WO1991017709A1

WO1991017709A1 - Uro-flowmeter

Info

Publication number: WO1991017709A1
Application number: PCT/PL1991/000008
Authority: WO
Inventors: Krzysztof Dziewanowski
Original assignee: Wojewódzki Szpital Zespolony
Priority date: 1990-05-17
Filing date: 1991-05-17
Publication date: 1991-11-28

Abstract

This invention solves the problem of processing a technical embodiment of a uro-flowmeter used in assessing the state of health and efficiency of the human urinary organs. The uro-flowmeter of the invention has a measuring tube (1) secured perpendicularly to the shaft (10) of the frame (11). This tube has an interchangeable orifice (2) with a calibrated aperture fitted at the lower part. Inside the tube there is a movable float (3) with a pin (4) secured to it which terminates in a vertically secured pointer (5), the point of which is on the background of the measuring scale (6). The pin and the float secured to it are held in the highest position during measurement by means of a block (7). Between the plane of the interchangeable orifice, where the bottom of the float can rest in the lowest position, is located the outlet of the inflow stub (8) in the by-pass tube of the measuring tube. The graduated measuring glass (12) is beneath the aperture of the interchangeable orifice.

Description

URINE KNIFE

The subject matter of the invention is a device called uroflowmeter, which is intended for the evaluation of the state of health and the performance of the organs of the human urinary apparatus. The mentioned evaluation is carried out with the aid of the device by performing a series of control measurements that measure the urine flow rate with the include simultaneous consideration of the excreted urine volume.

A clear determination of the performance of the human urinary system based on the statements of the patient is not objective. The methods of uroflowmetric measurements that have hitherto been used in medical technology and diagnostics, such as mechanical, weight-based, electromagnetic, isotope or others, allow an evaluation of a number of micturition parameters, but are generally complicated, labor-intensive and expensive. The application of these methods is connected with the need to use complicated equipment and also how in the case of isotopic examinations, these methods are not always indifferent to the patient, especially if frequent control measurements are required.

Among the previously routinely determined uroflowmetric parameters, such as the urine volume emptied from the bladder during micturition, the maximum urine jet second volume, the average urine jet second volume, the urination time, the residual urine volume and others, the index appears to be the maximum urine jet second volume also the emptied urine volume is considered to be the most important. This index is called the "corrected index of the maximum urinary jet second volume" and is designated by the symbol CPFR.

If one accepts the following names:

Vc - absolute urine volume in ml

Cmax- maximum urine jet second volume in ml / sec. d - magnitude of total resistance

how to represent the relationships between these values using the following formula:

Omax = dx / Vc / ⁿ

wherein the size of the exponent "n" can be determined experimentally by determining Cmax in the same human at different values of the ham jet second volume. The measurements show that the exponf'n "fluctuates by the value 0.5. Therefore, based on the assumptions presented, it is assumed that:

d = Cmax / Vc A similar principle is used in the uroflowmetric

Investigations calculated the so-called Von Garrelts index, which determines that

CPFR = PFR / V

Where:

CPFR - corrected index of the maximum urinary jet second volume

PFR - maximum earn jet second volume in ml / sec.

V - urinary bladder volume emptied from the

Urine volume and the residual urine volume.

When calculating the Von Garrelts index, the factor referred to as PFR is determined with reference to the average urinary jet second volume, taking into account the maximum average amount of micturition.

Many authors, including D.Groshar in his

Articles in Journal Urology 1988, volume 139.266, believe that the CPFR index is the most valuable and clinically meaningful in evaluating urinary bladder disorders. In healthy

Humans, the CPFR index should be approximately 1.22 ± 0.32, and the CPFR index for patients with urinary impairment is 0.59

0.22.

For the assessment of the patient's state of health on the basis of the above-mentioned index marked with the symbol CPFR, it is essential that during a Such evaluation recnt exactly the values of the maximum

Urine jet second volume, taking into account the emptied urine volume.

Among the technical solutions which represent the known state of the art, a number of apparatus solutions can be found which are suitable for measuring the

Flow rates of liquids are true, and are commonly called rotameters.

One of these solutions is among the Polish

Patent Description No. 111 087 known and relates

a rotameter for the continuous measurement of the speed and the liquid and gas throughput.

This rotameter has a vertical transparent tube with a slightly increasing inner diameter, and inside there is a sensor from

Float type. This sensor consists of three rings with a negative floatability and different dimensions, lined up on a vertical rod, which is located in the middle of the transparent tube. Three sub-ranges of the flow rate through the rotameter scale are on the conical side arm of the clear tube.

From another Polish patent description with the number 62 066 a solution of a technical device is known which is intended for the continuous measurement of small liquid throughputs and for the calculation of the total volume. The device consists of a mecha African and electronic part, whereby in the mechanical part the basic element is a glass tube, which is provided in its upper part with an oblique drain and a drain in the lowest part of the tube.

Inside the glass tube, in the upper or lower part, there are two valve seats. The valve plates of these valve seats are located on a sliding rod, at the tip of which a ferromagnetic core is located inside a solenoid, which in turn is connected to the electronic measuring and control system of the device. This known device enables the inflowing liquid to accumulate in the glass tube, its cyclical emptying and the determination of the number of cycles.

Allow the known technical solutions

in practical terms, the measurement of the average flow velocity of the liquid, but the samples of the measurement with the aid of the maximum flow rate give an uncertain result, which is usually fraught with a large error.

The purpose of the technical solution of this invention is that the measuring tube fixed vertically in the frame has an interchangeable mouth with a calibrated opening attached to its bottom part, and a float was located inside the tube, which is connected to the mandrel, which in turn is connected to a vertically attached pointer ends, the tip of which is on the measuring scale, wherein the mandrel is coupled to a barrier, and the inlet of the inlet connector on the bypass tube of the measuring tube between the exchangeable mouth and the bottom of the float was located.

The next essential feature of the invention is that the scale container for the volume measurement is attached to the frame under the exchangeable mouth. Another essential feature of the invention is that the measuring tube has been fastened in the holder, which can be moved vertically along the frame shaft. Another essential property of the invention is that the influence of the inflow neck is shaped like a cup.

The uroflow meter allows, according to the invention, to determine with great accuracy and repeatability the value of the maximum urinary jet second volume of a patient, and thereby to determine the value of the corrected index of the maximum urinary jet second volume, which is indicated in medical diagnostics with the symbol Is called CPFR. The use of the uroflowmeter, according to the invention, enables the dynamics of prostate diseases to be tracked, the influence of the medication taken to be determined, and the optimal decision-making regarding surgical therapy and the evaluation of the consequences of this therapy. The measurement of the CPFR index using the device The invention can be practiced practically indefinitely, with different degrees of urinary bladder filling. The measurement is completely indifferent to the patient. In the case of the control measurements carried out, the results of these measurements can be largely repeated in the same patients.

The subject matter of the invention is shown schematically in the drawing in FIG. 1, and the drawings in FIGS. 2 and 3 contain the diagrams which are essential for the calculation of the CPFR index, based on the data obtained by using the uroflow meter.

The basic element of the uroflow meter is the glass measuring tube 1, which is fastened in the holder 9 on the shaft 10 of the frame 11. The lower end of this measuring tube is narrower, and the mouth 2, which is provided with a calibrated opening, is attached to this end. A roller float 3 was inserted into the interior of the tube and was located inside the tube

Rohres moves. Fixed to the upper surface of the float is the mandrel 4, which has been inserted through the opening in the hood of the measuring tube and which ends with a vertical pointer 5, the tip of which moves on the background of the measuring scale 6. The mandrel 4 rests on the spring of the locking mechanism 7, this mechanism allowing the float 3 to move upwards during the measurement, and the automatic drop in the gravitational forces caused by the The measuring tube is provided with an inlet nozzle 8, which is an integral part of the tube, the outlet of the nozzle being located in the lower part of the bypass tube of the measuring tube, between the level on which the interchangeable mouth is and the level the the bottom of the float 3

can take. The inlet of the inflow nozzle is widened and shaped like a goblet. Under the opening of the mentioned mouth 2 is the container of the scale 12, which collects the urine flowing out of the measuring tube. The uroflowmeter, according to the invention, is used in such a way that first the measuring tube 1 in the corresponding

Sets height and at this height the holder 9 is attached to the shaft 10 of the frame 11. Soon after the release of the barrier 7 Biakt the float 3 in the lower position.

In the further course, the patient excretes the urine into the inlet of the inflow nozzle 8 in the shortest possible time, it being expedient if the micturition volume is approximately 200 ml, with the respectively permitted micturition volume of 50 to 500 ml.

The urine filling the tube lifts the float 3 upwards and at the same time flows through the opening of the aforementioned mouth 2 into the scale 12. In the highest position, the float 3 is locked by the barrier 7. This position determines the parameter "h" on the measuring scale 6.

On the basis of the parameter "h" one read from Diagram on Fig. 2 the value Cmax of the maximum urinary jet second volume. With the read Cmax the value of the index 'CPFR is calculated with the formula

CPFR = Cmax / V

The value of the index 'CPFR obtained is then additionally multiplied by the value of the correction coefficient "z", which can be read from the diagram in FIG.

On the basis of this calculation, the corrected index CPFR is obtained according to the assumed principle that

CPFR = CPFR x / 1 ≠ z /

For example, if the index CPFR equal to 1.05 was obtained with the micturition size of 80 ml, the correction coefficient read from the diagram in FIG. 3 is z = + 0.2.

Multiplying 1.05 by 1.2 gives the value of the corrected CPFR index, which is 1.26.

Claims

1. Uroflowmeter, which has a vertical position of the localized measuring tube with an inlet connection attached to it at an angle and an outlet connection located at the lowest point of this tube, characterized in that the measuring tube / 1 / has an exchangeable orifice with a calibrated opening attached to the base part, but inside the

Measuring tube a sliding float / 3 / with the mandrel attached to it / 4 / with a vertically fixed pointer / 5 /, the tip of which is on the background of the

Measuring scale / 6 / is located, the mandrel is coupled to a barrier / 7 /, and the outlet of the inlet connection / 8 / is located on the bypass tube of the measuring tube, between the level of the interchangeable mouth and the level of the float bottom.

2. Uroflowmeter according to claim 1, characterized in that on the frame / 11 / under the interchangeable

Mouth / 2 / a container of scale / 12 / is attached for volume measurement.

3. Uroflowmeter according to claim 1 or 2, characterized in that the measuring tube / 1 / is fixed in a holder / 9 / which is moved along the shaft / 1ü / the frame / 11 /.

4. Uroflowmeter according to claim 1, characterized in that the inlet of the inflow nozzle / 8 / is shaped like a cup.