Mieczysław Wojtkowiak scite author profile

Mieczysław Wojtkowiak

5Publications

58Citation Statements Received

38Citation Statements Given

How they've been cited

How they cite others

Affiliations

Institute of Aviation Medicine, Instytut Lotnictwa, Wojskowy Instytut Medycyny Lotniczej

Publications

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The effect of hypoxia on the critical flicker fusion threshold in pilots

Truszczyński¹,

Wojtkowiak²,

Biernacki³

et al. 2009

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Objectives: Human reactions to environmental changes have been the subject of numerous investigations related to pathophysiology, aviation psychology, aviation, and sports. The present study aimed at evaluating the perception of light stimulus via the Critical Flicker Fusion threshold (CFF) measurements among aviation pilots. Materials and Methods: The study was carried out under hypoxic conditions corresponding to 5000 m altitude, for a period of 30 min, without the use of supplemental oxygen. Fourteen volunteer pilots, 23-30 years of age, were examined in the hypobaric chamber (HC). The measurements were performed at normobaria and at the initial and final phase of hypoxia. Heart rate (HR) and blood oxygen saturation (SaO 2 ) were monitored. Results: The high altitude hypoxia was found to produce a decrease in the CFF threshold F(3.39) = 3.207, p < 0.05, and SaO 2 F(3.39) = 52.651, p < 0.001, as well as HR increase F(3.39) = 7.356, p < 0.001. The results indicate that the higher the decrease in SaO 2 under hypoxic conditions, the higher the decrease in CFF r = .567 p < 0.05. Likewise, the higher the increase in HR, the higher the decrease in CFF r = -0.491 p < 0.05. Conclusions: Under hypoxic conditions, the perceptual ability of the pilots is gradually decreasing. This has been confirmed by the findings of the physiological examinations. The authors express an opinion that it would be advisable to introduce CFF measurement into the hypobaric chamber tests as it allows individual assessment of the pilot's perceptual ability under conditions of incomplete physiological compensation of the high altitude hypoxia.

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Back pain in Polish military helicopter pilots

Truszczyńska¹,

Lewkowicz²,

Truszczyński³

et al. 2012

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Objectives: Low back pain in pilots of military helicopters is widely discussed in the world literature. Vibrations and impro per seat configuration cause that cervical, thoracic and lumbar spine might be exposed to overloading. The aim of the study was to determine the incidence and intensity of pain in the spine as well as to identify subjective risk factors of back pain and its effect on the pilot's actions while flying a helicopter. Materials and Methods: 112 pilots, aged 25−56 years (mean age: 34.8±6.3 years), actively flying helicopters, participated in the questionnaire survey. The questionnaire containing five groups of questions, elaborated by the authors, was used. Results: 70% of the pilots reported pain complaints. Pain was lo calized in different parts of the spine. Uncomfortable body posture during prolonged flights resulting from the lack of lum bar support exerted the highest effect on pain provocation. Conclusions: This questionnaire survey enabled to determine the prevalence of pain, its type and intensity. Knowledge on low back pain imposes the necessity to eliminate the negative environmental effect on helicopter pilotage. Elimination of risk factors is possible through appropriate physical exercises and adjustment of pilots' seats. The authors plan to conduct -in the future -detailed annual examinations among pilots with back pain and, based on the results, to elaborate a prophylactic program containing simple forms of isometric and isotonic training involving paravertebral and deep abdominal muscles designed specifically for pilots of military helicopters.

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Reaction Time in Pilots During Intervals of High Sustained G

Truszczyński¹,

Lewkowicz²,

Wojtkowiak³

et al. 2014

aviat space environ med

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Back pain and its consequences among Polish Air Force pilots flying high performance aircraft

Truszczyńska¹,

Lewkowicz²,

Truszczyński³

et al. 2014

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Objectives: Back pain in Air Force fast jet pilots has been studied by several air forces and found to be relatively common. The objective of the study was to determine the prevalence and degree of the pain intensity in the cervical, thoracic and lumbar spine, subjective risk factors and their effect on the pilots' performance while flying high maneuver aircrafts and the consequences for cognitive deficiencies. Material and Methods: The study was designed as a retrospective, anonymous questionnaire survey, collecting data on the age, aircraft type, flying hours, pain characteristics, physical activity, etc. The study was participated by 94 pilots aged 28-45 years (mean age: 35.9±3.3 years), actively flying fast jet aircrafts Su-22, Mig-29 and F-16. The estimates regarding the level of the subjective back pain were established using visual analogue scales (VAS). Results: The values of the Cochran and Cox T-test for heterogeneous variances are as follows: for the total number of flying hours: F = 2.53, p = 0.0145, for the pilot's age: F = 3.15, p = 0.003, and for the BMI factor F = 2.73, p = 0.008. Conclusions: Our questionnaire survey showed a significant problem regarding spinal conditions in high performance aircraft pilots. The determination of the risk factors may lead to solving this problem and help eliminate the effect of the unfavorable environment on piloting jet aircrafts. Experiencing back pain during the flight might influence the mission performance and flight safety. The costs of pilots education are enormous and inability to fly, or even disability, leads to considerable economic loss. More research on specific prevention strategies is warranted in order to improve the in-flight working environment of fighter pilots.

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Flights with the Risk of Spatial Disorientation in the Measurements of Oculomotor Activity of Pilots

Wojtkowiak

2015

Pol J Aviat Med Psychol

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