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Thursday, September 16, 2021

British study to test mixed COVID-19 vaccine dose schedules in children

 A British study will look into the immune responses of children to mixed schedules of different COVID-19 vaccines as officials try to determine the best approach to second doses in adolescents given a small risk of heart inflammation.

Children aged 12-15 in Britain will be vaccinated from next week, while those aged 16-17 have been eligible for shots since August.

However, while the children will be offered a first dose of the Pfizer-BioNTech vaccine, officials have said that advice about second doses will be given at a later date, while more data is gathered.

Britain’s Joint Committee on Vaccination and Immunisation (JCVI) initially declined to recommend shots for all 12- to 15-year-olds, citing uncertainty over the long-term impact of myocarditis, a rare side effect of mRNA-based vaccines such as Pfizer’s. The heart condition typically resolves itself with mild short-term consequences, health experts have said.

Hong Kong has advised children only get one shot, owing to similar concerns over heart inflammation.

The study, called Com-COV3, will test different vaccine schedules in 12- to 16-year-olds, looking at the immune responses and milder side-effects.

“The concern here is about risks of myocarditis, particularly with the second dose with Pfizer vaccine in young men,” the trial’s lead researcher, Matthew Snape of the Oxford Vaccine Group, told reporters.

“This will provide the JCVI with information crucial to informing their advice about immunizing teenagers in the UK,” he said.

The trial will give all participants a first dose of the Pfizer-BioNTech vaccine. That will be followed eight weeks later by either a second full dose or a half dose of the Pfizer shot, a full dose of Novavax’s vaccine or a half dose of Moderna’s shot.

The trial is recruiting 360 volunteers, not large enough to directly assess the myocarditis risk of the different combinations, which Snape said was 1 in 15,000 after two doses of the Pfizer shot in young men.

But, he added, it “would be reassuring to see if there was a lower inflammatory response after one of these changes compared to Pfizer (followed by) Pfizer,” and that it might be “reasonable to infer that the risks of myocarditis might be lower” in such an instance.

Snape is running another arm of the trial in adults, giving mixed vaccine schedules both four and 12 weeks apart, and comparing the responses. He said the results of that would be coming “very shortly.”

https://nationalpost.com/pmn/health-pmn/british-study-to-test-mixed-covid-19-vaccine-dose-schedules-in-children

Aduhelm backlash threatens progress in FDA reviews of rare disease drugs

 The FDA’s approval of Aduhelm to treat Alzheimer’s disease has unleashed criticism about the decision and calls for reform within the agency. As advocates for people living with Barth syndrome — an ultra-rare, life-threatening genetic condition affecting just 130 children and young adults in the U.S. — we fear the pushback will discourage the FDA from consistently exercising appropriate flexibility in its approval standards and stall progress being made in employing new regulatory strategies to improve access to safe and effective therapies.

Any moves that erect additional barriers to approvals will likely directly result in intensified reluctance to invest in future biomedical innovation, especially for ultra-rare diseases, and pose dire consequences for people living with the vast majority of the estimated 7,000 rare diseases for which there are currently no approved treatments. Taken together, these disorders affect as many as 30 million Americans, so this problem must not be overlooked.

In the past, the FDA has demonstrated considerable and appropriate decision-making flexibility. In March 2015, for example, it approved cholic acid (Cholbam) for certain ultra-rare disorders caused by single-enzyme genetic defects. Data supporting the drug’s safety and effectiveness were generated from a series of case reports of patients who had been treated with the drug via expanded access, also known as compassionate use, at a single academic center without a control group or pre-specified analyses. In November 2017, FDA approved vestronidase alfa-vjbk (Mepsevii) for treating another ultra-rare disease known as mucopolysaccharidosis VII, also called Sly syndrome. Readouts of the primary endpoint — the six-minute walk test — were not statistically significant, although trial participants experienced meaningful functional improvements.

For both Cholbam and Mepsevii, regulators appropriately considered the inherent challenges of designing trials and recruiting patients for ultra-rare diseases, defined as affecting fewer than 1 in 100,000 people. It can be literally impossible to recruit enough patients with these diseases to achieve statistically significant results. Alternative study designs, such as the one used for Cholbam, offer new approaches for clinical testing. Furthermore, by incorporating patients’ voices for Mepsevii, regulators exhibited appropriate flexibility and opened doors to advance therapies to consumers.

Unfortunately, the FDA has struggled to consistently apply the flexible decision-making standards it exhibited in the approvals of Cholbam and Mepsevii. Variability in the FDA’s regulatory approaches is jeopardizing approval of a promising investigational treatment called elamipretide, sponsored by Stealth BioTherapeutics, for Barth syndrome.

Unlike what the FDA did with Cholbam and Mepsevii, it has requested that Stealth BioTherapeutics consider new clinical trial designs with greater numbers of participants to augment statistical analyses supporting the drug’s effectiveness even though, given the ultra-rare nature of Barth syndrome, the agency has acknowledged it would be virtually impossible to do so.

While there may be some differences between the Cholbam and Mepsevii approvals, the FDA’s position on elamipretide, a drug that has been demonstrated to be safe, is arbitrarily inconsistent with practices observed in the FDA’s previous approaches. If perpetuated, the FDA’s inflexibility will be detrimental to Barth syndrome patients and could potentially strip them of the opportunity to access a treatment that may lead to meaningful improvements in their lives.

In line with these two case studies, patients more recently emerged as partners in the drug development and regulatory review process for Aduhelm. Signed into law in 2016, the 21st Century Cures Act cemented the framework to designate patients as integral to decision-making about their care, and the FDA incorporated patients’ perspectives into the approval process for Aduhelm.

Peter Stein, who directs the FDA’s Office of New Drugs, told Bloomberg News, “We’ve heard very clearly from [Alzheimer’s] patients that they’re willing to accept some uncertainty to have access to a drug that can provide meaningful benefit in preventing progression of this disease as we all know can have devastating consequences.” Stein’s comments strongly echo the insights voiced by Barth syndrome patients and their caregivers in a March 2021 meeting with the FDA.

Given the safety of elamipretide and the difficult present and bleak future Barth syndrome patients face, many made it clear that they are more than willing to accept a high degree of uncertainty about clinical benefit in exchange for access to a potentially effective drug. If a drug has been shown to help at least some patients with Barth syndrome, by and large the community strongly desires a chance to try it.

This perspective of Barth syndrome patients, though, has to date not been actively considered by regulators. Inconsistencies in the FDA’s approach to operationalizing the 21st Century Cures Act stand to treat individuals with Barth syndrome qualitatively differently from those with other diseases, such as Alzheimer’s, and points to a critical need for consistent application of patient perspectives in the review process across agency divisions and regulators.

Looking to the future, acting FDA commissioner Janet Woodcock said in a recent speech about ultra-rare disease drug development that this is “a place where mechanistic reasoning may play a major role” and “we have to stop just thinking that empirical evaluation is the only way of determining truth.”

That’s exactly how the Barth Syndrome Foundation, which we represent, approached the development of elamipretide. In this syndrome, defective mitochondria — the powerhouses of the cell — lead to Barth syndrome’s cardinal symptoms: a weakened heart, vulnerability to infection, debilitating fatigue, and gastrointestinal issues. Recognizing potential synergies between a commercial entity and academic preclinical work on a small-molecule compound, researchers affiliated with foundation approached Stealth BioTherapeutics to test the drug’s potential application in Barth syndrome.

The company’s drug, elamipretide, had shown an ability to normalize the synthesis of cardiolipin, a substance mitochondria need to operate correctly and generate energy for the body, thus directly addressing the underlying pathophysiology in this disease. The value of restoring normal cardiolipin production has since been demonstrated by its positive effects on cardiac structure among people with Barth syndrome and functional improvements, denoting meaningful, positive changes for patients.

Critics of Aduhelm’s approval are suggesting that regulators ignore Woodcock’s proposal to consider biological changes as indicators of a drug’s effectiveness. Rather, they are pushing the FDA to continue to uphold traditional endpoints based on morbidity or mortality as the gold standard. This methodology simply does not work for ultra-rare diseases. With so few patients available for clinical trials and responses to experimental therapies commonly varying across patients, analyzing data strictly for statistical significance constitutes a step in the wrong direction for ultra-rare diseases.

We support Woodcock’s position that observed biological improvements should actively be considered during regulatory evaluations as well as including patients’ voices in new drug evaluations.

We urge the FDA to continue applying the regulatory framework it has been evolving and incorporating in select drug approvals over the last decade, offering appropriate pathways for new drug development programs for ultra-rare conditions. This approach requires regulators to systematically operationalize the drug review process in different ways, extending beyond traditional statistical analyses, to counter a scenario whereby the agency, out of an abundance of caution, rejects a drug that provides therapeutic benefit that is meaningful to patients.

We commend the FDA for having exercised regulatory flexibility on occasion, especially when reviewing applications for rare and ultra-rare diseases. It needs to continue on that path, not take a step backward to regulatory rigidity.

Emily Milligan is the executive director of the Barth Syndrome Foundation. Katherine R. McCurdy, whose son died of Barth syndrome, is chair of the foundation’s board.

https://www.statnews.com/2021/09/14/aduhelm-backlash-may-imperil-fda-reviews-ultra-rare-disease-drugs/

New study revives a Mozart sonata as a potential epilepsy therapy

 Could this be the return of the “Mozart effect”?

In 1993, researchers reported that after college students listened to a particular Mozart piano sonata for 10 minutes, they showed better spatial reasoning skills than they did after listening to relaxation instructions designed to lower blood pressure — or to nothing at all. And their IQ scores jumped by 8 or 9 points in what became known as the Mozart effect. Even though the benefits were hard to reproduce (and wore off within minutes), the fad of Mozart for babies’ brain development was born.

In that early research, scientists also said listening to Mozart’s “Sonata for Two Pianos in D Major” (K448), helped patients with epilepsy by reducing spikes in neuron activity that can lead to seizures. Again, the results were not consistent enough for other scientists to replicate them. But now, 28 years later, newer methods are reviving the possibility that music can be the calm that prevents the brain’s electrical storm.

Research published Thursday in Scientific Reports says listening to the sonata for at least 30 seconds may be associated with less frequent spikes of certain electrical activity in the brains of people whose epilepsy does not respond to medication. In the study’s 16 patients, spikes fell by two-thirds throughout the brain, but they dropped the most in the brain’s left and right frontal cortices, where emotional responses are regulated.

Audio Player

Study participants listened to this clip from Mozart’s “Sonata for Two Pianos in D Major” (K448).

Robert Quon, a graduate student at Geisel School of Medicine at Dartmouth and lead author of the study, talked with STAT about his lab’s initial skepticism, the tools that allow for better measurement of brain activity, and just what it might be about this piece of music (and not Judas Priest or Buddy Holly) that could prove helpful to people with epilepsy. This interview has been edited and condensed for clarity.

What led you to reexamine the Mozart effect?

When I first joined Barbara Jobst’s lab, I was fortunate to work with a postdoc in the lab, Grace Leslie, who was conducting a study looking at how these different auditory tones — not music, but more pure tones and frequencies — affected the brain waves. The first study we performed was looking at how 40 hertz or this gamma stimulation affected these interictal brain waves — brief events that occur sporadically between seizures — in patients with epilepsy. It sounds essentially just like a buzzing in the speaker.

What is it about these spikes?

Increased numbers of these spikes are correlated with memory loss or reduced cognitive outcomes, and even increased seizure frequency. Therapies that can maybe reduce these spikes could have some proven benefits to patients with epilepsy.

Why did you switch to music?

I was testing patients in that first experiment for only 15 seconds at a time, but even with just those repeated 15 seconds of that gamma tone, a lot of the patients complained that it wasn’t too nice to listen to.

Did you think it would work?

Our group definitely approached this with a very healthy skepticism. And we still are skeptical. A lot of questions have emerged from this paper, but we’re hoping to answer more of them over the years.

How did you determine the music’s effect on brain activity, and how does it compare to methods of the 1990s?

Robert Quon
Robert Quon, lead study author and a graduate student at Geisel School of Medicine at DartmouthCOURTESY KELLYE OISHI

A lot of those studies were using a scalp EEG [electroencephalogram], and that led to a lot of contradictory findings. Signals generated by the cells that are firing in the brain have to travel across a lot of layers, including bone, and a lot of the signal gets damaged or even lost. The group of patients that we tested actually have electrodes placed directly onto their brain surfaces rather than on top of their scalp. They might be considered for surgical resection, so before doing a surgical resection, intracranial electrodes are implanted in the patients to localize where exactly the seizures are coming from so they can cut out the brain region that might be generating these seizure events to hopefully lead to seizure freedom.

That provided us with an optimal window into the brain, enabling us to test the hypothesis that Mozart may or may not reduce these intractable spikes.

Did you try other music?

We played essentially nine different musical stimuli. One of them was Mozart. And then we also modulated Mozart with that gamma tone, like an envelope of sorts. We tested music from different genres and then patients selected the song that they liked the most.

Your paper lists Wagner’s wedding march, but also Buddy Holly, Judas Priest, and Nickelback. What happened?

We were really hoping that one of these preferred pieces, when we modulated the frequencies, would result in significant therapeutic effects. But unfortunately only the original Mozart composition showed significant response. So that led us to investigate further what properties might be responsible for this.

What is it about this piece of music?

When people develop these expectations about a musical piece and when the expectations are suddenly violated — you have the same beat or tempo going on in the song and then a sudden violation to that expectation in your brain — that’s linked with positive emotional responses. We used a machine learning technique and a music information retrieval technique to break this song into segments. And we predicted that transitions out of these longer segments would be correlated with enhanced power in the emotion networks of the brain. And that’s exactly what we found with our analysis.

What’s next?

We want to look at how different elements within the music itself and see how important they are for eliciting these effects. Our next step would be to test whether we could detect other musical stimuli with these preexisting properties, like tempo or timbre, or add these properties through signal alteration. We’ll eventually, hopefully, be able to define an anti-epileptic genre so maybe listening to music from this playlist will reduce chances of having a seizure.

There’s a lot of time needed to test these theories and to tease apart exactly what is important. And we could definitely use machine learning to help us do that. Then after we do that, we can even use machine learning to look for these features within just large Spotify playlists of sorts and test that later.

We have a lot more questions than we have answers from our study. But, you know, that’s kind of common to most of research, right? I think the biggest take-home is that we just want to replicate this in a larger group of subjects for a prolonged period of time to really prove to ourselves that this is happening.

You must hear that sonata a lot.

I listen to it quite often. I’m in the room with the patient, so I hear it every time I’m testing it. And other than that, I’m analyzing the structure of the musical signals from a computational point of view. I’m pretty familiar with it.

https://www.statnews.com/2021/09/16/mozart-piano-sonata-potential-epilepsy-therapy/

EU ‘negotiating with Valneva’ over COVID-19 vaccine contract

 The European Commission is reportedly in advanced discussions with French biotech Valneva about picking up the contract to supply COVID-19 vaccines that was terminated by the UK government this week.

A French government source told Reuters that the EU is considering using the VLA2001 vaccine as part of its booster campaign plans, along with a shot from Sanofi and GlaxoSmithKline.

That would throw a lifeline to Valneva, which was rocked by the UK’s decision to withdraw from the €1.4 billion order to supply up to 190 million doses of the purified inactivated SARS-CoV-2 vaccine, claiming that the company had breached its obligations under the agreement.

That included a firm order for 100 million doses, with the amount swelled by 40 million as recently as February.

Jab ‘would not be approved’

Valneva denied that allegation, but suffered another blow yesterday when UK Health Secretary Sajid Javid told Parliament that the vaccine would not have been approved by the MHRA – even though the results of an ongoing late-stage trial (Cov-Compare) are not yet available.

The vaccine is being produced in Livingston, Scotland, and Javid said that the facility is important to the UK and Scottish governments, adding “we will be working together on to see what more we can do.”

Responding to a question from Scottish National Party (SNP) MP Hannah Bardell – who represents the constituency where Valneva’s UK manufacturing facility is located – Javid said that there were “commercial reasons” for the decision but that it was “clear” the vaccine would not be approved.

“Obviously she is not recommending that we administer vaccines that do not get approval,” said Javid.

The results of Cov-Compare are expected next month, although the Financial Times has reported that a preliminary look at the results suggested VLA2001 was less effective than other vaccines in the trial.

In a letter to participants in the phase 3 trial of VLA2001 sent after news of the cancelled contract emerged, Valneva reiterated its position that it is still expecting MHRA approval before the end of the year.

The company said yesterday it had also completed enrolment of the initial cohort in a phase 3 trial of VLA2001 involving participants aged 56 or over in New Zealand, with the number increased from 150 to 200 as a result of consultations with the EMA.

“Topline data from this cohort will read out in early 2022, and it is expected that the data will support additional regulatory submissions,” said the biotech.

https://pharmaphorum.com/news/eu-negotiating-with-valneva-over-covid-19-vaccine-contract/

Amylyx preps filing for its ALS drug after FDA feedback

 Just a few months ago, Amylyx was talking about having to complete another clinical trial before it could file for FDA approval of its drug for neurodegenerative disease amyotrophic lateral sclerosis (ALS). It’s now accelerating those plans, citing favourable discussions with the US regulator.

The company revealed today that it will submit its marketing application to the FDA in the “coming months”, rather than waiting for the results of the ongoing PHOENIX phase 3 trial, which isn’t due to complete until 2023.

The decision follows a meeting with the FDA in July and ongoing discussions about the clinical programme for AMX0035, according to Amylyx, which said it had been encouraged by the agency to seek approval.

Co-chief executive Joshua Cohen said Amylyx is “thrilled” to move ahead with the programme, based on results from its phase 2 CENTAUR trial of AMX0035, which met its main efficacy objective of slowing ALS as measured by the ALS Functional Rating Scale-Revised (ALSFRS-R).

The study also found that after three years, patients treated with AMX0035 – a combination of sodium phenylbutyrate and taurursodiol – were 44% less likely to die than those taking placebo, with a median survival of 25 months versus 18.5 months.

In ALS, which is also known as motor neurone disease, the nerve cells that control muscle function slowly die off. The two active ingredients in AMX0035 are thought to reduce neuronal death by regulating mitochondrial and endoplasmic reticulum pathways in nerve cells.

AMX0035 has already been submitted for approval in Canada, with a filing in the EU expected before the end of the year. Amylyx raised $135 million in July to help fund the further development of the drug.

The disease can be either sporadic or inherited, and in either case there is currently no cure. There is however a handful of approved drugs on the market that try to slow down its progression, notably various oral formulations of riluzole and Mitsubishi Tanabe’s intravenous Radicava (edaravone) which was approved in 2017.

ALS garnered huge international attention in 2014, when the ice bucket challenge helped raise awareness and an estimated $200 million in new funds for research.

After its initial decision to seek an additional trial, the FDA came in for criticism from the ALS Association, which urged the regulator to come into alignment with Canada and Europe in allowing the drug to be filed for conditional approval on the strength of mid-stage data.

Since then, the FDA has approved – controversially – Biogen’s Alzheimer’s disease therapy Aduhelm (aducanumab) despite mixed data, leading to speculation that it is more willing to back earlier approval of therapies for diseases with limited treatment options.

In November 2020, the ALS Association and I AM ALS charity delivered over 50,000 signatures from the patient community to the FDA asking that AMX0035 be granted conditional approval ahead of the PHOENIX readout.

https://pharmaphorum.com/news/amylyx-preps-filing-for-its-als-drug-after-fda-feedback/

The other shoe drops for Theravance

 After the failure of Theravance’s gut-selective Jak inhibitor izencitinib last month the company’s hopes hinged on getting a result with ampreloxetine in neurogenic orthostatic hypotension. Today the latter project was also revealed to be a dud, and the group has slashed its headcount and R&D efforts in response. Such an outcome was entirely predictable given unconvincing phase 1/2 ampreloxetine data, and a restructuring had also been foreseen by Leerink analysts. More surprisingly, Theravance does not seem to have learned its lesson: the group’s core assets now include the inhaled Jak inhibitor nezulcitinib, which is in development for acute lung injury despite recently failing a Covid-19 trial. More sensible, if unexciting, is a focus on the approved respiratory products Trelegy, on which Theravance receives royalties from Glaxosmithkline, and Yupelri, sold in partnership with Viatris. Theravance hopes that its streamlining will allow it to become “sustainably cash flow positive” by the second half of 2022, but many investors are not hanging around to find out. The company, already worth less than half of what it was at the start of the year, fell another 22% this morning.

The new-look Theravance
ProjectDescriptionSettingTrial details
Still in play
Nezulcitinib (TD-0903)Lung-selective Jak inhibitorAcute lung injuryFailed ph2 in Covid-19, development continues in acute lung injury
UnnamedDry-powder Jak inhibitorsAsthmaPreclinical
Out of favour
Ampreloxetine (TD-9855)Norepinephrine reuptake inhibitorNeurogenic orthostatic
hypotension
Failed ph3 Sequoia; ph3 Redwood being closed out
Izencitinib (TD-1473)*Gut-selective Jak inhibitorUlcerative colitis, Crohn's Failed ph2b Rhea in UC; ph2 Dione in Crohn's reads out Q4'21/Q1'22
TD-8236Lung-selective Jak inhibitorAsthmaFailed in ph2a asthma allergen challenge trial; development "paused"
TD-5202*Gut-selective Jak inhibitorCoeliac diseasePh1 in healthy volunteers completed; deprioritised
Inhaled ALK5iInhaled Alk5 inhibitorIdiopathic pulmonary fibrosisPh1; presumed deprioritised
*Being developed in partnership with J&J. Source: Evaluate Pharma & clinicaltrials.gov.

https://www.evaluate.com/vantage/articles/news/snippets/other-shoe-drops-theravance

Breakthrough device reimbursement rule on the rocks

 Don’t count your chickens. A rule that would have provided four years' Medicare coverage for any device with FDA breakthrough designation once the device was approved in the US is now unlikely to come into force after all.

Though the decision is not yet final, the industry association Advamed is up in arms. But a new Evaluate Vantage analysis shows that vanishingly few of the devices approved over the past two years had breakthrough status, raising questions about how great an impact the proposal would actually have had. 

The Medicare Coverage of Innovative Technology (MCIT) pathway had been proposed under the Trump administration, and was immediately put on hold when President Biden took office. It started to look even more shaky when the Centers for Medicare and Medicaid (CMS) delayed its implementation in May, stating that MCIT did not require evidence that the devices would benefit Medicare patients. 

The CMS also said the MCIT would also have made it much harder to remove these products from market had they later been found to be dangerous.

Exit MCIT

On Monday the CMS reiterated its concerns and said it had decided against implementing the rule. A consultation period on this decision will run until mid-October, but the writing is on the wall.  

Advamed, which represents device makers, called the proposed kyboshing of the proposed rule “the wrong decision” for patients and companies. But on that last point, data compiled by Evaluate Vantage suggest that medtechs would have seen little benefit from the MCIT had it come into force.

Of the 55 premarket approvals granted to medical devices, diagnostics or digital health from the start of 2020 until the end of August 2021, just five were for devices with breakthrough designation. And all five went to large, well-known groups, including Roche and Medtronic – companies least in need of the financial boost Medicare reimbursement would bring. 

FDA breakthrough devices granted premarket approval, 2020-21
DeviceCompanyDescriptionApproval dateReview time (mth)
HarmonyMedtronicTranscatheter pulmonary valveMar 26, 20214.2
Shockwave lithotripsy systemShockwave MedicalDevice to dilate calcified coronary arteries  Feb 12, 20215.6
FoundationOne liquid CDxRocheLiquid biopsy (approval for additional biomarkers)Oct 26, 20208.7
FoundationOne liquid CDxRocheLiquid biopsyAug 26, 20208.0
Guardant360 CDxGuardant HealthLiquid biopsyAug 7, 20205.9
Average of breakthrough devices6.5
Average of non-breakthrough devices13.0
Source: Evaluate Medtech & FDA.

Breakthrough devices can reach market via other regulatory routes, of course, such as the de novo pathway. Unlike with PMAs, the FDA does not release documents containing information on the presence or absence of breakthrough status of de novo cleared devices, so it is impossible to be definitive. Any information here is dependent on companies announcing it. 

Anecdotally, though, the rate of breakthrough de novo clearances is also low. Only two of the 15 de novos so far in 2021 are known to have gone to breakthrough products – Cognoa’s Canvas Dx, an AI-based diagnosis aid for childhood autism, and Helius Medical’s Pons neurostimulator, designed to improve gait in patients with multiple sclerosis.

The low rate of breakthrough approvals comes despite the FDA’s generosity in handing out these designations since the programme began in December 2016. The agency does not disclose these routinely, but the number of devices gaining breakthrough status is believed to be in excess of 100 per year. 

Had MCIT come into force, breakthrough designation might have been more useful as a species of marketing tool than an actual means of reimbursement. If a company were to be able to say that its device, once approved, will get automatic payer buy-in, the company becomes a much more attractive investment proposition – even if the device never actually makes it to market.