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6. Frequently asked questions in hypoxia research

Author

Wenger RH, Kurtcuoglu V, Scholz CC, Marti HH, and Hoogewijs D

Subjects
lcsh:R5-920, lcsh:Medicine (General)
Abstract

Roland H Wenger,1,2 Vartan Kurtcuoglu,1,2 Carsten C Scholz,1,2 Hugo H Marti,3 David Hoogewijs1,2,4 1Institute of Physiology and Zurich Center for Human Physiology (ZIHP), University of Zurich, 2National Center of Competence in Research “Kidney.CH”, Zurich, Switzerland; 3Institute of Physiology and Pathophysiology, University of Heidelberg, Heidelberg, 4Institute of Physiology, University of Duisburg-Essen, Essen, Germany Abstract: “What is the O2 concentration in a normoxic cell culture incubator?” This and other frequently asked questions in hypoxia research will be answered in this review. Our intention is to give a simple introduction to the physics of gases that would be helpful for newcomers to the field of hypoxia research. We will provide background knowledge about questions often asked, but without straightforward answers. What is O2 concentration, and what is O2 partial pressure? What is normoxia, and what is hypoxia? How much O2 is experienced by a cell residing in a culture dish in vitro vs in a tissue in vivo? By the way, the O2 concentration in a normoxic incubator is 18.6%, rather than 20.9% or 20%, as commonly stated in research publications. And this is strictly only valid for incubators at sea level. Keywords: gas laws, hypoxia-inducible factor, Krogh tissue cylinder, oxygen diffusion, partial pressure, tissue oxygen levels

Published
2015

8. Abstracts from Hydrocephalus 2016

Author

Adam, A., primary, Robison, J., additional, Lu, J., additional, Jose, R., additional, Badran, N., additional, Vivas-Buitrago, T., additional, Rigamonti, D., additional, Sattar, A., additional, Omoush, O., additional, Hammad, M., additional, Dawood, M., additional, Maghaslah, M., additional, Belcher, T., additional, Carson, K., additional, Hoffberger, J., additional, Jusué Torres, I., additional, Foley, S., additional, Yasar, S., additional, Thai, Q. A., additional, Wemmer, J., additional, Klinge, P., additional, Al-Mutawa, L., additional, Al-Ghamdi, H., additional, Carson, K. A., additional, Asgari, M., additional, de Zélicourt, D., additional, Kurtcuoglu, V., additional, Garnotel, S., additional, Salmon, S., additional, Balédent, O., additional, Lokossou, A., additional, Page, G., additional, Balardy, L., additional, Czosnyka, Z., additional, Payoux, P., additional, Schmidt, E. A., additional, Zitoun, M., additional, Sevestre, M. A., additional, Alperin, N., additional, Baudracco, I., additional, Craven, C., additional, Matloob, S., additional, Thompson, S., additional, Haylock Vize, P., additional, Thorne, L., additional, Watkins, L. D., additional, Toma, A. K., additional, Bechter, Karl, additional, Pong, A. C., additional, Jugé, L., additional, Bilston, L. E., additional, Cheng, S., additional, Bradley, W., additional, Hakim, F., additional, Ramón, J. F., additional, Cárdenas, M. F., additional, Davidson, J. S., additional, García, C., additional, González, D., additional, Bermúdez, S., additional, Useche, N., additional, Mejía, J. A., additional, Mayorga, P., additional, Cruz, F., additional, Martinez, C., additional, Matiz, M. C., additional, Vallejo, M., additional, Ghotme, K., additional, Soto, H. A., additional, Riveros, D., additional, Buitrago, A., additional, Mora, M., additional, Murcia, L., additional, Bermudez, S., additional, Cohen, D., additional, Dasgupta, D., additional, Curtis, C., additional, Domínguez, L., additional, Remolina, A. J., additional, Grijalba, M. A., additional, Whitehouse, K. J., additional, Edwards, R. J., additional, Eleftheriou, A., additional, Lundin, F., additional, Fountas, K. N., additional, Kapsalaki, E. Z., additional, Smisson, H. F., additional, Robinson, J. S., additional, Fritsch, M. J., additional, Arouk, W., additional, Garzon, M., additional, Kang, M., additional, Sandhu, K., additional, Baghawatti, D., additional, Aquilina, K., additional, James, G., additional, Thompson, D., additional, Gehlen, M., additional, Schmid Daners, M., additional, Eklund, A., additional, Malm, J., additional, Gomez, D., additional, Guerra, M., additional, Jara, M., additional, Flores, M., additional, Vío, K., additional, Moreno, I., additional, Rodríguez, S., additional, Ortega, E., additional, Rodríguez, E. M., additional, McAllister, J. P., additional, Guerra, M. M., additional, Morales, D. M., additional, Sival, D., additional, Jimenez, A., additional, Limbrick, D. D., additional, Ishikawa, M., additional, Yamada, S., additional, Yamamoto, K., additional, Junkkari, A., additional, Häyrinen, A., additional, Rauramaa, T., additional, Sintonen, H., additional, Nerg, O., additional, Koivisto, A. M., additional, Roine, R. P., additional, Viinamäki, H., additional, Soininen, H., additional, Luikku, A., additional, Jääskeläinen, J. E., additional, Leinonen, V., additional, Kehler, U., additional, Lilja-Lund, O., additional, Kockum, K., additional, Larsson, E. M., additional, Riklund, K., additional, Söderström, L., additional, Hellström, P., additional, Laurell, K., additional, Kojoukhova, M., additional, Sutela, A., additional, Vanninen, R., additional, Vanha, K. I., additional, Timonen, M., additional, Rummukainen, J., additional, Korhonen, V., additional, Helisalmi, S., additional, Solje, E., additional, Remes, A. M., additional, Huovinen, J., additional, Paananen, J., additional, Hiltunen, M., additional, Kurki, M., additional, Martin, B., additional, Loth, F., additional, Luciano, M., additional, Luikku, A. J., additional, Hall, A., additional, Herukka, S. K., additional, Mattila, J., additional, Lötjönen, J., additional, Alafuzoff, I., additional, Jurjević, I., additional, Miyajima, M., additional, Nakajima, M., additional, Murai, H., additional, Shin, T., additional, Kawaguchi, D., additional, Akiba, C., additional, Ogino, I., additional, Karagiozov, K., additional, Arai, H, additional, Reis, R. C., additional, Teixeira, M. J., additional, Valêncio, C. G., additional, da Vigua, D., additional, Almeida-Lopes, L., additional, Mancini, M. W., additional, Pinto, F. C. G., additional, Maykot, R. H., additional, Calia, G., additional, Tornai, J., additional, Silvestre, S. S. S., additional, Mendes, G., additional, Sousa, V., additional, Bezerra, B., additional, Dutra, P., additional, Modesto, P., additional, Oliveira, M. F., additional, Petitto, C. E., additional, Pulhorn, H., additional, Chandran, A., additional, McMahon, C., additional, Rao, A. S., additional, Jumaly, M., additional, Solomon, D., additional, Moghekar, A., additional, Relkin, N., additional, Hamilton, M., additional, Katzen, H., additional, Williams, M., additional, Bach, T., additional, Zuspan, S., additional, Holubkov, R., additional, Rigamonti, A., additional, Clemens, G., additional, Sharkey, P., additional, Sanyal, A., additional, Sankey, E., additional, Rigamonti, K., additional, Naqvi, S., additional, Hung, A., additional, Schmidt, E., additional, Ory-Magne, F., additional, Gantet, P., additional, Guenego, A., additional, Januel, A. C., additional, Tall, P., additional, Fabre, N., additional, Mahieu, L., additional, Cognard, C., additional, Gray, L., additional, Buttner-Ennever, J. A., additional, Takagi, K., additional, Onouchi, K, additional, Thompson, S. D., additional, Thorne, L. D., additional, Tully, H. M., additional, Wenger, T. L., additional, Kukull, W. A., additional, Doherty, D., additional, Dobyns, W. B., additional, Moran, D., additional, Vakili, S., additional, Patel, M. A., additional, Elder, B., additional, Goodwin, C. R., additional, Crawford, J. A., additional, Pletnikov, M. V., additional, Xu, J., additional, Blitz, A., additional, Herzka, D. A., additional, Guerrero-Cazares, H., additional, Quiñones-Hinojosa, A., additional, Mori, S., additional, Saavedra, P., additional, Treviño, H., additional, Maitani, K., additional, Ziai, W. C., additional, Eslami, V., additional, Nekoovaght-Tak, S., additional, Dlugash, R., additional, Yenokyan, G., additional, McBee, N., additional, and Hanley, D. F., additional

Published
2017
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9. Abstracts from Hydrocephalus 2016.

Author

Adam, A, Robison, J, Lu, J, Jose, R, Badran, N, Vivas-Buitrago, T, Rigamonti, D, Sattar, A, Omoush, O, Hammad, M, Dawood, M, Maghaslah, M, Belcher, T, Carson, K, Hoffberger, J, Jusué Torres, I, Foley, S, Yasar, S, Thai, Q A, Wemmer, J, Klinge, P, Al-Mutawa, L, Al-Ghamdi, H, Carson, K A, Asgari, M, de Zélicourt, D, Kurtcuoglu, V, Garnotel, S, Salmon, S, Balédent, O, Lokossou, A, Page, G, Balardy, L, Czosnyka, Z, Payoux, P, Schmidt, E A, Zitoun, M, Sevestre, M A, Alperin, N, Baudracco, I, Craven, C, Matloob, S, Thompson, S, Haylock Vize, P, Thorne, L, Watkins, L D, Toma, A K, Bechter, Karl, Pong, A C, Jugé, L, Bilston, L E, Cheng, S, Bradley, W, Hakim, F, Ramón, J F, Cárdenas, M F, Davidson, J S, García, C, González, D, Bermúdez, S, Useche, N, Mejía, J A, Mayorga, P, Cruz, F, Martinez, C, Matiz, M C, Vallejo, M, Ghotme, K, Soto, H A, Riveros, D, Buitrago, A, Mora, M, Murcia, L, Bermudez, S, Cohen, D, Dasgupta, D, Curtis, C, Domínguez, L, Remolina, A J, Grijalba, M A, Whitehouse, K J, Edwards, R J, Eleftheriou, A, Lundin, F, Fountas, K N, Kapsalaki, E Z, Smisson, H F, Robinson, J S, Fritsch, M J, Arouk, W, Garzon, M, Kang, M, Sandhu, K, Baghawatti, D, Aquilina, K, James, G, Thompson, D, Gehlen, M, Schmid Daners, M, Eklund, A, Malm, J, Gomez, D, Guerra, M, Jara, M, Flores, M, Vío, K, Moreno, I, Rodríguez, S, Ortega, E, Rodríguez, E M, McAllister, J P, Guerra, M M, Morales, D M, Sival, D, Jimenez, A, Limbrick, D D, Ishikawa, M, Yamada, S, Yamamoto, K, Junkkari, A, Häyrinen, A, Rauramaa, T, Sintonen, H, Nerg, O, Koivisto, A M, Roine, R P, Viinamäki, H, Soininen, H, Luikku, A, Jääskeläinen, J E, Leinonen, V, Kehler, U, Lilja-Lund, O, Kockum, K, Larsson, Elna-Marie, Riklund, K, Söderström, L, Hellström, P, Laurell, K, Kojoukhova, M, Sutela, A, Vanninen, R, Vanha, K I, Timonen, M, Rummukainen, J, Korhonen, V, Helisalmi, S, Solje, E, Remes, A M, Huovinen, J, Paananen, J, Hiltunen, M, Kurki, M, Martin, B, Loth, F, Luciano, M, Luikku, A J, Hall, A, Herukka, S K, Mattila, J, Lötjönen, J, Alafuzoff, Irina, Jurjević, I, Miyajima, M, Nakajima, M, Murai, H, Shin, T, Kawaguchi, D, Akiba, C, Ogino, I, Karagiozov, K, Arai, H, Reis, R C, Teixeira, M J, Valêncio, C G, da Vigua, D, Almeida-Lopes, L, Mancini, M W, Pinto, F C G, Maykot, R H, Calia, G, Tornai, J, Silvestre, S S S, Mendes, G, Sousa, V, Bezerra, B, Dutra, P, Modesto, P, Oliveira, M F, Petitto, C E, Pulhorn, H, Chandran, A, McMahon, C, Rao, A S, Jumaly, M, Solomon, D, Moghekar, A, Relkin, N, Hamilton, M, Katzen, H, Williams, M, Bach, T, Zuspan, S, Holubkov, R, Rigamonti, A, Clemens, G, Sharkey, P, Sanyal, A, Sankey, E, Rigamonti, K, Naqvi, S, Hung, A, Schmidt, E, Ory-Magne, F, Gantet, P, Guenego, A, Januel, A C, Tall, P, Fabre, N, Mahieu, L, Cognard, C, Gray, L, Buttner-Ennever, J A, Takagi, K, Onouchi, K, Thompson, S D, Thorne, L D, Tully, H M, Wenger, T L, Kukull, W A, Doherty, D, Dobyns, W B, Moran, D, Vakili, S, Patel, M A, Elder, B, Goodwin, C R, Crawford, J A, Pletnikov, M V, Xu, J, Blitz, A, Herzka, D A, Guerrero-Cazares, H, Quiñones-Hinojosa, A, Mori, S, Saavedra, P, Treviño, H, Maitani, K, Ziai, W C, Eslami, V, Nekoovaght-Tak, S, Dlugash, R, Yenokyan, G, McBee, N, Hanley, D F, Adam, A, Robison, J, Lu, J, Jose, R, Badran, N, Vivas-Buitrago, T, Rigamonti, D, Sattar, A, Omoush, O, Hammad, M, Dawood, M, Maghaslah, M, Belcher, T, Carson, K, Hoffberger, J, Jusué Torres, I, Foley, S, Yasar, S, Thai, Q A, Wemmer, J, Klinge, P, Al-Mutawa, L, Al-Ghamdi, H, Carson, K A, Asgari, M, de Zélicourt, D, Kurtcuoglu, V, Garnotel, S, Salmon, S, Balédent, O, Lokossou, A, Page, G, Balardy, L, Czosnyka, Z, Payoux, P, Schmidt, E A, Zitoun, M, Sevestre, M A, Alperin, N, Baudracco, I, Craven, C, Matloob, S, Thompson, S, Haylock Vize, P, Thorne, L, Watkins, L D, Toma, A K, Bechter, Karl, Pong, A C, Jugé, L, Bilston, L E, Cheng, S, Bradley, W, Hakim, F, Ramón, J F, Cárdenas, M F, Davidson, J S, García, C, González, D, Bermúdez, S, Useche, N, Mejía, J A, Mayorga, P, Cruz, F, Martinez, C, Matiz, M C, Vallejo, M, Ghotme, K, Soto, H A, Riveros, D, Buitrago, A, Mora, M, Murcia, L, Bermudez, S, Cohen, D, Dasgupta, D, Curtis, C, Domínguez, L, Remolina, A J, Grijalba, M A, Whitehouse, K J, Edwards, R J, Eleftheriou, A, Lundin, F, Fountas, K N, Kapsalaki, E Z, Smisson, H F, Robinson, J S, Fritsch, M J, Arouk, W, Garzon, M, Kang, M, Sandhu, K, Baghawatti, D, Aquilina, K, James, G, Thompson, D, Gehlen, M, Schmid Daners, M, Eklund, A, Malm, J, Gomez, D, Guerra, M, Jara, M, Flores, M, Vío, K, Moreno, I, Rodríguez, S, Ortega, E, Rodríguez, E M, McAllister, J P, Guerra, M M, Morales, D M, Sival, D, Jimenez, A, Limbrick, D D, Ishikawa, M, Yamada, S, Yamamoto, K, Junkkari, A, Häyrinen, A, Rauramaa, T, Sintonen, H, Nerg, O, Koivisto, A M, Roine, R P, Viinamäki, H, Soininen, H, Luikku, A, Jääskeläinen, J E, Leinonen, V, Kehler, U, Lilja-Lund, O, Kockum, K, Larsson, Elna-Marie, Riklund, K, Söderström, L, Hellström, P, Laurell, K, Kojoukhova, M, Sutela, A, Vanninen, R, Vanha, K I, Timonen, M, Rummukainen, J, Korhonen, V, Helisalmi, S, Solje, E, Remes, A M, Huovinen, J, Paananen, J, Hiltunen, M, Kurki, M, Martin, B, Loth, F, Luciano, M, Luikku, A J, Hall, A, Herukka, S K, Mattila, J, Lötjönen, J, Alafuzoff, Irina, Jurjević, I, Miyajima, M, Nakajima, M, Murai, H, Shin, T, Kawaguchi, D, Akiba, C, Ogino, I, Karagiozov, K, Arai, H, Reis, R C, Teixeira, M J, Valêncio, C G, da Vigua, D, Almeida-Lopes, L, Mancini, M W, Pinto, F C G, Maykot, R H, Calia, G, Tornai, J, Silvestre, S S S, Mendes, G, Sousa, V, Bezerra, B, Dutra, P, Modesto, P, Oliveira, M F, Petitto, C E, Pulhorn, H, Chandran, A, McMahon, C, Rao, A S, Jumaly, M, Solomon, D, Moghekar, A, Relkin, N, Hamilton, M, Katzen, H, Williams, M, Bach, T, Zuspan, S, Holubkov, R, Rigamonti, A, Clemens, G, Sharkey, P, Sanyal, A, Sankey, E, Rigamonti, K, Naqvi, S, Hung, A, Schmidt, E, Ory-Magne, F, Gantet, P, Guenego, A, Januel, A C, Tall, P, Fabre, N, Mahieu, L, Cognard, C, Gray, L, Buttner-Ennever, J A, Takagi, K, Onouchi, K, Thompson, S D, Thorne, L D, Tully, H M, Wenger, T L, Kukull, W A, Doherty, D, Dobyns, W B, Moran, D, Vakili, S, Patel, M A, Elder, B, Goodwin, C R, Crawford, J A, Pletnikov, M V, Xu, J, Blitz, A, Herzka, D A, Guerrero-Cazares, H, Quiñones-Hinojosa, A, Mori, S, Saavedra, P, Treviño, H, Maitani, K, Ziai, W C, Eslami, V, Nekoovaght-Tak, S, Dlugash, R, Yenokyan, G, McBee, N, and Hanley, D F

Published
2017
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11. The role of the carotid sinus in the reduction of arterial wall stresses due to head movements--potential implications for cervical artery dissection

Author

Callaghan, F M, Soellinger, M, Baumgartner, R W, Poulikakos, D, Boesiger, P, Kurtcuoglu, V, University of Zurich, and Kurtcuoglu, V

Subjects
170 Ethics, 2742 Rehabilitation, 2732 Orthopedics and Sports Medicine, 2204 Biomedical Engineering, 610 Medicine & health, 10237 Institute of Biomedical Engineering, 10040 Clinic for Neurology, 1304 Biophysics
Published
2009

13. Compound Ex Vivo and In Silico Method for Hemodynamic Analysis of Stented Arteries

Author

Schulz, C, Rikhtegar, F, Pacheco, F, Wyss, C, Stok, KS, Ge, H, Choo, RJ, Ferrari, A, Poulikakos, D, Mueller, R, Kurtcuoglu, V, Schulz, C, Rikhtegar, F, Pacheco, F, Wyss, C, Stok, KS, Ge, H, Choo, RJ, Ferrari, A, Poulikakos, D, Mueller, R, and Kurtcuoglu, V

Abstract

Hemodynamic factors such as low wall shear stress have been shown to influence endothelial healing and atherogenesis in stent-free vessels. However, in stented vessels, a reliable quantitative analysis of such relations has not been possible due to the lack of a suitable method for the accurate acquisition of blood flow. The objective of this work was to develop a method for the precise reconstruction of hemodynamics and quantification of wall shear stress in stented vessels. We have developed such a method that can be applied to vessels stented in or ex vivo and processed ex vivo. Here we stented the coronary arteries of ex vivo porcine hearts, performed vascular corrosion casting, acquired the vessel geometry using micro-computed tomography and reconstructed blood flow and shear stress using computational fluid dynamics. The method yields accurate local flow information through anatomic fidelity, capturing in detail the stent geometry, arterial tissue prolapse, radial and axial arterial deformation as well as strut malapposition. This novel compound method may serve as a unique tool for spatially resolved analysis of the relationship between hemodynamic factors and vascular biology. It can further be employed to optimize stent design and stenting strategies.

Published
2013

14. Long-term follow-up, computed tomography, and computational fluid dynamics of the Cabrol procedure

Author

Knight, J, Baumüller, S, Kurtcuoglu, V, Turina, M, Turina, J, Schurr, U, Poulikakos, D, Marshall Jr, W, Alkadhi, H, Knight, J, Baumüller, S, Kurtcuoglu, V, Turina, M, Turina, J, Schurr, U, Poulikakos, D, Marshall Jr, W, and Alkadhi, H

Abstract

OBJECTIVES: The Cabrol procedure is characterized by insertion of an ascending aortic composite graft with reimplantation of the coronary arteries by the interposition of a graft tube. Our purpose is to report the clinical long-term follow-up and computed tomographic findings in patients having undergone the Cabrol procedure and to determine blood flow in the Cabrol graft using computational fluid dynamics. METHODS: Clinical follow-up (76.6 +/- 16.6 months) and dual-source computed tomographic angiography data of 7 patients (all men, mean age 54.9 +/- 9.6 years) with 12 Cabrol grafts (left main coronary artery, n = 7; right coronary artery, n = 5) were reviewed. In 2 patients, the right coronary artery was directly reattached to the aortic graft. Computational fluid dynamics were calculated using computed tomographic data of a patient with the Cabrol procedure and compared with those in a Valsalva graft and a healthy aortic root. RESULTS: Computed tomography showed Cabrol graft occlusions to 1 of 7 (14%) left main and of 2 of 5 (40%) right coronary arteries. Six grafts to the left main and 3 to the right coronary artery were fully patent, similar to the 2 directly reattached right coronary arteries to the aortic graft. Computational fluid dynamics results show similar blood flow parameters into the coronaries for the healthy aortic root and Valsalva graft. In the Cabrol graft, a spiraling flow pattern with low flow into the right coronary artery was found (right coronary artery = 1 mL/min at both systole and diastole). CONCLUSIONS: Our study indicates low flow rates particularly in the right Cabrol graft correlating with a higher incidence of occlusions of the right as compared with the left Cabrol graft at long-term follow-up.

Published
2010

20. Remodelling of the aortic root in severe tricuspid aortic stenosis: implications for transcatheter aortic valve implantation.

Author

Stolzmann P, Knight J, Desbiolles L, Maier W, Scheffel H, Plass A, Kurtcuoglu V, Leschka S, Poulikakos D, Marincek B, Alkadhi H, Stolzmann, Paul, Knight, Joseph, Desbiolles, Lotus, Maier, Willibald, Scheffel, Hans, Plass, André, Kurtcuoglu, Vartan, Leschka, Sebastian, and Poulikakos, Dimos

Abstract

Detailed knowledge of aortic root geometry is a prerequisite to anticipate complications of transcatheter aortic valve (TAV) implantation. We determined coronary ostial locations and aortic root dimensions in patients with aortic stenosis (AS) and compared these values with normal subjects using computed tomography (CT). One hundred consecutive patients with severe tricuspid AS and 100 consecutive patients without valvular pathology (referred to as the controls) undergoing cardiac dual-source CT were included. Distances from the aortic annulus (AA) to the left coronary ostium (LCO), right coronary ostium (RCO), the height of the left coronary sinus (HLS), right coronary sinus (HRS), and aortic root dimensions [diameters of AA, sinus of Valsalva (SV), and sino-tubular junction (STJ)] were measured. LCO and RCO were 14.9 +/- 3.2 mm (8.2-25.9) and 16.8 +/- 3.6 mm (12.0-25.7) in the controls, 15.5 +/- 2.9 mm (8.8-24.3) and 17.3 +/- 3.6 mm (7.3-26.0) in patients with AS. Controls and patients with AS had similar values for LCO (P = 0.18), RCO (P = 0.33) and HLS (P = 0.88), whereas HRS (P < 0.05) was significantly larger in patients with AS. AA (r = 0.55,P < 0.001), SV (r = 0.54,P < 0.001), and STJ (r = 0.52,P < 0.001) significantly correlated with the body surface area in the controls; whereas no correlation was found in patients with AS. Patients with AS had significantly larger AA (P < 0.01) and STJ (P < 0.01) diameters when compared with the controls. In patients with severe tricuspid AS, coronary ostial locations were similar to the controls, but a transverse remodelling of the aortic root was recognized. Owing to the large distribution of ostial locations and the dilatation of the aortic root, CT is recommended before TAV implantation in each patient. [ABSTRACT FROM AUTHOR]

Published
2009
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24. Computed high concentrations of low-density lipoprotein correlate with plaque locations in human coronary arteries

Author

Stefan Saur, Hatem Alkadhi, Joseph Knight, Lotus Desbiolles, Philippe C. Cattin, Dimos Poulikakos, Ufuk Olgac, Vartan Kurtcuoglu, University of Zurich, and Kurtcuoglu, V

Subjects
medicine.medical_specialty, Endothelium, Biomedical Engineering, Biophysics, 2204 Biomedical Engineering, Artery walls, 610 Medicine & health, Coronary artery disease, chemistry.chemical_compound, 2732 Orthopedics and Sports Medicine, Internal medicine, medicine.artery, Humans, Medicine, Computer Simulation, Orthopedics and Sports Medicine, Computed tomography angiography, medicine.diagnostic_test, 10042 Clinic for Diagnostic and Interventional Radiology, business.industry, Rehabilitation, medicine.disease, Coronary Vessels, Plaque, Atherosclerotic, Coronary arteries, 2742 Rehabilitation, medicine.anatomical_structure, chemistry, Low-density lipoprotein, Right coronary artery, Cardiology, Lipoproteins, HDL, business, 1304 Biophysics, Lipoprotein
Abstract

Subendothelial accumulation of low-density lipoprotein (LDL) in arterial walls is an initiator of atherosclerotic plaque formation. We report here on the correlation between healthy state subendothelial LDL concentration distribution and sites of subsequent plaque formation in coronary arteries of patients with coronary artery disease (CAD). We acquired left (LCA) and right coronary artery (RCA) and atherosclerotic plaque geometries of 60 patients with CAD using dual-source computed tomography angiography. After virtually removing all plaques to obtain an approximation of the arteries' healthy state, we calculated LDL concentration in the artery walls as a function of local lumen-side shear stress. We found that maximum subendothelial LDL concentrations at plaque locations were, on average, 45% (RCA) and 187% (LCA) higher than the respective average subendothelial concentration. Our results demonstrate that locally elevated subendothelial LDL concentration correlates with subsequent plaque formation at the same location.

Published
2011
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25. Choosing the optimal wall shear parameter for the prediction of plaque location—A patient-specific computational study in human right coronary arteries

Author

Joseph Knight, Ufuk Olgac, Stefan C. Saur, Dimos Poulikakos, William Marshall, Philippe C. Cattin, Hatem Alkadhi, Vartan Kurtcuoglu, University of Zurich, and Kurtcuoglu, V

Subjects
Aged, 80 and over, Male, 10042 Clinic for Diagnostic and Interventional Radiology, Cardiology, Reproducibility of Results, 610 Medicine & health, Middle Aged, Coronary Angiography, Coronary Vessels, Plaque, Atherosclerotic, 2705 Cardiology and Cardiovascular Medicine, Predictive Value of Tests, Humans, Female, Stress, Mechanical, Tomography, X-Ray Computed, Cardiology and Cardiovascular Medicine, Software, Aged
Abstract

Average wall shear-stress (AWSS), average wall shear-stress gradient (AWSSG), oscillatory shear index (OSI) and relative residence time (RRT) are believed to predict areas vulnerable to plaque formation in the coronary arteries. Our aim was to analyze the correlation of these parameters in patients' vessels before the onset of atherosclerosis to the specific plaque sites thereafter, and to compare the parameters' sensitivity and positive predictive value.We obtained 30 patient-specific geometries (mean age 67.1 (+ or - 9.2) years, all with stable angina) of the right coronary artery (RCA) using dual-source computed tomography (CT) and virtually removed any plaque present. We then performed computational fluid dynamics (CFD) simulations to calculate the wall shear parameters.For the 120 total plaques, AWSS had on average a higher sensitivity for the prediction of plaque locations (72 + or - 25%) than AWSSG (68 + or - 36%), OSI (60 + or - 30%, p0.05), and RRT (69 + or - 59%); while OSI had a higher positive predict value (PPV) (68 + or - 34%) than AWSS (47 + or - 27%, p0.001), AWSSG (37 + or - 23, p0.001) and RRT (59 + or - 34%). A significant difference was also found between AWSSG and RRT (p0.01) concerning PPV.OSI and RRT are the optimal parameters when the number of false positives is to be minimized. AWSS accurately identifies the largest number of plaques, but produces more false positives than OSI and RRT.

Published
2010
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26. Cerebrospinal fluid dynamics in the human cranial subarachnoid space: an overlooked mediator of cerebral disease. I. Computational model

Author

John Biddiscombe, Vartan Kurtcuoglu, Deborah M. Grzybowski, Peter Boesiger, Sumeet Gupta, Michaela Soellinger, Dimos Poulikakos, University of Zurich, and Kurtcuoglu, V

Subjects
Adult, Male, Pathology, medicine.medical_specialty, 1303 Biochemistry, Biomedical Engineering, Biophysics, 2204 Biomedical Engineering, 610 Medicine & health, Bioengineering, Biochemistry, Subarachnoid Space, 030218 nuclear medicine & medical imaging, 170 Ethics, Biomaterials, Pathogenesis, 03 medical and health sciences, 0302 clinical medicine, Cerebrospinal fluid, Mediator, Research articles, In vivo, medicine, Humans, Computer Simulation, 10237 Institute of Biomedical Engineering, Pathological, Intracranial pressure, 1502 Bioengineering, medicine.diagnostic_test, business.industry, Skull, 2502 Biomaterials, Brain, Magnetic resonance imaging, Magnetic Resonance Imaging, medicine.anatomical_structure, 1305 Biotechnology, Subarachnoid space, business, 030217 neurology & neurosurgery, 1304 Biophysics, Biotechnology
Abstract

Abnormal cerebrospinal fluid (CSF) flow is suspected to be a contributor to the pathogenesis of neurodegenerative diseases such as Alzheimer's through the accumulation of toxic metabolites, and to the malfunction of intracranial pressure regulation, possibly through disruption of neuroendocrine communication. For the understanding of transport processes involved in either, knowledge of in vivo CSF dynamics is important. We present a three-dimensional, transient, subject-specific computational analysis of CSF flow in the human cranial subarachnoid space (SAS) based on in vivo magnetic resonance imaging. We observed large variations in the spatial distribution of flow velocities with a temporal peak of 5 cm s −1 in the anterior SAS and less than 4 mm s −1 in the superior part. This could reflect dissimilar flushing requirements of brain areas that may show differences in susceptibility to pathological CSF flow. Our methods can be used to compare the transport of metabolites and neuroendocrine substances in healthy and diseased brains.

Published
2010
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28. Cerebrospinal fluid dynamics and subarachnoid space occlusion following traumatic spinal cord injury in the pig: an investigation using magnetic resonance imaging.

Author

Bessen MA, Gayen CD, Doig RLO, Dorrian RM, Quarrington RD, Mulaibrahimovic A, Kurtcuoglu V, Walls AC, Leonard AV, and Jones CF

Subjects
Animals, Swine, Female, Cerebrospinal Fluid diagnostic imaging, Hydrodynamics, Disease Models, Animal, Spinal Cord Injuries diagnostic imaging, Spinal Cord Injuries physiopathology, Spinal Cord Injuries cerebrospinal fluid, Subarachnoid Space diagnostic imaging, Magnetic Resonance Imaging
Abstract

Background: Traumatic spinal cord injury (SCI) causes spinal cord swelling and occlusion of the subarachnoid space (SAS). SAS occlusion can change pulsatile cerebrospinal fluid (CSF) dynamics, which could have acute clinical management implications. This study aimed to characterise SAS occlusion and investigate CSF dynamics over 14 days post-SCI in the pig., Methods: A thoracic contusion SCI was induced in female domestic pigs (22-29 kg) via a weight drop apparatus (N = 5, 10 cm; N = 5, 20 cm). Magnetic resonance imaging (MRI) was performed pre-SCI and 3, 7 and 14 days post-SCI. SAS occlusion length (cranial-caudal), and injury site SAS area (cross-sectional), were measured on T2-weighted MRI. CSF dynamics, specifically peak cranial/caudal mean velocity (cm/s), and the corresponding time to peak (% of cardiac cycle), were measured on cardiac gated, axial phase-contrast MRI obtained at C2/C3, T8/T9, T11/T12 and L1/L2. Linear-mixed effects models, with a significance level of α = 0.05, were developed to assess the effect of: (1) injury group and time point on SAS occlusion measures; and (2), time point and spinal level, adjusted by injury group, on CSF dynamics., Results: For both injury groups, SAS occlusion length decreased from 3 to 7 days post-SCI, and 7 to 14 days post-SCI. The cross-sectional SAS area decreased after SCI, and increased to 14 days post-SCI, in both groups. At all spinal levels, peak cranial/caudal mean velocity and the time to peak caudal mean velocity decreased at day 3 post-SCI. From 3 to 14 days post-SCI, peak caudal mean velocity and the time to peak caudal mean velocity increased towards baseline values, at all spinal levels., Conclusions: Spinal-level specific changes to CSF dynamics, with concurrent changes to SAS occlusion, occurred after SCI in the pig, suggesting that CSF pulsatility and craniospinal compliance were altered in the sub-acute post-traumatic period. These results suggest that PC-MRI derived CSF dynamics may provide a non-invasive method to investigate functional alterations to the spinal intrathecal space following traumatic SCI., Competing Interests: Declarations. Ethics approval and consent to participate: This project was approved by the South Australian Health and Medical Research Institute Animal Ethics Committee (SAM 243 and SAM-22-031) and conducted in accordance with the Australian National Health and Medical Research Council Code of Care and Use of Animals for Scientific Purposes [54]. Consent for publication: Not applicable. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published
2025
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29. Cerebrospinal fluid pressure dynamics across the intra- and postoperative setting: Retrospective study of a spine surgery cohort.

Author

Kheram N, Boraschi A, Aguirre J, Farshad M, Pfender N, Curt A, Schubert M, Kurtcuoglu V, and Zipser CM

Subjects
Adult, Aged, Female, Humans, Male, Middle Aged, Cervical Vertebrae surgery, Cohort Studies, Postoperative Period, Retrospective Studies, Cerebrospinal Fluid Pressure physiology, Decompression, Surgical methods
Abstract

Timely and sufficient decompression are critical objectives in degenerative cervical myelopathy (DCM) and spinal cord injury (SCI). We previously investigated intraoperative cerebrospinal fluid pressure (CSFP) for determining surgical outcomes. However, confounding factors during the intra- and postoperative setting need consideration. These are related to type of respiration (i.e., artificial vs. natural) and anesthesia, which affect CSFP dynamics through the interaction between the cardiorespiratory system and the CSF compartment. This retrospective cohort study (NCT02170155) aims to systematically investigate these factors to facilitate CSFP interpretation. CSFP was continuously measured through a lumbar catheter, intra- and postoperatively, in 21 patients with DCM undergoing decompression surgery. Mean CSFP and cardiac-driven CSFP peak-to-valley amplitude (CSFPp) were analyzed throughout the perioperative period, including the immediate extubation period in eight patients. Intraoperative mean CSFP had a median value and {interquartile range} of 10.8 {5.5} mmHg and increased 1.6-fold to 16.9 {7.1} mmHg postoperatively (p < 0.001). CSFPp increased 3-fold from 0.6 {0.7} to 1.8 {2.5} mmHg (p = 0.001). Increased CSFP persisted overnight. During extubation, there was a notable increase in CSFP and CSFPp of 14.0 {5.8} and 5.1 {3.1} mmHg, respectively. From case-based analysis, this was attributed to an arterial pCO 2 increase. There was no correlation between respirator settings and CSFP metrics. There were distinct and quantifiable changes in CSFP dynamics from the intra- to postoperative setting related to type of respiration, anesthesia, and level of consciousness. When monitoring CSFP dynamics in spine surgery across these settings, cardiorespiratory factors must be controlled for., Competing Interests: Declaration of competing interest 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., (Copyright © 2024 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published
2024
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30. Assessment of liver function by gadoxetic acid avidity in MRI in a model of rapid liver regeneration in rats.

Author

Heil J, Augath M, Kurtcuoglu V, Hohmann J, Bechstein WO, Olthof P, Schnitzbauer AA, Seebeck P, Schiesser M, Schläpfer M, Beck-Schimmer B, and Schadde E

Subjects
Rats, Animals, Rats, Wistar, Liver diagnostic imaging, Liver surgery, Liver blood supply, Hepatectomy methods, Portal Vein diagnostic imaging, Portal Vein surgery, Portal Vein pathology, Magnetic Resonance Imaging, Ligation methods, Liver Regeneration, Liver Neoplasms surgery, Gadolinium DTPA
Abstract

Background: This animal study investigates the hypothesis of an immature liver growth following ALPPS (associating liver partition and portal vein ligation for staged hepatectomy) by measuring liver volume and function using gadoxetic acid avidity in magnetic resonance imaging (MRI) in models of ALPPS, major liver resection (LR) and portal vein ligation (PVL)., Methods: Wistar rats were randomly allocated to ALPPS, LR or PVL. In contrast-enhanced MRI scans with gadoxetic acid (Primovist®), liver volume and function of the right median lobe (=future liver remnant, FLR) and the deportalized lobes (DPL) were assessed until post-operative day (POD) 5. Liver function FLR/DPL was defined as the inverse value of time from injection of gadoxetic acid to the blood pool-corrected maximum signal intensity FLR/DPL multiplied by the volume FLR/DPL ., Results: In ALPPS (n = 6), LR (n = 6) and PVL (n = 6), volume FLR and function FLR increased proportionally, except on POD 1. Thereafter, function FLR exceeded volume FLR increase in LR and ALPPS, but not in PVL. Total liver function was significantly reduced after LR until POD 3, but never undercuts 60% of its pre-operative value following ALPPS and PVL., Discussion: This study shows for the first time that functional increase is proportional to volume increase in ALPPS using gadoxetic acid avidity in MRI., Competing Interests: Conflict of interest No disclosures of potential conflicts (financial, professional or personal) relevant to the manuscript. Martin Schläpfer and Beatrice Beck-Schimmer have received unrestricted research funds from Sedana Medical, Danderyd, Sweden, and from Roche Diagnostics International, Rotkreuz, Switzerland. Beatrice Beck-Schimmer and Martin Schläpfer have submitted a patent to mitigate the negative effects of surgery and/or anesthesia for patients using medical gases, particularly oxygen (O2) and carbon dioxide (CO2). Beatrice Beck-Schimmer submitted US and EP patent applications for an injectable formulation for the treatment and protection of patients having an inflammatory reaction or an ischemia/reperfusion event., (Copyright © 2023. Published by Elsevier Ltd.)

Published
2024
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31. Influence of age on the relation between body position and noninvasively acquired intracranial pulse waves.

Author

Boraschi A, Hafner M, Spiegelberg A, and Kurtcuoglu V

Subjects
Humans, Aged, Electricity, Environment, Health Status, Posture, Head-Down Tilt
Abstract

The capacitive measurement of the head's dielectric properties has been recently proposed as a noninvasive method for deriving surrogates of craniospinal compliance (CC), a parameter used in the evaluation of space-occupying neurological disorders. With the higher prevalence of such disorders in the older compared to the younger population, data on the head's dielectric properties of older healthy individuals would be of particularly high value before assessing pathologic changes. However, so far only measurements on young volunteers (< 30 years) were reported. In the present study, we have investigated the capacitively obtained electric signal known as W in older healthy individuals. Thirteen healthy subjects aged > 60 years were included in the study. W was acquired in the resting state (supine horizontal position), and during head-up and head-down tilting. AMP, the peak-to-valley amplitude of W related to cardiac action, was extracted from W. AMP was higher in this older cohort compared to the previously investigated younger one (0°: 5965 ± 1677 arbitrary units (au)). During head-up tilting, AMP decreased (+ 60°: 4446 ± 1620 au, P < 0.001), whereas it increased during head-down tilting (- 30°: 7600 ± 2123 au, P < 0.001), as also observed in the younger cohort. Our observation that AMP, a metric potentially reflective of CC, is higher in the older compared to the younger cohort aligns with the expected decrease of CC with age. Furthermore, the robustness of AMP is reinforced by the consistent relative changes observed during tilt testing in both cohorts., (© 2024. The Author(s).)

Published
2024
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32. Incorporating Unresolved Stresses in Blood Damage Modeling: Energy Dissipation More Accurate Than Reynolds Stress Formulation.

Author

Abeken J, de Zelicourt D, and Kurtcuoglu V

Subjects
Computer Simulation, Blood Circulation
Abstract

Objective: Reynolds Averaged Navier Stokes (RANS) models are often used as the basis for modeling blood damage in turbulent flows. To predict blood damage by turbulence stresses that are not resolved in RANS, a stress formulation that represents the corresponding scales is required. Here, we compare two commonly employed stress formulations: a scalar stress representation that uses Reynolds stresses as a surrogate for unresolved fluid stresses, and an effective stress formulation based on energy dissipation., Methods: We conducted unsteady RANS simulations of the CentriMag blood pump with three different closure models and a Large Eddy Simulation (LES) for reference. We implemented both stress representations in all models and compared the resulting total stress distributions in Eulerian and Lagrangian frameworks., Results: The Reynolds-stress-based approach overestimated the contribution of unresolved stresses in RANS, with differences between closure models of up to several orders of magnitude. With the dissipation-based approach, the total stresses predicted with RANS deviated by about 50% from the LES reference, which was more accurate than only considering resolved stresses., Conclusion: The Reynolds-stress-based formulation proved unreliable for estimating scalar stresses in our RANS simulations, while the dissipation-based approach provided an accuracy improvement over simply neglecting unresolved stresses., Significance: Our results suggest that dissipation-based inclusion of unresolved stresses should be the preferred choice for blood damage modeling in RANS.

Published
2024
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33. Current Understanding of the Anatomy, Physiology, and Magnetic Resonance Imaging of Neurofluids: Update From the 2022 "ISMRM Imaging Neurofluids Study group" Workshop in Rome.

Author

Agarwal N, Lewis LD, Hirschler L, Rivera LR, Naganawa S, Levendovszky SR, Ringstad G, Klarica M, Wardlaw J, Iadecola C, Hawkes C, Carare RO, Wells J, Bakker ENTP, Kurtcuoglu V, Bilston L, Nedergaard M, Mori Y, Stoodley M, Alperin N, de Leon M, and van Osch MJP

Subjects
Animals, Humans, Rome, Extracellular Fluid, Meninges, Brain pathology, Magnetic Resonance Imaging
Abstract

Neurofluids is a term introduced to define all fluids in the brain and spine such as blood, cerebrospinal fluid, and interstitial fluid. Neuroscientists in the past millennium have steadily identified the several different fluid environments in the brain and spine that interact in a synchronized harmonious manner to assure a healthy microenvironment required for optimal neuroglial function. Neuroanatomists and biochemists have provided an incredible wealth of evidence revealing the anatomy of perivascular spaces, meninges and glia and their role in drainage of neuronal waste products. Human studies have been limited due to the restricted availability of noninvasive imaging modalities that can provide a high spatiotemporal depiction of the brain neurofluids. Therefore, animal studies have been key in advancing our knowledge of the temporal and spatial dynamics of fluids, for example, by injecting tracers with different molecular weights. Such studies have sparked interest to identify possible disruptions to neurofluids dynamics in human diseases such as small vessel disease, cerebral amyloid angiopathy, and dementia. However, key differences between rodent and human physiology should be considered when extrapolating these findings to understand the human brain. An increasing armamentarium of noninvasive MRI techniques is being built to identify markers of altered drainage pathways. During the three-day workshop organized by the International Society of Magnetic Resonance in Medicine that was held in Rome in September 2022, several of these concepts were discussed by a distinguished international faculty to lay the basis of what is known and where we still lack evidence. We envision that in the next decade, MRI will allow imaging of the physiology of neurofluid dynamics and drainage pathways in the human brain to identify true pathological processes underlying disease and to discover new avenues for early diagnoses and treatments including drug delivery. Evidence level: 1 Technical Efficacy: Stage 3., (© 2023 The Authors. Journal of Magnetic Resonance Imaging published by Wiley Periodicals LLC on behalf of International Society for Magnetic Resonance in Medicine.)

Published
2024
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34. Evolution of hypoxia and hypoxia-inducible factor asparaginyl hydroxylase regulation in chronic kidney disease.

Author

Faivre A, Dissard R, Kuo W, Verissimo T, Legouis D, Arnoux G, Heckenmeyer C, Fernandez M, Tihy M, Rajaram RD, Delitsikou V, Le NA, Spingler B, Mueller B, Shulz G, Lindenmeyer M, Cohen C, Rutkowski JM, Moll S, Scholz CC, Kurtcuoglu V, and de Seigneux S

Subjects
Humans, Animals, Mice, X-Ray Microtomography, Repressor Proteins genetics, Down-Regulation, Hypoxia-Inducible Factor 1, alpha Subunit metabolism, Mixed Function Oxygenases genetics, Mixed Function Oxygenases metabolism, Hypoxia
Abstract

Background: The roles of hypoxia and hypoxia inducible factor (HIF) during chronic kidney disease (CKD) are much debated. Interventional studies with HIF-α activation in rodents have yielded contradictory results. The HIF pathway is regulated by prolyl and asparaginyl hydroxylases. While prolyl hydroxylase inhibition is a well-known method to stabilize HIF-α, little is known about the effect asparaginyl hydroxylase factor inhibiting HIF (FIH)., Methods: We used a model of progressive proteinuric CKD and a model of obstructive nephropathy with unilateral fibrosis. In these models we assessed hypoxia with pimonidazole and vascularization with three-dimensional micro-computed tomography imaging. We analysed a database of 217 CKD biopsies from stage 1 to 5 and we randomly collected 15 CKD biopsies of various severity degrees to assess FIH expression. Finally, we modulated FIH activity in vitro and in vivo using a pharmacologic approach to assess its relevance in CKD., Results: In our model of proteinuric CKD, we show that early CKD stages are not characterized by hypoxia or HIF activation. At late CKD stages, some areas of hypoxia are observed, but these are not colocalizing with fibrosis. In mice and in humans, we observed a downregulation of the HIF pathway, together with an increased FIH expression in CKD, according to its severity. Modulating FIH in vitro affects cellular metabolism, as described previously. In vivo, pharmacologic FIH inhibition increases the glomerular filtration rate of control and CKD animals and is associated with decreased development of fibrosis., Conclusions: The causative role of hypoxia and HIF activation in CKD progression is questioned. A pharmacological approach of FIH downregulation seems promising in proteinuric kidney disease., (© The Author(s) 2023. Published by Oxford University Press on behalf of the ERA.)

Published
2023
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35. Terabyte-scale supervised 3D training and benchmarking dataset of the mouse kidney.

Author

Kuo W, Rossinelli D, Schulz G, Wenger RH, Hieber S, Müller B, and Kurtcuoglu V

Subjects
Animals, Mice, Image Processing, Computer-Assisted methods, Imaging, Three-Dimensional, Kidney diagnostic imaging, Algorithms
Abstract

The performance of machine learning algorithms, when used for segmenting 3D biomedical images, does not reach the level expected based on results achieved with 2D photos. This may be explained by the comparative lack of high-volume, high-quality training datasets, which require state-of-the-art imaging facilities, domain experts for annotation and large computational and personal resources. The HR-Kidney dataset presented in this work bridges this gap by providing 1.7 TB of artefact-corrected synchrotron radiation-based X-ray phase-contrast microtomography images of whole mouse kidneys and validated segmentations of 33 729 glomeruli, which corresponds to a one to two orders of magnitude increase over currently available biomedical datasets. The image sets also contain the underlying raw data, threshold- and morphology-based semi-automatic segmentations of renal vasculature and uriniferous tubules, as well as true 3D manual annotations. We therewith provide a broad basis for the scientific community to build upon and expand in the fields of image processing, data augmentation and machine learning, in particular unsupervised and semi-supervised learning investigations, as well as transfer learning and generative adversarial networks., (© 2023. Springer Nature Limited.)

Published
2023
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36. Radiological feature heterogeneity supports etiological diversity among patient groups in Meniere's disease.

Author

Bächinger D, Filidoro N, Naville M, Juchler N, Kurtcuoglu V, Nadol JB Jr, Schuknecht B, Kleinjung T, Veraguth D, and Eckhard AH

Subjects
Humans, Temporal Bone abnormalities, Radiography, Magnetic Resonance Imaging adverse effects, Meniere Disease diagnostic imaging, Meniere Disease etiology, Endolymphatic Sac pathology
Abstract

We aimed to determine the prevalence of radiological temporal bone features that in previous studies showed only a weak or an inconsistent association with the clinical diagnosis of Meniere's disease (MD), in two groups of MD patients (n = 71) with previously established distinct endolymphatic sac pathologies; i.e. the group MD-dg (ES degeneration) and the group MD-hp (ES hypoplasia). Delayed gadolinium-enhanced MRI and high-resolution CT data were used to determine and compare between and within (affected vs. non-affected side) groups geometric temporal bone features (lengths, widths, contours), air cell tract volume, height of the jugular bulb, sigmoid sinus width, and MRI signal intensity alterations of the ES. Temporal bone features with significant intergroup differences were the retrolabyrinthine bone thickness (1.04 ± 0.69 mm, MD-hp; 3.1 ± 1.9 mm, MD-dg; p < 0.0001); posterior contour tortuosity (mean arch-to-chord ratio 1.019 ± 0.013, MD-hp; 1.096 ± 0.038, MD-dg; p < 0.0001); and the pneumatized volume (1.37 [0.86] cm 3 , MD-hp; 5.25 [3.45] cm 3 , MD-dg; p = 0.03). Features with differences between the affected and non-affected sides within the MD-dg group were the sigmoid sinus width (6.5 ± 1.7 mm, affected; 7.6 ± 2.1 mm, non-affected; p = 0.04) and the MRI signal intensity of the endolymphatic sac (median signal intensity, affected vs. unaffected side, 0.59 [IQR 0.31-0.89]). Radiological temporal bone features known to be only weakly or inconsistently associated with the clinical diagnosis MD, are highly prevalent in either of two MD patient groups. These results support the existence of diverse-developmental and degenerative-disease etiologies manifesting with distinct radiological temporal bone abnormalities., (© 2023. The Author(s).)

Published
2023
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37. Queckenstedt's test repurposed for the quantitative assessment of the cerebrospinal fluid pulsatility curve.

Author

Kheram N, Boraschi A, Pfender N, Spiegelberg A, Kurtcuoglu V, Curt A, Schubert M, and Zipser CM

Subjects
Humans, Aged, Blood Pressure, Constriction, Pathologic, Pressure, Cerebrospinal Fluid Pressure, Spinal Puncture
Abstract

Purpose: Before the era of spinal imaging, presence of a spinal canal block was tested through gross changes in cerebrospinal fluid pressure (CSFP) provoked by manual compression of the jugular veins (referred to as Queckenstedt's test; QT). Beyond these provoked gross changes, cardiac-driven CSFP peak-to-valley amplitudes (CSFPp) can be recorded during CSFP registration. This is the first study to assess whether the QT can be repurposed to derive descriptors of the CSF pulsatility curve, focusing on feasibility and repeatability., Method: Lumbar puncture was performed in lateral recumbent position in fourteen elderly patients (59.7±9.3 years, 6F) (NCT02170155) without stenosis of the spinal canal. CSFP was recorded during resting state and QT. A surrogate for the relative pulse pressure coefficient was computed from repeated QTs (i.e., RPPC-Q)., Results: Resting state mean CSFP was 12.3 mmHg (IQR 3.2) and CSFPp was 1.0 mmHg (0.5). Mean CSFP rise during QT was 12.5 mmHg (7.3). CSFPp showed an average 3-fold increase at peak QT compared to the resting state. Median RPPC-Q was 0.18 (0.04). There was no systematic error in the computed metrics between the first and second QT., Conclusion: This technical note describes a method to reliably derive, beyond gross CSFP increments, metrics related to cardiac-driven amplitudes during QT (i.e., RPPC-Q). A study comparing these metrics as obtained by established procedures (i.e., infusion testing) and by QT is warranted., (© 2023. The Author(s).)

Published
2023
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38. The effect of body position change on noninvasively acquired intracranial pulse waves.

Author

Boraschi A, Spiegelberg A, Karimi F, Graf K, Fallahi A, Neufeld E, Kuster N, and Kurtcuoglu V

Subjects
Humans, Heart Rate, Heart, Healthy Volunteers, Head-Down Tilt, Posture
Abstract

Objective . Craniospinal compliance (CC) is an important metric for the characterization of space-occupying neurological pathologies. CC is obtained using invasive procedures that carry risks for the patients. Therefore, noninvasive methods for acquiring surrogates of CC have been proposed, most recently based on changes in the head's dielectric properties during the cardiac cycle. Here, we have tested whether changes in body position, which are known to influence CC, are reflected in a capacitively acquired signal (hereinafter referred to as W) originating from dynamic changes of the head's dielectric properties. Approach . eighteen young healthy volunteers were included in the study. After 10 min in supine position, subjects were tilted head-up (HUT), back to 0° (horizontal, control), and then head-down (HDT). Metrics related to cardiovascular action were extracted from W, including AMP, the peak-to-valley amplitude of the cardiac modulation of W. Computational electromagnetic simulations were performed to probe the association between intracranial volume change and W. Main results . AMP decreased during HUT (0°: 2869 ± 597 arbitrary units (au); +75°: 2307 ± 490 au, P = 0.002) and increased during HDT (-30°: 4403 ± 1428 au, P < 0.0001). The same behavior was predicted by the electromagnetic model. Significance . tilting affects the distribution of CC between cranial and spinal compartments. Cardiovascular action induces compliance-dependent oscillatory changes in the intracranial fluid composition, which causes corresponding variations in the head's dielectric properties. These manifest as increasing AMP with decreasing intracranial compliance, which suggests that W may contain information related to CC, and that it might be possible to derive CC surrogates therefrom., (Creative Commons Attribution license.)

Published
2023
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39. Cerebrospinal Fluid Pressure Dynamics as a Bedside Test in Traumatic Spinal Cord Injury to Assess Surgical Spinal Cord Decompression: Safety, Feasibility, and Proof-of-Concept.

Author

Kheram N, Boraschi A, Pfender N, Friedl S, Rasenack M, Fritz B, Kurtcuoglu V, Schubert M, Curt A, and Zipser CM

Subjects
Humans, Adolescent, Young Adult, Adult, Middle Aged, Aged, Prospective Studies, Feasibility Studies, Decompression, Surgical adverse effects, Decompression, Surgical methods, Spinal Cord, Cerebrospinal Fluid Pressure physiology, Spinal Cord Injuries diagnostic imaging, Spinal Cord Injuries surgery, Spinal Cord Injuries cerebrospinal fluid
Abstract

Background: Sufficient and timely spinal cord decompression is a critical surgical objective for neurological recovery in spinal cord injury (SCI). Residual cord compression may be associated with disturbed cerebrospinal fluid pressure (CSFP) dynamics., Objectives: This study aims to assess whether intrathecal CSFP dynamics in SCI following surgical decompression are feasible and safe, and to explore the diagnostic utility., Methods: Prospective cohort study. Bedside lumbar CSFP dynamics and cervical MRI were obtained following surgical decompression in N = 9 with mostly cervical acute-subacute SCI and N = 2 patients with non-traumatic SCI. CSFP measurements included mean CSFP, cardiac-driven CSFP peak-to-valley amplitudes (CSFPp), Valsalva maneuver, and Queckenstedt's test (firm pressure on jugular veins, QT). From QT, proxies for cerebrospinal fluid pulsatility curve were calculated (ie, relative pulse pressure coefficient; RPPC-Q). CSFP metrics were compared to spine-healthy patients. computer tomography (CT)-myelography was done in 3/8 simultaneous to CSFP measurements., Results: Mean age was 45 ± 9 years (range 17-67; 3F), SCI was complete (AIS A, N = 5) or incomplete (AIS B-D, N = 6). No adverse events related to CSFP assessments. CSFP rise during QT was induced in all patients [range 9.6-26.6 mmHg]. However, CSFPp was reduced in 3/11 (0.1-0.3 mmHg), and in 3/11 RPPC-Q was abnormal (0.01-0.05). Valsalva response was reduced in 8/11 (2.6-23.4 mmHg). CSFP dynamics corresponded to CT-myelography., Conclusions: Comprehensive bedside lumbar CSFP dynamics in SCI following decompression are safe, feasible, and can reveal distinct patterns of residual spinal cord compression. Longitudinal studies are required to define critical thresholds of impaired CSFP dynamics that may impact neurological recovery and requiring surgical revisions.

Published
2023
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40. Large-scale morphometry of the subarachnoid space of the optic nerve.

Author

Rossinelli D, Killer HE, Meyer P, Knott G, Fourestey G, Kurtcuoglu V, Kohler C, Gruber P, Remonda L, Neutzner A, and Berberat J

Subjects
Humans, Tomography, X-Ray, Amyloid beta-Peptides metabolism, Optic Nerve metabolism
Abstract

Background: The meninges, formed by dura, arachnoid and pia mater, cover the central nervous system and provide important barrier functions. Located between arachnoid and pia mater, the cerebrospinal fluid (CSF)-filled subarachnoid space (SAS) features a variety of trabeculae, septae and pillars. Like the arachnoid and the pia mater, these structures are covered with leptomeningeal or meningothelial cells (MECs) that form a barrier between CSF and the parenchyma of the optic nerve (ON). MECs contribute to the CSF proteome through extensive protein secretion. In vitro, they were shown to phagocytose potentially toxic proteins, such as α-synuclein and amyloid beta, as well as apoptotic cell bodies. They therefore may contribute to CSF homeostasis in the SAS as a functional exchange surface. Determining the total area of the SAS covered by these cells that are in direct contact with CSF is thus important for estimating their potential contribution to CSF homeostasis., Methods: Using synchrotron radiation-based micro-computed tomography (SRµCT), two 0.75 mm-thick sections of a human optic nerve were acquired at a resolution of 0.325 µm/pixel, producing images of multiple terabytes capturing the geometrical details of the CSF space. Special-purpose supercomputing techniques were employed to obtain a pixel-accurate morphometric description of the trabeculae and estimate internal volume and surface area of the ON SAS., Results: In the bulbar segment, the ON SAS microstructure is shown to amplify the MECs surface area up to 4.85-fold compared to an "empty" ON SAS, while just occupying 35% of the volume. In the intraorbital segment, the microstructure occupies 35% of the volume and amplifies the ON SAS area 3.24-fold., Conclusions: We provided for the first time an estimation of the interface area between CSF and MECs. This area is of importance for estimating a potential contribution of MECs on CSF homeostasis., (© 2023. The Author(s).)

Published
2023
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41. Are standing osmotic gradients the main driver of cerebrospinal fluid production? A computational analysis.

Author

Razzaghi Khamesi P, Charitatos V, Heerfordt EK, MacAulay N, and Kurtcuoglu V

Subjects
Animals, Rats, Biological Transport, Choroid Plexus, Cerebrospinal Fluid
Abstract

Background: The mechanisms of cerebrospinal fluid (CSF) production by the ventricular choroid plexus (ChP) have not been fully deciphered. One prominent hypothesized mechanism is trans-epithelial water transport mediated by accumulation of solutes at the luminal ChP membrane that produces local osmotic gradients. However, this standing osmotic gradient hypothesis has not been systematically tested., Methods: To assess the plausibility of the standing gradient mechanism serving as the main driver of CSF production by the ChP, we developed a three-dimensional (3D) and a one-dimensional (1D) computational model to quantitatively describe the associated processes in the rat ChP inter-microvillar spaces and in CSF pools between macroscopic ChP folds (1D only). The computationally expensive 3D model was used to examine the applicability of the 1D model for hypothesis testing. The 1D model was employed to predict the rate of CSF produced by the standing gradient mechanism for 200,000 parameter permutations. Model parameter values for each permutation were chosen by random sampling from distributions derived from published experimental data., Results: Both models predict that the CSF production rate by the standing osmotic gradient mechanism is below 10% of experimentally measured values that reflect the contribution of all actual production mechanisms. The 1D model indicates that increasing the size of CSF pools between ChP folds, where diffusion dominates solute transport, would increase the contribution of the standing gradient mechanism to CSF production., Conclusions: The models suggest that the effect of standing osmotic gradients is too small to contribute substantially to CSF production. ChP motion and movement of CSF in the ventricles, which are not accounted for in the models, would further reduce this effect, making it unlikely that standing osmotic gradients are the main drivers of CSF production., (© 2023. The Author(s).)

Published
2023
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42. Characterising spinal cerebrospinal fluid flow in the pig with phase-contrast magnetic resonance imaging.

Author

Bessen MA, Gayen CD, Quarrington RD, Walls AC, Leonard AV, Kurtcuoglu V, and Jones CF

Subjects
Humans, Female, Swine, Animals, Retrospective Studies, Spinal Cord diagnostic imaging, Sus scrofa, Cerebrospinal Fluid diagnostic imaging, Magnetic Resonance Imaging methods, Cerebrospinal Fluid Pressure
Abstract

Background: Detecting changes in pulsatile cerebrospinal fluid (CSF) flow may assist clinical management decisions, but spinal CSF flow is relatively understudied. Traumatic spinal cord injuries (SCI) often cause spinal cord swelling and subarachnoid space (SAS) obstruction, potentially causing pulsatile CSF flow changes. Pigs are emerging as a favoured large animal SCI model; therefore, the aim of this study was to characterise CSF flow along the healthy pig spine., Methods: Phase-contrast magnetic resonance images (PC-MRI), retrospectively cardiac gated, were acquired for fourteen laterally recumbent, anaesthetised and ventilated, female domestic pigs (22-29 kg). Axial images were obtained at C2/C3, T8/T9, T11/T12 and L1/L2. Dorsal and ventral SAS regions of interest (ROI) were manually segmented. CSF flow and velocity were determined throughout a cardiac cycle. Linear mixed-effects models, with post-hoc comparisons, were used to identify differences in peak systolic/diastolic flow, and maximum velocity (cranial/caudal), across spinal levels and dorsal/ventral SAS. Velocity wave speed from C2/C3 to L1/L2 was calculated., Results: PC-MRI data were obtained for 11/14 animals. Pulsatile CSF flow was observed at all spinal levels. Peak systolic flow was greater at C2/C3 (dorsal: - 0.32 ± 0.14 mL/s, ventral: - 0.15 ± 0.13 mL/s) than T8/T9 dorsally (- 0.04 ± 0.03 mL/s; p < 0.001), but not different ventrally (- 0.08 ± 0.08 mL/s; p = 0.275), and no difference between thoracolumbar levels (p > 0.05). Peak diastolic flow was greater at C2/C3 (0.29 ± 0.08 mL/s) compared to T8/T9 (0.03 ± 0.03 mL/s, p < 0.001) dorsally, but not different ventrally (p = 1.000). Cranial and caudal maximum velocity at C2/C3 were greater than thoracolumbar levels dorsally (p < 0.001), and T8/T9 and L1/L2 ventrally (p = 0.022). Diastolic velocity wave speed was 1.41 ± 0.39 m/s dorsally and 1.22 ± 0.21 m/s ventrally, and systolic velocity wave speed was 1.02 ± 0.25 m/s dorsally and 0.91 ± 0.22 m/s ventrally., Conclusions: In anaesthetised and ventilated domestic pigs, spinal CSF has lower pulsatile flow and slower velocity wave propagation, compared to humans. This study provides baseline CSF flow at spinal levels relevant for future SCI research in this animal model., (© 2023. The Author(s).)

Published
2023
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43. Noninvasive Monitoring of Intracranial Pulse Waves.

Author

Spiegelberg A, Boraschi A, Karimi F, Capstick M, Fallahi A, Neufeld E, Kuster N, and Kurtcuoglu V

Subjects
Humans, Intracranial Pressure, Head, Heart Rate, Carbon Dioxide, Hyperventilation
Abstract

Objective: The clinical management of several neurological disorders benefits from the assessment of intracranial pressure and craniospinal compliance. However, the associated procedures are invasive in nature. Here, we aimed to assess whether naturally occurring periodic changes in the dielectric properties of the head could serve as the basis for deriving surrogates of craniospinal compliance noninvasively., Methods: We designed a device and electrodes for noninvasive measurement of periodic changes of the dielectric properties of the human head. We characterized the properties of the device-electrode-head system by measurements on healthy volunteers, by computational modeling, and by electromechanical modeling. We then performed hyperventilation testing to assess whether the measured signal is of intracranial origin., Results: Signals obtained with the device on volunteers showed characteristic cardiac and respiratory modulations. Signal oscillations can be attributed primarily to changes in resistive properties of the head during cardiac and respiratory cycles. Reduction of end-tidal CO 2 , through hyperventilation, resulted in a decrease in the signal amplitude associated with cardiovascular action., Conclusion: Given the higher CO 2 reactivity of intracranial vessels compared to extracranial ones, the results of hyperventilation testing suggest that the acquired signal is, in part, of intracranial origin., Significance: If confirmed in larger cohorts, our observations suggest that noninvasive capacitive acquisition of changes in the dielectric properties of the head could be used to derive surrogates of craniospinal compliance.

Published
2023
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44. Theory for a non-invasive diagnostic biomarker for craniospinal diseases.

Author

Karimi F, Neufeld E, Fallahi A, Boraschi A, Zwanenburg JJM, Spiegelberg A, Kurtcuoglu V, and Kuster N

Subjects
Humans, Head, Biomarkers, Brain, Intracranial Pressure
Abstract

Monitoring intracranial pressure (ICP) and craniospinal compliance (CC) is frequently required in the treatment of patients suffering from craniospinal diseases. However, current approaches are invasive and cannot provide continuous monitoring of CC. Dynamic exchange of blood and cerebrospinal fluid (CSF) between cranial and spinal compartments due to cardiac action transiently modulates the geometry and dielectric properties of the brain. The resulting impedance changes can be measured and might be usable as a non-invasive CC surrogate. A numerically robust and computationally efficient approach based on the reciprocity theorem was developed to compute dynamic impedance changes resulting from small geometry and material property changes. The approach was successfully verified against semi-analytical benchmarks, before being combined with experimental brain pulsation data to study the information content of the impedance variation. The results indicate that the measurable signal is dominated by the pulsatile displacement of the cortical brain surface, with minor contributions from the ventricular surfaces and from changes in brain perfusion. Different electrode setups result in complementary information. The information content from the investigated three electrode pairs was employed to successfully infer subject-specific brain pulsation and motion features. This suggests that non-invasive CC surrogates based on impedance monitoring could be established., Competing Interests: Declaration of Competing Interest The authors declare the following financial interests/personal relationships which may be considered as potential competing interests: Andreas Spiegelberg is applicant and inventor of the patent application DE102018100697A1 and several dependent international applications. Vartan Kurtcuoglu is inventor and the University of Zurich applicant of the same patent applications., (Copyright © 2022 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
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45. Assessment of extracranial carotid artery disease using digital twins - A pilot study.

Author

Dubs L, Charitatos V, Buoso S, Wegener S, Winklhofer S, Alkadhi H, and Kurtcuoglu V

Subjects
Humans, Pilot Projects, Prospective Studies, Carotid Artery, Common, Carotid Artery, Internal diagnostic imaging, Fractional Flow Reserve, Myocardial, Carotid Artery Diseases diagnostic imaging, Carotid Stenosis diagnostic imaging
Abstract

To improve risk stratification in extracranial internal carotid artery disease (CAD), patients who would benefit maximally from revascularization must be identified. In cardiology, the fractional flow reserve (FFR) has become a reference standard for evaluating the functional severity of coronary artery stenosis, and noninvasive surrogates thereof relying on computational fluid dynamics (CFD) have been developed. Here, we present a CFD-based workflow using digital twins of patients' carotid bifurcations derived from computed tomography angiography for the noninvasive functional assessment of CAD. We reconstructed patient-specific digital twins of 37 carotid bifurcations. We implemented a CFD model using common carotid artery peak systolic velocity (PSV) acquired with Doppler ultrasound (DUS) as inlet boundary condition and a two-element Windkessel model as oulet boundary condition. The agreement between CFD and DUS on the PSV in the internal carotid artery (ICA) was then compared. The relative error for the agreement between DUS and CFD was 9% ± 20% and the intraclass correlation coefficient was 0.88. Furthermore, hyperemic simulations in a physiological range were feasible and unmasked markedly different pressure drops along two ICA stenoses with similar degree of narrowing under comparable ICA blood flow. Hereby, we lay the foundation for prospective studies on noninvasive CFD-based derivation of metrics similar to the FFR for the assessment of CAD., Competing Interests: Declaration of Competing Interest 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., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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46. Membrane transporters control cerebrospinal fluid formation independently of conventional osmosis to modulate intracranial pressure.

Author

Oernbo EK, Steffensen AB, Razzaghi Khamesi P, Toft-Bertelsen TL, Barbuskaite D, Vilhardt F, Gerkau NJ, Tritsaris K, Simonsen AH, Lolansen SD, Andreassen SN, Hasselbalch SG, Zeuthen T, Rose CR, Kurtcuoglu V, and MacAulay N

Subjects
Animals, Cerebrospinal Fluid metabolism, Choroid Plexus metabolism, Humans, Osmosis, Rats, Sodium metabolism, Swine, Intracranial Pressure physiology, Membrane Transport Proteins metabolism
Abstract

Background: Disturbances in the brain fluid balance can lead to life-threatening elevation in the intracranial pressure (ICP), which represents a vast clinical challenge. Nevertheless, the details underlying the molecular mechanisms governing cerebrospinal fluid (CSF) secretion are largely unresolved, thus preventing targeted and efficient pharmaceutical therapy of cerebral pathologies involving elevated ICP., Methods: Experimental rats were employed for in vivo determinations of CSF secretion rates, ICP, blood pressure and ex vivo excised choroid plexus for morphological analysis and quantification of expression and activity of various transport proteins. CSF and blood extractions from rats, pigs, and humans were employed for osmolality determinations and a mathematical model employed to determine a contribution from potential local gradients at the surface of choroid plexus., Results: We demonstrate that CSF secretion can occur independently of conventional osmosis and that local osmotic gradients do not suffice to support CSF secretion. Instead, the CSF secretion across the luminal membrane of choroid plexus relies approximately equally on the Na + /K + /2Cl - cotransporter NKCC1, the Na + /HCO 3 - cotransporter NBCe2, and the Na + /K + -ATPase, but not on the Na + /H + exchanger NHE1. We demonstrate that pharmacological modulation of CSF secretion directly affects the ICP., Conclusions: CSF secretion appears to not rely on conventional osmosis, but rather occur by a concerted effort of different choroidal transporters, possibly via a molecular mode of water transport inherent in the proteins themselves. Therapeutic modulation of the rate of CSF secretion may be employed as a strategy to modulate ICP. These insights identify new promising therapeutic targets against brain pathologies associated with elevated ICP., (© 2022. The Author(s).)

Published
2022
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47. Cerebrospinal fluid pressure dynamics reveal signs of effective spinal canal narrowing in ambiguous spine conditions.

Author

Kheram N, Pfender N, Boraschi A, Farshad M, Kurtcuoglu V, Curt A, Schubert M, and Zipser CM

Abstract

Spinal canal narrowing with consecutive spinal cord compression is considered a key mechanism in degenerative cervical myelopathy (DCM). DCM is a common spine condition associated with progressive neurological disability, and timely decompressive surgery is recommended. However, the clinical and radiological diagnostic workup is often ambiguous, challenging confident proactive treatment recommendations. Cerebrospinal fluid pressure dynamics (CSFP) are altered by spinal canal narrowing. Therefore, we aim to explore the potential value of bedside CSFP assessments for qualitative and quantitative assessment of spinal canal narrowing in DCM. In this prospective case series, seven patients with DCM underwent bedside lumbar puncture with measurement of CSFP dynamics and routine CSF analysis (NCT02170155). The patients were enrolled when standard diagnostic algorithms did not permit a clear treatment decision. Measurements include baseline CSFP, cardiac-driven CSFP peak-to-trough amplitude (CSFPp), and the Queckenstedt's test (firm pressure on jugular veins) in neutral and reclined head position. From the Queckenstedt's test, proxies for craniospinal elastance (i.e., relative pulse pressure coefficient; RPPC-Q) were calculated analogously to infusion testing. CSFP metrics were deemed suspicious of canal narrowing when numbers were lower than the minimum value from a previously tested elderly spine-healthy cohort ( N = 14). Mean age was 56 ± 13 years (range, 38-75; 2F); symptom severity was mostly mild to moderate (mean mJOA, 13.5 ± 2.6; range, 9-17). All the patients showed some extent of cervical stenosis in the MRI of unclear significance (5/7 following decompressive cervical spine surgery with an adjacent level or residual stenosis). Baseline CSFP was normal except for one patient (range, 4.7-17.4 mmHg). Normal values were found for CSFPp (0.4-1.3 mmHg) and the Queckenstedt's test in normal head positioning (9.-25.3 mmHg). During reclination, the Queckenstedt's test significantly decreased in one, and CSFPp in another case (>50% compared to normal position). RPPC-Q (0.07-0.19) aligned with lower values from spine-healthy (0.10-0.44). Routine CSF examinations showed mild total protein elevation (mean, 522 ± 108 mg/ml) without further evidence for the disturbed blood brain barrier. Intrathecal CSFP measurements allow discerning disturbed from normal CSFP dynamics in this population. Prospective longitudinal studies should further evaluate the diagnostic utility of CSFP assessments in DCM., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Kheram, Pfender, Boraschi, Farshad, Kurtcuoglu, Curt, Schubert and Zipser.)

Published
2022
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48. Renal blood flow and oxygenation.

Author

Edwards A and Kurtcuoglu V

Subjects
Humans, Hypoxia metabolism, Kidney metabolism, Oxygen metabolism, Oxygen Consumption physiology, Renal Circulation physiology
Abstract

Our kidneys receive about one-fifth of the cardiac output at rest and have a low oxygen extraction ratio, but may sustain, under some conditions, hypoxic injuries that might lead to chronic kidney disease. This is due to large regional variations in renal blood flow and oxygenation, which are the prerequisite for some and the consequence of other kidney functions. The concurrent operation of these functions is reliant on a multitude of neuro-hormonal signaling cascades and feedback loops that also include the regulation of renal blood flow and tissue oxygenation. Starting with open questions on regulatory processes and disease mechanisms, we review herein the literature on renal blood flow and oxygenation. We assess the current understanding of renal blood flow regulation, reasons for disparities in oxygen delivery and consumption, and the consequences of disbalance between O 2 delivery, consumption, and removal. We further consider methods for measuring and computing blood velocity, flow rate, oxygen partial pressure, and related parameters and point out how limitations of these methods constitute important hurdles in this area of research. We conclude that to obtain an integrated understanding of the relation between renal function and renal blood flow and oxygenation, combined experimental and computational modeling studies will be needed., (© 2022. The Author(s).)

Published
2022
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49. Shape Trumps Size: Image-Based Morphological Analysis Reveals That the 3D Shape Discriminates Intracranial Aneurysm Disease Status Better Than Aneurysm Size.

Author

Juchler N, Schilling S, Bijlenga P, Kurtcuoglu V, and Hirsch S

Abstract

Background: To date, it remains difficult for clinicians to reliably assess the disease status of intracranial aneurysms. As an aneurysm's 3D shape is strongly dependent on the underlying formation processes, it is believed that the presence of certain shape features mirrors the disease status of the aneurysm wall. Currently, clinicians associate irregular shape with wall instability. However, no consensus exists about which shape features reliably predict instability. In this study, we present a benchmark to identify shape features providing the highest predictive power for aneurysm rupture status., Methods: 3D models of aneurysms were extracted from medical imaging data (3D rotational angiographies) using a standardized protocol. For these aneurysm models, we calculated a set of metrics characterizing the 3D shape: Geometry indices (such as undulation, ellipticity and non-sphericity); writhe- and curvature-based metrics; as well as indices based on Zernike moments. Using statistical learning methods, we investigated the association between shape features and aneurysm disease status. This processing was applied to a clinical dataset of 750 aneurysms (261 ruptured, 474 unruptured) registered in the AneuX morphology database. We report here statistical performance metrics [including the area under curve (AUC)] for morphometric models to discriminate between ruptured and unruptured aneurysms., Results: The non-sphericity index NSI ( AUC = 0.80), normalized Zernike energies Z N s u r f ( AUC = 0.80) and the modified writhe-index W ¯ m e a n L 1 ( AUC = 0.78) exhibited the strongest association with rupture status. The combination of predictors further improved the predictive performance (without location: AUC = 0.82, with location AUC = 0.87). The anatomical location was a good predictor for rupture status on its own ( AUC = 0.78). Different protocols to isolate the aneurysm dome did not affect the prediction performance. We identified problems regarding generalizability if trained models are applied to datasets with different selection biases., Conclusions: Morphology provided a clear indication of the aneurysm disease status, with parameters measuring shape (especially irregularity) being better predictors than size. Quantitative measurement of shape, alone or in conjunction with information about aneurysm location, has the potential to improve the clinical assessment of intracranial aneurysms., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Juchler, Schilling, Bijlenga, Kurtcuoglu and Hirsch.)

Published
2022
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50. Insights Into the Low Rate of In-Pump Thrombosis With the HeartMate 3: Does the Artificial Pulse Improve Washout?

Author

Fang P, Du J, Boraschi A, Bozzi S, Redaelli A, Schmid Daners M, Kurtcuoglu V, Consolo F, and de Zélicourt D

Abstract

While earlier studies reported no relevant effect of the HeartMate 3 (HM3) artificial pulse (AP) on bulk pump washout, its effect on regions with prolonged residence times remains unexplored. Using numerical simulations, we compared pump washout in the HM3 with and without AP with a focus on the clearance of the last 5% of the pump volume. Results were examined in terms of flush-volume ( V f , number of times the pump was flushed with new blood) to probe the effect of the AP independent of changing flow rate. Irrespective of the flow condition, the HM3 washout scaled linearly with flush volume up to 70% washout and slowed down for the last 30%. Flush volumes needed to washout 95% of the pump were comparable with and without the AP (1.3-1.4 V f ), while 99% washout required 2.1-2.2 V f with the AP vs. 2.5 V f without the AP. The AP enhanced washout of the bend relief and near-wall regions. It also transiently shifted or eliminated stagnation regions and led to rapid wall shear stress fluctuations below the rotor and in the secondary flow path. Our results suggest potential benefits of the AP for clearance of fluid regions that might elicit in-pump thrombosis and provide possible mechanistic rationale behind clinical data showing very low rate of in-pump thrombosis with the HM3. Further optimization of the AP sequence is warranted to balance washout efficacy while limiting blood damage., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Fang, Du, Boraschi, Bozzi, Redaelli, Schmid Daners, Kurtcuoglu, Consolo and de Zélicourt.)

Published
2022
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