Your search keyword '"intrinsic optical signal imaging"' showing total 3 results

1. Detection of spreading depolarizations in a middle cerebral artery occlusion model in swine.

Author

Kentar, Modar, Mann, Martina, Sahm, Felix, Olivares-Rivera, Arturo, Sanchez-Porras, Renan, Zerelles, Roland, Sakowitz, Oliver W., Unterberg, Andreas W., and Santos, Edgar

Subjects

*CEREBRAL arteries, *POSTERIOR cerebral artery, *ANTERIOR cerebral artery, *SWINE, *CEREBRAL circulation, *CEREBRAL infarction, *AUJESZKY'S disease virus

Abstract

Background: The main objective of this study was to generate a hemodynamically stable swine model to detect spreading depolarizations (SDs) using electrocorticography (ECoG) and intrinsic optical signal (IOS) imaging and laser speckle flowmetry (LSF) after a 30-h middle cerebral artery (MCA) occlusion (MCAo) in German Landrace Swine. Methods: A total of 21 swine were used. The study comprised a training group (group 1, n = 7), a group that underwent bilateral craniectomy and MCAo (group 2, n = 10) and a group used for 2,3,5-triphenyltetrazolium (TTC) staining (group 3, n = 5). Results: In group 2, nine animals that underwent MCAo survived for 30 h, and one animal survived for 12 h. We detected MCA variants with 2 to 4 vessels. In all cases, all of the MCAs were occluded. The intensity changes exhibited by IOS and LSF after clipping were closely correlated and indicated a lower blood volume and reduced blood flow in the middle cerebral artery territory. Using IOS, we detected a mean of 2.37 ± (STD) 2.35 SDs/h. Using ECoG, we detected a mean of 0.29 ± (STD) 0.53 SDs/h. Infarctions were diagnosed using histological analysis. TTC staining in group 3 confirmed that the MCA territory was compromised and that the anterior and posterior cerebral arteries were preserved. Conclusions: We confirm the reliability of performing live monitoring of cerebral infarctions using our MCAo protocol to detect SDs. [ABSTRACT FROM AUTHOR]

Published

2020

2. Ketamine modulation of the haemodynamic response to spreading depolarization in the gyrencephalic swine brain.

Author

Sánchez-Porras, Renán, Santos, Edgar, Schöll, Michael, Kunzmann, Kevin, Stock, Christian, Silos, Humberto, Unterberg, Andreas W., and Sakowitz, Oliver W.

Abstract

Spreading depolarization (SD) generates significant alterations in cerebral haemodynamics, which can have detrimental consequences on brain function and integrity. Ketamine has shown an important capacity to modulate SD; however, its impact on SD haemodynamic response is incompletely understood. We investigated the effect of two therapeutic ketamine dosages, a low-dose of 2 mg/kg/h and a high-dose of 4 mg/kg/h, on the haemodynamic response to SD in the gyrencephalic swine brain. Cerebral blood volume, pial arterial diameter and cerebral blood flow were assessed through intrinsic optical signal imaging and laser-Doppler flowmetry. Our findings indicate that frequent SDs caused a persistent increase in the baseline pial arterial diameter, which can lead to a diminished capacity to further dilate. Ketamine infused at a low-dose reduced the hyperemic/vasodilative response to SD; however, it did not alter the subsequent oligemic/vasoconstrictive response. This low-dose did not prevent the baseline diameter increase and the diminished dilative capacity. Only infusion of ketamine at a high-dose suppressed SD and the coupled haemodynamic response. Therefore, the haemodynamic response to SD can be modulated by continuous infusion of ketamine. However, its use in pathological models needs to be explored to corroborate its possible clinical benefit. [ABSTRACT FROM AUTHOR]

Published

2017

3. Development of new optical imaging systems of oxygen metabolism and simultaneous measurement in hemodynamic changes using awake mice.

Author

Takuwa, Hiroyuki, Matsuura, Tetsuya, Nishino, Asuka, Sakata, Kazumi, Tajima, Yosuke, and Ito, Hiroshi

Subjects

*DIAGNOSTIC imaging, *OPTICAL images, *HEMODYNAMICS, *OXYGEN metabolism, *LABORATORY mice, *COMPARATIVE studies, *MEDICAL imaging systems, *MEDICAL research

Abstract

Background PET allows the measurement of CBF, CBV and CMRO 2 in human and plays an important role in the diagnosis of pathologic conditions and clinical research. On the other hand, in animal studies, there is no optical imaging system for evaluating changes in CBF and CBV, and oxygen metabolism, from the same brain area under awake condition. New method In the present study, we developed a simultaneous measurement system of LSI and IOSI, which was verified by LDF. Moreover, to evaluate oxygen metabolism, FAI was performed from the same brain area as LSI and IOSI measurements. Results The change in CBF according to LSI was correlated with that by LDF. Similarly, the change in CBV obtained by IOSI was also correlated with RBC concentration change measured by LDF. The change in oxygen metabolism by FAI was associated with that in CBF obtained by LSI, although the change in CBF was greater than that in oxygen metabolism. Comparison with existing method(s) We revealed that the relationship between oxygen metabolism and CBF as measured by our system was in good agreement with the relationship between CMRO 2 and CBF in human PET studies. Conclusions Our measurement system of CBF, CBV and oxygen metabolism is not only useful for studying neurovascular coupling, but also easily corroborates human PET studies. [ABSTRACT FROM AUTHOR]

Published

2014