Auswirkungen von PPID auf die kardiale Funktion anhand von Gewebedoppler, Speckle Tracking, EKG und Blutdruckmessung

Auswirkungen von PPID auf die kardiale Funktion anhand von Gewebedoppler, Speckle Tracking, EKG und Blutdruckmessung von Fisch,  Judith
Das Synonym für PPID “Equines Cushing Syndrom” leitet sich von dem humanen Cushing Syndrom ab. Beide Syndrome zeigen ähnliche Symptome, wie Immunschwäche, Muskelschwäche, abnormale Fettverteilung, Lethargie und verändertes Haar-/ Fellwachstum. Anders als in der Pferdemedizin existieren in der Humanmedizin Studien in denen am Cushing Syndrom erkrankte Patienten mittels Gewebedoppler, Speckle Tracking, EKG und Blutdruckmessung untersucht wurden. Ihre Herzfrequenzvariabilität wurde ebenfalls untersucht. Es wurden hierbei eine diastolische Myokarddysfunktion mit subklinischer systolischer Dysfunktion und eine arterielle Hypertension festgestellt. Die Ergebnisse über die Herzfrequenzvariabilität divergierten auseinander. Ziel dieser Studie war es mögliche Auswirkungen auf die kardiale Funktion auch beim Pferd mit PPID nachzuweisen. Um die Herzfunktion beurteilen zu können wurden die Geschwindigkeiten und die Verformungsparameter des Myokards, im Speziellen des interventrikulären Septums und der linksventrikulären freien Wand, bestimmt. Methoden der Wahl waren hierbei die sensitive Gewebedoppler- und die zweidimensionale Speckle Tracking-Echokardiographie. Zur Bewertung der autonomen Funktion konnte ein Elektrokardiogramm mit anschließender Herzfrequenzvariabilitätsanalyse durchgeführt werden. Die via Sinusknoten vermittelten Erregungsraten geben Rückschlüsse über die autonome Funktion. Zudem wurde die Messung des Blutdrucks vorgenommen, um eine mögliche arterielle Hypertension beweisen zu können. Im Rahmen der Erstuntersuchung wurden insgesamt 28 Pferde mit PPID untersucht. Es handelte sich um aktuelle und ehemalige Patienten der Klinik für Pferde der Freien Universität Berlin. Die Analyse der Herzfrequenzvariabilität zeigte eine erhöhte Parasympathikusaktivität mit reduziertem LF/HF-Verhältnis (0,67 ms2). Der Blutdruck war normotensiv. Gegenüber gesunden Pferden zeigten die Probanden eine diastolische und eine beginnende systolische myokardiale Dysfunktion. Sie zeigten eine reduzierte frühdiastolische Spitzengeschwindigkeit von IVS (PW: 12,18 ± 4,11 cm/s; c-GD: 7,75 ± 4,78 cm/s) und LFW (PW: 14,79 ± 5,79 cm/s; c-GD: 15,47 ± 4,62 cm/s), was für eine herabgesetzte Relaxation durch eine verminderte Elastizität des Myokards spricht. Zusätzlich zeigte sich eine reduzierte systolische Spitzengeschwindigkeit des IVS (PW: p = 0,002; c-GD: p = 0,011), welches auf eine verminderte Kontraktionsfähigkeit hinweist. Einige Tiere zeigten zusätzlich ein reduziertes E/A-Verhältnis. Die spätdiastolische Spitzengeschwindigkeit wies im Gewebedoppler schon eine Erhöhung auf, welche für einen bekannten Kompensationsmechanismus steht (IVS:PW: 8,07 ± 3,89 cm/s; c-GD: 3,41 ± 2,42 cm/s; LFW: PW: 13,14 ± 4,21 cm/s; c-GD: 9,73 ± 3,48 cm/s). Aufgrund der fehlenden Relaxationsfähigkeit wird die atriale Kontraktionskraft erhöht um eine ausreichende Füllmenge bereitstellen zu können. Ähnliche Ergebnisse konnte auch das Speckle Tracking hervorbringen, hier zeigte sich die spätdiastolische Relaxationsgeschwindigkeit jedoch nicht signifikant erhöht (IVS_SR_A: p = 0,867; LFW_SR_A: p = 0,394). Die GDE zeigte sich in diesem Fall die sensitivere Methode. Diese Befunde konnten schon in Studien zum humanen Cushing Syndrom nachgewiesen werden. In der Nachkontrolle nach drei bis sieben Monaten konnten trotz Therapie keine signifikanten Verbesserungen festgestellt werden. Einige Parameter zeigten sogar eine weitere Verschlechterung der Werte. Dies spricht für einen progressiven Verlauf der Erkrankung. Die vorliegende Studie konnte eine kardiale Dysfunktion und eine sympathovagale Imbalance mit erhöhter Parasympathikusaktivität belegen, eine Hypertension lag jedoch in der Studienpopulation nicht vor. Zum Ausschluss des Einflusses des Alters sollten zukünftige Studien auf PPID-Patienten jüngeren Alters zurückgreifen. Hierfür wäre die longitudinale Verformungsanalyse eine interessante Wahl, da diese sich in Studien der Kleintiermedizin sensitiver in der Früherkennung von Dysfunktionen zeigte. Zudem wäre eine größere Fallzahl von Vorteil.
Aktualisiert: 2021-04-15
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Evaluierung der Herzfrequenzvariabilitätsmessung zur perioperativen Schmerzkontrolle bei Schweinen im Kastrationsmodell

Evaluierung der Herzfrequenzvariabilitätsmessung zur perioperativen Schmerzkontrolle bei Schweinen im Kastrationsmodell von Radeisen,  Marlene Franziska
Evaluation of heart rate variability measurement as perioperative pain control in castration model in pigs Measurement of heart rate variability (HRV) is a non-invasive technique visualizing the functionality of the autonomic nervous system at the heart (von Borell 2007). HRV analysis is used besides various clinical applications of human and veterinary medicine in anesthesiology and pain research in pigs. For instance, the sympathovagal balance describing parameter LF/HF changes in pigs after tail biting (Zupan et al. 2012). Frequency-related parameters in pigs are equally affected by surgical manipulations during general anesthesia (Martin-Cancho et al. 2006). HRV measurement in pigs has so far been conducted using invasive measurement methods in addition to non-invasive telemetric measurement methods in order to also perform measurements on non-restrained pigs. Telemetric measurements in pigs are achievable on the one hand by the means of telemetric ECG devices (Suzuki et al. 1998, Kuwahara et al. 1999, Kuwahara et al. 2004, Olmstead et al. 2005) or by telemetric chest strap systems primarily designed for humans (Marchant-Forde and Marchant-Forde 2004, Marchant-Forde et al. 2004, Düpjan et al. 2011, Zupan et al. 2012, Mahnhardt et al. 2014, Leliveld et al. 2016). The chest strap BioHarnessTM 3 utilized in this study (Zephyr Technology, Medtronic, Annapolis, USA; below called: BioHarness chest strap) has not yet been used on pigs before. The aims of this study were to evaluate the BioHarness chest strap’s measurement accuracy with an established telemetric ECG device (Televet® 100, Engel Engineering GmbH, Heusenstamm, Germany; below called: Televet 100) and after assessing the suitability of the BioHarness chest strap, to determine whether HRV-analysis allows for a valid analgesia monitoring in the castration model. For this purpose, HRV parameters at the time of intraoperative pain reactions (based on a pain scoring) were compared with pre- and postoperative base values. To evaluate the BioHarness chest strap in the pilot study, simultaneous measurements were carried out on five male rearing pigs (German Landrace/German Large White x Piétrain/Duroc; 28 – 58 kg) with the BioHarness chest strap and Televet 100. For the HRV-analysis with the BioHarness chest strap in the main study, 30 male rearing pigs (genetics see above; 36 – 48 kg) were castrated for imminent fattening and slaughtering. One day before castration, the pigs in waking state were kept in temporary separate housing and recorded by BioHarness chest strap in their lying resting position. Castration at Regio Pubis was conducted under ketamine-azaperone general anesthesia customary in practice. Each intraoperative step (measurements in parts of 3 minutes) was assessed with a pain scoring, where score 0 describes no defense reaction (surgical tolerance) and score 1 or higher the presence and intensity of defense reactions. 24 hours after surgery, HRV was recorded like one day before surgery and a clinical examination of pain symptoms was performed. The evaluation of BioHarness chest strap resulted in a comparable measuring accuracy to the Televet 100 ECG-device. Results of the HRV analysis with the BioHarness chest strap related to intraoperative steps or manipulations compared to the base value before castration in main study were an increase of meanRR parameter and decrease of SDNN and RMSSD parameters. There was an increase of parameter LF (n.u.) and LF/HF that reflects sympathetic activity at the time of skin incision, incision of vaginal process and traction of spermatic cord. The mainly by vagal activity affected parameter HF (n.u.) decreased at the time of skin incision and incision of vaginal process. Pertaining to the pain scoring, there was a significant rise of LF (n.u.) when Score 1 to 3 occurred compared to surgical tolerance (Score 0). The parameters HF (n.u.) and LF/HF narrowly missed out the significance level (p < 0,05). Only two pigs had postoperative potentially pain-related symptoms (fever or wound irritation), so it is not possible to make a conclusive statement. In general, pigs tolerated the chest strap very well, species-specific habits of eating, resting and activity were not influenced by it. In this study, it is recognizable that pain specific defense reactions correlate positively with LF, which is also described in the literature with intraoperative pain stimuli and other painful conditions in pigs (see above). Both somatic (skin incision) and visceral pain components (incision of vaginal process and traction of spermatic cord) influence LF (n.u.), HF (n.u.) and LF/HF parameters. For an effective and predictive management of analgesia, further studies should be conducted with a greater number of animals or number of data records establishing a threshold value for LF (n.u.) or possibly other parameters which allows for detecting pain due to decreasing anesthesia before the onset of defense reactions. Prospectively, the BioHarness chest strap could also be used to examine animal welfare impairments in other clinicals contexts or zootechnical interventions in pigs.
Aktualisiert: 2021-04-16
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Auswirkungen des Equinen Metabolischen Syndroms auf die kardiale und autonome Funktion sowie den arteriellen Blutdruck des Pferdes

Auswirkungen des Equinen Metabolischen Syndroms auf die kardiale und autonome Funktion sowie den arteriellen Blutdruck des Pferdes von Liertz,  Sarah Patricia Gisela
Effects of the Equine Metabolic Syndrome on cardiac and autonomic function and also on the arterial blood pressure in the horse Decreased insulin sensitivity, obesity or abnormal fat distribution and a predisposition for laminitis often occur in association and are summarised as equine metabolic syndrome (EMS). The term follows the human metabolic syndrome that also comprises factors of obesity and insulin dysregulation. Furthermore, it is characterised by arterial hypertension, cardiac and autonomic dysfunction. The risk of heart diseases of the affected individuals is amplified. The aim of this thesis was to investigate whether also EMS has these effects on arterial blood pressure, cardiac or autonomic function in the horse. Myocardial velocity and deformation were investigated in order to screen the cardiac function. Sensitive echocardiographic techniques are tissue velocity imaging (TVI) and two-dimensional speckle tracking (STE). Since the activity of the autonomic nervous system influences the excitation rate of the cardiac sinus node, an electrocardiogram could therefore be used to analyse the heart rate variability (HRV) and indirectly the autonomic function. Blood pressure was evaluated non-invasively at the coccygeal artery by oscillometry. In the first examination the blood pressure, cardiac and autonomic function of 32 horses with EMS were analysed. The data was based on examination results from patients presented to the Equine Clinic, FU Berlin. The results demonstrated that the severity of insulin resistance (IR) could be affected by management and housing conditions. The degree of IR in horses exercised under controlled circumstances was significantly lower than in those which were not exercised (p = 0.002). Nonrestricted feeding was accompanied by moderate or severe insulin resistance (p < 0.001). The investigation by tissue velocity imaging showed a decreased diastolic cardiac function. Normally, an active relaxation of the ventricle occurs within early diastole. Subsequently, the atrium contracts which results in further filling and passive myocardial stretching of the ventricle. However, the horses with EMS showed a reduced early diastolic relaxation of the ventricular myocardium, which suggests a decreased elasticity. In the spectral doppler mode (PWTVI) the myocardial velocities in early diastole (E) of the left ventricle were inferior in comparison to healthy populations (IVS: p = 0.009, LW: p < 0.001). The resulting diastolic velocity relation was decreased either (E/A; IVS and LW: p < 0.001). This was confirmed by the color doppler mode (C-TVI: E; IVS: p = 0.004, LW: p = 0.010). Similar findings have been observed in human metabolic syndrome. The findings resemble those in horses with clinical obvious myocarditis and myodegenerative cardiomyopathy. The assessment of the deformation done by speckle tracking-echocardigraphy (STE) provided no distinct results. In diastole, an increase of the radial function in the lateral segment (p = 0.003) as well as in the overall mean were detected (p = 0.022), while a decrease in the anterioseptal segment confirmed the reduced function indicated by TVI (p = 0.002). During the systole, an increase of contraction for the circumferential axis of motion was proved (Ant and Lat: p < 0.001, Post: p = 0.001, mean: p = 0.002). On the contrary, the radial wall thickening was decreased segmentally (Inf and Sept: p = 0.001), but altogether proceeded faster (mean: p = 0.003). Without measurements in the longitudinal axis of motion especially the radial deformation could not be evaluated sufficiently because a compensatory deformation between the radial and longitudinal direction of movement is supposed. The cardiac function was related to the characteristics of various factors. Older horses had a reduced diastolic function compared to younger ones assessed by TVI. This led to a higher late diastolic peak velocity (A; PW_LW: p = 0.012, C_LW: p < 0.001, C_IVS: p = 0.001) and decreased diastolic relation (E/A; PW_LW: p = 0.001, PW_IVS: p = 0.031, C_LW and C_IVS: p < 0.001). This phenomenon is well known in human medicine and has already been described in horses. A more rigid myocard and as a consequence inferior relaxation are suspected to be the cause. The severity of regional adiposity was associated with myocardial velocities. Along with a severe cresty neck score (CNS) the myocardial force development in isovolemic contraction was decreased (PW_LW_IVC: p = 0.002, C_IVS_IVC: 0.023). Furthermore, an alteration of systolic wall excursion (PW_LW_S: p = 0.030, PW_LW_IVC: p = 0.038) also the diastolic motion was impaired if the horse expressed more than two out of four abnormal fat deposits. Similar to old horses‘ findings, the late diastolic myocardial velocity was increased (PW_LW_A: p = 0.035) followed by a decreased diastolic velocity relation (C_LW_E/A: p = 0.007). This was rated as a compensatory mechanism that ensures a sufficient filling of the ventricle even if the active relaxation is impaired. Although a cresty neck is supposed to have the most severe metabolic effect, its influence on cardiac function was subordinated in the presented study. A greater coherence existed between cardiac function and regional adiposity as a whole which led to the presumption other deposits might have a greater effect. Laminitis and insulin resistance were associated with early diastolic deformation. Thinning of the myocardium was accelerated if the horses had laminitis (p = 0.004 to 0.047) or a severe insulin resistance (p = 0.005 to 0.040). This could be ascribed to compensation of longitudinal deformational losses and should be clarified by further examinations. The analysis of heart rate variability in comparison to healthy horses showed a decreased overall variability (SDNN: p < 0.001) with reduced influence of the parasympathetic portion (HF: p = 0.049). These results also overlapped with results of human studies and indicated an increased stress level in cases affected by EMS. Nevertheless, characteristics for neuropathies were not detected. As already pointed out for cardiac function a coherence to age existed. Old horses showed a shift of autonomic relation towards sympathetic predominance (LF/HF, LF, HF je p = 0.014). The opposite pertained for obese animals that had a decreased overall variability (SDNN: p = 0.001) with stronger vagal influence (LF/HF p = 0.049). This was rated as an age-dependent distortion. The obese horses were younger than the normal-conditioned ones (p = 0.046). Heart rate (p = 0.007) and peripheral pulse frequency (p = 0.012) of individuals with metabolic syndrome were increased compared to healthy populations. This has already been observed in humans and horses. In humans, an association with particular factors of the syndrome was made which was also possible in this study. With a severe EMS-Score, heart rate (p = 0.048) and pulse frequency (p = 0.007) were increased. Horses with severe insulin resistance (p = 0.024) as well as obese ones (p = 0.047) had increased heart rates. The pulse frequency of animals with laminitis was increased either (p = 0.020). Diastolic (DAP: p = 0.026) and mean arterial blood pressure (MAP: p = 0.047) were increased in diseased horses. These results promoted observations of arterial hypertension in horses with EMS, obesity and laminitis. Seasonal fluctuations could be confirmed. Higher systolic pressures were obtained during the summer months (SAP: p = 0.038). An interventional phase followed. All horse owners were educated to change husbandry, feeding and training of their animals in order to lose weight or achieve a reduction in abnormal fat deposits. Fourteen out of thirty-two horses could be re-examined at a follow-up three to six months later. Induced by the interventional measures, the detectable insulin resistance of five horses was suspended. In these fourteen horses, besides the persisting reduction of the early diastolic relaxation, a compensatory increase of atrial contraction was apparent. This was indicated by accelerated myocardial velocities followed by reduced E/A-ratios in the interventricular septum with the PW-TVI (A: p = 0.006, E/A: p = 0.018) as well as with the C-TVI (A: p = 0.025, E/A: p = 0.005). The results indicated a worsening of the diastolic function. The effect of regional adiposity was outstanding. If it was improved the late diastolic interventricular velocity would decrease (p = 0.001) while the E/A-ratio would increased compared to the first examination (p = 0.048). In the opposite, if there was no improvement in regional adiposity the velocity would increase (p = 0.001) and the relation of E to A would decrease (p = 0.008). A progression of diastolic dysfunction indicated by increased late diastolic velocities and reduced diastolic velocity ratios was observed also in cases where a failure of improvements of the overall management (A: p = 0.001, E/A: p = 0.023), the training (A: p = 0.001, E/A: p = 0.043) or of the husbandry occured (A: p = 0.002, E/A: p = 0.011). Regarding the EMS-status altered values were seen without improvement of CNS (A: p = 0.004, E/A: p = 0.045), overall obesity (A: p < 0.001, E/A: p = 0.017), body weight (A: p = 0.029, E/A: p = 0.028) and insulin resistance (A: p = 0.050, E/A: p = 0.012). The autonomic function and arterial blood pressures remained unchanged. In conclusion, it was possible to prove diastolic dysfunction in the examined horses with EMS. Furthermore, they exhibited a decreased heart rate variability with reduced parasympathetic influence on sinus rhythm. Additionally, higher blood pressures existed. Cardiac findings proceeded if the implementation of interventional steps was too lax and the EMS-status failed to improve. Nevertheless, an optimisation of horse-keeping conditions and EMS-status could not lead to a correction of these findings. The reason could be the short interval between the examinations. Future studies could investigate if extended intervals and strictly controlled interventional measures are able to improve the cardiac function in an echocardiographic visible manner as already described in human medicine.
Aktualisiert: 2021-04-22
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