Patent ID: 11957491
Assignee: UNIVERSITÄT ZÜRICH
Field: Medical technology (Instruments)
Classification: CPC A  G | IPC A  G

Claim 14:
15. A non-transitory computer-readable medium comprising computer code, that when executed, cause a processor to:
receive a first position input indicative of a position of a viewer relative to a patient;
receive signals associated with at least one medical parameter of the patient;
generate a dynamic visualization of a 3-D patient model based on the received first position input and the received at least one medical parameter, wherein the generating the dynamic visualization comprises:
rendering a first stage of the dynamic visualization, wherein the first stage of the dynamic visualization includes the 3-D patient model positioned on a display to create an impression of the 3-D patient model being looked at from a head of the patient using a first point of view angle based on the first position input a patient and a first tilt angle based on the first position input, wherein the point of view angle is an angle enclosed by a projection of a viewing direction on a horizontal or coronal plane of the 3-D patient model and a longitudinal axis of the 3-D patient model; and
re-rendering at a pre-defined display refresh frequency corresponding to a second stage of the dynamic visualization, wherein a change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on at least one algorithm, wherein the algorithm is based on the received at least one medical parameter, the at least one algorithm comprising at least two of the group of:
a first patient monitoring algorithm, wherein the change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on a comparison of the received at least one medical parameter associated with a respiration rate threshold;
a second patient monitoring algorithm, wherein the change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on a comparison of the received at least one medical parameter associated with a tidal volume threshold;
a third patient monitoring algorithm, wherein the change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on a comparison of the received at least one medical parameter associated with a capnographic threshold;
a fourth patient monitoring algorithm, wherein the change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on a comparison of the received at least one medical parameter associated with a heart rate threshold; or
a fifth patient monitoring algorithm, wherein the change between the first stage of the dynamic visualization and the second stage of the dynamic visualization is based on a comparison of the received at least one medical parameter associated with a blood oxygenation threshold.