Eric J. Earley, PhD

Unified measures quantifying intensity and similarity of pain and somatosensory percepts | Journal of Neurophysiology | American Physiological Society

I am grateful to my coauthors, Malin Ramne and Prof. Johan Wessberg, for working with me to develop these measures and ensure their multidisciplinary and translational potential within research and healthcare.

You can read the full paper here: journals.physiology.org/doi/full/10....

18.07.2025 15:38 — 👍 1    🔁 0    💬 0    📌 0

These measures are generalizable and applicable to any application of somatosensory maps, including grid-based and free-hand drawings, resulting in improved pain characterization and better understanding of the needs and progression of patients experiencing pain.

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SPD is derived from optimal transport theory, which quantifies differences between two probability distributions or somatosensory maps. The utility of these measures is demonstrated using data from two studies characterizing somatosensory percepts and neuropathic pain drawings.

18.07.2025 15:38 — 👍 0    🔁 0    💬 1    📌 0

SPI is inspired by Piper’s law, which describes the phenomenon of incomplete spatial summation wherein changes in pain area do not yield linearly proportional changes in perceived intensity.

18.07.2025 15:38 — 👍 0    🔁 0    💬 1    📌 0

In this paper, we propose two unified measures, Somatosensory Percept Intensity (SPI) and Somatosensory Percept Deviation (SPD), to overcome these limitations and to more accurately quantify longitudinal changes in sensation and pain.

18.07.2025 15:38 — 👍 0    🔁 0    💬 1    📌 0

Unified Measurs of Somatosensory Percept Intensity & Similarity. Pain maps and somatotopic maps can take on many forms, making comparisons challenging. We propose novel measures quantifying & unifying the intensity and similarity of somatosensory percepts. These novel measures are generalizable and applicable to any somatosensory map.

🚨New publication in the Journal of Neurophysiology!🚨

journals.physiology.org/doi/full/10....

When comparing two #sensory or #pain maps, how does one quantify their similarity in intensity, area, and location? Current methods fail to account for the interaction between these characteristics.

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Frontiers | Comparing implantable epimysial and intramuscular electrodes for prosthetic control IntroductionImplantable electrodes are the subject of increasing interest due to the possibilities they present for the control of assistive devices such as ...

Epimysial electrodes may be better suited for larger muscles and for predicting gross hand movements.

Intramuscular electrodes may be better suited for smaller muscles and predicting finger movements.

Co-authors: Morten B. Kristoffersen, Max Ortiz-Catalan

www.frontiersin.org/journals/neu...

03.07.2025 18:59 — 👍 0    🔁 0    💬 0    📌 0

A graphic of the musculature and nerves in an amputated arm with an osseointegrated implant extending from the skin. Title: "Comparing Implantable Epimysial and Intramuscular Electrodes for Prosthetic Control" Authors: Eric J Earley, Morten B Kristoffersen, Max Ortiz-Catalan Caption: Case Series - Which electrodes are better suited for prosthesis control? Epimysial electrodes may be better suited for larger muscles and predicting gross hand movements. Intramuscular electrodes may be better suited for smaller muscles and predicting finger movements.

When using implantable #electrodes, which are best for #prosthetic control?🦾

Our study published in Frontiers In Neuroscience compares epimysial and intramuscular electrodes to see when each should be considered.

Read on for our results 👇🏻

Article: frontiersin.org/journals/neu...

#Bionics

03.07.2025 18:59 — 👍 0    🔁 0    💬 1    📌 0

What guidelines exist for #prosthetic components for patients with #amputation?

And more importantly, what guidelines are missing?

Come check out our talk, presented by Daniel Milius, on a meta-synthesis of prosthetic prescription guidelines at 14:30 in Room A8!

#ISPO2025 #ISPOcongress25 #BALRG

17.06.2025 07:14 — 👍 0    🔁 0    💬 0    📌 0

If you are attending #ISPO2025 and interested in selecting the right prosthetic components for patients with #BoneAnchoredLimbs, come check out today's presentation in Session 5.01 at 1pm in Room A7!

16.06.2025 07:02 — 👍 0    🔁 0    💬 0    📌 0

If you're attending #RehabWeek2025 / #ICORR2025 and interested in upper limb prosthetics outcomes, come check out Poster 230 today 🦾

14.05.2025 13:40 — 👍 2    🔁 0    💬 0    📌 0

A photo of the Chicago skyline from the lake shore path to the north. The sky is blue and the weather is sunny and clear

Happy to be back in Chicago for #RehabWeek2025!

If you're interested in #prosthetics, #NeuralInterfaces, #embodiment, and #osseointegration and #BoneAnchoredLimbs, let's meet up!

12.05.2025 00:44 — 👍 0    🔁 0    💬 0    📌 0

Roses are red
Bionic limbs are synthetic
"Prosthesis" is a noun
The adjective is "prosthetic"

#academicValentine

14.02.2025 19:10 — 👍 1    🔁 0    💬 0    📌 0

A photo of me, a white man with a long shaped beard, wearing a grey suit and delivering a presentation to a crowd of researchers. A projected image in the background shows a man controlling a prosthetic hand

A man with a prosthetic arm connected directly to his upper arm via a titanium implant extending through the skin. He is working in a machine shop, holding a part with his prosthetic hand and measuring its diameter with a set of calipers in the other hand

Hello! I'm a bionics researcher interested in how neuromuscular and skeletal interfaces for prosthetic arms and legs change the way that people with amputations use, feel, and think about their prostheses.

I'm passionate about #SciComm, photography, and music, and consider myself a serial dabbler 😎

26.01.2025 03:29 — 👍 4    🔁 0    💬 0    📌 0