Detergents Detergent and
surfactant microbicides such as
nonoxynol-9,
sodium dodecyl sulfate and Savvy (1.0% C31G), act by disrupting the
viral envelope,
capsid or
lipid membrane of microorganisms. Since detergent microbicides also kill host cells and impair the barrier function of healthy
mucosal surfaces, they are less desirable than other agents. Additionally, clinical trials have not demonstrated these agents to be effective at preventing HIV transmission. Consequently, laboratory and clinical trials testing this class of products as microbicides have largely been discontinued.
Vaginal defense enhancers Healthy vaginal
pH is typically quite
acidic, with a pH value of around 4. However, the
alkaline pH of
semen can neutralize vaginal pH. One potential class of microbicides acts by reducing the pH of vaginal
secretions, which may kill (or otherwise inactivate) pathogenic microorganisms. One such agent is
BufferGel, a
spermicidal and microbicidal gel formulated to maintain the natural protective acidity of the vagina. Candidates in this category (including BufferGel) have proven to be ineffective in preventing HIV infection.
Polyanions The
polyanion category of microbicides includes the
carrageenans. Carrageenans are a family of linear sulfated
polysaccharides chemically related to
heparan sulfate, which many microbes utilize as a
biochemical receptor for initial attachment to the
cell membrane. Thus, carrageenan and other microbicides of its class act as decoy receptors for
viral binding.
Carrageenan preparations (such as 0.5% PRO 2000 and 3% Carraguard vaginal microbicide gels) have failed to demonstrate
efficacy in preventing HIV transmission in
phase III clinical
multicenter trials. PRO 2000 was demonstrated to be safe, but it did not reduce the risk of HIV infection in women (as explained in the MDP 301 trial results, released in December 2009). Similarly, the phase III efficacy trial of Carraguard showed that the drug was safe for use but ineffective in preventing HIV transmission in women.
Cellulose sulfate is another microbicide found ineffective in preventing the transmission of HIV. On February 1, 2007, the
International AIDS Society announced that two phase III trials of
cellulose sulfate had been stopped because preliminary results suggested a potential increased risk of HIV in women who used the compound. There is no satisfactory explanation as to why application of cellulose sulfate was associated with a higher risk of HIV infection than
placebo. According to a review of microbicide drug candidates by the
World Health Organization on March 16, 2007, a large number of compounds (more than 60 in early 2007) are under development; at the beginning of that year, five phase III trials testing different formulations were underway.
Nanoscale dendrimers .|alt=Chemical diagrams: one simpler and red, the other more complex and light blue VivaGel is a sexual lubricant with antiviral properties manufactured by Australian pharmaceutical company Starpharma. The active ingredient is a
nanoscale dendrimeric molecule (which binds to viruses and prevents them from affecting an organism's cells). Experimental results with VivaGel indicate 85–100% effectiveness at blocking transmission of both HIV and
genital herpes in
macaque monkeys. It has passed the animal-testing phases of the
drug-approval process in Australia and the United States, which will be followed by initial human safety tests. The
National Institutes of Health and the
National Institute of Allergy and Infectious Diseases have awarded grants totaling $25.7 million for VivaGel's development and testing. VivaGel is being developed as a standalone microbicide gel and an intra-vaginal microbicide. It is also being evaluated for use in condoms. It is hoped that VivaGel will provide an extra resource to mitigate the
sub-Saharan AIDS pandemic. It is also hoped that microbicides will block the transmission of HIV and other sexually transmitted infections, such as those caused by certain
human papillomaviruses (HPV) and
herpes simplex viruses (HSV). In 2009, Starpharma released its results for a study investigating VivaGel's antiviral activity against HIV and HSV in humans by testing cervico-vaginal samples
in vitro (in a test tube). The compound displayed a high level of efficacy against HIV and HSV. While the results are encouraging, the study did not evaluate VivaGel's effect in the body. It is still unknown what the results mean for women who would use the product in real-life settings; for example, the effect of sexual intercourse (or semen) on the gel (which often affects the protective properties of a drug) is unknown. The
CAPRISA 004 trial demonstrated that topical tenofovir gel provided 51% protection against HSV-2.
Antiretrovirals Researchers have begun to focus on another class of microbicides, the
antiretroviral (ARV) agents. ARVs work either by preventing the HIV virus from entering a human host cell, or by preventing its replication after it has already entered. Examples of ARV drugs being tested for prevention include
tenofovir,
dapivirine (a
diarylpyrimidine inhibitor of HIV
reverse transcriptase) and UC-781. These next-generation microbicides have received attention and support because they are based on the same ARV drugs currently used to extend the survival (and improve the quality of life) of HIV-positive people. ARVs are also used to prevent
vertical transmission of HIV from mother to child during
childbirth, and are used to prevent HIV infection from developing immediately
after exposure to the virus. CAPRISA 004 was the 12th microbicide-efficacy study to be completed, and the first to demonstrate a significant reduction in HIV transmission. The results of this trial are
statistically significant and offer
proof of concept that ARVs, topically applied to the vaginal mucosa, can offer protection against HIV (and other)
pathogens. ==Formulations==