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train is derived from standard native cine imaging, such parameters can be time efficiently and reliably calculated, giving them the potential to be a powerful addition to the currently developing multiparametric native diagnostic approaches.

We aim to characterize the quantitative dynamic contrast-enhanced (DCE) magnetic resonance imaging (MRI) parameters associated with advanced mandibular osteoradionecrosis (ORN) compared with the contralateral normal mandible.

Patients with a diagnosis of advanced ORN after curative-intent radiation treatment of head and neck cancer were prospectively enrolled after institutional review board approval and study-specific informed consent were obtained. Quantitative maps generated with the Tofts and extended Tofts pharmacokinetic models were used for analysis. Manual segmentation of advanced ORN 3-dimensional volume was done using anatomic sequences to create ORN volumes of interest (VOIs). Subsequently, normal mandibular VOIs were segmented on the contralateral healthy mandible of similar volume and anatomic location to create control VOIs. Finally, anatomic sequences were coregistered to DCE sequences, and contours were propagated to the respective parameter maps.

Thirty patients were included. The mediaree of leakiness in the mandibular vasculature as measured using DCE-MRI parameters of areas with advanced ORN versus healthy mandible.

Through this multi-institutional study, we aimed to retrospectively evaluate the safety and efficacy of repeated stereotactic body radiation therapy (SBRT) for intrahepatic recurrent hepatocellular carcinoma (HCC).

Between 2005 and 2017, 709 patients with 835 HCCs underwent SBRT; those treated with repeated SBRT were eligible. The median prescribed dose was 40 Gy in 5 fractions.

Eighty-one patients with 189 tumors underwent repeated SBRT (≥ 2 courses [median 2 times; range, 2-5 times]). The median follow-up periods from the first to the second SBRT were 41.5 (range, 12-99) and 20 (range, 1-81) months, respectively. The median interval between the first and second SBRT was 18 (range, 3-74) months. The 5-year local recurrence rate was 6.3% (95% confidence interval [CI], 2.3%-13.4%). The 5-year overall survival (OS) and liver-related death rates from the first SBRT were 60.4% (95% CI, 47.0%-73.8%) and 32.9% (95% CI, 20.3%-46.0%), respectively, and the 3-year rates from the second SBRT were 61.0% (95% CI, 4t of other curative local treatments for patients with well-preserved liver function.

Our purpose was to investigate the association between imaging biomarkers of radiation-induced white matter (WM) injury within perisylvian regions and longitudinal language decline in patients with brain tumors.

Patients with primary brain tumors (n = 44) on a prospective trial underwent brain magnetic resonance imaging, diffusion-weighted imaging, and language assessments of naming (Boston Naming Test [BNT]) and fluency (Delis-Kaplan Executive Function System Category Fluency [DKEFS-CF]) at baseline and 3, 6, and 12 months after fractionated radiation therapy (RT). Reliable change indices of language function (0-6 months), accounting for practice effects (RCI-PE), evaluated decline. Bilateral perisylvian WM regions (superficial WM subadjacent to Broca's area and the superior temporal gyrus [STG], inferior longitudinal fasciculus [ILF], inferior fronto-occipital fasciculus [IFOF], and arcuate fasciculus) were autosegmented. We quantified volume and diffusion measures of WM microstructure fractional anisotelated with increased MD values within the left-arcuate fasciculus (P = .03). CHIR-124 nmr Right-sided biomarkers did not correlate with language scores.

Patients with primary brain tumors experience language fluency decline post-RT. Poorer fluency and naming function may be explained by microstructural injury to left-sided perisylvian WM, representing potential dose-avoidance targets for language preservation.

Patients with primary brain tumors experience language fluency decline post-RT. Poorer fluency and naming function may be explained by microstructural injury to left-sided perisylvian WM, representing potential dose-avoidance targets for language preservation.

Despite the survival benefit of transarterial chemoembolization (TACE) for unresectable hepatocellular carcinoma (HCC), a majority of tumors recur, attributed to hypovascularity and treatment resistance. Preclinical studies show that moderate radiation doses induce changes in tumor permeability and perfusion, suggesting an opportunity for TACE sensitization by radiation. In this prospective phase 1 trial, we evaluated the feasibility, safety, tolerability, response, and functional magnetic resonance imaging (MRI) changes associated with single-fraction stereotactic body radiation therapy (SBRT) followed by TACE within 24 hours.

Patients with HCC, 1 to 3 lesions, Childs-Pugh A/B liver function, and no major vascular invasion were enrolled. The primary objective was to establish the feasibility of single-dose SBRT (7.5 or 10 Gy) followed by TACE within 24 hours. Secondary endpoints included safety, tolerability, perfusional changes via functional MRI, overall response rate (ORR), clinical benefit rate (CBR)ound that single-dose SBRT followed by TACE within 24 hours is feasible and tolerable. Dynamic contrast-enhanced MRI revealed acute changes in tumor permeability/perfusion after SBRT. Additional studies are needed to establish the safety and efficacy of this combination and the effects of SBRT on the HCC microenvironment.

We hypothesized a strategy of SBRT preceding TACE for the purpose of enhancing TACE delivery and efficacy and tested this strategy in a small pilot study. We found that single-dose SBRT followed by TACE within 24 hours is feasible and tolerable. Dynamic contrast-enhanced MRI revealed acute changes in tumor permeability/perfusion after SBRT. Additional studies are needed to establish the safety and efficacy of this combination and the effects of SBRT on the HCC microenvironment.There is no treatment for spinal cord injury (SCI) that fully repairs the damages. One strategy is to inject mesenchymal stem cells around the lesion to benefit from their immunomodulatory properties and neuroprotective effect. Our hypothesis was that the combination of dental stem cells from the apical papilla (SCAP) with pharmacologically active microcarriers (PAMs) releasing brain-derived neurotrophic factor (BDNF) would improve rat locomotor function by immunomodulation and neuroprotection. BDNF-PAMs were prepared by solid/oil/water emulsion of poly(L-lactide-co-glycolide) and nanoprecipitated BDNF and subsequent coating with fibronectin. SCAP were then seeded on BDNF-PAMs. SCAP expression of neuronal and immunomodulatory factors was evaluated in vitro. SCAP BDNF-PAMs were injected in a rat spinal cord contusion model and their locomotor function was evaluated by Basso, Beattie, and Bresnahan (BBB) scoring. Impact on inflammation and neuroprotection/axonal growth was evaluated by immunofluorescence. Culture on PAMs induced the overexpression of immunomodulatory molecules and neural/neuronal markers.

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