Stories about: Daniel Kohane

Using ultrasound to trigger on-demand, site-specific pain relief

Ultrasound being applied to agitate injected liposomes, which then release nerve blocking medication that stops pain at the site
Ultrasound triggers the release of local anesthetics from injectable liposomes. Credit: Mary O’Reilly

According to the CDC, 91 people die from opioid overdoses every day in the U.S. Here in Massachusetts, the state has an opioid-related death rate that is more than twice the national average.

“Opioid abuse is a growing problem in healthcare,” says Daniel Kohane, MD, PhD, a senior associate in critical care medicine at Boston Children’s and professor of anesthesiology at Harvard Medical School.

Now, Kohane and other scientists who are developing triggerable drug delivery systems at Boston Children’s Hospital have found a new way to non-invasively relieve pain without opioids. Their novel system uses ultrasound to trigger the release of nerve-blocking agents — injected into specific sites of the body ahead of time — when and where pain relief is needed most. A paper describing the findings was published online today in Nature Biomedical Engineering.

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Precision drug delivery systems could ‘trigger’ an age of nanomedicine

Nanoscale drug delivery systems could target and destroy diseases in our body with increased precision and reduced side effects.

What if we could deliver biocompatible nanoparticles into the body and then activate them to release drugs exactly where they are needed, without causing side effects elsewhere?

Scientists like Daniel Kohane, MD, PhD, of Boston Children’s Hospital, are developing nanoscale drug delivery systems to do just that, using a variety of materials and triggers that are sensitive to a range of specific stimuli.

“Triggerable drug delivery systems could improve the treatment of many diseases by reducing side effects and increasing the effectiveness of therapeutics,” says Kohane, who directs the Laboratory for Biomaterials and Drug Delivery at Boston Children’s. He is the senior author on a recent article about the topic in Nature Reviews Materials.

One potential use of nanoscale drug delivery systems is of special interest to Kohane and his lab members

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Topical antibiotics for otitis media: A one-squirt cure?

otitis media transtympanic gel
A single-application gel could revolutionize treatment of ear infections, reducing side effects and drug resistance. (Click to play animation.) Credit:Kohane group

Otitis media, or middle-ear infection, affects 95 percent of children and is the number one reason for antibiotic prescriptions in pediatrics. Typically, antibiotic treatment involves 7 to 10 days of oral medication — several times a day — a formidable task for parents of little kids.

“Force-feeding antibiotics to a toddler by mouth is like a full-contact martial art,” says Daniel Kohane, MD, PhD, a pediatrician and director of the Laboratory for Biomaterials and Drug Delivery at Boston Children’s Hospital.

A single-application bioengineered gel could be the answer to parents’ and pediatricians’ prayers. Described in a paper published today in Science Translational Medicine, the gel would provide an entire course of therapy through a single squirt into the ear canal. It was developed by Kohane’s team in collaboration with investigators at Boston Medical Center and Massachusetts Eye and Ear.

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Drug-eluting contact lens offers hope in glaucoma

Daniel Kohane drug-eluting contact lens
Contact lenses ringed with a drug-bearing polymer film provided gradual, sustained drug release in this preclinical study, potentially offering an alternative to eye drops.

Daily medicated eye drops are the first line of treatment for glaucoma, the leading cause of irreversible blindness. The drops relieve pressure in the eye, a significant risk factor for glaucoma. But they’re not ideal: their delivery is imprecise, they can cause stinging and burning and patients often struggle to administer them. Adherence is poor: in one study based on insurance claims data, nearly half of patients who had filled a glaucoma prescription stopped topical glaucoma therapy within six months.

Engineered contact lenses dispensing glaucoma medication gradually could vastly improve adherence, helping hang onto their eyesight longer. In a pre-clinical study of glaucoma published online this week in the journal Ophthalmology, slow-release lenses lowered eye pressure at least as well as daily eye drops containing the drug latanoprost — and, in a higher-dose form, possibly more so.

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DIY pain relief with light-activated local nerve blocks

light-activated liposomes
Injected, gold-coated liposomes could release painkillers on demand when heated with NIR light. (Shutterstock)

You’ve just had a root canal or knee surgery — both situations that will likely require some sort of local pain medication. But instead of taking a systemic narcotic with all its side effects, what if you could medicate only the part of your body that hurts, only when needed and only as much as necessary?

That concept is today’s reality in the laboratory of Daniel Kohane, MD, PhD, professor of anesthesia at Harvard Medical School and a senior associate in pediatric critical care at Boston Children’s Hospital.

The Kohane laboratory is developing a patient-triggered drug delivery system — but not a simple time-release mechanism or one tethered to ports or pumps. Instead, around the time of an intervention, pain medication would be injected into the site, or around a nerve leading to that site. Whenever pain relief is needed, the patient triggers release of the drug with a laser-like light-emitting device. “It’s like carrying the pharmacy in your body,” explains Kohane.

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Lasers for on-demand local pain relief?

laser drug delivery pain relief
(Juergen Faelchle/Shutterstock)

Consider this scenario: A patient is home recovering from knee surgery to repair an ACL tear. Her pain medications are wearing off, and the surgical cuts are starting to throb. Reaching over to the table she picks up what’s essentially a souped-up laser pointer, points it at the surgical wound and turns it on. Within seconds, the pain starts to fade.

This picture isn’t as far-fetched as you might think. In a pair of simultaneous papers, Boston Children’s Hospital’s Daniel Kohane, MD, PhD, and his laboratory recently reported their efforts to create not one, but two methods for packaging long-lasting local anesthetics in microspheres that could be injected in advance by a surgeon or anesthesiologist and that would release the drugs when zapped with a laser. Both methods have one goal in common: to provide patients with durable, localized and personalized control of surgical, traumatic or chronic pain with minimal side effects.

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Daniel Kohane, MD, PhD, at TEDMED: “Smart vehicles for safer medications”

“The drugs that I take don’t just go to the places in my body they’re supposed to go to do the things they do. They actually go everywhere. And what they do in those other places can be whatever.”

With those words, Daniel Kohane, MD, PhD—director of the Laboratory for Biomaterials and Drug Delivery at Boston Children’s Hospital—launched into a TEDMED talk about technologies that get drugs to where they need to go with much greater precision, like:

“Progress in this field is limited only by the imagination of the investigators and, to some degree, by reality,” says Kohane, who also sees patients in Boston Children’s Department of Critical Care Medicine. “You can achieve really big things by thinking really small.”

Click the image above to watch his whole talk.

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Stopping blindness: The drug-eluting contact lens

drug-eluting contact lens
(John Earle Photography)

Growing up, my grandmother’s eyes were always a problem. For years, she was losing her central vision to glaucoma, and numerous surgeries and treatments did not seem to help. Later in life, she could not see my face but could always tell who I was when I was close.

Glaucoma is the leading cause of irreversible blindness worldwide. While FDA-approved medications such as latanoprost can prevent vision loss by reducing pressure in the eye, their beneficial effects are limited by poor patient compliance: At six months of treatment, compliance is estimated to be little more than 50 percent.

Why? First, the medications are typically delivered as eye drops, and the drops themselves can cause stinging and burning. The drops also contain preservatives that can cause ocular surface disease.

Perhaps most importantly, latanoprost and other glaucoma drugs halt the disease’s progression but do not reverse it. Taking the drugs does not provide positive feedback that will motivate patients, such as relieving pain.

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