Your search keyword '"Hartrumpf M"' showing total 7 results

1. Physiological function of stentless aortic valves is altered by trimming and removal of aortic wall components

Author

Kuehnel, R.-U., primary, Stock, U. A., additional, Wendt, M. O., additional, Degenkolbe, I., additional, Jainski, U., additional, Hartrumpf, M., additional, Pohl, M., additional, and Albes, J. M., additional

Published

2006

2. Tourniquet fixing prior to knot tying reduces forces during aortic valve replacement: experimental results from 18 surgeons.

Author

Hartrumpf M, Sterner J, Schroeter F, Kuehnel RU, Laux ML, Braun C, and Albes JM

Subjects

Humans, Prosthesis Design, Aortic Valve surgery, Heart Valve Diseases surgery, Heart Valve Prosthesis, Surgeons statistics & numerical data, Suture Techniques instrumentation, Sutures, Tourniquets

Abstract

Objectives: To increase the safety of aortic valve replacement, we developed the 'Caput medusae' method, where the prosthesis is prefixed with circumferential tourniquets prior to knot tying. We assumed that an even distribution of forces may help reduce tissue damage. To confirm this theoretically, we compared forces between knots and tourniquets., Methods: The experimental set-up included a device with movable acrylic plates, a mounted valve and a set of sutures. Traction forces were measured with a luggage scale. Two different tourniquets were compared individually and as bundles of 15. Force-path curves were generated. Knotting and tourniquet forces of 18 staff surgeons were then compared. Both modalities were measured 10 times on 2 days, resulting in 40 observations per surgeon, or 360 observations per modality., Results: Polyvinyl chloride tourniquets were stiffer than silicone, expressed by a 1.5- to 1.7-fold higher regression-line slope. Fifteen simultaneous tubes produced force increments 7.9-8.9 times higher than their single counterparts. Overall knotting force was 13.64 ± 5.76 vs tourniquet 1.08 ± 0.48 N. Male surgeons' knotting forces were higher compared to female staff (14.76 ± 6.01 vs 10.73 ± 3.74 N; P < 0.001) while tourniquet forces did not differ (1.09 ± 0.47 vs 1.05 ± 0.49 N; P = 0.459). Dedicated valve surgeons (n = 10) tightened the tourniquets more strongly than inexperienced surgeons (1.20 ± 0.52 vs 0.94 ± 0.37 N; P < 0.001); knotting was similar. Multivariable analysis confirmed only valve experience as a predictor of tourniquet strength (experienced surgeons exerted higher force)., Conclusions: Tourniquets exert less force on the tissue than knots. When distributed over the circumference, they can reduce local tension and avoid potential paravalvular leakage. Complete or partial use of tourniquets may thus be an additional option to enhance surgical safety., (© The Author(s) 2020. Published by Oxford University Press on behalf of the European Association for Cardio-Thoracic Surgery. All rights reserved.)

Published

2020

3. Q-PULS, a new quasi-physiological pulsatile extracorporeal model to simulate heart function.

Author

Ostovar R, Hartrumpf M, Kuehnel RU, Schroeter F, Laux M, Erb M, Claus T, and Albes JM

Subjects

Animals, Diastole, Disease Models, Animal, Mitral Valve Insufficiency physiopathology, Swine, Systole, Cardiac Output physiology, Extracorporeal Circulation methods, Heart Ventricles physiopathology, Mitral Valve Insufficiency surgery, Pulsatile Flow physiology

Abstract

Objectives: The invention of new surgical procedures requires testing at different stages including animal models. To facilitate this process, we have developed a computer-controlled extracorporeal circulation system for testing of an explanted porcine heart simulating a variety of physiological parameters. Mitral valve function can be assessed before and after induced valve insufficiency and after valve repair. Accordingly, techniques and instruments can be modified at early stages of prototype development., Methods: In the diastole, the left atrium is passively filled through the reservoir. The loading pressure of the atrium and flow rates can be widely adjusted. To simulate the systole, a linear motor-driven piston pump promotes volume into the left ventricle and the aorta. An additional circulatory pump compensates for undesired total emptying of the heart chambers. The processor control of the linear pump allows for various settings of flow rate, velocity and even irregular rhythm. Twenty-one isolated porcine hearts were used. The leaflet movement was filmed using a universal serial bus (USB)-probe camera., Results: With 80 mm stroke and 1 m/s speed, a volume of 150 ml can be pumped at a heart rate of up to 73 bpm. Cardiac outputs of up to 10.9 l/min can be achieved. Constant visualization and continuous measurements of the pressure gradients before and after the induction of mitral insufficiency and after repair allowed quantitative verification of repair quality under beating-heart conditions., Conclusions: This model allows a controllable pulsation, loading and unloading of a porcine heart in a wide range. Thus, the function of the leaflets and repair results can be qualitatively and quantitatively evaluated under quasiphysiological conditions., (© The Author(s) 2018. Published by Oxford University Press on behalf of the European Association for Cardio-Thoracic Surgery. All rights reserved.)

Published

2019

4. The obesity paradox is still there: a risk analysis of over 15 000 cardiosurgical patients based on body mass index.

Author

Hartrumpf M, Kuehnel RU, and Albes JM

Subjects

Aged, Female, Germany epidemiology, Heart Diseases complications, Heart Diseases epidemiology, Hospital Mortality trends, Humans, Incidence, Male, Obesity complications, Prognosis, Risk Factors, Survival Rate trends, Body Mass Index, Cardiac Surgical Procedures, Heart Diseases surgery, Obesity epidemiology, Risk Assessment

Abstract

Objectives: Obesity is an ever-growing problem in contemporary cardiac surgery. Although it accounts for many perioperative comorbidities, it has not been shown to increase mortality. Body mass index (BMI) is therefore not considered in the European System for Cardiac Operative Risk Evaluation (EuroSCORE). We sought to confirm whether this holds true for our own single-centre patient population., Methods: Data from 15 314 consecutive patients receiving major cardiac surgery at our institution were analysed. Gender, age, BMI, EuroSCORE, urgency, redo status and all-cause in-hospital mortality were derived from our database. Mortality was grouped into 4 BMI categories. We created a logistic regression model to identify predictors of mortality., Results: There were 11 034 males and 4280 females. Categorical mortality was 8.79% (underweight), 7.04% (normal weight), 5.16% (overweight), 6.30% (obese), rendering an inverse J-shaped pattern known as obesity paradox. Univariable regression detected significant predictors of mortality: rising age, female gender, urgent procedures, redo surgery ( P  < 0.001). BMI was no predictor ( P  = 0.575) but became significant with the multivariable analysis ( P  = 0.004). Its effect on mortality was exclusively indirect, being mediated through age ( P  < 0.001). Receiver-operating characteristics curve analysis also confirmed that BMI did not qualify as a risk factor. However, the overweight category was a predictor of lower mortality., Conclusions: Our findings from >15 000 patients confirm the obesity paradox showing the least mortality in the overweight group. They support the current EuroSCORE model in that BMI is no independent predictor of early mortality. However, such patients still carry the risk of comorbidities. Likewise, special care is required with underweight patients who show the highest in-hospital mortality., (© The Author 2017. Published by Oxford University Press on behalf of the European Association for Cardio-Thoracic Surgery. All rights reserved.)

Published

2017

5. Suboptimal geometrical implantation of biological aortic valves provokes functional deficits.

Author

Kuehnel RU, Wendt MO, Jainski U, Hartrumpf M, Pohl M, and Albes JM

Subjects

Animals, Aortic Valve physiopathology, Aortic Valve Insufficiency physiopathology, Cardiac Catheterization adverse effects, Cattle, Heart Valve Prosthesis Implantation adverse effects, Hemodynamics, Materials Testing, Prosthesis Design, Swine, Aortic Valve surgery, Aortic Valve Insufficiency etiology, Bioprosthesis, Cardiac Catheterization instrumentation, Heart Valve Prosthesis, Heart Valve Prosthesis Implantation instrumentation, Pericardium transplantation, Stents

Abstract

Endovascular valves have become a valid option for patients not qualifying for conventional surgery. Biological valves mounted in a stent are currently used. After implantation, however, geometrical distortion of the valve can occur. We tested whether biological valves suitable for transcatheter implantation exhibit hemodynamic deficits after deployment in a distorted position. Two types of valves [bovine pericardium (BP) and porcine cusps], of 21 and 23 mm diameter, respectively were investigated. Mean transvalvular gradient (TVG), effective orifice area (EOA), and regurgitation fraction (REG) were measured prior to and after the 20% distortion of the original diameter. All valves exhibited an increase of TVG and reduction of EOA whereas REG increased only in BP valves after distortion. The 21 mm valves demonstrated a more pronounced alteration than the 23 mm valves. Even moderately distorted implantation of a biological valve results in a marked functional alteration. The susceptibility of pericardial valves is higher than that of porcine valves probably owing to better coaptation properties of native cusps even under deformed conditions when compared to valves constructed with pericardium. Care should therefore be taken during implantation of endovascular valves in order to avoid fixed hemodynamic deficits. Native valves may preferably be used as they demonstrate a more robust behavior regarding suboptimal implantation.

Published

2010

6. Physiological function of stentless aortic valves is altered by trimming and removal of aortic wall components.

Author

Kuehnel RU, Stock UA, Wendt MO, Degenkolbe I, Jainski U, Hartrumpf M, Pohl M, and Albes JM

Subjects

Animals, Aortic Valve surgery, Cryopreservation, Elasticity, Fixatives, Glutaral, Humans, In Vitro Techniques, Pressure, Prosthesis Design, Research Design, Swine, Tissue Fixation methods, Transplantation, Heterologous, Transplantation, Homologous, Aorta surgery, Aortic Valve physiology, Bioprosthesis, Heart Valve Prosthesis, Heart Valve Prosthesis Implantation instrumentation

Abstract

Various techniques of stentless aortic valve implantation with or without wall components exist. We investigated the in-vitro performance of stentless valves without or with aortic wall removal mimicking root versus subcoronary implantation. Glutaraldehyde-preserved stentless aortic valves (gpSVG), cryo-preserved human homografts (cpHG), cryo-preserved xenografts (cpXG), and fresh xenografts (fXG) were used. Valves were mounted as full roots or trimmed in a mock circuit. Mean transvalvular gradient (MTVG, mmHg) was measured. Distensibility was quantified using post-systolic backflow volume (BV, ml) - after valve closure. Function was visualized by means of a high-speed camera. Glutaraldehyde-preserved valves exhibited higher MTVG than cryo-preserved or fresh substitutes. After trimming, cpHG, cpXG, and fXG demonstrated marked reduction of MTVG (cpHG: 7.6-5.2 mmHg; cpXG: 6.7-4.9 mmHg; fXG: 8.4-5.2 mmHg). In contrast, after trimming gpSVG exhibited a significant increase of MTVG (7.1-9.2 mmHg). BV remained constant. Visualization indicated maintained distension of all valves and types of all sizes after trimming. In fresh and cryo-preserved grafts, aortic wall trimming resulted in significantly improved systolic performance while glutaraldehyde-preserved stentless valves demonstrated systolic impairment after wall resection. Subcoronary implantation of fresh or cryo-preserved aortic valves may therefore be preferred. In contrast, glutaraldehyde-preserved valves are dependent on wall suspension and may therefore be implanted as a root.

Published

2007

7. First experience with closed circuit/centrifugal pump extracorporeal circulation: cellular trauma, coagulatory, and inflammatory response.

Author

Just SS, Müller T, Hartrumpf M, and Albes JM

Abstract

Closed circuit extracorporeal circulation comprising a centrifugal pump has been developed to reduce deleterious effects of standard cardiopulmonary bypass. This study compares such a system with standard extracorporeal circulation (ECC). Twenty patients underwent isolated routine coronary artery revascularization. Ten patients underwent ECC. Ten patients were operated upon using a closed circuit/centrifugal pump system with coated surfaces (ISS) (SYNERGY, Stöckert). Both groups did not differ regarding age, body mass, left ventricular function, number of bypasses, and concomitant diseases. Free hemoglobin (fHb), plasmin-antiplasmin complex (PAPc), platelet function (ROTEG), and interleukin 6 (IL-6) were measured preoperatively, intraoperatively (after sternotomy, during X-Clamp, during reperfusion, post ECC or ISS), and postoperatively. Technical problems were not observed. The ISS group demonstrated significantly less fHb during bypass, a lower intraoperative myocardial damage as well as less increase in IL-6 after bypass and postoperatively compared to ECC. In ISS fluid balance was significantly lower than in ECC whereas drainage loss and hospitalization did not differ statistically. Extracorporeal circulation with a closed circuit/centrifugal pump system can be routinely employed and appears to be safe. Intraoperative and early postoperative reduction of red blood cell trauma and inflammation are of potential value.

Published

2006