DE9418357U1 - Portable ultrasound measuring device, especially for vascular diagnostics, according to the Doppler frequency principle - Google Patents

Description

Portable ultrasound measuring device, especially for vascular diagnostics, according to

the Doppler frequency principle

The invention relates to a portable ultrasound measuring device, in particular for vascular diagnostics, based on the Doppler frequency principle according to claim 1.

Ultrasound measuring devices for vascular diagnostics that work according to the Doppler principle have been known for a long time in medical diagnostics. These are mainly larger stationary devices with a wide range of options, but they are correspondingly expensive.

The company Kretz Technik GmbH sells a portable ultrasound measuring device for vascular diagnostics under the name Sonos. The device is battery-operated, has an optical display and a connection for headphones. The ultrasound probe is connected to the actual device via a cable. The disadvantage here is that the device must be operated with two hands due to the headphones and the cable connection between the ultrasound probe and the housing.

It is therefore an object of the present invention to provide a portable ultrasonic measuring device that can be operated with one hand.

This problem is solved by the features of claim 1.

The pen-like housing with dimensions of a slim dictation machine and the corresponding arrangement of the operating elements ensure that the device according to the invention can be held and operated with one hand. The rigid or flexible connection of the ultrasound probe to the device ensures that

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movement of the device, the tip of the ultrasound probe can also be moved or guided in a targeted manner. This makes it possible to work with the device according to the invention with one hand.

The advantageous embodiment of the invention according to claim 2 makes it possible to temporarily store measurement data so that it can be compared with subsequently recorded measurement data and further processed. Then, for example, the temporal development of measurement data and its representation is also possible.

The advantageous embodiment of the invention according to claim 3 enables a direct optical comparison of measurement data recorded at a lateral distance.

The embodiment of the invention according to claims 2 and 3 also advantageously enables vessels arranged symmetrically in the body of a patient to be measured one after the other and then displayed together.

Due to the advantageous embodiment of the invention according to claim 4, the measurement data can be transferred to external PCs and are thus available, for example, for health insurance billing .

The advantageous design with a quick-start device makes immediate diagnostics possible in circulatory monitoring, for example.

The advantageous embodiment of the invention according to claim 6 prevents measurement data from being lost.

Due to the advantageous embodiment of the invention according to claim 7, measuring points on the human body can be found more quickly and reliably. This is particularly advantageous for emergency medical services.

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Due to the advantageous embodiment of the invention according to claim 8, ultrasound probes for different application purposes can be connected to the device.
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The plug coding capability according to the advantageous embodiment of the invention according to claim 10 ensures simple and safe operation.

The advantageous embodiment of the invention according to claim ^12 enables a spatial auditory impression to be conveyed.

The advantageous embodiment of the invention according to claims 13 and 14 allows the patient's skin temperature to be determined in a simple manner. This is particularly important for patients in shock.

The advantageous embodiment of the invention according to claims 15 and 16 makes it possible to measure the absolute or second value of the flow velocity or to calibrate the measuring device accordingly. The angle measuring device automatically corrects a measurement error caused by different angular positions.

Further details, features and advantages of the invention will become apparent from the following description.

By doubling Af (before evaluation) a detection range is recorded that is 2 times higher than with conventional devices (MIPM technology) and when evaluated by calibration it is "normal" again, i.e. real! Advantage: Very slow flow speeds can be represented acoustically etc.

Interchangeable transducer heads, transmitter frequency via plug coding, preamplifier etc. according to the

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Application frequency built into the transducer head, simultaneous detection signal to processor (for modified evaluation) e.g. gyn.-fetal frequency

- Digital display/representation of heart rate from Af

Bar graph representation of systole flow velocity in cm/s & Af in kHz

- Subtraction (on the display) of the end diastolic speed

Bidirectional detection & display

- Acoustic output/connection for a 2-tube stethoscope, thus providing correct audible representation of the two flow directions

Right-left comparison with the time offset on the display (see "Display, Possibilities" 17-10-94)

Micro-Thermist built into the transducer heads enables skin temperature measurement (not fever) important for shock patients! (Temperature display)
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Built-in optical protractor (in the housing body), making it possible to display the flow velocity calibrated in cm/s.

- Display of the actual angle position of the probe to the body surface (blood vessel) in cc°

Mathematical correction of the flow velocity in case of deviation of the angular position of e.g. 45°

Acoustic (Af) storage of the flow signals, thus tape etc. transfer and long-term documentation possible

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lent; (all representations can be reconstructed from Af! )

Transducer attachment "targeting device" for vascular puncture (e.g. art. digitalis)

Transducer listed as catheter, distal converter applicator length approx. 250 mm, 0 3-5 mm; this can be used to measure in the lingual area e.g. tonsillar etc. and gynecologically intrauterine!

Display options;

Pulsatile arterial envelope of the blood flow velocity proportional shift frequency Af

Venous flow velocity

Mean arterial flow velocity, Mean Velocity

Heart rate in pulsatile envelope mode

Bar graph representation of the Af in kHz and the speed ν in cm/s at &agr; 45° using two fixed scales to save computing time.

Calibration step automatically after each registration

- Display of the set modes arterial, venous, mean velocity

Subtraction of the diastolic AF as soon as it exceeds 25% of the systolic AF, with simultaneous indication on the display that this subtraction is taking place.

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Right-left comparison:

The mathematical cancellation of the two curves (left/right) in the case of a non-existent side difference cannot be achieved in practice. The reason for this is the inexact and incompatible placement of the probe over the vessels.

However, the following consideration would be advisable, as far as this can be implemented in software:

For example, the left side is registered at point X and saved according to the optimal position (highest amplitude). The right side is then registered under the same conditions and the curve is superimposed on the abscissa of the existing curve with a time offset of approx. 200 ms. This means that, based on the existing curve (setpoint), the superimposed (actual value) can be adjusted by appropriate probe positioning (angle, axis, etc.) until it also shows maximum amplitude; then, it is saved. This time offset makes any formal difference very clear, since even with the same amplitude, a difference in the flap closures is or will still be apparent.

Fig. 1 shows an exemplary embodiment of the invention.

List of reference symbols used in Fig. 1:
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1 ultrasound probe

2 Graphic display

3 speakers

4 Controls

Claims (16)

[File:ANM\SC7121A2.DOC] 27.10.1994 tit, *l ". ! '·! • ·*··» · ♦ · » ·«»··« Anggioskop · · * * · « « Telbus Gesellschaft für elektronische Kommunikations-Systeme mbH Claims 1. Portable ultrasound measuring device, especially for vascular diagnostics, based on the Doppler frequency principle, with
a pen-like housing in which an evaluation device, a display device comprising a graphic display and a loudspeaker, and a voltage and power supply are housed; an ultrasound probe that is rigidly or flexibly connected to the pen-like housing, and an operating device which is arranged on the housing or is accessible from outside the housing,
so that the device can be operated with one hand. 2. Device according to claim 1, characterized by a storage device for temporarily storing measurement data. 3. Device according to claim 2, characterized in that the evaluation device has a device for simultaneously displaying stored and current measured values in the display device. 4. Device according to at least one of the preceding claims, characterized by a standard interface via which current or stored measurement data can be transferred to a standard PC. 5. Device according to at least one of the preceding claims, characterized by a quick-start device through which the device is ready for use immediately after commissioning. lFile:ANM\SC7121A2.DOC] 27.10.1994 J J· . ·· 'J &iacgr;* &iacgr;&Idigr; Anggioskop · · · · · · · Telbus Company for Electronic Communication Systems mbH 6. Device according to at least one of the preceding claims, characterized by a device for monitoring the voltage and power supply and for automatically storing the current measurement data and/or operating parameters, if the voltage of the voltage and power supply falls below a certain limit value. 7. Device according to at least one of the preceding claims, characterized by a diagnostic lamp. 8. Device according to at least one of the preceding claims, characterized in that the ultrasound probe is replaceable. 9. Device according to claim 8, characterized in that ultrasound probes for different ultrasound frequency ranges can be connected to the housing. 10. Device according to claim 9, characterized in that the different ultrasound probes are plug-coded. 11. Device according to at least one of the preceding claims, characterized in that the evaluation device comprises a device for determining the heart rate from the measurement data. 12. Device according to at least one of the preceding claims, characterized by a stereo headphone connection. 13. Device according to at least one of the preceding claims, characterized by a temperature sensor. 14. Device according to claim 13, characterized in that the temperature sensor is integrated into the tip of the ultrasound probe. •Sfeita'-S. [File:ANM\SC7121A2.DOC] 27.10.1994 YYY. *Y Angioscope * I**·** · Telbus Company for Electronic Communication Systems Ltd. 15. Device according to at least one of the preceding claims, characterized by a device for determining the angle between the transmission direction of the ultrasound probe and the flow direction. 16. Device according to claim 15, characterized in that the evaluation device determines the actual value of the flow velocity.