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1. Angst und Depression bei Mitralklappenpatienten: perioperativ und 6 Monate postoperativ

Author

Korbmacher, B, Botzet, K, Dalyanoglu, H, Schipke, JD, Franz, M, Lichtenberg, A, and Schäfer, R

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Eine vorhergehende Studie zeigte eine innige Interaktion zwischen Angst und Depression und dem Verlauf aortokoronarer Bypass-Patienten. Um kardiochirurgische Patienten mit einer zugrundeliegenden arteriosklerotischen Erkrankung mit Mitralklappenpatienten zu vergleichen, wurde bei diesen [for full text, please go to the a.m. URL], 130. Kongress der Deutschen Gesellschaft für Chirurgie

Published
2013
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2. Perioperative und langfristige Entwicklung von Angst und Depression beim aorto-koronaren Bypass-Patienten

Author

Korbmacher, B, Ulbrich, S, Dalyanoglu, H, Schäfer, R, Schipke, JD, Franz, M, and Lichtenberg, A

Subjects
ddc: 610, 610 Medical sciences, Medicine
Abstract

Einleitung: Offensichtlich gibt es keinen Zweifel, dass zwischen Angst und Depression auf der einen Seite und der subjektiv empfundenen und objektiven Schwere des postoperativen Verlaufs nach aorto-koronarer Bypassoperation (CABG) enge Interaktionen bestehen. Antriebslosigkeit, Angst und eine vitale[for full text, please go to the a.m. URL], 129. Kongress der Deutschen Gesellschaft für Chirurgie

Published
2012
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12. Effect of immersion, submersion, and scuba diving on heart rate variability.

Author

Schipke JD, Pelzer M, Schipke, J D, and Pelzer, M

Abstract

Background: Heart rate variability (HRV) describes the cyclic variations in heart rate and offers a non-invasive tool for investigating the modulatory effects of neural mechanisms elicited by the autonomic nervous system on intrinsic heart rate.Objective: To introduce the HRV concept to healthy volunteers under control conditions and during scuba diving. In contrast with more established manoeuvres, diving probably activates both the sympathetic and parasympathetic nervous system through various stimuli-for example, through cardiac stretch receptors, respiration pattern, psychological stress, and diving reflex. A further aim of the study was to introduce a measure for determining a candidate's ability to scuba dive by providing (a) standard values for HRV measures (three from the time domain and three from the frequency domain) and (b) physiological responses to a strenuous manoeuvre such as scuba diving.Methods: Twenty five trained scuba divers were investigated while diving under pool conditions (27 degrees C) after the effects of head out immersion and submersion on HRV had been studied.Results and Conclusions: (a) Immersion under pool conditions is a powerful stimulus for both the sympathetic and parasympathetic nervous system. (b) As neither the heart rate nor the HRV changed on going from immersion to submersion, the parasympathetic activation was probably due to haemodynamic alterations. (c) All HRV measures showed an increase in the parasympathetic activity. (d) If a physiological HRV is a mechanism for providing adaptability and flexibility, diving should not provoke circulatory problems in healthy subjects. (e) Either a lower than normal HRV under control conditions or a reduction in HRV induced by diving would be unphysiological, and a scuba diving candidate showing such characteristics should be further investigated. [ABSTRACT FROM AUTHOR]

Published
2001

13. Ein verbessertes Ultraschallverfahren zur Messung des Durchmessers epikardialer Koronararterien. An Improved Ultrasonic Method for Measurement of Epicardial Coronary Arterial Diameter

Author

Oswald S, Deussen A, Schipke Jd, and Gerd Heusch

Subjects
medicine.medical_specialty, biology, business.industry, Fissipedia, Ultrasound, Biomedical Engineering, biology.organism_classification, Coronary arteries, medicine.anatomical_structure, Internal medicine, medicine, Carnivora, Cardiology, business
Published
1984
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14. Narcotic Nitrogen Effects Persist after a Simulated Deep Dive.

Author

Dreyer S, Schneppendahl J, Hoffmanns M, Muth T, and Schipke JD

Subjects
Humans, Adult, Male, Female, Inert Gas Narcosis physiopathology, Oxygen, Middle Aged, Decompression methods, Diving physiology, Diving adverse effects, Nitrogen
Abstract

Background and Objectives : Scuba divers often experience persistent inert gas narcosis (IGN) even after surfacing. This study aimed to test the hypothesis that breathing oxygen (O 2 ) before surfacing can reduce postdive IGN. Materials and Methods : A group of 58 experienced divers underwent a 5 min dive at a depth of 50 m in a multi-place hyperbaric chamber. They were decompressed using air (air group). Another group of 28 divers (O 2 group) breathed 100% O 2 during the end of decompression. Prior to and after the dive, all participants performed the Sharpened Romberg test (SRT) and a modified tweezers test. Results : In the air group, the number of positive SRT results increased postdive (47% vs. 67%), indicating a greater impairment in the vestibular system (Cohen's d = 0.41). In the O 2 group, the percentage of positive SRT results remained constant at 68% both before and after the dive. In terms of the modified tweezers test, the air group showed no significant change in the number of picked beads (40 ± 9 vs. 39 ± 7), while the O 2 group demonstrated an increase (36 ± 7 vs. 44 ± 10) (Cohen's d = 0.34). Conclusion : The results reveal that the SRT revealed a negative effect of nitrogen (N 2 ) on the vestibular system in the air group. The increased number of beads picked in the O 2 group can be attributed to the learning effect, which was hindered in the air group. Consistent with our hypothesis, breathing O 2 during decompression appears to reduce postdive IGN.

Published
2024
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15. [Tonometry and pachymetry to evaluate fluctuations of intraocular pressure in the context of SCUBA diving].

Author

Brebeck AK, Huber H, Schipke JD, Grehn F, Haritoglou C, and Klink T

Subjects
Humans, Female, Intraocular Pressure, Eye, Manometry, Diving adverse effects, Glaucoma
Abstract

Background: It is currently still not clarified whether diving using a self-contained breathing apparatus (SCUBA) is associated with intraocular pressure (IOP) fluctuations of clinical relevance and whether intensive diving could exacerbate the damage in glaucoma patients., Objective: This study aimed to evaluate the effect of SCUBA diving on IOP in healthy volunteers without prior eye injuries or surgery., Hypothesis: recreational diving does not lead to significant increases or fluctuations of the IOP., Material and Methods: The study included 16 divers (5 female) who performed a total of 96 dives with air or nitrox32 to a depth of 20-30 m for an average of 50 min. The central cornea thickness was measured using ultrasonic pachymetry Pocket II TM (Quantel Medical Pocket II™, Quantel Medical, Clermont-Ferrand, France), and the IOP was measured using an Icare® PRO (Icare® PRO, Icare Finland Oy, Espoo, Finland) directly before the dive and 10 min after surfacing., Results: All data refer to the right eye. Average IOP values ranged from 15.6 to 19.2 mm Hg pre-dive and 16.8 to 18.2 mm Hg post-dive. The range of IOP values was 2.2-11.5 mm Hg pre-dive (∆ = 9.3 mm Hg) and 2.7-14.8 mm Hg post-dive (∆ = 12.1 mm Hg). Of the divers 11.5% vs. 18.8% had increased IOP values > 21 mm Hg (pre-dive vs. post-dive)., Conclusion: This study found no significant differences in IOP values between pre-dive and post-dive measurements in healthy SCUBA divers. Therefore, recreational SCUBA diving is unlikely to affect the IOP in healthy individuals., (© 2023. The Author(s).)

Published
2024
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17. Assessing Critical Flicker Fusion Frequency: Which Confounders? A Narrative Review.

Author

Muth T, Schipke JD, Brebeck AK, and Dreyer S

Subjects
Humans, Cognition, Smoking, Flicker Fusion, Diving
Abstract

The critical flicker fusion frequency (cFFF) refers to the frequency at which a regularly recurring change of light stimuli is perceived as steady. The cFFF threshold is often assessed in clinics to evaluate the temporal characteristics of the visual system, making it a common test for eye diseases. Additionally, it serves as a helpful diagnostic tool for various neurological and internal diseases. In the field of diving/hyperbaric medicine, cFFF has been utilized to determine alertness and cognitive functions. Changes in the cFFF threshold have been linked to the influence of increased respiratory gas partial pressures, although there exist inconsistent results regarding this effect. Moreover, the use of flicker devices has produced mixed outcomes in previous studies. This narrative review aims to explore confounding factors that may affect the accuracy of cFFF threshold measurements, particularly in open-field studies. We identify five broad categories of such factors, including (1) participant characteristics, (2) optical factors, (3) smoking/drug use, (4) environmental aspects, and (5) breathing gases and partial pressures. We also discuss the application of cFFF measurements in the field of diving and hyperbaric medicine. In addition, we provide recommendations for interpreting changes in the cFFF threshold and how they are reported in research studies.

Published
2023
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18. Diving ergospirometry with suspended weights: breathing- and fin-swimming style matter.

Author

Koch A, Kramkowski D, Holzum M, Kähler W, Klapa S, Rieger B, Weisser B, and Schipke JD

Subjects
Exercise Test, Humans, Oxygen, Respiration, Swimming physiology, Diving physiology
Abstract

Purpose: Scuba diving is a complex condition including elevated ambient pressure, limited air supply, increased breathing work, and unfamiliar fin-swimming. Earlier approaches to assess diving specific data did not comprehensively address these aspects. We first present an underwater ergospirometry system and then test the hypothesis that both breathing characteristics and fin-swimming style affect the air consumption., Methods/participants: A suspended-weights ergospirometry system was mounted inside a hyperbaric chamber. Ergo group: 25 divers (24.6 ± 4.1 years); three set-ups: dry normobaric cycling (75-225 W), dry cycling at 20 m simulated depth (75-225 W), fin-swimming at 20 m (5-8 kg suspended weights). Style group: 20 other divers (24.6 ± 4.1 years): fin-swimming at 20 m (5-8 kg) with regard to ventilation ([Formula: see text]E) and fin-swimming style., Results: Ergo group: linear heart rate and oxygen uptake ([Formula: see text]O 2 ) increases with both 50 W-bicycle steps and suspended-weights ergometry (r = 0.97). During hyperbaric conditions, [Formula: see text]E was less increased versus normobaric conditions. Style group: the more efficient hip/thigh-oriented style shifted towards the knee/calf-oriented style. [Formula: see text]E and [Formula: see text]O 2 were higher in beginners (< 100 dives) versus advanced divers (≥ 100 dives). Significant differences on the 5 kg-step: [Formula: see text]E: 31.5 ± 7.1 l/min vs. 23.7 ± 5.9 l/min and [Formula: see text]O 2 : 1.6 ± 0.3 l/min vs. 1.2 ± 0.3 l/min. A comparison is presented, in addition to illustrate the impact of differences in breathing characteristics and fin-swimming style., Conclusions: Diving ergospirometry with suspended weights in a hyperbaric chamber allows for comprehensive studies. Little diving experience in terms of breathing characteristics and fin-swimming style significantly increases [Formula: see text]E thereby increasing the risk of running-out-of-air., (© 2022. The Author(s).)

Published
2022
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20. Hyperoxia and the cardiovascular system: experiences with hyperbaric oxygen therapy.

Author

Schipke JD, Muth T, Pepper C, Schneppendahl J, Hoffmanns M, and Dreyer S

Subjects
Bradycardia, Humans, Oxygen, Retrospective Studies, Cardiovascular System, Hyperbaric Oxygenation, Hyperoxia
Abstract

Hyperoxia has been described to induce bradycardia by direct stimulation of the parasympathetic nervous system. Also, hyperoxia has been found to increase blood pressure by an elevation of vascular resistance. However, the latter effect itself would induce bradycardia by baroreceptor stimulation. This single-arm monocentric retrospective study aims to evaluate the correlation between these effects by investigating the relation between oxygen (O 2 ) administration and heart rate over time. Data were collected from 23 patients without cardiovascular problems undergoing hyperbaric oxygen therapy (2.4 bar) retrospectively. During single oxygen bouts, transcutaneously measured partial pressure of O 2 was increased. During this surge of oxygen pressure, the arterial blood pressure was increased while the heart rate was decreased. Respiration rate was maintained independently from breathing 100% O 2 or air. During single oxygen bouts, the half-life of transcutaneously measured partial pressure of O 2 was 5.4 ± 2.1 mmHg/s, and the half-life of heart rate was 0.45 ± 0.19 beats/min. It has been shown that hyperbaric oxygen therapy increases the transcutaneously measured partial pressure of O 2 . This increase was rather fast, followed by a rather slow decrease in HR. This finding does not support direct vagal activation. Heart rate is not decreased due to a direct vagal activation during hyperbaric oxygen therapy. Our single-arm, retrospective study has additionally confirmed that oxidative stress injures the endothelium, and the reduced endothelial-derived vasodilators cause vasoconstriction. As a consequence, blood pressure increases, and heart rate is then further decreased via the baroreceptor reflex.

Published
2022
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21. Firefighters during training as divers: physiologic and psychomental stresses.

Author

Muth T, Hansen I, Pepper C, and Schipke JD

Subjects
Heart Rate, Humans, Workload, Diving physiology, Firefighters
Abstract

Objectives . Fire departments train divers for search, rescue and recovery in and under water. Their tasks likely exert major physical and psychological stress. This study hypothesizes that training is well balanced, following a learning spiral. Methods . Seven firefighters participated, performing 272 dives in different waters. Measurements included pulmonary function (body plethysmography); heart rate (HR) and air consumption during dives; personality variables with the state-trait anxiety inventory (STAI) and psychological stress with the task load index (NASA-TLX). Results . Pulmonary function was maintained at the end of training dives. During the dives, mean HR was 108 ± 23 bpm and mean air consumption 37 ± 15 L/min. Both values remained unchanged during training. The three highest STAI stanines (severe trait anxiety) were not considered, but median stanines and very low values were over-represented. Demands within the seven NASA-TLX areas were perceived differently. Sum of the scales 'very low', 'low' and 'mean' was ≥60%. In turn, the scale 'very high' was in none of the demands >10%. Conclusion . Physiological values remained unaltered throughout training, i.e. workload and increase in competence properly matched. The moderate manifestation of psychomental stress speaks for a group of highly selected individuals. Both candidate selection and design of the learning spiral was successful.

Published
2022
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22. Oxygen-enriched Air Decreases Ventilation during High-intensity Fin-swimming Underwater.

Author

Möller F, Jacobi E, Hoffmann U, Muth T, and Schipke JD

Subjects
Adult, Female, Heart Rate, Humans, Oxygen, Respiration, Young Adult, Diving physiology, Swimming physiology
Abstract

Oxygen-enriched air is commonly used in the sport of SCUBA-diving and might affect ventilation and heart rate, but little work exists for applied diving settings. We hypothesized that ventilation is decreased especially during strenuous underwater fin-swimming when using oxygen-enriched air as breathing gas. Ten physically-fit divers (age: 25±4; 5 females; 67±113 open-water dives) performed incremental underwater fin-swimming until exhaustion at 4 m water depth with either normal air or oxygen-enriched air (40% O 2 ) in a double-blind, randomized within-subject design. Heart rate and ventilation were measured throughout the dive and maximum whole blood lactate samples were determined post-exercise. ANOVAs showed a significant effect for the factor breathing gas (F(1, 9)=7.52; P=0.023; η 2 p =0.455), with a lower ventilation for oxygen-enriched air during fin-swimming velocities of 0.6 m·s -1 (P=0.032) and 0.8 m·s -1 (P=0.037). Heart rate, lactate, and time to exhaustion showed no significant differences. These findings indicate decreased ventilation by an elevated oxygen fraction in the breathing gas when fin-swimming in shallow-water submersion with high velocity (>0.5 m·s -1 ). Applications are within involuntary underwater exercise or rescue scenarios for all dives with limited gas supply., Competing Interests: The authors declare that they have no conflict of interest., (The Author(s). This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial-License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. (https://creativecommons.org/licenses/by-nc-nd/4.0/).)

Published
2022
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23. How to Survive 33 min after the Umbilical of a Saturation Diver Severed at a Depth of 90 msw?

Author

Dreyer S, Deussen A, Berndt D, and Schipke JD

Abstract

In 2012, a severe accident happened during the mission of a professional saturation diver working at a depth of 90 m in the North Sea. The dynamic positioning system of the diver support vessel crashed, and the ship drifted away from the working place, while one diver's umbilical became snagged on a steel platform and was severed. After 33 min, he was rescued into the diving bell, without exhibiting any obvious neurological injury. In 2019, the media and a later 'documentary' film suggested that a miracle had happened to permit survival of the diver once his breathing gas supply was limited to only 5 min. Based on the existing data and phone calls with the diver concerned (Dc), the present case report tries to reconstruct, on rational grounds, how Dc could have survived after he was cut off from breathing gas, hot water, light and communication while 90 m deep at the bottom of the sea. Dc carried bail-out heliox (86/14) within two bottles (2 × 12 L × 300 bar: 7200 L). Calculating Dc's varying per-minute breathing gas consumption over time, both the decreased viscosity of the helium mix and the pressure-related increase in viscosity did not exhibit a breathing gas gap. Based on the considerable respiratory heat loss, the core temperature was calculated to be as low as 28.8 °C to 27.2 °C after recovery in the diving bell. In accordance with the literature, such values would be associated with impaired or lost consciousness, respectively. Relocating Dc on the drilling template by using a remotely operated vehicle (ROV), the transport of the victim to the bell and subsequent care in the hyperbaric chamber must be regarded as exemplary. We conclude that, based on rational arguments and available literature data, Dc's healthy survival is not a miracle, as it can be convincingly explained by means of reliable data. Remaining with a breathing gas supply sufficient for five minutes only would not have ended in a miracle but would have ended in death by suffocation. Nevertheless, survival of such an accident may appear surprising, and probably the limit for a healthy outcome was very close. We conclude, in addition, that highly effective occupational safety measures, in particular the considerable bail-out heliox reserve, secured the healthy survival. Nevertheless, the victim's survival is likely to be due to his excellent diving training, together with many years of diving routine. The rescue action of the second diver and Dc's retrieval by the ROV operator are also suggestive of the behavior of carefully selected crew members with the high degree of professional qualification needed to correctly function in a hostile environment.

Published
2022
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24. Oxygen-enriched air reduces breathing gas consumption over air.

Author

Schipke JD, Deussen A, Moeller F, Hoffmann U, Muth T, Zenske A, and Koch A

Abstract

Owing to the unfamiliar environment, recreational and professional diving is confronted with several challenges. Usage of self-contained under-water breathing apparatuses during the dive provides the indispensable breathing gas supply for the diver. Instead of air, oxygen-enriched breathing gases (EANx or nitrox) are used with increasing frequency. Unfortunately, their usage implies negative effects because the elevated oxygen partial pressure (pO 2 ) increases oxidative stress. As a result, the increased formation of reactive oxygen species exerts negative effects on the central nervous system, lungs, vasculature and eyes. However, these disadvantages can be avoided if appropriate rules are followed, e.g. a pO 2 <1.4 bar. EANx breathing gases have, on the other hand, major advantages as they help reducing narcotic nitrogen effects and bubble formation. Several land-based studies had proven a reduced ventilation of exercising subjects if EANx was used instead of air. As breathing gas is the most valuable under-water good, we wanted to translate the on-land results into under-water results. Appropriate studies now demonstrate a novel EANx property as under-water ventilation is also reduced with EANx. In this short communication, we present this additional advantage of EANx-breathing. This benefit seems to be of particular importance as it delays unforeseen running-out-of-gas and thus, contributes to further improving diving safety., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published
2022
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25. An Updated Narrative Review on Ergometric Systems Applied to Date in Assessing Divers' Fitness.

Author

Dreyer S, Schneppendahl J, Moeller F, Koch A, Muth T, and Schipke JD

Abstract

Many recreational divers suffer medical conditions, potentially jeopardizing their safety. To scale down risks, medical examinations are mandatory and overwhelmingly performed using bicycle ergometry, which overlooks some important aspects of diving. Searching ergometric systems that better address the underwater environment, a systematic literature search was conducted using the keywords 'diving', 'fitness', 'ergometry', and 'exertion'. All presented alternative systems found convincingly describe a greatly reduced underwater physical performance. Thus, if a diver's workload in air should already be limited, he/she will suffer early from fatigue, risking a diving incident. How to assess fitness? Performance diagnostics in sports is always specific for a modality or movement. Therefore, professional scuba divers should be tested when fin-swimming underwater. For the vast number of recreational divers, the current screening can likely not be replaced. However, to prevent accidents, divers need to understand and be able to improve factors that limit their physical performance underwater. Other systems, presented here, will continue to be important tools in underwater research.

Published
2021
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27. Does oxygen-enriched air better than normal air improve sympathovagal balance in recreational divers?An open-water study.

Author

Zenske A, Kähler W, Koch A, Oellrich K, Pepper C, Muth T, and Schipke JD

Subjects
Adult, Cross-Over Studies, Double-Blind Method, Electrocardiography, Female, Humans, Male, Middle Aged, Prospective Studies, Recreation, Young Adult, Autonomic Nervous System physiology, Diving physiology, Heart Rate, Nitrogen administration & dosage, Oxygen administration & dosage
Abstract

Effects of the hyperbaric environment on the autonomic nervous system (ANS) in recreational divers are not firmly settled. Aim of this exploratory study was to (1) assess ANS changes during scuba diving via recordings of electrocardiograms (ECG) and to (2) study whether nitrox40 better improves sympathovagal balance over air. 13 experienced divers (~40yrs) performed two open-water dives each breathing either air or nitrox40 (25m/39min). 3-channel ECGs were recorded using a custom-made underwater Holter-monitor. The underwater Holter system proved to be safe. Air consumption exceeded nitrox40 consumption by 12% (n = 13; p < 0.05). Both air and nitrox40 dives reduced HR (10 vs 13%; p < 0.05). The overall HRV (pNN50: 82 vs 126%; p < 0.05) and its vagal proportion (RMSSD: 33 vs 50%; p < 0.05) increased during the dive. Moreover, low (LF: 61 vs 47%) and high (HF: 71 vs 140%) frequency power were increased (all p < 0.05), decreasing the ratio of LF to HF (22 vs 34%). : Conventional open-water dives distinctly affect the ANS in experienced recreational divers, with sympathetic activation less pronounced than vagal activation thereby improving the sympathovagal balance. Nitrox40 delivered two positive results: nitrox40 consumption was lower than air consumption, and nitrox40 better improved the sympathovagal balance over air.

Published
2020
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28. Assessment of a dive incident using heart rate variability.

Author

Zenske A, Koch A, Kähler W, Oellrich K, Pepper C, Muth T, and Schipke JD

Subjects
Electrocardiography, Electrocardiography, Ambulatory, Humans, Diving, Heart Rate
Abstract

Introduction: Scuba diving likely has an impact on the autonomic nervous system (ANS). In the course of conducting trials of underwater ECG recording for measurement of heart rate variability, there was an unexpected stressful event; one participant's regulator iced and began to free-flow., Methods: A custom-made, water- and pressure-tight aluminum housing was used to protect a portable Holter monitor. ECGs were recorded in three experienced divers who witnessed an unplanned moderately stressful incident during diving. The ECG signals were analysed for measures of heart rate variability (HRV)., Results: Analysis for different short-term HRV measures provided consistent results if periods of interest were appropriately time-aligned. There was improvement in sympatho-vagal balance. One diver unexpectedly exhibited an increase in both sympathetic and vagal activity shortly after the incident., Conclusions: A conventional open-water dive affected the ANS of experienced recreational divers as measured by HRV which provides a global evaluation of the ANS and alterations in its two branches. The heart rate variability data gathered from several participating divers around the time of this event illustrate the potential utility of this variable in quantifying stress during diving. HRV data may be useful in addressing relevant diving related questions such as effects of cold, exercise or different breathing gases on ANS function., (Copyright: This article is the copyright of the authors who grant Diving and Hyperbaric Medicine a non-exclusive licence to publish the article in electronic and other forms.)

Published
2020
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29. Glossopharyngeal insufflation and kissing papillary muscles.

Author

Schipke JD, Eichhorn L, Behm P, Cleveland S, Kelm M, and Boenner F

Subjects
Adult, Breath Holding, Cardiac Output, Echocardiography, Female, Heart diagnostic imaging, Heart Rate, Humans, Stroke Volume, Diving physiology, Insufflation, Papillary Muscles physiopathology
Published
2019
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30. Effects of Breath-Hold Deep Diving on the Pulmonary System.

Author

Schipke JD, Lemaitre F, Cleveland S, and Tetzlaff K

Subjects
Humans, Hypoxia etiology, Hypoxia physiopathology, Acute Lung Injury etiology, Acute Lung Injury physiopathology, Barotrauma etiology, Barotrauma physiopathology, Diving adverse effects, Diving physiology
Abstract

This short review focuses on pulmonary injury in breath-hold (BH) divers. When practicing their extreme leisure sport, they are exposed to increased pressure on pulmonary gas volumes, hypoxia, and increased partial gas pressures. Increasing ambient pressures do present a serious problem to BH deep divers, because the semi-rigid thorax prevents the deformation required by the Boyle-Mariotte law. As a result, a negative-pressure barotrauma (lung squeeze) with acute hemoptysis is not uncommon. Respiratory maneuvers such as glossopharyngeal insufflation (GI) and glossopharyngeal exsufflation (GE) are practiced to prevent lung squeeze and to permit equalizing the paranasal sinuses and the middle ear. GI not only impairs venous return, thereby provoking hypotension and even fainting, but also produces intrathoracic pressures likely to induce pulmonary barotrauma that is speculated to induce long-term injury. GE, in turn, further increases the already negative intrapulmonary pressure, thereby favoring alveolar collapse (atelectasis). Finally, hypoxia seemingly not only induces brain injury but initiates the opening of intrapulmonary shunts. These pathways are large enough to permit transpulmonary passage of venous N2 bubbles, making stroke-like phenomena in deep BH divers possible., (© 2019 S. Karger AG, Basel.)

Published
2019
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31. Anxiety and Depression in Patients Undergoing Mitral Valve Surgery: A Prospective Clinical Study.

Author

Botzet K, Dalyanoglu H, Schäfer R, Lichtenberg A, Schipke JD, and Korbmacher B

Subjects
Adult, Aged, Aged, 80 and over, Anxiety diagnosis, Anxiety epidemiology, Cardiac Surgical Procedures adverse effects, Coronary Artery Bypass adverse effects, Coronary Artery Bypass psychology, Coronary Artery Disease epidemiology, Coronary Artery Disease psychology, Coronary Artery Disease surgery, Depression diagnosis, Depression epidemiology, Female, Germany epidemiology, Heart Valve Diseases diagnosis, Heart Valve Diseases epidemiology, Heart Valve Diseases psychology, Humans, Longitudinal Studies, Male, Middle Aged, Prevalence, Prospective Studies, Risk Factors, Time Factors, Young Adult, Anxiety psychology, Cardiac Surgical Procedures psychology, Depression psychology, Heart Valve Diseases surgery, Mitral Valve surgery
Abstract

Background: Impending cardiac surgery presents an existential experience that may induce psychological trauma. Moreover, quality of life long after successful coronary artery bypass graft surgery (CABG) can be impaired., Aim: The aim of this study was to describe the time course of anxiety and depression in patients undergoing mitral valve surgery and compare it with our earlier results of patients undergoing CABG, a disease that is likely to be related to psychosomatic disorders. We hypothesized that patients undergoing mitral valve surgery can better manage stresses of cardiac surgery than patients undergoing CABG., Patients and Methods: Of 117 patients undergoing mitral valve surgery, 100 patients (22 to 87 years; 53 females) completed the study and were interviewed before (pre), 1 week after (early), and 6 months after (late) surgery. The Hospital Anxiety and Depression Scale (HADS) was employed., Results: The proportion of patients with elevated anxiety scores (AS ≥ 8) was higher than normal (19.8%): pre, 33.0%; early, 28.0%; and was normalized late (18.0%). Similarly, depression scores (DS ≥ 8) were increased: pre, 15.0%; early, 20.0%; and late 14.0%, respectively (normal: 3.2%)., Conclusion: Coronary heart disease of CABG patients is presented as a systemic disorder, associated with both higher and postoperatively increased distress levels than in mitral valve patients. Anxiety and depression should be recognized as possible symptoms of psychosomatic disorders necessitating psychotherapeutic intervention to prevent postoperative depression and warrant patient-perceived surgical outcome that is additionally affected by expectations with respect to treatment and individual coping capacities. HADS is recommended to screen for vulnerable patients in the clinical routine, and psychosomatic support should be provided., Competing Interests: The authors confirm that there is no conflict of interests in relation to this article., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2018
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35. Beneficial effect of enriched air nitrox on bubble formation during scuba diving. An open-water study.

Author

Brebeck AK, Deussen A, Range U, Balestra C, Cleveland S, and Schipke JD

Subjects
Adult, Double-Blind Method, Embolism, Air, Female, Femoral Vein diagnostic imaging, Humans, Jugular Veins diagnostic imaging, Male, Middle Aged, Prospective Studies, Sex Factors, Subclavian Vein diagnostic imaging, Ultrasonography, Doppler, Decompression Sickness prevention & control, Diving physiology, Nitrogen administration & dosage, Oxygen administration & dosage
Abstract

Bubble formation during scuba diving might induce decompression sickness. This prospective randomised and double-blind study included 108 advanced recreational divers (38 females). Fifty-four pairs of divers, 1 breathing air and the other breathing nitrox28 undertook a standardised dive (24 ± 1 msw; 62 ± 5min) in the Red Sea. Venous gas bubbles were counted (Doppler) 30-<45 min (early) and 45-60 min (late) post-dive at jugular, subclavian and femoral sites. Only 7% (air) vs. 11% (air28®) (n.s.) were bubble-free after a dive. Independent of sampling time and breathing gas, there were more bubbles in the jugular than in the femoral vein. More bubbles were counted in the air-group than in the air28-group (pooled vein: early: 1845 vs. 948; P = 0.047, late: 1817 vs. 953; P = 0.088). The number of bubbles was sex-dependent. Lastly, 29% of female air divers but only 14% of male divers were bubble-free (P = 0.058). Air28® helps to reduce venous gas emboli in recreational divers. The bubble number depended on the breathing gas, sampling site and sex. Thus, both exact reporting the dive and in particular standardising sampling characteristics seem mandatory to compare results from different studies to further investigate the hitherto incoherent relation between inert gas bubbles and DCS.

Published
2018
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36. Sphenoid sinus barotrauma in diving: case series and review of the literature.

Author

Schipke JD, Cleveland S, and Drees M

Subjects
Barotrauma physiopathology, Humans, Barotrauma etiology, Diving injuries, Sphenoid Sinus injuries
Abstract

About 50% of scuba divers have suffered from barotrauma of the ears and about one-third from barotrauma of paranasal sinuses. The sphenoid sinuses are rarely involved. Vital structures, as internal carotid artery and optic nerve, adjoin the sphenoid sinus. Thus, barotrauma could lead to serious neurologic disorders, including blindness. After searching the literature (Medline) and other sources (Internet), we present some cases of sphenoid sinus barotrauma, because these injuries may be underreported and misdiagnosed due to the lack of awareness and knowledge. Therefore, information is provided, e.g. on anatomical and pathophysiological features. Divers and physicians should have in mind that occasional headache during or after diving sometimes signals serious neurological disorders like vision loss. We show that injuries can develop from both negative and positive pressures in the sinuses. Because visual recovery depends on prompt diagnosis and proper therapy, physicians like otolaryngologists, ophthalmologists and neurologists need to closely collaborate.

Published
2018
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37. Effects of oxygen-enriched air on cognitive performance during SCUBA-diving - an open-water study.

Author

Brebeck AK, Deussen A, Schmitz-Peiffer H, Range U, Balestra C, Cleveland S, and Schipke JD

Subjects
Adult, Aged, Double-Blind Method, Female, Humans, Male, Memory, Middle Aged, Prospective Studies, Psychometrics, Young Adult, Cognition, Diving physiology, Nitrogen physiology, Oxygen physiology
Abstract

Backround: Nitrogen narcosis impairs cognitive function, a fact relevant during SCUBA-diving. Oxygen-enriched air (nitrox) became popular in recreational diving, while evidence of its advantages over air is limited., Aim: Compare effects of nitrox28 and air on two psychometric tests., Methods: In this prospective, double-blind, open-water study, 108 advanced divers (38 females) were randomized to an air or a nitrox-group for a 60-min dive to 24 m salt water. Breathing gas effects on cognitive performance were assessed during the dive using a short- and long-term memory test and a number connection test., Results: Nitrox28 divers made fewer mistakes only on the long-term memory test (p = 0.038). Female divers remembered more items than male divers (p < 0.001). There were no significant differences in the number connection test between the groups., Conclusion: Likely owing to the comparatively low N 2 reduction and the conservative dive, beneficial nitrox28 effects to diver performance were moderate but could contribute to diving safety.

Published
2017
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38. Risk of Neurological Insult in Competitive Deep Breath-Hold Diving.

Author

Tetzlaff K, Schöppenthau H, and Schipke JD

Subjects
Adult, Decompression Sickness complications, Diving physiology, Embolism, Air complications, Humans, Male, Time Factors, Breath Holding, Competitive Behavior physiology, Decompression Sickness etiology, Diving adverse effects, Embolism, Air etiology, Stroke etiology
Abstract

Context: It has been widely believed that tissue nitrogen uptake from the lungs during breath-hold diving would be insufficient to cause decompression stress in humans. With competitive free diving, however, diving depths have been ever increasing over the past decades., Methods: A case is presented of a competitive free-diving athlete who suffered stroke-like symptoms after surfacing from his last dive of a series of 3 deep breath-hold dives. A literature and Web search was performed to screen for similar cases of subjects with serious neurological symptoms after deep breath-hold dives., Case Details: A previously healthy 31-y-old athlete experienced right-sided motor weakness and difficulty speaking immediately after surfacing from a breathhold dive to a depth of 100 m. He had performed 2 preceding breath-hold dives to that depth with surface intervals of only 15 min. The presentation of symptoms and neuroimaging findings supported a clinical diagnosis of stroke. Three more cases of neurological insults were retrieved by literature and Web search; in all cases the athletes presented with stroke-like symptoms after single breath-hold dives of depths exceeding 100 m. Two of these cases only had a short delay to recompression treatment and completely recovered from the insult., Conclusions: This report highlights the possibility of neurological insult, eg, stroke, due to cerebral arterial gas embolism as a consequence of decompression stress after deep breath-hold dives. Thus, stroke as a clinical presentation of cerebral arterial gas embolism should be considered another risk of extreme breath-hold diving.

Published
2017
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41. "Lung packing" in breath hold-diving: An impressive case of pulmo-cardiac interaction.

Author

Schipke JD, Kelm M, Siegmund K, Muth T, Sievers B, and Steiner S

Abstract

There is a complex interaction between the heart and the lungs. We report on a healthy female who performs breath hold diving at a high, international level. In order to optimize pressure equalization during diving and to increase oxygen available, apneists employed a special breathing maneuver, so called "lung packing". Based on cardiac MRI we could demonstrate impressive effects of this maneuver on left ventricular geometry and hemodynamics. Beyond the fact, that our findings support the concept of pulmonary -cardiac interrelationship, it should be emphasized, that the reported, extreme breathing maneuver could have detrimental consequences due to reduction of stroke volume and cardiac output.

Published
2015
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43. Perioperative and long-term development of anxiety and depression in CABG patients.

Author

Korbmacher B, Ulbrich S, Dalyanoglu H, Lichtenberg A, Schipke JD, Franz M, and Schäfer R

Subjects
Aged, Aged, 80 and over, Anxiety diagnosis, Anxiety psychology, Anxiety therapy, Coronary Artery Bypass adverse effects, Coronary Artery Bypass mortality, Coronary Artery Bypass, Off-Pump adverse effects, Coronary Artery Bypass, Off-Pump psychology, Depression diagnosis, Depression psychology, Depression therapy, Female, Humans, Longitudinal Studies, Male, Middle Aged, Prospective Studies, Risk Factors, Sex Factors, Surveys and Questionnaires, Time Factors, Treatment Outcome, Anxiety etiology, Coronary Artery Bypass psychology, Depression etiology
Abstract

Background: The high incidence of symptomatic anxiety and depression in coronary artery bypass graft (CABG) patients may lead to impaired quality of life and increased morbidity and mortality. This prospective longitudinal study on CABG patients should provide data for future preoperative and postoperative psychotherapeutic interventions., Methods: From 2009 to 2010, 135 consecutive patients who were able and prepared were consulted by one interviewer immediately before 1  week (early) and 6 months (late) after surgery to complete the "Hospital Anxiety and Depression Scale" questionnaire., Results: Compared with the standard population, anxiety scores (AS) were preoperatively elevated in 39.3% of the patients. Early and late after surgery, AS had decreased to 34.4% (not significant [n.s.]) and 28.9% (p < 0.01). Before surgery, depression scores (DS) were elevated in 20.7%. Early and late after surgery, DS further increased to 24.0% (n.s.) and 28.0% (n.s.).Preoperative elevated DS appeared to correlate with increased complications. Mortality was not associated with elevated AS or DS. Both scores were not affected by on- or off-pump surgery., Conclusion: Remarkably high AS and elevated DS late postoperatively require psychotherapeutic support even after seemingly successful CABG., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2013
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45. Physical exercise might influence the risk of oxygen-induced acute neurotoxicity.

Author

Koch AE, Koch I, Kowalski J, Schipke JD, Winkler BE, Deuschl G, Meyne J, and Kähler W

Subjects
Adult, Atmosphere Exposure Chambers, Blood Pressure physiology, Diastole physiology, Exercise Test methods, Germany, Heart Rate physiology, Humans, Hyperbaric Oxygenation instrumentation, Hyperoxia blood, Military Personnel, Seizures etiology, Systole physiology, Ultrasonography, Doppler, Transcranial methods, Blood Flow Velocity physiology, Carbon Dioxide blood, Cerebrovascular Circulation physiology, Exercise physiology, Hyperoxia physiopathology
Abstract

Objective: Hyperoxia can induce acute neurotoxicity with generalized seizures. Hyperoxia-induced reduction in cerebral blood flow velocity (CBFV) might be protective. It is unclear whether dynamic exercise during hyperoxia can overcome CBFV-reduction and thus possibly increase the risk of neurotoxicity., Methods: We studied CBFV with both-sided transcranial Doppler with fixed transducer-position and heart rate under increasing hyperoxic conditions in nine professional military oxygen divers. The divers performed dynamic exercise on a bicycle-ergometer in a hyperbaric chamber (ergometries I-III, 21kPa, 100kPa, 150kPa pO2), with continuous blood pressure (ergometries I, II), end-tidal CO2 (PetCO2; ergometry I) being measured., Results: Systolic (CBFVsyst) and diastolic CBFV (CBFVdiast) readings at rest decreased with increasing pO2. During exercise, CBFVsyst and CBFVdiast significantly increased in parallel with increasing pO2, despite reduced flow velocities at rest., Ergometry I: CBFVsyst increased from 65.0 +/- 11.3 cm/second at rest to 80.2 +/- 23.4cm/s during maximum workload (n.s.), diastolic from 14.5 +/- 4.1 cm/second to 15.6 +/- 7.5 cm/s (n.s.). PetCO2 increased from 43.4 +/- 7.8mmHg to 50.0 +/- 7.5mmHg., Ergometry Ii: CBFVsyst increased from 58.2 +/- 16.5 cm/second to 99.7 +/- 17.0 cm/s (p<0.001), diastolic from 14.0 +/- 10.7 cm/second to 29.4 +/- 11.1 cm/second (p<0.01)., Ergometry Iii: CBFVsyst increased from 54.4 +/-15.0cm/second to 109.4 +/- 22.3cm/s (p<0.001), diastolic from 14.7 +/- 10.4 cm/second to 35.5 +/- 9.3 cm/second (p<0.01)., Interpretation: Physical exercise overrules the decrease in CBFV during hyperoxia and leads to even higher CBFV-increases with increasing pO2. A tendency towards CO2 retainment with elevated PetCOz may be causative and thus heighten the risk of oxygen-induced neurotoxicity.

Published
2013

47. Diving reflex: can the time course of heart rate reduction be quantified?

Author

Caspers C, Cleveland S, and Schipke JD

Subjects
Blood Pressure physiology, Heart Rate physiology, Humans, Immersion, Bradycardia physiopathology, Diving physiology, Reflex physiology
Abstract

In this meta-analysis of diving bradycardia in humans, we sought to quantify any heart rate (HR) reduction using a relatively simple mathematical function. Using the terms "diving reflex,""diving bradycardia,""diving response,""diving plus heart rate," databases were searched. Data from the studies were fitted using HR=c+aexp(-(t-t(0))/τ), where c is the final HR, a is the HR decrease, τ is the time constant of HR decay, and t(0) is the time delay. Of 890 studies, 220 were given closer scrutiny. Only eight of these provided data obtained under comparable conditions. Apneic facial immersion decreased HR with τ=10.4 s and in air alone it was less pronounced and slower (τ=16.2 s). The exponential function fitted the time course of HR decrease closely (r(2)>0.93). The fit was less adequate for apneic-exercising volunteers. During apnea both with and without face immersion, HR decreases along a monoexponential function with a characteristic time constant. HR decrease during exercise with and without face immersion could not readily be described with a simple function: the parasympathetic reaction was partially offset by some sympathetic activity. Thus, we succeeded in quantifying the early time course of diving bradycardia. It is concluded that the diving reflex is useful to diagnose the integrity of efferent cardiovascular autonomic pathways., (© 2010 John Wiley & Sons A/S.)

Published
2011
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48. Cardiac stunning in the clinic: the full picture.

Author

Pomblum VJ, Korbmacher B, Cleveland S, Sunderdiek U, Klocke RC, and Schipke JD

Subjects
Animals, Combined Modality Therapy, Endothelium, Vascular drug effects, Endothelium, Vascular physiopathology, Heart Conduction System drug effects, Heart Conduction System physiopathology, Humans, Myocardial Reperfusion Injury physiopathology, Myocardial Stunning physiopathology, Sympathetic Nervous System drug effects, Sympathetic Nervous System physiopathology, Treatment Outcome, Cardiovascular Agents therapeutic use, Heart-Assist Devices, Ischemic Preconditioning, Myocardial, Myocardial Reperfusion Injury therapy, Myocardial Stunning therapy
Abstract

Cardiac stunning refers to different dysfunctional levels occurring after an episode of acute ischemia, despite blood flow is near normal or normal. The phenomenon was initially identified in animal models, where it has been very well characterized. After being established in the experimental setting, it remained unclear, whether a similar syndrome occurs in humans. In addition, it remained controversial, whether stunning was of any clinical relevance as it is spontaneously reversible. Hence, many studies continue to focus on the properties and mechanisms of stunning, although therapies seem more relevant for attenuating and treating myocardial ischemia/reperfusion (I/R) injury, i.e. to bridge until recovery. This article reviews the different facets of cardiac stunning, i.e. myocardial, vascular/microvascular/endothelial, metabolic, neural/neuronal, and electrical stunning. This review also displays where these facets exist and which clinical relevance they might have. Particular attention is directed to the different therapeutic interventions that the various facets of this I/R-induced cardiac injury might require. A final outlook considers possible alternatives to further reduce the detrimental consequences of brief episodes of ischemia and reperfusion.

Published
2010
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49. Blood pressure and heart rate immediately after termination of short-term ventricular fibrillation.

Author

Schipke JD, Heusch G, Fritzsche A, Meyer K, Gams E, and Winter J

Subjects
Adult, Aged, Aged, 80 and over, Central Venous Pressure physiology, Defibrillators, Implantable, Electric Countershock, Electrocardiography, Female, Heart Ventricles physiopathology, Humans, Male, Middle Aged, Ventricular Fibrillation physiopathology, Blood Pressure physiology, Heart Rate physiology, Ventricular Fibrillation therapy
Abstract

Background: Implantable cardioverter/defibrillators (ICDs) can detect ventricular fibrillation (VF) and terminate it. For determining the optimal defibrillation threshold, ventricular fibrillation is repetitively induced and terminated with DC shocks. Depending on the protocol, several fibrillation/defibrillation sequences are mandatory before the final implantation of an ICD. This procedure provides an elegant human model of circulatory arrest and resuscitation., Patients and Methods: In anesthetized 73 patients (15 females) of on the average 60+/-11 years, the end-expiratory pressure was set to zero. Left ventricular pressure (LVP) was monitored with a microtip-catheter, central venous pressure (CVP) through a cannula which was advanced into the superior V. cava. ECG was recorded. After testing, a monoexponential function was found to best fit the time courses of LVP, CVP and heart rate. Data are mean+/-S.D., Results: After termination of circulatory arrest, peak LVP increased with a time constant tau of 9.2+/-4.2 beats, CVP decreased with tau=2.8+/-1.5 beats, and RR-intervals decreased with tau=4.3+/-3.5 beats. Correlations between prefibrillatory values and steady-state values after termination of fibrillation were high: peak LVP: r=0.78; CVP: r=0.95; RRI: r=0.82., Summary: After DC termination of VF, the heart 'finds' relatively quickly a steady-state rhythm at the prefibrillatory level (22 beats), thereby normalizing CVP almost in parallel (14 beats). Peak LVP plateaus only after about 40 beats, although reasonable arterial pressures are reached within the first beats. Our data are limited to periods of ventricular fibrillation of no longer than 60s, which limits the generalisability to the setting of clinical cardiac arrest.

Published
2008
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50. Inotropic, vasodilating and preconditioning actions of levosimendan in the heart.

Author

Meyer K, Schipke JD, Klocke RC, Gams E, and Korbmacher B

Subjects
Animals, Arrhythmias, Cardiac physiopathology, Arrhythmias, Cardiac prevention & control, Calcium metabolism, Dose-Response Relationship, Drug, Heart physiopathology, In Vitro Techniques, Myocardial Reperfusion Injury physiopathology, Myocardial Reperfusion Injury prevention & control, Myocardium metabolism, Oxygen Consumption drug effects, Potassium Channels agonists, Rabbits, Simendan, Anti-Arrhythmia Agents pharmacology, Cardiotonic Agents pharmacology, Heart drug effects, Hemodynamics drug effects, Hydrazones pharmacology, Pyridazines pharmacology, Vasodilator Agents pharmacology
Abstract

Background: Levosimendan improves ventricular function, induces vasodilation and induces myocardial preconditioning. We determined the external efficiency and assessed the effects on arrhythmias., Methods: In isolated, blood-perfused rabbit hearts, levosimendan (0.75 micromol) or placebo was administered, while hemodynamics were recorded. After no-flow ischemia and reperfusion, data were recorded again., Results: Placebo in normoxic hearts did not affect measurements, while levosimendan increased heart rate (+ 18 %) and improved coronary output (+ 52 %), stroke volume (+ 28 %), maximal left ventricular pressure (+ 30 %), maximal rate of pressure increase (+ 36 %), work (+ 68 %), minimal rate of pressure increase (+ 53 %), coronary blood flow (+ 41 %), coronary resistance (- 19 %) and external efficiency (33 %; P < 0.05). During reperfusion, hemodynamics in the levosimendan group were significantly better preserved compared with the placebo group. Early reperfusion arrhythmias were decreased (levosimendan group: 7 +/- 3 % vs. placebo group: 25 +/- 17 %; P < 0.05)., Conclusions: Levosimendan does not impair diastole, dilates coronary vessels, induces pharmacological preconditioning, improves external efficiency and exerts antiarrhythmic properties during reperfusion. As this drug protects the heart from reperfusion injury, it seems well suited for treating dysfunctional hearts after cardiac surgery.

Published
2008
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