Ippa logo


Oct 8 - 15 , 2016     La Paz - Bolivia

Abstract Submission Form
La Paz, Bolivia

Have you registered ? if not, go to registration.

Please submit abstracts electronically using the form below no later than Sept 1st, 2016 !

In order to help you fill these out easily we give you 3 Options. Please choose the one that you find easier.

Back to Symposium Home Page

Option 1: Fill in the information and your abstract in the form below and click the "Submit Abstract" button at the bottom of the page.

Presenter Information (Required Fields)





Address (line 1):    

            (line 2):      

            (line 3):      

Paper or Poster

Please see the Abstract Sample at the bottom of the page.
Fill-in all four, please.

Title:    (All capitals)     

Author(s):    (Last Name, only first letters capitalized, First name initials only)

Affiliation(s):    (Please see below for the number format.  Only first letters capitalized )     


(350-word limit) The easiest way is to select and paste, but be careful not to include formatting (Graphs, tables and pictures are accepted).



Presentation Preference:

Oral conference


Other needs for your presentation:




Option 2: If you wish you can also submit your abstract via email as an attachment using the Word format (Save it as Rich Text Format:  yourname.rtf   )

Option 3: If you cannot submit your abstract electronically, please send us an e-mail here.

Abstracts (350-word limit with the format sample below)

Back to Symposium Home Page




Bakay EA1, Serebrovskaya TV2, Roitman EM1, Shulkevich TP1, Osaylenko V1, Afanasjeva VP

1 Institute for Applied Problems in Physics and Biophysics, Kiev 03142, Ukraine.
2 Bogomoletz Institute of Physiology, Kiev 01024, Ukraine

IHT has become popular in Russia and Ukraine, and special devices have been developed for its administration. One of the most important aspects of such devices is accurate and dependable measurement of oxygen partial pressure in expired air while transcutaneously measuring oxygen partial pressure (PO2) in arterial blood. Two novel elements of this work are (1) the application of pulse methods of oxygen sensor polarization in the technology for optimal PO2 sensor design and (2) improvement of processing output signals to improve the metrological characteristics. Application of this novel polarization method causes minimal sensor influence on the steady-state processes in biological objects, thus increasing the measurement accuracy and ensuring prompt reaction of the device to changes in external factors. Owing to high operation speed, the device can be used for measuring lung ventilation parameters and blood vessel response to irritation. In using pulse polarization techniques, an optimal device design, device-manufacturing technology, and a relevant mathematical processing of measurement results is selected. The apparatus has the potential to be widely used in many areas of experimental and clinical medicine that require PO2 values.

  You are welcome to copy this format, But we would appreciate a link to our webPage:    http:// www.altitudeclinic.com           Back to Symposium Home Page