Publikationer av Mikael Gennser

Refereegranskade

Artiklar

[1]

M. I. Moes et al., "Combined effects of mild hypothermia and nitrous-oxide-induced narcosis on manual and cognitive performance," American Journal of Physiology. Regulatory Integrative and Comparative Physiology, vol. 326, no. 3, s. R197-R209, 2024.

[2]

A. Elia et al., "Effects of hyperventilation on repeated breath-holding while in a fasting state: do risks outweigh the benefits?," American Journal of Physiology. Regulatory Integrative and Comparative Physiology, vol. 326, s. R319-R329, 2024.

[3]

O. Eiken et al., "Decompression strain in parachute jumpmasters during simulated high-altitude missions : a special reference to preoxygenation strategies.," European Journal of Applied Physiology, 2023.

[4]

F. Gottschalk et al., "Eccentric exercise 24 h prior to hypobaric decompression increases decompression strain," European Journal of Applied Physiology, vol. 123, no. 9, s. 2001-2011, 2023.

[5]

M. Moes et al., "Nitrous oxide consistently attenuates thermogenic and thermoperceptual responses to repetitive cold stress in humans," Journal of applied physiology, vol. 135, no. 3, s. 631-641, 2023.

[6]

A. Elia et al., "Inter- and Intra-Rater Level of Agreement in Ultrasonic Video Grading of Venous Gas Emboli," Aerospace Medicine and Human Performance, vol. 93, no. 1, s. 54-57, 2022.

[7]

R. Ånell et al., "Intra-Individual Test-Retest Variation Regarding Venous Gas Bubble Formation During High Altitude Exposures.," Aerospace Medicine and Human Performance, vol. 93, no. 1, s. 46-49, 2022.

[8]

P. Lindholm et al., "Profound hypercapnia but only moderate hypoxia found during underwater rugby play," Undersea & Hyperbaric Medicine, vol. 49, no. 3, s. 367-372, 2022.

[9]

A. Rosén et al., "Protein tau concentration in blood increases after SCUBA diving : an observational study," European Journal of Applied Physiology, vol. 122, no. 4, s. 993-1005, 2022.

[10]

A. Rosén et al., "Reply to Dr. Arieli regarding our article protein tau concentration in blood increases after SCUBA diving : an observational study published in European journal of applied physiology 2022;122:993-1005," European Journal of Applied Physiology, vol. 122, no. 10, s. 2317-2318, 2022.

[11]

A. Elia et al., "The effect of dietary intake on apneic performance, cardiovascular and splenic responses during repeated breath holds," American Journal of Physiology. Regulatory Integrative and Comparative Physiology, vol. 323, no. 6, s. R839-R848, 2022.

[12]

R. Ånell et al., "High-altitude decompression strain can be reduced by an early excursion to moderate altitude while breathing oxygen.," European Journal of Applied Physiology, vol. 121, no. 11, s. 3225-3232, 2021.

[13]

R. Ånell et al., "Hyperoxic Effects on Decompression Strain During Alternating High and Moderate Altitude Exposures," Aerospace Medicine and Human Performance, vol. 92, no. 4, s. 223-230, 2021.

[14]

A. Elia et al., "Physiology, pathophysiology and (mal)adaptations to chronic apnoeic training: a state-of-the-art review," European Journal of Applied Physiology, vol. 121, no. 6, s. 1543-1566, 2021.

[15]

A. Elia et al., "Whole-body vibration preconditioning reduces the formation and delays the manifestation of high-altitude-induced venous gas emboli.," Experimental Physiology, vol. 106, no. 8, s. 1743-1751, 2021.

[16]

A. Rosén et al., "Biomarkers of neuronal damage in saturation diving—a controlled observational study," European Journal of Applied Physiology, 2020.

[17]

A. Elia och M. Gennser, "Considerations for scuba and breath-hold divers during the COVID-19 pandemic : A call for awareness," Diving and Hyperbaric Medicine, vol. 50, no. 4, s. 413-416, 2020.

[18]

R. Ånell et al., "Evolution and Preservation of Venous Gas Emboli at Alternating High and Moderate Altitude Exposures," Aerospace Medicine and Human Performance, vol. 91, no. 1, s. 11-17, 2020.

[19]

R. Ånell et al., "Letter to the Editor re : Evolution and Preservation of Venous Gas Emboli at Alternating High and Moderate Altitude Exposures In Response," Aerospace Medicine and Human Performance, vol. 91, no. 5, s. 456-456, 2020.

[20]

R. Ånell et al., "Nitrogen Washout and Venous Gas Emboli During Sustained vs. Discontinuous High-Altitude Exposures," Aerospace Medicine and Human Performance, vol. 90, no. 6, s. 524-530, 2019.

[21]

A. Rosen et al., "Serum tau concentration after diving - an observational pilot study," Diving and Hyperbaric Medicine, vol. 49, no. 2, s. 88-95, 2019.

[22]

M. Silvanius et al., "The performance of 'temperature stick' carbon dioxide absorbent monitors in diving rebreathers," Diving and Hyperbaric Medicine, vol. 49, no. 1, s. 48-56, 2019.

[23]

M. Gennser et al., "Indices of Increased Decompression Stress Following Long-Term Bed Rest," Frontiers in Physiology, vol. 9, 2018.

[24]

S. L. Blogg, A. Mollerlokken och M. Gennser, "Observed decompression sickness and venous bubbles following 18-msw dive profiles using RN Table 11," Undersea & Hyperbaric Medicine, vol. 44, no. 3, s. 211-219, 2017.

[25]

P. Sundblad et al., "Measuring Uptake and Elimination of Nitrogen in Humans at Different Ambient Pressures," Aerospace Medicine and Human Performance, vol. 87, no. 12, s. 1045-1050, 2016.

[26]

O. Frånberg och M. Gennser, "Measurement and modeling of oxygen content in a demand mass ratio injection rebreather," Undersea & Hyperbaric Medicine, vol. 42, no. 6, s. 573-592, 2015.

[27]

L. Bense et al., "Pulmonary gas conducting interstitial pathway," Acta Radiologica Open, vol. 4, no. 10, s. 1-5, 2015.

[28]

O. Frånberg et al., "A Metabolic Simulator for Unmanned Testing of Breathing Apparatuses in Hyperbaric Conditions," Aviation, Space and Environmental Medicine, vol. 85, no. 11, s. 1139-1144, 2014.

[29]

M. Gennser et al., "Oxygen and carbogen breathing following simulated submarine escape," Undersea & Hyperbaric Medicine, vol. 41, no. 5, s. 387-392, 2014.

[30]

S. L. Blogg et al., "Ultrasound detection of vascular decompression bubbles : the influence of new technology and considerations on bubble load," Diving and Hyperbaric Medicine, vol. 44, no. 1, s. 35-44, 2014.

[31]

M. Gennser, K. M. Jurd och S. L. Blogg, "Pre-Dive Exercise and Post-Dive Evolution of Venous Gas Emboli," Aviation, Space and Environmental Medicine, vol. 83, no. 1, s. 30-34, 2012.

[32]

L. Verrecchia et al., "Superior Vestibular Dysfunction in Severe Decompression Sickness Suggests an Embolic Mechanism," Aviation, Space and Environmental Medicine, vol. 83, no. 11, s. 1097-1100, 2012.

[33]

K. M. Jurd et al., "The effect of pre-dive exercise timing, intensity and mode on post-decompression venous gas emboli," Diving and Hyperbaric Medicine, vol. 41, no. 4, s. 183-188, 2011.

[34]

S. L. Blogg och M. Gennser, "The need for optimisation of post-dive ultrasound monitoring to properly evaluate the evolution of venous gas emboli," Diving and hyperbaric medicine : the journal of the South Pacific Underwater Medicine Society, vol. 41, no. 3, s. 139-146, 2011.

[35]

M. Gennser och S. L. Blogg, "Venous Gas Emboli in Goats After Simulated Submarine Escape from 290 msw Breathing Air or Hyperoxic Gas," Aviation, Space and Environmental Medicine, vol. 80, no. 11, s. 927-932, 2009.

[36]

L. L. Karlsson et al., "Venous gas emboli and exhaled nitric oxide with simulated and actual extravehicular activity," Respiratory Physiology & Neurobiology, vol. 169, s. S59-S62, 2009.

[37]

M. Gennser och S. Blogg, "Oxygen or carbogen breathing before simulated submarine escape," Journal of applied physiology, vol. 104, no. 1, s. 50-56, 2008.

[38]

P. Lindholm et al., "Pulmonary edema and hemoptysis after breath-hold diving at residual volume," Journal of applied physiology, vol. 104, no. 4, s. 912-917, 2008.

[39]

P. Lindholm et al., "Effects of fasting and carbohydrate consumption on voluntary resting apnea duration," European Journal of Applied Physiology, vol. 100, no. 4, s. 417-425, 2007.

[40]

P. Lindholm, S. L. Blogg och M. Gennser, "Pulse oximetry to detect hypoxemia during apnea : comparison of finger and ear probes," Aviation, Space and Environmental Medicine, vol. 78, no. 8, s. 770-773, 2007.

[41]

S. L. Blogg och M. Gennser, "Cerebral blood flow velocity and psychomotor performance during acute hypoxia," Aviation, Space and Environmental Medicine, vol. 77, no. 2, s. 107-113, 2006.

[42]

T. Reilly et al., "Occupational fitness standards for beach lifeguards. Phase 2 : the development of an easily administered fitness test.," Occupational Medicine, vol. 56, no. 1, s. 12-17, 2006.

[43]

P. Lindholm, J. Nordh och M. Gennser, "The heart rate of breath-hold divers during static apnea : effects of competitive stress," Undersea & Hyperbaric Medicine, vol. 33, no. 2, s. 119-124, 2006.

[44]

P. Lindholm och M. Gennser, "Aggravated hypoxia during breath-holds after prolonged exercise," European Journal of Applied Physiology, vol. 93, no. 5-6, s. 701-707, 2005.

[45]

S. Blogg et al., "Magnetic resonance imaging and neuropathology findings in the goat nervous system following hyperbaric exposures," European Neurology, vol. 52, no. 1, s. 18-28, 2004.

[46]

P. Lindholm och M. Gennser, "[Breath-hold diving--an increasing adventure sport with medical risks].," Läkartidningen, vol. 101, no. 9, s. 787-790, 2004.

[47]

S. Blogg et al., "The effect of breathing hyperoxic gas during simulated submarine escape on venous gas emboli and decompression illness," Undersea & Hyperbaric Medicine, vol. 30, no. 3, s. 163-174, 2003.

[48]

B. Berglund et al., "Erythropoietin concentrations during 10 days of normobaric hypoxia under controlled environmental circumstances.," Acta Physiologica Scandinavica, vol. 174, no. 3, s. 225-229, 2002.

[49]

I. Mekjavic et al., "Motion sickness potentiates core cooling during immersion in humans," Journal of Physiology, vol. 535, no. 2, s. 619-623, 2001.

[50]

M. Tipton et al., "Immersion deaths and deterioration in swimming performance in cold water," The Lancet, vol. 354, no. 9179, s. 626-629, 1999.

[51]

C. Gustafsson et al., "Effects of normobaric hypoxic confinement on visual and motor performance," Aviation, Space and Environmental Medicine, vol. 68, no. 11, s. 985-992, 1997.

[52]

D. Linnarsson et al., "Breathing volumes and gas exchange during simulated rapid free ascent from 100 msw," Journal of applied physiology, vol. 74, no. 3, s. 1293-1298, 1993.

[53]

M. Gennser, F. Karpe och H. Ornhagen, "Effects of hyperbaric pressure and temperature on atria from ectotherm animals (Rana pipiens and Anguilla anguilla)," Comparative Biochemistry and Physiology - Part A : Comparative Physiology, vol. 95, no. 2, s. 219-228, 1990.

[54]

M. Gennser och H. Ornhagen, "Effects of hydrostatic pressure and inert gases on twitch tension," Undersea biomedical research, vol. 16, no. 6, s. 415-426, 1989.

[55]

M. Gennser och H. Ornhagen, "Effects of hydrostatic pressure, H2, N2, and He, on beating frequency of rat atria," Undersea biomedical research, vol. 16, no. 2, s. 153-164, 1989.

[56]

M. Gennser, F. Karpe och H. Ornhagen, "Effects of dietary lipids on frequency and force in atrial muscle at 10 MPa," Undersea biomedical research, vol. 14, no. 1, s. 31-43, 1987.

Konferensbidrag

[57]

R. Ånell et al., "Is there a safe altitude to compress venous gas emboli after simulated high-altitude flying?," i Proceedings from Swedish Aeronautical Medical Associations Annual Scientific Meeting, 2018, 2018.

[58]

M. Gennser och S. Blogg, "Bubble scores after diving according to the new USNavy air decompression tables.," i EUBS 43:e vetenskapliga årsmötet, 2017.

[59]

M. Gennser och M. Grönkvist, "No changes in pulmonary function indices after nitrox saturation dives.," i EUBS 43:e vetenskapliga årsmöte, 2017.

[60]

M. Gennser et al., "Effekt av gasdensitet på ventilation och arteriell oxygenmättnad vid normobar och hypobar hypoxi," i Svenska Flyg- och Marinmedicinska föreningens (SANMA) vetenskapliga årsmöte. Stockholm, 1 december, 2016.

[61]

M. Gennser, "Problems with introducing the new USN air diving tables for the Swedish Navy.," i UDWG meeting, Hamburg,Germany, 2016.

[62]

R. Ånell et al., "Vaskulära gasbubblor hos jaktplanspiloter under olika flygprofiler," i Svenska Flyg- och Marinmedicinska föreningens (SANMA) vetenskapliga årsmöte. Stockholm, 1 december, 2016.

[63]

M. Gennser, "Application of ultrasound techniques in diving research : Use of bubble detection to develop trimix tables for Swedish mine-clearance divers and evaluating trimix decompressions," i International Meeting on Ultrasound for Diving Research, 2015, 2015.

[64]

M. Gennser et al., "Comparison of venous bubbles and tear film bubbles after decompression during a five week 6° head-down tilt bed rest," i The 36th Annual International Gravitational Physiology Meeting, 2015, 2015.

[65]

M. Gennser och L. Blogg, "Effect of gas switch on decompression from trimix dives," i EUBS 41st Scientific Conference, 2015, 2015.

[66]

M. Gennser och S. Blogg, "Effekt av gasbyte på dekompressionshastighet efter korta trimix dykningar," i Svenska Flyg- och Marinmedicinska föreningens (SANMA) vetenskapliga årsmöte, 2015, 2015.

[67]

L. Blogg et al., "Observed incidence of decompression sickness and venous gas bubbles following 18 M dives on RN table 11/Norwegian air diving table," i Undersea Hyperb Med, 2015, 2015, s. D57.

[68]

M. Gennser et al., "Påverkar oxygenandning direkt efter dykning bubbelförekomst?," i Svenska Flyg- och Marinmedicinska föreningens (SANMA) vetenskapliga årsmöte, 2015, 2015.

[69]

S. Blogg och M. Gennser, "The use of ultrasound bubble detection to develop the Swedish Navy trimix dive tables," i UK Sport Diving Medical Committee and British Hyperbaric Association, 2015, 2015.

[70]

M. Gennser, O. Frånberg och S. L. Blogg, "Dekompressionsbelastning vid trimixdykning : Jämförelse mellan dykning med konstant fraktion och konstant partialtryck oxygen," i Swedish Aeronautical Medical Association (SANMA) Annual Meeting, Stockholm, 2014, 2014.

[71]

M. Gennser, "Testing of decompression tables and use of decompression algorithms : a pragmatic view," i Future Military Rebreather Symposium, DNC Karlskrona, 2014.

[72]

M. Gennser och L. Blogg, "Venous gas bubble load after trimix dives using electronic closed circuit rebreathers," i 40th Annual Scientific Meeting of the European Underwater and Baromedical Society (EUBS), Wiesbaden, Germany, 2014.

[73]

O. Frånberg och M. Gennser, "Dödsfall i samband med dykning med återandningsapparater : ett människa–maskin interaktionsproblem," i Hygiea, 2013.

[74]

M. Gennser och J. Douglas, "High resolution chest CT : Findings with possible bearing on risk for pulmonary barotrauma," i SMERWG NATO-meeting; Amsterdam, Nehterlands, 25 – 28 June, 2013, 2013.

[75]

M. Gennser, O. Frånberg och S. L. Blogg, "Jämförelse mellan olika dekompressionstabeller med hjälp av ultraljudsdoppler," i Hygiea, 2013.

[76]

O. Frånberg et al., "Metsim, ett hjälpmedel för att testa slutna andningsapparater på ett fysiologiskt sätt," i Hygiea, 2013.

[77]

M. Gennser, "Submarine escape physiology," i 2:a SET-konferensen; Karlskrona, Sverige, 26 – 29 november, 2013, 2013.

[78]

M. Gennser, "Trimix tables for semi-closed mechanical rebreather : IS-Mix," i UDWG NATO-meeting; Amsterdam, Nehterlands, 14 – 17 maj 2013, 2013.

[79]

M. Gennser, L. Blogg och O. Frånberg, "Bubble recordings after nitrox dives with a semi-closed demand controlled rebreather," i 44th Conference of UHMS. Fort Worth, Texas. June 15-18 2011, 2011.

[80]

O. Frånberg, J. Linden och M. Gennser, "Evaluating a simplified purge procedure for oxygen/nitrox switch rebreathers," i 44th Conference of UHMS. Fort Worth, Texas. June 15-18 2011, 2011.

[81]

M. Gennser och U. Bergh, "Metoder för effektivare utprovning av dekompressionstabeller för dykning," i Svenska Läkarsällskapets handlingar. Hygiea, 2011.

[82]

L. Blogg och M. Gennser, "Near maximal venous bubble scores and arterial bubbles with no signs or symptoms of DCS - a case study.," i 37th Annual Meeting of EUBS, Gdansk, Polen, 2011.

[83]

L. Bense et al., "Perforation of the right main bronchus, detected by HRCT 3D technique," i Svenska Läkarsällskapets handlingar. Hygiea, 2011.

[84]

M. Gennser et al., "Comparison between mild dehydration and body temperature on decompression bubble formation," i 36th Annual Meeting of the European Underwater and Baromedical Society, EUBS, 2010, 14-18 September 2010, Istanbul, Turkey, 2010.

[85]

L. Blogg och M. Gennser, "Direct comparison of audio Doppler ultrasound scores and 2D ultrasound images of venous gas emboli.," i 36th Annual Meeting of EUBS, Istanbul, Turkiet, 2010.

[86]

I. Mekjavic et al., "Mild dehydration per se does not increase the risk of decompression sickness," i EUBS 36th annual meeting of the European Underwater and Baromedical Soc. Istanbul, Tuerkey. 14-18 Sept. 2010, 2010.

[87]

L. Verrecchia et al., "Partial labyrinthine injury in severe decompression illness: a vascular embolic explanation?," i XXVI Bárány Society Meeting, Reykjavik, Iceland, 18-21 August 2010, 2010.

[88]

L. Verrecchia et al., "Perifer övre segmental vestibulär pares vid svår dekompressionssjuka: finns vaskulär embolisk orsak?," i Svenska Läkaresällskapets handlingar. Hygiea., 2010.

Icke refereegranskade

Artiklar

[89]

M. Grönkvist et al., "Postural and Daily Variations in the Single-Breath Diffusion Capacity of the Lungs for Carbon Monoxide," American Journal of Respiratory and Critical Care Medicine, vol. 197, 2018.

[90]

L. Blogg, A. Møllerløkken och M. Gennser, "Response: car wrecks and caution: a lament on getting the facts straight in scientific reporting.," Undersea & Hyperbaric Medicine, vol. 44, s. 492-494, 2017.

Konferensbidrag

[91]

L. Blogg och M. Gennser, "Arterial bubbles following trimix dives," i 40th Annual Scientific Meeting of the European Underwater and Baromedical Society (EUBS), Wiesbaden, Tyskland, 2014.

[92]

L. Blogg och M. Gennser, "Predisponerar helium i dykgasen för arteriella bubblor?," i Swedish Aeronautical Medical Association (SANMA) Annual Meeting, Stockholm, 2014.