Our findings suggest that altered corticostriatal connectivity can be found in participants with high levels of social anhedonia. Since social anhedonia has been considered a predictor for schizophrenia spectrum disorders, our results may provide novel evidence on the early changes in brain functional connectivity in at-risk individuals.
Objective: This study aimed to explore alterations in the topological properties of the functional brain network in primary Parkinson's disease (PD) patients with freezing of gait (PD-FOG). Methods: Resting-state functional magnetic resonance imaging (Rs-fMRI) data were obtained in 23 PD-FOG patients, 33 PD patients without FOG (PD-nFOG), and 24 healthy control (HC) participants. The whole-brain functional connectome was constructed by thresholding the Pearson correlation matrices of 90 brain regions, and topological properties were analyzed by using graph theory approaches. The networkbased statistics (NBS) method was used to determine the suprathreshold connected edges (P < 0.05; threshold T = 2.725), and statistical significance was estimated by using the non-parametric permutation method (5,000 permutations). Statistically significant topological properties were further evaluated for their relationship with clinical neurological scales. Results: The topological properties of the functional brain network in PD-FOG and PD-nFOG showed no abnormalities at the global level. However, compared with HCs, PD-FOG patients showed decreased nodal local efficiency in several brain regions, including the bilateral striatum, frontoparietal areas, visual cortex, and bilateral superior temporal gyrus, increased nodal local efficiency in the left gyrus rectus. When compared with PD-nFOG patients and HCs, PD-FOG showed increased betweenness centrality in the left hippocampus. Moreover, compared to HCs, both PD-FOG and PD-nFOG patients displayed reduced network connections by using the NBS method, mainly involving the sensorimotor cortex (SM), visual network (VN), default mode network (DMN), auditory network (AN), dorsal attention network (DAN), subcortical regions, and limbic network (LIM). The local node efficiency of the right temporal pole: superior temporal gyrus in PD-FOG patients was positively correlated with the Freezing of Gait Questionnaire (FOGQ) scores.
The
codelivery of drugs at specific optimal ratios to cancer cells
is vital for combination chemotherapy. However, most of the current
strategies are unable to coordinate the loading and release of drug
combinations to acquire precise and controllable synergistic ratios.
In this work, we designed an innovative dual-drug backboned and reduction-sensitive
polyprodrug PEG-P(MTO-ss-CUR) containing the anticancer drugs mitoxantrone
(MTO) and curcumin (CUR) at an optimal synergistic ratio to reverse
drug resistance. Due to synchronous drug activation and polymer backbone
degradation, drug release at the predefined ratio with a synergistic
anticancer effect was demonstrated by in vitro and in vivo experiments. Therefore, the dual-drug delivery system
developed in this work provides a novel and efficient strategy for
combination chemotherapy.
The
normoxic and hypoxic microenvironments in solid tumors cause cancer
cells to show different sensitivities to various treatments. Therefore,
it is essential to develop different therapeutic modalities based
on the tumor microenvironment. In this study, we designed size-switchable
nanoparticles with self-destruction and tumor penetration characteristics
for site-specific phototherapy of cancer. This was achieved by photodynamic
therapy in the perivascular normoxic microenvironment due to high
local oxygen concentrations and photothermal therapy (PTT) in the
hypoxic microenvironment, which are not in proximity to blood vessels
due to a lack of effective approaches for heat transfer. In brief,
a poly(amidoamine) dendrimer with photothermal agent indocyanine green
(PAMAM-ICG) was conjugated to the amphiphilic polymer through a singlet
oxygen-responsive thioketal linker and then loaded with photosensitizer
chlorin e6 (Ce6) to construct a nanotherapy platform (denoted as SNPICG/Ce6). After intravenous injection, SNPICG/Ce6 was accumulated at the perivascular sites of the tumor. The singlet
oxygen produced by Ce6 can ablate the tumor cells in the normoxic
microenvironment and simultaneously cleave the thioketal linker, allowing
the release of small PAMAM-ICGs with improved tumor penetration for
PTT in the hypoxic microenvironment. This tailored site-specific phototherapy
in normoxic and hypoxic microenvironments provides an effective strategy
for cancer therapy.
Impairment in empathy has been demonstrated in patients with schizophrenia and individuals with psychosis proneness. In the present study, we examined the neural correlates underlying theory of mind (ToM) and empathy and the relationships between these two social cognitive abilities with schizotypy. Fifty-six first-year college students (31 males, 25 females) between 17 and 21 years of age (M = 19.3, SD = 0.9) from a medical university in China participated. All participants undertook a comic strips functional imaging task that specifically examined both empathy and ToM. In addition, they completed two self-report scales: the Chapman Psychosis Proneness scale and the Interpersonal Responsivity Index (IRI). Results showed that both empathy and ToM conditions of the task were associated with brain activity in the middle temporal gyrus, the temporo-parietal junction (TPJ), the precuneus and the posterior cingulate gyrus. In addition, we found positive correlations between negative schizotypy and brain activity in regions involved in social cognition, namely, the middle temporal gyrus, the TPJ, as well as the medial prefrontal gyrus. These findings highlight that different dimensions of schizotypy may show different associations with brain regions involved in social cognitive abilities. More importantly, the positive correlation between brain activity and anhedonia suggests the presence of compensatory mechanisms in high-risk populations.
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