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1.	Jovanovic, V, et al. (author) The Coronavirus Anxiety Scale: Cross-national measurement invariance and convergent validity evidence 2023 In: Psychological assessment. - 1939-134X .- 1040-3590. ; 36:1, s. 14-29 Journal article (peer-reviewed)
2.	Amon, M., et al. (author) Effect of intermittent normobaric hypoxic exposure on performance in hypoxic and normoxic environments 2008 Conference paper (other academic/artistic)
3.	Amon, M., et al. (author) Intermittent hypoxic training 2008 Conference paper (other academic/artistic)
4.	Debevec, T, et al. (author) Normoxic and hypoxic performance following four weeks of normobaric hypoxic training 2010 In: Aviation, Space and Environmental Medicine. - : Aerospace Medical Association. - 0095-6562 .- 1943-4448. ; 81:4, s. 387-393 Journal article (peer-reviewed)abstract INTRODUCTION:Although training in hypoxia has been suggested to improve sea level and altitude performance, most studies have only evaluated its effect on maximal aerobic capacity in either normoxia or hypoxia. The present study evaluated the effect of a live low-train high training regimen on both normoxic and hypoxic endurance performance and aerobic capacity.METHODS:There were 18 male subjects who performed 20 training sessions in either a normoxic (F(IO2) = 0.21) or hypoxic (F(IO2) = 0.12) environment. Both the Control (N = 9) and Hypoxic (N = 9) group subjects trained at an intensity that maintained their heart rate at a level corresponding to that elicited at 50% of peak power output attained in normoxia or hypoxia, respectively. Before, during, upon completion, and 10 d after the protocol, subjects' aerobic capacity (VO2 peak) and endurance performance (80% of VO2 peak) were determined under normoxic and hypoxic conditions.RESULTS:Mean +/- SD normoxic VO2 peak increased significantly only in the Control group from 45.7 +/- 6.1 to 53.9 +/- 3.9 (ml x kg(-1) x min(-1)), whereas hypoxic VO2 peak did not improve in either group. The Control group exhibited significant improvements in normoxic, but not hypoxic peak power output (PPO) and time to exhaustion, whereas the Hypoxic group only exhibited improvements in normoxic time to exhaustion. During each testing period, we also assessed pulmonary function, selected hematological variables, and anthropometry. There were no significant changes in these variables in either group after the training protocol.CONCLUSION:The hypoxic training regimen used in the present study had no significant effect on altitude and sea level performance.
5.	Debevec, T., et al. (author) “Sleep high – train low” altitude training 2008 Conference paper (other academic/artistic)
6.	Keramidas, Michail E., et al. (author) Respiratory muscle training 2008 Conference paper (other academic/artistic)
7.	Kounalakis, S.N., et al. (author) Thermoregulatory responses to cold water immersion following 35 days of horizontal bed-rest 2007 Conference paper (peer-reviewed)
8.	Mekjavic, I.B., et al. (author) Altitude Acclimatization 2008 Conference paper (other academic/artistic)
9.	Mekjavic, I.B., et al. (author) Evaluation of hypoxic training protocols 2009 In: Aviation, Space and Environmental Medicine. - 0095-6562 .- 1943-4448. ; 80:3, s. 289-289 Journal article (peer-reviewed)abstract Acute exposure to high altitude impairs performance, both aerobic and psychomotor. Consequently preparation of personnel to be deployed to high attitude regions should incorporate a programme of altitude acclimatisation. The aim of the present study was to evaluate the effect of several training programmes on sea level and altitude performance: Live low-Train High (LL-TH), Intermittent Hypoxic Training (IHT), Respiratory Muscle Training (RMT), and Sleep High-Train Low (SH-TL).
10.	Mekjavic, I.B., et al. (author) The exercise-induced sweating response after 35 days of horizontal bed-rest 2007 Conference paper (peer-reviewed)

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Type of publication: conference paper (7); journal article (4)

Type of content: peer-reviewed (6); other academic/artistic (5)

Author/Editor: Keramidas, Michail E ... (10); Pisot, R. (10); Kounalakis, S.N. (9); Mekjavic, I.B. (9); Debevec, T. (7); Amon, M (6); show more...; Simunic, B. (6); Eiken, Ola (5); Eiken, O. (2); Biolo, G (2); Yildirim, E. (1); Park, J (1); Dominguez, A. (1); Malik, S. (1); Ansari-Moghaddam, A (1); Sharafi, Z (1); Yu, Y (1); Nemat, A (1); Sharma, P. (1); Dimitrova, Radosveta (1); Bakkar, B (1); Islam, MS (1); Sultana, MS (1); Amin, A. (1); Khanna, R (1); Abdelrahman, M (1); Mohammadi, M. (1); Kounalakis, S (1); Okati-Aliabad, H (1); Gjoneska, B (1); Samekin, A (1); Andres, A (1); Mishra, SK (1); Dhakal, S. (1); Makashvili, A. (1); Neto, F. (1); Sulejmanovic, D. (1); Tavitian-Elmadjian, ... (1); Kazmierczak, M (1); Khosla, M. (1); Mechili, EA (1); Mekjavic, I (1); Amon, Mojca (1); Liang, YH (1); Jovanovic, V (1); Shukla, S (1); Aruta, JJB (1); Benitez, D. (1); Kabir, RS (1); Orellana, L (1); show less...

University: Royal Institute of Technology (10); Stockholm University (1); Karolinska Institutet (1)

Language: English (11)

Research subject (UKÄ/SCB): Medical and Health Sciences (11)

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