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ML Language Processing Model for Radiotherapy Treatment Planning

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Summary

USPTO published patent application US20260100265A1 for machine-learning language processing methods used in radiotherapy treatment planning. The system monitors a radiotherapy planning user interface to identify treatment attributes and executes ML models to generate contextual data when thresholds are met. Inventors include Jarkko Peltola, Martin Sabel, Esa Kuusela, Elena Czeizler, Ismo Hautala, and Kellee Donnelly.

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What changed

USPTO published patent application US20260100265A1 covering methods and systems for using machine-learning language processing models in radiotherapy treatment planning. The disclosed invention involves monitoring a radiotherapy planning user interface, identifying planning attributes, and executing ML language processing models to generate contextual data when certain thresholds are satisfied. The contextual data is then presented within the treatment planning interface.

Medical device manufacturers developing radiotherapy planning software or systems should review this patent for potential licensing implications or competitive landscape awareness. Healthcare providers using AI-assisted radiotherapy planning systems may need to assess their technology vendors' IP positions. The patent covers CPC classifications G16H 20/40, A61N 5/1031, G16H 10/60, and G16H 50/20.

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Apr 9, 2026

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← USPTO Patent Applications

USING MACHINE-LEARNING LANGUAGE PROCESSING MODEL FOR RADIOTHERAPY TREATMENT PLANNING

Application US20260100265A1 Kind: A1 Apr 09, 2026

Inventors

Jarkko Peltola, Martin Sabel, Esa Kuusela, Elena Czeizler, Ismo Hautala, Kellee Donnelly

Abstract

Disclosed herein are methods and systems for using machine-learning language processing models to provide contextual data while a medical professional is using a radiotherapy treatment planning user interface to generate a treatment plan for a patient. One method comprises monitoring, by at least one processor, a radiotherapy treatment planning user interface comprising an interaction interface to identify one or more radiotherapy planning attributes associated with a radiotherapy treatment of a patient via a radiotherapy treatment planning computer model; receiving, by at least one processor from the c, an indication associated with the radiotherapy planning attribute; responsive to the indication satisfying a threshold: executing, by at least one processor, a machine-learning language processing model to generate contextual data associated with the one or more radiotherapy planning attributes; and presenting, by at least one processor, the contextual data within the radiotherapy treatment planning user interface.

CPC Classifications

G16H 20/40 A61N 5/1031 G16H 10/60 G16H 50/20 A61N 2005/1074

Filing Date

2024-10-04

Application No.

18907368

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Classification

Agency
USPTO
Published
April 9th, 2026
Instrument
Notice
Legal weight
Binding
Stage
Final
Change scope
Minor
Document ID
US20260100265A1

Who this affects

Applies to
Medical device makers Healthcare providers Clinical investigators
Industry sector
3345 Medical Device Manufacturing
Activity scope
Patent applications Medical device innovation
Geographic scope
United States US

Taxonomy

Primary area
Intellectual Property
Operational domain
Legal
Topics
Healthcare Medical Devices Artificial Intelligence

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