Your search keyword '"PERFUSION CHANGES"' showing total 4 results

1. Unchanged perfusion in normal-appearing white and grey matter of glioma patients nine months after proton beam irradiation.

Author

Witzmann, Katharina, Raschke, Felix, Löck, Steffen, Wesemann, Tim, Krause, Mechthild, Linn, Jennifer, and Troost, Esther G. C.

Subjects

*GRAY matter (Nerve tissue), *BRAIN, *HIPPOCAMPUS (Brain), *MULTIPLE regression analysis, *GLIOMAS, *MANN Whitney U Test, *WHITE matter (Nerve tissue), *THALAMUS, *PROTON therapy, *RADIATION doses, *AMYGDALOID body, *BLOOD volume, *PERFUSION, *LONGITUDINAL method

Abstract

Radio(chemo)therapy is used as a standard treatment for glioma patients. The surrounding normal tissue is inevitably affected by the irradiation. The aim of this longitudinal study was to investigate perfusion alterations in the normal-appearing tissue after proton irradiation and assess the dose sensitivity of the normal tissue perfusion. In 14 glioma patients, a sub-cohort of a prospective clinical trial (NCT02824731), perfusion changes in normal-appearing white matter (WM), grey matter (GM) and subcortical GM structures, i.e. caudate nucleus, hippocampus, amygdala, putamen, pallidum and thalamus, were evaluated before treatment and at three-monthly intervals after proton beam irradiation. The relative cerebral blood volume (rCBV) was assessed with dynamic susceptibility contrast MRI and analysed as the percentage ratio between follow-up and baseline image (ΔrCBV). Radiation-induced alterations were evaluated using Wilcoxon signed rank test. Dose and time correlations were investigated with univariate and multivariate linear regression models. No significant ΔrCBV changes were found in any normal-appearing WM and GM region after proton beam irradiation. A positive correlation with radiation dose was observed in the multivariate regression model applied to the combined ΔrCBV values of low (1–20 Gy), intermediate (21–40 Gy) and high (41–60 Gy) dose regions of GM (p < 0.001), while no time dependency was detected in any normal-appearing area. The perfusion in normal-appearing brain tissue remained unaltered after proton beam therapy. In further studies, a direct comparison with changes after photon therapy is recommended to confirm the different effect of proton therapy on the normal-appearing tissue. [ABSTRACT FROM AUTHOR]

Published

2023

2. Deconstructing negative pressure wound therapy

Author

Lalezari, Shadi, Lee, Christine J, Borovikova, Anna A, Banyard, Derek A, Paydar, Keyianoosh Z, Wirth, Garrett A, and Widgerow, Alan D

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Physical Injury - Accidents and Adverse Effects, Skin, Adult, Aged, Aged, 80 and over, Chronic Disease, Female, Humans, Male, Middle Aged, Negative-Pressure Wound Therapy, Wound Healing, Wounds and Injuries, Exudate control, Macrodeformation, Microdeformation, Negative pressure wound therapy, Perfusion changes, Nursing, Dermatology & Venereal Diseases, Clinical sciences

Abstract

Since its introduction 20 years ago for the treatment of chronic wounds, negative pressure wound therapy use has expanded to a variety of other wound types. Various mechanisms of action for its efficacy in wound healing have been postulated, but no unifying theory exists. Proposed mechanisms include induction of perfusion changes, microdeformation, macrodeformation, exudate control and decreasing the bacterial load in the wound. We surmise that these different mechanisms have varying levels of dominance in each wound type. Specifically, negative pressure wound therapy is beneficial to acute open wounds because it induces perfusion changes and formation of granulation tissue. Post-surgical incisional wounds are positively affected by perfusion changes and exudate control. In the context of chronic wounds, negative pressure wound therapy removes harmful and corrosive substances within the wounds to affect healing. When skin grafts and dermal substitutes are used to close a wound, negative pressure wound therapy is effective in promoting granulation tissue formation, controlling exudate and decreasing the bacterial load in the wound. In this review, we elucidate some of the mechanisms behind the positive wound healing effects of negative pressure wound therapy, providing possible explanations for these effects in different wound types.

Published

2017

3. Dynamic Integrated Backscatter Detects Radiotherapy-induced Cardiac Changes Better than Strain Analysis - A Prospective Three-year Study

Author

SUVI SIRKKU TUOHINEN, TANJA SKYTTA, HEINI HUHTALA, VESA VIRTANEN, PIRKKO-LIISA KELLOKUMPU-LEHTINEN, PEKKA RAATIKAINEN, HUS Heart and Lung Center, Department of Medicine, University of Helsinki, Kardiologian yksikkö, Tampere University, Clinical Medicine, TAYS Heart Centre, Department of Oncology, Health Sciences, and Tays Research Services

Subjects

Cancer Research, 3122 Cancers, PERFUSION CHANGES, TISSUE CHARACTERIZATION, Ventricular Function, Left, breast cancer, RADIATION-THERAPY, Unilateral Breast Neoplasms, Humans, Prospective Studies, speckle tracking echocardiography, Radiotherapy, cyclic variation of the integrated backscatter, Heart, Stroke Volume, General Medicine, SMOKING-CESSATION, CONTRACTILITY, DILATED CARDIOMYOPATHY, 3141 Health care science, Oncology, CYCLIC VARIATION, BREAST-CANCER PATIENTS, global longitudinal strain, ULTRASONIC BACKSCATTER, LUNG, myocardial imaging

Abstract

BACKGROUND/AIM: Radiotherapy (RT) related myocardial changes were analyzed by deformation imaging echocardiography in this study. PATIENTS AND METHODS: Ninety-nine breast cancer patients were studied at baseline, after chemotherapy, after RT, and three years after RT (3Y). Eighty patients received RT only, and twenty patients had right-sided breast cancer. Echocardiography included cyclic variation of the integrated backscatter in the septum (sCV) and posterior wall (pCV), global longitudinal strain (GLS), and left ventricular ejection fraction (LVEF). RESULTS: In patients with left-sided breast cancer, sCV declined from 11.3±3.3 dB at baseline to 10.3±2.9 dB after RT (p=0.001). No changes were observed after chemotherapy (p=0.211) or in patients with right-sided breast cancer after RT (p=0.977). No other parameters declined after RT. The decline in sCV was independently associated with the left anterior descending coronary artery radiation dose (β=-0.290, p=0.020). CONCLUSION: In contrast to other parameters, sCV correlated with heart radiation dose. publishedVersion

Published

2021

4. Deconstructing negative pressure wound therapy

Author

Lalezari, Shadi, Lee, Christine J, Borovikova, Anna A, Banyard, Derek A, Paydar, Keyianoosh Z, Wirth, Garrett A, and Widgerow, Alan D

Subjects

Adult, Aged, 80 and over, Male, Wound Healing, Physical Injury - Accidents and Adverse Effects, integumentary system, Dermatology & Venereal Diseases, Clinical Sciences, Perfusion changes, Macrodeformation, Negative pressure wound therapy, Nursing, Original Articles, Middle Aged, Microdeformation, Chronic Disease, 80 and over, Exudate control, Humans, Wounds and Injuries, Female, Negative-Pressure Wound Therapy, Skin, Aged

Abstract

Since its introduction 20 years ago for the treatment of chronic wounds, negative pressure wound therapy use has expanded to a variety of other wound types. Various mechanisms of action for its efficacy in wound healing have been postulated, but no unifying theory exists. Proposed mechanisms include induction of perfusion changes, microdeformation, macrodeformation, exudate control and decreasing the bacterial load in the wound. We surmise that these different mechanisms have varying levels of dominance in each wound type. Specifically, negative pressure wound therapy is beneficial to acute open wounds because it induces perfusion changes and formation of granulation tissue. Post-surgical incisional wounds are positively affected by perfusion changes and exudate control. In the context of chronic wounds, negative pressure wound therapy removes harmful and corrosive substances within the wounds to affect healing. When skin grafts and dermal substitutes are used to close a wound, negative pressure wound therapy is effective in promoting granulation tissue formation, controlling exudate and decreasing the bacterial load in the wound. In this review, we elucidate some of the mechanisms behind the positive wound healing effects of negative pressure wound therapy, providing possible explanations for these effects in different wound types.

Published

2016