Bridging vascular physiology to vascular medicine - an integrative laboratory class

Tobias Heinrich; Robert Bähring; Axel Larena-Avellaneda; Jürgen Querengässer; Olaf Solbrig; Heimo Ehmke; Alexander P Schwoerer

doi:10.1152/advan.00170.2022

Bridging vascular physiology to vascular medicine - an integrative laboratory class

Standard

Bridging vascular physiology to vascular medicine - an integrative laboratory class. / Heinrich, Tobias ; Bähring, Robert; Larena-Avellaneda, Axel; Querengässer, Jürgen; Solbrig, Olaf; Ehmke, Heimo; Schwoerer, Alexander P.

In: ADV PHYSIOL EDUC, Vol. 47, No. 1, 01.03.2023, p. 97-116.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Education › peer-review

Harvard

Heinrich, T , Bähring, R, Larena-Avellaneda, A, Querengässer, J, Solbrig, O, Ehmke, H & Schwoerer, AP 2023, 'Bridging vascular physiology to vascular medicine - an integrative laboratory class', ADV PHYSIOL EDUC, vol. 47, no. 1, pp. 97-116. https://doi.org/10.1152/advan.00170.2022

APA

Heinrich, T., Bähring, R., Larena-Avellaneda, A., Querengässer, J., Solbrig, O., Ehmke, H., & Schwoerer, A. P. (2023). Bridging vascular physiology to vascular medicine - an integrative laboratory class. ADV PHYSIOL EDUC, 47(1), 97-116. https://doi.org/10.1152/advan.00170.2022

Vancouver

Heinrich T , Bähring R, Larena-Avellaneda A, Querengässer J, Solbrig O, Ehmke H et al. Bridging vascular physiology to vascular medicine - an integrative laboratory class. ADV PHYSIOL EDUC. 2023 Mar 1;47(1):97-116. https://doi.org/10.1152/advan.00170.2022

Bibtex

@article{d5ade735e55a46499db42590d56b66e6,

title = "Bridging vascular physiology to vascular medicine - an integrative laboratory class",

abstract = "Vascular diseases of the legs are highly prevalent and constitute an important part of medical curricula. The understanding of these diseases relies on strongly interwoven aspects of vascular physiology and vascular medicine. We aimed to connect these within a horizontally integrated laboratory class on vascular physiology of the leg that was designed in cooperation between the departments of physiology and vascular surgery. Conceptually, we applied examination techniques of vascular medicine to visualize physiological parameters that are altered by the most frequent diseases. This facilitates integrative discussions on malfunctions, trains diagnostic skills, and bridges to vascular medicine. In four experiments, we use oscillometry and impedance venous occlusion plethysmography to address key aspects of the arterial and venous system of the legs: 1) arterial pulse wave, 2) arterial systolic blood pressure, 3) venous capacitance and venous outflow, and 4) reactive hyperemia. After the experiments, physiological vascular function, the associated diseases, their impact on the recorded parameters, and diagnostic options are discussed. To allow reproduction, we describe the course structure and the experimental setup in detail. We present the experimental data of a cohort of medical students and document learning success and student satisfaction. All experiments were feasible and provided robust data on physiologically and clinically relevant vascular functions. The activity was perceived positively by the students and led to a substantial improvement of knowledge. With this work, we offer a template for reproduction or variation of a proven concept of horizontally integrated teaching of vascular physiology of the leg.NEW & NOTEWORTHY This article presents an integrative laboratory class on vascular physiology bridging to vascular medicine. The four experiments rely on oscillometry and venous occlusion plethysmography. We describe in detail this new class regarding structure, experimental setup, and experimental procedure, and we give insight into the applied materials. Moreover, we present the experimental data of 74 students and a quantitative evaluation of the students' learning success and acceptance.",

author = "Tobias Heinrich and Robert B{\"a}hring and Axel Larena-Avellaneda and J{\"u}rgen Quereng{\"a}sser and Olaf Solbrig and Heimo Ehmke and Schwoerer, {Alexander P}",

year = "2023",

month = mar,

day = "1",

doi = "10.1152/advan.00170.2022",

language = "English",

volume = "47",

pages = "97--116",

journal = "ADV PHYSIOL EDUC",

issn = "1043-4046",

publisher = "American Physiological Society",

number = "1",

}

RIS

TY - JOUR

T1 - Bridging vascular physiology to vascular medicine - an integrative laboratory class

AU - Heinrich, Tobias

AU - Bähring, Robert

AU - Larena-Avellaneda, Axel

AU - Querengässer, Jürgen

AU - Solbrig, Olaf

AU - Ehmke, Heimo

AU - Schwoerer, Alexander P

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Vascular diseases of the legs are highly prevalent and constitute an important part of medical curricula. The understanding of these diseases relies on strongly interwoven aspects of vascular physiology and vascular medicine. We aimed to connect these within a horizontally integrated laboratory class on vascular physiology of the leg that was designed in cooperation between the departments of physiology and vascular surgery. Conceptually, we applied examination techniques of vascular medicine to visualize physiological parameters that are altered by the most frequent diseases. This facilitates integrative discussions on malfunctions, trains diagnostic skills, and bridges to vascular medicine. In four experiments, we use oscillometry and impedance venous occlusion plethysmography to address key aspects of the arterial and venous system of the legs: 1) arterial pulse wave, 2) arterial systolic blood pressure, 3) venous capacitance and venous outflow, and 4) reactive hyperemia. After the experiments, physiological vascular function, the associated diseases, their impact on the recorded parameters, and diagnostic options are discussed. To allow reproduction, we describe the course structure and the experimental setup in detail. We present the experimental data of a cohort of medical students and document learning success and student satisfaction. All experiments were feasible and provided robust data on physiologically and clinically relevant vascular functions. The activity was perceived positively by the students and led to a substantial improvement of knowledge. With this work, we offer a template for reproduction or variation of a proven concept of horizontally integrated teaching of vascular physiology of the leg.NEW & NOTEWORTHY This article presents an integrative laboratory class on vascular physiology bridging to vascular medicine. The four experiments rely on oscillometry and venous occlusion plethysmography. We describe in detail this new class regarding structure, experimental setup, and experimental procedure, and we give insight into the applied materials. Moreover, we present the experimental data of 74 students and a quantitative evaluation of the students' learning success and acceptance.

AB - Vascular diseases of the legs are highly prevalent and constitute an important part of medical curricula. The understanding of these diseases relies on strongly interwoven aspects of vascular physiology and vascular medicine. We aimed to connect these within a horizontally integrated laboratory class on vascular physiology of the leg that was designed in cooperation between the departments of physiology and vascular surgery. Conceptually, we applied examination techniques of vascular medicine to visualize physiological parameters that are altered by the most frequent diseases. This facilitates integrative discussions on malfunctions, trains diagnostic skills, and bridges to vascular medicine. In four experiments, we use oscillometry and impedance venous occlusion plethysmography to address key aspects of the arterial and venous system of the legs: 1) arterial pulse wave, 2) arterial systolic blood pressure, 3) venous capacitance and venous outflow, and 4) reactive hyperemia. After the experiments, physiological vascular function, the associated diseases, their impact on the recorded parameters, and diagnostic options are discussed. To allow reproduction, we describe the course structure and the experimental setup in detail. We present the experimental data of a cohort of medical students and document learning success and student satisfaction. All experiments were feasible and provided robust data on physiologically and clinically relevant vascular functions. The activity was perceived positively by the students and led to a substantial improvement of knowledge. With this work, we offer a template for reproduction or variation of a proven concept of horizontally integrated teaching of vascular physiology of the leg.NEW & NOTEWORTHY This article presents an integrative laboratory class on vascular physiology bridging to vascular medicine. The four experiments rely on oscillometry and venous occlusion plethysmography. We describe in detail this new class regarding structure, experimental setup, and experimental procedure, and we give insight into the applied materials. Moreover, we present the experimental data of 74 students and a quantitative evaluation of the students' learning success and acceptance.

U2 - 10.1152/advan.00170.2022

DO - 10.1152/advan.00170.2022

M3 - SCORING: Journal article

C2 - 36476117

VL - 47

SP - 97

EP - 116

JO - ADV PHYSIOL EDUC

JF - ADV PHYSIOL EDUC

SN - 1043-4046

IS - 1

ER -