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How Rani Therapeutics’ robotic pill could change subcutaneous injection treatment

A new auto-injecting pill might soon become a replacement for subcutaneous injection treatments.

The idea for this so-called robotic pill came out of a research project around eight years ago from InCube Labs — a life sciences lab operated by Rani Therapeutics Chairman and CEO Mir Imran, who has degrees in electrical and biomedical engineering from Rutgers University. A prominent figure in life sciences innovation, Imran has founded more than 20 medical device companies and helped develop the world’s first implantable cardiac defibrillator.

In working on the technology behind San Jose-based Rani Therapeutics, Imran and his team wanted to find a way to relieve some of the painful side effects of subcutaneous (or under-the-skin) injections, while also improving the treatment’s efficacy. “The technology itself started with a very simple thesis,” said Imran in an interview. “We thought, why can’t we create a pill that contains a biologic drug that you swallow, and once it gets to the intestine, it transforms itself and delivers a pain-free injection?”

Rani Therapeutics’ approach is based on inherent properties of the gastrointestinal tract. An injecting mechanism in their pill is surrounded by a pH-sensitive coating that dissolves as the capsule moves from a patient’s stomach to the small intestine. This helps ensure that the pill starts injecting the medicine in the right place at the right time. Once there, the reactants mix and produce carbon dioxide, which in turn inflates a small balloon that helps create a pressure difference to help inject the drug-loaded needles into the intestinal wall. “So it’s a really well-timed cascade of events that results in the delivery of this needle,” said Imran.

Despite its somewhat mechanical procedure, the pill itself contains no metal or springs, reducing the chance of an inflammatory response in the body. The needles and other components are instead made of injectable-grade polymers, that Imran said has been used in other medical devices as well. Delivering the injections to the upper part of the small intestine also carries little risk of infection, as the prevalence of stomach acid and bile from the liver prevent bacteria from readily growing there.

One of Imran’s priorities for the pill was to eliminate the painful side effects of subcutaneous injections. “It wouldn’t make sense to replace them with another painful injection,” he said. “But biology was on our side, because your intestines don’t have the kind of pain sensors your skin does.” What’s more, administering the injection into the highly vascularized wall of the small intestine actually allows the treatment to work more efficiently than when applied through subcutaneous injection, which typically deposits the treatment into fatty tissue.

Imran and his team have plans to use the pill for a variety of indications, including the growth hormone disorder acromegaly, diabetes and osteoporosis. In January 2020, their acromegaly treatment, Octreotide, demonstrated both safety and sustained bioavailability in primary clinical trials. They hope to pursue future clinical trials for other indications, but chose to prioritize acromegaly initially because of its well-established treatment drug but “very painful injection,” Imran said.

At the end of last year, Rani Therapeutics raised $69 million in new funding to help further develop and test their platform. “This will finance us for the next several years,” said Imran. “Our approach to the business is to make the technology very robust and manufacturable.”


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NWU researchers develop a throat-worn wearable that could offer early warnings for COVID-19 patients

The ongoing COVID-19 pandemic is resulting in big shifts across industries, but the development of more long-term solutions that address a future in which what we need to do is mitigate the impact of the new coronavirus seems like a worthwhile place to invest time and effort. Projects like a new one from Northwestern University researchers working with the Shirley Ryan AbilityLab in Chicago that resulted in a wearable to potentially provide early warnings to COVID-19 patients are a prime example of that kind of work.

The wearable is designed to be worn on the throat, and it’s already in use by around 25 individuals, who are providing early data about its effectiveness via at-home and in-clinic monitoring. The hardware involved monitors coughs and respiratory activity, and then feeds that into a set of algorithms developed by the research team that can identify what might be early symptoms of COVID-19, and potential signs that the infection is progressing in a dangerous way that could require more advanced care.

The gadget is designed to be worn around the clock, and provides a continuous data stream. This has the advantage of providing insight as it becomes available, instantly, instead of relying on regular check-ins, or waiting for when symptoms are clearly bad enough that someone needs additional help, at which point it’s usually past the stage of early intervention. The wearable essentially looks like a thin bandage the size of a postage stamp, and it can monitor not only cough sounds and frequency, but also chest movements, heart rate, body temperature and respiratory rate.

It’s tuned specifically to what health experts have generally tagged as the most common early symptoms of COVID-19, which include fever, coughing and problem breathing. The “suprasternal notch,” which is the technical name for the site on the throat where the wearable rests, is “where airflow occurs near the surface of the skin” through the respiratory pathways of the body, according to Northwestern researcher John A. Rogers who led the device’s development team.

This hardware can potentially be useful in a number of ways: First, it’s a valuable tool for front-line healthcare workers, offering them what will hopefully be an early warning sign of any oncoming illness, so they can avoid infecting their colleagues and get the treatment they need as efficiently as possible. Second, it could be used by those already diagnosed with COVID-19, to potentially provide valuable insight into the course of the infection, and when it might be getting worse. Third, it could eventually also be used to tell scientists working on therapies what is working, how and how well, with live information from test subjects both in-clinic and at home.

The device is also relatively easy to produce, with the team saying they can do so at a rate of around hundreds per week, without even needing to lean very heavily on outside suppliers. That’s a considerable advantage for any hardware that might need to be leveraged in volume to address the crisis. Plus, people can wear it almost unnoticed, and it’s very easy to use both for clinicians and patients.

There are other projects in the works to see how devices that monitor biometrics, including the Oura ring, and the Kinsa thermometer, can help contain the epidemic. The researchers behind this wearable have spun up an engineering company called Sonica to manage their device’s development, and will now be working with various agencies (including through funding by BARDA) to deploy it in more places, and see about potentially productizing the wearable for wide-scale use.

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3D-printed glasses startup Fitz is making custom protective eyewear for healthcare workers

A lot of startups have answered the call for more personal protective equipment (PPE) and other essentials to support healthcare workers in their efforts to curb the spread and impact of COVID-19. One of those is direct-to-consumer 3D-printed eyewear brand Fitz, which is employing its custom-fit glasses technology to build protective, prescription specs for front-line healthcare workers in need of the best protection they can get.

Fitz Protect is a version of Fitz’s eyewear that uses the same custom measurement tool Fitz created for use via its iOS app, made possible by Apple’s depth-sensing Face ID camera on newer iPhones and all iPad Pro models. The app allows virtual try-on, and provides millimeter-level accurate measurements for a custom fit. Protect is a version of the glasses that still supports a wide range of prescriptions, but that also extends further like safety glasses to provide more coverage and guard against errant entry of any fluids through the eyes.

Healthcare professionals are doing what they can to ensure their face, mouth, nose and eyes are protected from any coughs, sneezes or other droplet-spreading activity from COVID-19 patients that could pass on the infection. These measures have more broadly focused on face shields that feature a single transparent plastic sheet, and N95  masks (and alternatives when not available) to protect the mouth and nose.

Fitz CEO Gabriel Schlumberger explained via email that the design for Fitz Protect came from working front-line doctors and nurses from New York, LA and Texas who were all looking for something to source prescription protective eyewear.

“More than 60% of doctors are glasses wearers, and current guidance is for them to stop wearing contact lenses,” Schlumberger explained, adding that Fitz Protect is also designed to be worn in conjunction with a face shield, when that’s an available option, to provide yet another layer of defense.

“We heard from prescription glasses wearers that their standard glasses didn’t provide anywhere near adequate coverage, especially over the eyebrows, and in some cases they were adding cardboard cut-outs,” he said. “We leveraged our existing system to create something much better. ”

Fitz’s model also helps on the pricing side because it’s already designed to be an aggressively cost-competitive offering when compared to traditional prescription eyewear. Their glasses typically retail for just $95 including frames, lenses and shipping, and are also offered in a $185 per year unlimited frame membership plan. For doctors, nurses and hospital staff, the entire cost of Fitz Protect is being waived, and the company is seeking donations to help offset its own manufacturing costs, which currently stand at around $100 per set, though process improvements should bring that down, according to Schlumberger, as they expand availability.

Already, he said that nearly 3,000 healthcare professionals have signed up to receive a pair in their first week of availability, so they’re working on adding scale to keep up with the unexpected demand.

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