dr hab. Grażyna Łypacewicz


Doktorat
1970Problemy elektroakustyczne ultradźwiękowych głowic stosowanych w diagnostyce medycznej 
promotor -- prof. dr hab. inż. Leszek Filipczyński, IPPT PAN
173 
Habilitacja
1996Piezoelektryczne układy nadawczo-odbiorcze dla celów ultrasonografii 
Ostatnie publikacje
1.Filipczyński L., Wójcik J., Kujawska T., Łypacewicz G., Tymkiewicz R., Zienkiewicz B., Nonlinear Native Propagation Effect of Diagnostic Ultrasound Computed and Measured in Blood, ULTRASOUND IN MEDICINE AND BIOLOGY, ISSN: 0301-5629, DOI: 10.1016/S0301-5629(00)00329-X, Vol.27, No.2, pp.251-257, 2001

Streszczenie:

Nonlinear propagation effects produced by focused pulses in blood were measured over a 20-cm range, being inspired by diagnostic applications in cardiology. The initial and maximum pressures applied during measurements in blood were equal to 0.40 MPapp and 0.76 MPapp, while the pressure estimated at the patient body surface equalled 0.70 MPapp. Measurements of the frequency characteristic and the linearity of the ultrasonic probe used in experiments were performed in water. A numerical procedure developed previously was applied in blood to calculate the pressure distribution of its first and second harmonics along the beam axis. The comparison of numerical and measured distributions in blood at a temperature of 37°C showed rather good agreement. Using numerical methods, a proportional growth of the second harmonic with the increased applied initial pressure was first observed, and finally the maximum limiting effect was found. In this way, much higher level of harmonics could be obtained. However, there arise the questions of the transmitting system construction and of the nonuniform resolution in the case of harmonic imaging when increasing the applied initial pressure.

Słowa kluczowe:

Ultrasound, Pulses, Nonlinear propagation, Blood, Cardiology

Afiliacje autorów:

Filipczyński L.-IPPT PAN
Wójcik J.-IPPT PAN
Kujawska T.-IPPT PAN
Łypacewicz G.-IPPT PAN
Tymkiewicz R.-IPPT PAN
Zienkiewicz B.-IPPT PAN
2.Łypacewicz G., Piezoelektryczne układy nadawczo-odbiorcze dla celów ultrasonografii (Praca habilitacyjna), Prace IPPT - IFTR Reports, ISSN: 2299-3657, No.22, pp.1-110, 1995
3.Etienne J., Filipczyński L., Firek A., Groniowski J., Kretowicz J., Łypacewicz G., Sałkowski J., Intensity determination of ultrasonic focused beams used in ultrasonography in the case of gravid uterus, ULTRASOUND IN MEDICINE AND BIOLOGY, ISSN: 0301-5629, DOI: 10.1016/0301-5629(76)90020-X, Vol.2, No.2, pp.119-122, 1976

Streszczenie:

The authors applied two absolute methods for the determination of the intensity of ultrasonic focused beams of 2·5 MHz frequency used in ultrasonograph UG-4 for abdominal visualization: the electrodynamic and the capacitance methods. For the first method a special electrodynamic transducer was constructed which made it possible to measure the acoustic (particle) velocity in the focal point of the ultrasonic beam radiating into water. Hence the focal intensity could be determined.

The two methods gave almost the same intensity values equal to 23 Wcm−2 in peak, (∼ 23 mWcm−2 time average value) although the mean surface value near to the radiating transducer was equal only to 0·59Wcm−2 in peak (∼0·59 MWcm−2 time average value).

Next, the loss of the ultrasonic signal was measured in pregnant women in vivo using for this purpose steel balls as reflecting targets placed in the gravid uterus. The echo amplitudes obtained in the uterus were compared with echoes received from the same steel balls placed in (nonabsorbing) water in the same position relative to the radiating transducer.

In this manner it could be found that intensity levels inside of the uterus were 6–14 dB lower than at the body surface, depending on the anatomical characteristics of the patient.

Thus the maximum (focal) intensities which are to be expected in the gravid uterus in early pregnancy will be between 0·9 and 5·5 Wcm−2 in peak (0·9–5·5 mWcm−2 time average values) when applying the ultrasonograph UG-4.

Afiliacje autorów:

Etienne J.-IPPT PAN
Filipczyński L.-IPPT PAN
Firek A.-other affiliation
Groniowski J.-Poznan University of Medical Sciences (PL)
Kretowicz J.-other affiliation
Łypacewicz G.-IPPT PAN
Sałkowski J.-other affiliation