Ritonavir

Updated on Jan 19, 2024

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Trade names Norvir MedlinePlus a696029 ATC code J05AE03 (WHO) CAS ID 155213-67-5		AHFS/Drugs.com Monograph Routes of administration oral Molar mass 720.946 g/mol

Pregnancy category AU: B3 US: B (No risk in non-human studies)

Lopinavir and ritonavir medication overview

Ritonavir, sold under the trade name Norvir, is an antiretroviral medication used along with other medications to treat HIV/AIDS This combination treatment is known as highly active antiretroviral therapy (HAART). Often a low dose is used with other protease inhibitors. It may also be used in combination with other medications for hepatitis C. It is taken by mouth. The capsules of the medication do not work the same as the tablets.

Common side effects include nausea, vomiting, loss of appetite, diarrhea, and numbness of the hands and feet. Serious side effects include liver problems, pancreatitis, allergic reactions, and arrythmias. Serious interactions may occur with a number of other medications including amiodarone and simvastatin. At low doses it is considered to be acceptable for use during pregnancy. Ritonavir is of the protease inhibitor class. It is often used to inhibit the enzyme that metabolizes other protease inhibitors. This inhibition leads to higher concentrations of these latter medication.

Ritonavir first came into use in 1996. It is on the World Health Organization's List of Essential Medicines, the most effective and safe medicines needed in a health system. Globally the wholesale cost in the developing world is between 0.07 and 2.20 USD per day. In the United States it costs about 9.20 to 55 USD per day depending on the dose.

Lopinavir and ritonavir treat hiv infections overview

Medical uses

Ritonavir is used along with other medications to treat HIV/AIDS.

Side effects

When administered at doses effective for anti-HIV therapy, the side effects of ritonavir are those shown below. It is currently (2015) much more widely used at lower doses as a pharmacokinetic inhibitor. The adverse effects of these lower doses of ritonavir do not appear to have been extensively characterized.

asthenia, malaise

diarrhea

nausea and vomiting

abdominal pain

dizziness

insomnia

sweating

taste abonormality

metabolic

hypercholesterolemia

hypertriglyceridemia

elevated transaminases

elevated CPK

One of ritonavir's side effects is hyperglycemia. It appears that ritonavir directly inhibits the GLUT4 insulin-regulated transporter, keeping glucose from entering fat and muscle cells. This can lead to insulin resistance and cause problems for people with type Ⅱ diabetes. The capsules of the medication do not have the same bioavailability as the tablets.

Drug interactions

Concomitant therapy of ritonavir with a variety of medications may result in serious and sometimes fatal drug interactions. Ritonavir induces CYP 1A2 and inhibits the major P450 isoforms (3A4 and 2D6).

The list of clinically significant interactions of ritonavir includes but is not limited to following drugs:

amiodarone - decreased metabolism, possible toxicity

bosentan - decreased metabolism via CYP3A4, stop bosentan 36 hours prior to start ritonavir, slow resume

midazolam and triazolam - contraindicated

carbamazepine - decreased metabolism, possible toxicity

cisapride - decreased metabolism, possible prolongation of Q-T interval and life-threatening arrythmias

disulfiram (with ritonavir oral preparation) - decreased metabolism of ritonavir

eplerenone

etravirine

flecainide - decreased metabolism, possible toxicity

MDMA - decreased metabolism, can sometimes result in toxic outcomes like serotonin syndrome which can be life-threatening

mescaline

meperidine (pethidine) - build-up of toxic concentrations of norpethidine possible

nilotinib

nisoldipine

oxycodone - greatly increased concentrations of oxycodone

phenytoin - the proposed mechanism involves ritonavir induction of phenytoin metabolism via CYP450 2C9

pimozide

quinidine

ranolazine

salmeterol

St John's wort

statins - decreased metabolism, without dosage modification increased risk of rhabomyolisis

thioridazine

topotecan

voriconazole - ritonavir increases metabolism of voriconazole

Mechanism of action

Ritonavir was originally developed as an inhibitor of HIV protease. It is one of the most complex inhibitors. It is now rarely used for its own antiviral activity, but remains widely used as a booster of other protease inhibitors. More specifically, ritonavir is used to inhibit a particular liver enzyme that normally metabolizes protease inhibitors, cytochrome P450-3A4 (CYP3A4). The drug's molecular structure inhibits CYP3A4, so a low dose can be used to enhance other protease inhibitors. This discovery, which has drastically reduced the adverse effects and improved the efficacy of protease inhibitors and HAART, was first communicated in an article published in the journal AIDS in 1997 by researchers at the University of Liverpool. This effect does come with a price: it also affects the efficacy of numerous other medications, making it difficult to know how to administer them concurrently.

History

Ritonavir is manufactured as Norvir by AbbVie, Inc.. The Food and Drug Administration (FDA) approved ritonavir on March 1, 1996, making it the seventh approved antiretroviral drug and the second approved protease inhibitor in the United States. Within 2 years of the approval of ritonavir (and of saquinavir a few months earlier), the U.S. HIV-associated death rate fell from over 50,000 per year to about 18,000.

In 2003, Abbott (now AbbVie, Inc.) raised the price of a Norvir course from USD $1.71 per day to $8.57 per day, leading to claims of price gouging by patients' groups and some members of Congress. Consumer group Essential Inventions petitioned the NIH to override the Norvir patent, but the NIH announced on August 4, 2004 that it lacked the legal right to allow generic production of Norvir.

In 2014, FDA approved a combination of ombitasvir/paritaprevir/ritonavir for treatment hepatitis C virus (HCV) genotype 4.

Polymorphism and temporary market withdrawal

Ritonavir was originally dispensed as an ordinary capsule, which did not require refrigeration. This was as a crystal of what is now called form I. However, like many drugs, ritonavir exhibits polymorphism, i.e., the same molecule crystallizes into more than one type of crystal. The different crystals, or polymorphs, are made of the same molecules but in different crystalline arrangements. The solubility and hence the bioavailability is very different in the two different arrangements.

During development (it was introduced in 1996), only the polymorph now called form I was found, but in 1998, a lower free energy, more stable polymorph (form II) appeared. This more stable (and so less soluble) crystal form compromised the oral bioavailability of the drug. This caused the removal of the oral capsule formulation from the market.

Even a trace of form II can catalyse the transformation from the more bioavailable form I to form II. Thus form II threatened existing supplies of ritonavir as the lower solubility polymorph caused the therapeutically effective polymorph to convert to form II. Form II, which was not therapeutically effective because of poor solubility and resulting much lower bioavailability, entered production lines and effectively halted production processes.

After this discovery in the late 1990s, Abbott (now AbbVie) withdrew the original capsules from the market, and recommended people switch to Norvir suspension while researchers worked to solve the problem. The capsules have been replaced with refrigerated gelcaps, to solve the crystallization problem of the original capsules.

In 2000 Abbott (now AbbVie) was awarded approval by the FDA for a tablet (called lopinavir/ritonavir) which contains ritonavir that does not require refrigeration.

References

Ritonavir Wikipedia

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