Certo! Ora che ha riaperto Taveggia, so dove passare prima di venirti a trovare ...uffa2 ha scritto: ↑giovedì 27 ottobre 2022, 13:29Doruccia cara, quando mi ricovereranno completamente devastato dall'Alzheimer, ti ricorderai di me e del fatto che sono goloso di dolci? mi porterai dei dolcetti?
C'è però un dolcino che possiamo apprezzare subito. Ricordi che a settembre la Merck aveva comunicato che era pronta a ripartire con sperimentazioni sull'islatravir a un dosaggio minore?
Bene, hanno presentato due lavori a Glasgow che spiegano sostanzialmente due cose: che la diminuzione dei CD4 è effettivamente correlata con la dose, cioè più farmaco, meno CD4, o almeno minore aumento dei CD4 rispetto ad altri trattamenti; e che c'è un modo elegante per trovare la dose giusta.Dora ha scritto: ↑mercoledì 21 settembre 2022, 5:21Finalmente, dopo lunghi mesi di blocco, le sperimentazioni che devono portare alla approvazione dell'Islatravir possono ricominciare.
L'ha reso noto ieri Merck, comunicando che stanno per iniziare nuovi trial di fase III in combinazione con 100 mg di doravirina, uno in persone mai prima trattate, e due in persone con viremia soppressa da un precedente regime di farmaci.
Il prezzo da pagare consiste in una diminuzione del dosaggio dell'Islatravir (anche il trial di fase II che è stato interrotto a dicembre potrà ricominciare, ma con un protocollo modificato in cui la dose del farmaco è diminuita).
Questo prezzo comporta purtroppo anche la fine del progetto di usare questo candidato farmaco come long-acting, da prendersi per bocca una sola volta al mese in un regime di PrEP.
Raccontava tutto molto bene ieri Gus Cairns su AIDSmap:
[...] Islatravir was being tested in a number of different clinical trials as both treatment and for prevention before they were paused, and oral doses ranged from 0.25mg as a daily medication to 120mg as a monthly one.
Falls in lymphocytes and CD4 cells, or at least lower rises than seen using comparator drugs, emerged at nearly all doses and were larger with larger doses. But it was hard to see exactly how the dose relationship worked in most studies, as only one dose was used.
However, there was one trial – the 011 study – which used three different dosing arms of islatravir plus a control arm not containing it, and this allowed a closer look at how the lymphocyte suppression varied with dose.
It was a dose-finding phase II study in people who has not previously taken antiretroviral therapy. At baseline they had to have an HIV viral load over 1000 and a CD4 count above 200. It compared three doses of islatravir – 0.25mg, 0.75mg or 2.25mg, with a comparator arm using tenofovir instead of islatravir. All were combined with MSD’s NNRTI drug doravirine plus, for the first 24 weeks, lamivudine.
The three dosing arms of islatravir were continued for 72 weeks. After this all participants, except those in the tenofovir comparator arm, went on to 0.75mg of islatravir (plus doravirine) until week 144, at which point the tenofovir-arm participants also switched to islatravir.
That was what was supposed to happen anyway; although a few people have been in the study for as long as five years, the study was stopped for most participants before they reached week 144.
Because two of the three islatravir arms changed dose to 0.75mg, one from a higher dose and one from a lower dose, it is possible not only to compare the lymphocyte falls between arms, but also longitudinally within arms. This shows whether the effects seen on larger doses were permanent or reversible.
The 0.75mg dose was initially chosen in protocol 011 as the one to converge on – because it was thought the 0.25mg dose might not be effective in people with pre-existing NRTI resistance and particularly with the 3TC resistance mutation M184V/I.
But in fact the proportion of people whose viral load had fallen below 50 by week 48 was 90% on both the 0.25mg and the 0.75mg arms, and was in fact higher than the proportion seen in the highest 2.25mg dose (77%) or in the tenofovir arm (84%). This is fortunate as it implies no loss of efficacy on the lowest dose.
The effects on lymphocytes became apparent after 12-24 weeks. At week 72, total lymphocyte counts had increased by 20.5% from baseline in people on the lowest dose of islatravir and by 16% in people in the tenofovir arm. But they decreased slightly, by 0.4%, in people on 0.75mg islatravir and considerably, by 16%, in people on 2.25mg.
CD4 counts increased from baseline for all participants – because of the trial drugs’ anti-HIV activity. They increased by 80% in people on the lowest islatravir dose, 60% in people on tenofovir, 47% on people on the middle dose of islatravir and 24% in people on the highest dose. Absolute CD4 counts rose from around 500 cells to over 750 in all arms apart from in people on 2.25mg of islatravir, where they only increased to just under 650.
B-cell counts also increased, by 108% on tenofovir, 90% on 0.25mg islatravir, 55.5% on 0.75mg, and only 7.5% on 2.25mg.
The fact that the effect was both dose-dependent and reversible was seen by comparing the data at week 72, when most people's islatravir doses changed, to the data at week 144, when they had all been on 0.75mg for 72 weeks.
To generalise, if people had been on 2.25mg islatravir, then their total lymphocyte, CD4 and B-cell counts went up after switching to 0.75mg; if they had been on 0.25mg islatravir, they went down; and if they’d been on 0.75mg and therefore not switched, they stayed about the same.
So total lymphocyte count went up between week 72 and week 144 by 21% in people who’d been on 2.25mg; it went down by 11% in people who’d been on 0.25mg; it decreased slightly, by 2.5%, in people who stayed on 0.75mg; and it stayed virtually the same (0.6% decrease) in the tenofovir arm.
In the case of CD4 counts, the figures were a 28% increase in people who’d been on 2.25mg; a 2% decrease in people who’d been on 0.25mg; and increases of 3.5% and 6.3% respectively in people who stayed on 0.75mg and the comparator arm.
In B-cells, the changes were a 9.3% decrease in the people formerly taking 0.25mg and a 41% increase in people on 2.25mg, with no change in the other arms.
In this study, even in the 2.25mg arm, the effect on CD4 cells was comparatively slight, and did not have clinical consequences. The rate of co-infections was no higher in any arm and the counts of other types of immune-system cells that are not white cells – red-blood cells, neutrophils and platelets – were not affected.
However, in a previous presentation, MSD’s Ryan Vargo showed that in a study, protocol 016, of monthly oral dosing of 60mg or 120mg per month, absolute falls in lymphocytes of 20-30% from baseline had been seen.
One important question is whether some people are more prone to the lymphocyte-suppressing effect of islatravir than others. So far, however, there appears to be no association with age, sex, ethnicity, body weight or any other characteristic of trial participants.
Continuing studies on the smallest dose
Vargo showed computer models that used the actual data seen to predict what should, on average, happen with different islatravir doses in a range of hypothetical studies.
The models had, as one of their inputs, the average change in lymphocyte and CD4 counts seen in a large number of switch studies of other HIV drugs in which people changed drug regimens. Typically, changes after switching ranging from a 5% decline to a 10% increase – so the 21% increase and 11% decline in lymphocyte counts seen when switching between different islatravir doses was clearly atypical.
From these models, however, MSD were able to predict that the lowest effective dose of 0.25mg – in both people new to treatment and treatment-experienced people switched to islatravir – should not produce significant declines in lymphocyte or lymphocyte-subset counts.
This dose is therefore being taken forward in re-started studies of daily treatment. MSD is also in discussion with Gilead with the idea of taking forward a study of weekly oral islatravir combined with Gilead’s capsid inhibitor lenacapavir (Sunlenca), but the dose has not yet been decided on.
MSD has two other drugs in early development it is hoping to take forward. One is MK-8507, an NNRTI like doravirine, but one more suitable for long-acting dosing. Initially, it looked as if MK-8507 might also be causing the falls in lymphocytes, but MSD believes the effect was misattributed and hopes to restart its development.
The other is MK-8527. This is an NRTTI like islatravir, currently in early phase I development. It has a similar mode of action and is also long-lasting, but it looks as if intracellular concentrations of it might not build up to such high levels.
This is important because although the exact mechanism is yet to be established, it looks as if islatravir’s lymphocyte-suppressing side effect is caused because it needs (like all NRTIs) to be phosphorylated (to have phosphate groups added to its molecule) in order to become biologically active in the cell. This may compete with phosphorylation needed for the cell’s own processes.
Todd Corell ended by assuring the audience at HIV Glasgow that the experience with islatravir had not dampened MSD’s motivation to press forward with developing new drugs of different classes that would be suitable for long-term dosing, and in particular with long-acting drugs for prevention.
References
Correll T et al. Total lymphocyte and lymphocyte subset changes in participants receiving islatravir (0.25, 0.75 and 2.25mg QD) and doravirine (DOR) +/- lamivudine (3TC): post-hoc analysis from a phase 2b dose-ranging study (P011). International Congress on Drug Therapy in HIV Infection (HIV Glasgow), abstract O46, October 2022.
Vargo R et al. Modeling and simulation to optimize islatravir doses in HIV treatment naïve and virologically suppressed populations. International Congress on Drug Therapy in HIV Infection (HIV Glasgow), abstract O45, October 2022.