

Antiviral drugs are classified into categories including anti-hepatitis, anti-influenza, and anti-herpes virus drugs. This includes various specific medications.

Acyclovir targets herpes viruses, inhibiting DNA synthesis. Its absorption is low, with potential adverse effects affecting the CNS and skin. Interactions with other drugs can occur.

Ganciclovir is effective against CMV and other herpes viruses, with low oral bioavailability. It can cause serious side effects and has significant drug interactions.

Ganciclovir inhibits viral DNA synthesis, while Ribavirin acts broadly against multiple viruses, preventing RNA synthesis. Both are key antiviral treatments.

Interferon α and β are used against various viral infections including chronic hepatitis. They can have significant flu-like side effects and other complications.

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Introduction  Antiviral drugs are one class of antimicrobials.  Antiviral drugs are a class of medication used specifically for treating viral infections.  These aren't used for the bacterial infections.  Unlike most antibiotics, antiviral drugs do not destroy their target pathogen instead, they inhibit their development.  Most antiviral are considered relatively harmless to the host, and therefore can be used to treat infections.
 Natural anti viral are produced by some plants such as eucalyptus and Australian tea trees.  Most of the antiviral drugs now available are designed to help deal with HIV, herpes viruses, the hepatitis B and C viruses, and influenza A and B viruses.  The viruses not only take the nutrition from the host cell but also replicate itself in the host by using its metabolism.  The drugs which have been developed they target the specific steps of the virus multiplication.
Virus  The virus cannot replicate on its own  They needs a host cell.  It utilize the host cell energy to replicate and form DNA , RNA, and synthesize protein.  Viruses are difficult to kill as they live inside the host cell.  By killing them the host cells are also killed.
 The drugs which have been developed they target the specific steps of the virus multiplication.  The steps such as: cell penetration, uncoating, reverse transcription, virus assembly, maturation, release from the host cell.  The viral replication is already reaches its peak when the symptoms appear.  To be effective the therapy should be started in the incubation period (the period between the exposure to an infection and the appearance of the first symptoms).
Classification Antiviral drugs (Non- retroviral) Anti- Hepatitis Virus Drugs Ribavirin Interferon α Sofosbuvir Simeprevir Declatasvir Ledipasvir velpatasvir Lamivudine Entecavir Adefovir dipivoxil Tenofovir telbivudine Anti- Influenza Virus Drugs Amatadine Rimantadine Oseltamivir Zanamivir peramivir Anti- Herpes Virus drugs Idoxuridine Trifluridine Acyclovir Valacyclovir Famcicyclovir Gancicyclovir Valagancicyclovir Cidofovir foscarnet
Drugs A. Acyclovir It is an anti- herpes virus drug. It has to react with the virus specific enzyme for its conversion into an active metabolite. It inhibits the DNA synthesis & viral replication. Acyclovir Herpes virus specific thymidine kinase Acyclovir mono phosphate Cellular kinases Acyclovir tri phosphate Inhibits herpes virus DNA gets incorporated in viral DNA polymerase activity and stops lengthning of DNA strand. Terminated DNA inhibits DNA polymerase activity
The acyclovir is active only against herpes group of viruses. HSV-1 , HSV-2 while CMV is not affected. During therapy HSV and VZV have been found to develop resistance to acyclovir.  Pharmacokinetics: Only about 20% of an oral plasma dose of acyclovir is absorbed. On topical application the absorption is negligible. It penetrates cornea well. It is primarily excreted unchanged in urine. Plasma t 1/2 is 2-3 hours.
 Uses Genital herpes simplex Mucocutaneous H. simplex H. Simplex encephalitis H. Simplex (type 1)keratitis Herpes zoster Chicken pox Adverse effects CNS: Nausea, Headache, convulsions, coma, lethargy, hallucinations, Malaise. Dermis: Rashes, sweating, Stinging & Burning sensation in the skin. Fall of BP.
Drug Interaction results Acyclovir +NSAID’s Cause kidney problems Acyclovir +Warfarin Decreases metabolism of warfarin Acyclovir + Chlorotheophylline Decrease metabolism of chlorotheophylline Acyclovir +Abacavir Excretion rate of Abacavir decreased.
B. Gancicyclovir It is the analogue of acyclovir which is most active against CMV. It also inhibits other herpes viruses. Due to poor oral absorption, bioavailability it is very low(<10%). {Its prodrug is valgancicyclovir which is better absorbed orally. 60% bioavailability orally} The plasma t1/2 of gancicyclovir is 2-4 hrs. It is mostly excreted unchanged in the urine. Its systemic toxicity is high. This may cause serious adverse effects like- depression, rash, fever, vomiting, neuro psychiatric disturbances.
Drug Interaction result Gancicyclovir + Zidovudine Potentiate myelosuppresion Gancicyclovir + Cyclosporin May promote nephrotoxicity Gancicyclovir + Didanosine Increase levels of didanosine Gancicyclovir + Probenecid Increase levels of gancicyclovir in serum
Mechanism of action Ganciclovir triphosphate is a competitive inhibitor of deoxyguanosine triphosphate (dGTP) Incorporation into DNA and preferentially inhibits viral DNA polymerases more than cellular DNA polymerases. It serves as a poor substrate for chain elongation, thereby disrupting viral DNA synthesis.
Anti herpes virus drug. First pyrimidine metabolite to be used as antiviral drug. It was synthesized by William Prusoff in the late 1950s. It is used only topically due to cardio-toxicity. It enters the viral DNA to break it. C. Idoxuridine
D. Amantadine It is an anti- influenza virus drug. Available in the form of hydrochloride salt (amantadine hydrochloride). This medication used to treat dyskinesia associated with parkinsonism and influenza caused by type A influenza virus. MOA : It acts by inhibiting the viral M2 protein and prevents the uncoating of the viral genome within the infected cell.
E. Ribavirin Ribavirin, also known as tribavirin. It has broad range anti viral activity. It acts against HCV, Influenza A & B and many other DNA and double stranded RNA viruses. Its oral bioavailability is 50%. It is partly metabolized and eliminated mainly by the kidney. It accumulates in the body on daily dosing and persists for month after discontinuation. Long term half life is >10 days. The most common therapeutic use of oral Ribavirin is in chronic hepatitis C.
 Mechanism Of Action: It is a guanosine (ribonucleic) analogue used to stop viral RNA synthesis and viral mRNA capping. Ribavirin is a prodrug. which when metabolized resembles purine RNA nucleotides. In this form, it interferes with RNA metabolism required for viral replication.
F. Interferon α and β interferon are released by all the cells against the viral infections. Interferon inhibit many RNA and DNA viruses. Interferon receptors are JAK-STAT tyrosine protein kinase receptors. After i.m. or s.c. injection, interferon is distributed into the tissues It is degraded in the kidney and to some extent in liver. It remains detectable in the plasma for <24 hrs. IFN are administered thrice a week.
Uses Chronic hepatitis B. Chronic hepatitis C. AIDS related Kaposi's sarcoma H.Simplex , H. zoster Follicular lymphoma, chronic myeloid leukemia. Adverse effects Flu like symptoms: fatigue, aches, pains, fever, dizziness, anorexia, visual disturbances, nausea. Neurotoxicity : numbness, neuropathy, altered behavior, mental depression, sleepiness, rarely convulsions. Thyroid dysfunction. Hypotension, arrhythmias, alopecia and reversible liver dysfunction.
Anti viral drugs

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Anti viral drugs

  • 2.
    Introduction  Antiviral drugsare one class of antimicrobials.  Antiviral drugs are a class of medication used specifically for treating viral infections.  These aren't used for the bacterial infections.  Unlike most antibiotics, antiviral drugs do not destroy their target pathogen instead, they inhibit their development.  Most antiviral are considered relatively harmless to the host, and therefore can be used to treat infections.
  • 3.
     Natural antiviral are produced by some plants such as eucalyptus and Australian tea trees.  Most of the antiviral drugs now available are designed to help deal with HIV, herpes viruses, the hepatitis B and C viruses, and influenza A and B viruses.  The viruses not only take the nutrition from the host cell but also replicate itself in the host by using its metabolism.  The drugs which have been developed they target the specific steps of the virus multiplication.
  • 4.
    Virus  The viruscannot replicate on its own  They needs a host cell.  It utilize the host cell energy to replicate and form DNA , RNA, and synthesize protein.  Viruses are difficult to kill as they live inside the host cell.  By killing them the host cells are also killed.
  • 6.
     The drugswhich have been developed they target the specific steps of the virus multiplication.  The steps such as: cell penetration, uncoating, reverse transcription, virus assembly, maturation, release from the host cell.  The viral replication is already reaches its peak when the symptoms appear.  To be effective the therapy should be started in the incubation period (the period between the exposure to an infection and the appearance of the first symptoms).
  • 8.
    Classification Antiviral drugs (Non- retroviral) Anti- Hepatitis Virus Drugs Ribavirin Interferonα Sofosbuvir Simeprevir Declatasvir Ledipasvir velpatasvir Lamivudine Entecavir Adefovir dipivoxil Tenofovir telbivudine Anti- Influenza Virus Drugs Amatadine Rimantadine Oseltamivir Zanamivir peramivir Anti- Herpes Virus drugs Idoxuridine Trifluridine Acyclovir Valacyclovir Famcicyclovir Gancicyclovir Valagancicyclovir Cidofovir foscarnet
  • 9.
    Drugs A. Acyclovir It isan anti- herpes virus drug. It has to react with the virus specific enzyme for its conversion into an active metabolite. It inhibits the DNA synthesis & viral replication. Acyclovir Herpes virus specific thymidine kinase Acyclovir mono phosphate Cellular kinases Acyclovir tri phosphate Inhibits herpes virus DNA gets incorporated in viral DNA polymerase activity and stops lengthning of DNA strand. Terminated DNA inhibits DNA polymerase activity
  • 10.
    The acyclovir isactive only against herpes group of viruses. HSV-1 , HSV-2 while CMV is not affected. During therapy HSV and VZV have been found to develop resistance to acyclovir.  Pharmacokinetics: Only about 20% of an oral plasma dose of acyclovir is absorbed. On topical application the absorption is negligible. It penetrates cornea well. It is primarily excreted unchanged in urine. Plasma t 1/2 is 2-3 hours.
  • 11.
     Uses Genital herpessimplex Mucocutaneous H. simplex H. Simplex encephalitis H. Simplex (type 1)keratitis Herpes zoster Chicken pox Adverse effects CNS: Nausea, Headache, convulsions, coma, lethargy, hallucinations, Malaise. Dermis: Rashes, sweating, Stinging & Burning sensation in the skin. Fall of BP.
  • 12.
    Drug Interaction results Acyclovir+NSAID’s Cause kidney problems Acyclovir +Warfarin Decreases metabolism of warfarin Acyclovir + Chlorotheophylline Decrease metabolism of chlorotheophylline Acyclovir +Abacavir Excretion rate of Abacavir decreased.
  • 13.
    B. Gancicyclovir It isthe analogue of acyclovir which is most active against CMV. It also inhibits other herpes viruses. Due to poor oral absorption, bioavailability it is very low(<10%). {Its prodrug is valgancicyclovir which is better absorbed orally. 60% bioavailability orally} The plasma t1/2 of gancicyclovir is 2-4 hrs. It is mostly excreted unchanged in the urine. Its systemic toxicity is high. This may cause serious adverse effects like- depression, rash, fever, vomiting, neuro psychiatric disturbances.
  • 14.
    Drug Interaction result Gancicyclovir+ Zidovudine Potentiate myelosuppresion Gancicyclovir + Cyclosporin May promote nephrotoxicity Gancicyclovir + Didanosine Increase levels of didanosine Gancicyclovir + Probenecid Increase levels of gancicyclovir in serum
  • 15.
    Mechanism of action Ganciclovirtriphosphate is a competitive inhibitor of deoxyguanosine triphosphate (dGTP) Incorporation into DNA and preferentially inhibits viral DNA polymerases more than cellular DNA polymerases. It serves as a poor substrate for chain elongation, thereby disrupting viral DNA synthesis.
  • 16.
    Anti herpes virusdrug. First pyrimidine metabolite to be used as antiviral drug. It was synthesized by William Prusoff in the late 1950s. It is used only topically due to cardio-toxicity. It enters the viral DNA to break it. C. Idoxuridine
  • 17.
    D. Amantadine It isan anti- influenza virus drug. Available in the form of hydrochloride salt (amantadine hydrochloride). This medication used to treat dyskinesia associated with parkinsonism and influenza caused by type A influenza virus. MOA : It acts by inhibiting the viral M2 protein and prevents the uncoating of the viral genome within the infected cell.
  • 18.
    E. Ribavirin Ribavirin, alsoknown as tribavirin. It has broad range anti viral activity. It acts against HCV, Influenza A & B and many other DNA and double stranded RNA viruses. Its oral bioavailability is 50%. It is partly metabolized and eliminated mainly by the kidney. It accumulates in the body on daily dosing and persists for month after discontinuation. Long term half life is >10 days. The most common therapeutic use of oral Ribavirin is in chronic hepatitis C.
  • 19.
     Mechanism OfAction: It is a guanosine (ribonucleic) analogue used to stop viral RNA synthesis and viral mRNA capping. Ribavirin is a prodrug. which when metabolized resembles purine RNA nucleotides. In this form, it interferes with RNA metabolism required for viral replication.
  • 20.
    F. Interferon α andβ interferon are released by all the cells against the viral infections. Interferon inhibit many RNA and DNA viruses. Interferon receptors are JAK-STAT tyrosine protein kinase receptors. After i.m. or s.c. injection, interferon is distributed into the tissues It is degraded in the kidney and to some extent in liver. It remains detectable in the plasma for <24 hrs. IFN are administered thrice a week.
  • 21.
    Uses Chronic hepatitis B. Chronichepatitis C. AIDS related Kaposi's sarcoma H.Simplex , H. zoster Follicular lymphoma, chronic myeloid leukemia. Adverse effects Flu like symptoms: fatigue, aches, pains, fever, dizziness, anorexia, visual disturbances, nausea. Neurotoxicity : numbness, neuropathy, altered behavior, mental depression, sleepiness, rarely convulsions. Thyroid dysfunction. Hypotension, arrhythmias, alopecia and reversible liver dysfunction.