Periodicum biologorum, Vol. 116 No. 2, 2014.
Original scientific paper
Teaching physiology: blood pressure and heart rate changes in simulated diving
JOANN A. GIACONI
; Glaucoma Division, Jules Stein Eye Institute, David Geffen School of Medicine, UCLA, Los Angeles, USA
JOSKO BOZIC
; Department of Physiology ,University of Split School of Medicine, Split, Croatia
TONI BRESKOVIC
; Department of Physiology ,University of Split School of Medicine, Split, Croatia
KRISTINA PEROS
; Department of Pharmacology, University of Zagreb School of Dentistry, Zagreb, Croatia
TINA TICINOVIC KURIR
; Department of Pathophysiology, University of Split School of Medicine, Split, Croatia
ZORAN VALIC
; Department of Physiology ,University of Split School of Medicine, Split, Croatia
Abstract
Background and Purpose: Physiology exercise employing simulated
diving is used in our curriculum to integrate knowledge in cardio-respiratory physiology. Aim was to improve model used in physiology exercise by employing continuous recordings of arterial pressure and heart rate.
Materials and Methods: Total of 55 medical and dental students
volunteered for the exercise. They were instrumented with photoplethysmographic blood pressure and heart rate device, as well as with pulse oxymetry. Continuous measurement of variables was undertaken while students performed apneas or breathed through snorkel in air or in cold water, or temperature change was applied to their forehead.
Results: Employment of continuous recordings enabled detailed insight
into changes in selected cardiovascular parameters during 30 seconds breathholding. Time course of the changes showed marked biphasic
response. When face was submerged in cold water during apnea, arterial pressure initially decreased and heart rate increased. At the end of breath-hold, arterial pressure increased and heart rate decreased, respectively. Corresponding changes were less pronounced when breath-hold was performed without face immersion.
Conclusion: Improved protocol in laboratory exercise enabled us to show two distinct phases in changes of cardiovascular variables which are characteristic of diving reflex. We showed students how modern technology can improve their studies in near future and encouraged and motivate them to participate actively in exercise.
Keywords
blood pressure; heart rate; apnea; diving; face immersion; temperature
Hrčak ID:
126363
URI
Publication date:
31.7.2014.
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