The assessment of consciousness status in primary brainstem hemorrhage (PBH) patients can be achieved by monitoring changes in basic vital signs.

The objective of the study was to explore the association between basic vital signs and consciousness status in patients with primary brainstem hemorrhage (PBH). Patients with PBH were categorized into two groups based on Glasgow Coma Scale (GCS) scores: disturbance of consciousness (DOC) group (GCS=3-8) and non-DOC group (GCS=15). Within DOC group, patients were further divided into behavioral (GCS=4-8) and non-behavioral (GCS=3) subgroups.

The signs of computer tomography combined with artificial intelligence can indicate the correlation between status of consciousness and primary brainstem hemorrhage of patients.

Background: For patients of primary brainstem hemorrhage (PBH), it is crucial to find a method that can quickly and accurately predict the correlation between status of consciousness and PBH.

Objective: To analyze the value of computer tomography (CT) signs in combination with artificial intelligence (AI) technique in predicting the correlation between status of consciousness and PBH.

Methods: A total of 120 patients with PBH were enrolled from August 2011 to March 2021 according to the criteria.

BMSCs-assisted injectable Col I hydrogel-regenerated cartilage defect by reconstructing superficial and calcified cartilage.

The self-healing capacity of cartilage was limited due to absence of vascular, nervous and lymphatic systems. Although many clinical treatments have been used in cartilage defect repair and shown a promising repair result in short term, however, regeneration of complete zonal structure with physiological function, reconstruction cartilage homeostasis and maintaining long-term repair was still an unbridgeable chasm. Cartilage has complex zonal structure and multiple physiological functions, especially, superficial and calcified cartilage played an important role in keeping homeostasis.

Dynamic mechanical loading facilitated chondrogenic differentiation of rabbit BMSCs in collagen scaffolds.

Mechanical signals have been played close attention to regulate chondrogenic differentiation of bone marrow mesenchymal stem cells (BMSCs). In this study, dynamic mechanical loading simulation with natural frequencies and intensities were applied to the 3D cultured BMSCs-collagen scaffold constructs. We investigated the effects of dynamic mechanical loading on cell adhesion, uniform distribution, proliferation, secretion of extracellular matrix (ECM) and chondrogenic differentiation of BMSCs-collagen scaffold constructs.

A Col I and BCP ceramic bi-layer scaffold implant promotes regeneration in osteochondral defects.

Osteochondral defects occur in the superficial cartilage region, intermediate calcified cartilage, and subchondral bone. Due to the limited regenerative capacity and complex zonal structure, it is critically difficult to develop strategies for osteochondral defect repair that could meet clinical requirements. In this study, type I collagen (Col I) and BCP ceramics were used to fabricate a new bi-layer scaffold for regeneration in osteochondral defects.

Efficient Targeting Drug Delivery System for Lewis Lung Carcinoma, Leading to Histomorphological Abnormalities Restoration, Physiological and Psychological Statuses Improvement, and Metastasis Inhibition.

Lung cancer is a kind of malignant tumor with high morbidity and metastasis tendency. Gambogic acid (GA) has demonstrated significant antitumor activity in vitro, but its poor water-solubility and adverse effects restrict its application in vivo and in clinic. In this study, a passive-targeting GA delivery system was prepared for orthotopic Lewis lung carcinoma model mice.

Fast fabrication of stable cartilage-like tissue using collagen hydrogel microsphere culture.

Mesenchymal stem cells (MSCs) had been increasingly regarded as a potent cell source for cartilage repair. However, due to the instability of MSC-derived chondrocyte phenotype and ossification of the synthesised cartilage matrix, regenerating a stable cartilage tissue by MSCs is still challenging. The fate of chondrogenesis from MSCs is regulated by their local microenvironment, which is of vital importance to the cell behaviours, chondrogenic phenotype and matrix synthesis.

Temperature and ion dual responsive biphenyl-dipeptide supramolecular hydrogels as extracellular matrix mimic-scaffolds for cell culture applications.

Stimuli-responsive supramolecular hydrogels composed of aromatic short peptide gelators have attracted intensive attention in the field of biomedicine because of their stable chemical structure, simple and convenient synthetic route and intelligent response to external stimuli. In this paper, several dipeptides were coupled to biphenylacetic acid (BPAA) to generate aromatic short peptide compounds through the standard solid phase peptide synthesis. These BPAA-dipeptide compounds presented clearly different gelation behaviors from the generally employed Fmoc-dipeptide and Nap-dipeptide compounds, but only BPAA-diphenylalanine was able to form homogeneous and transparent hydrogels through temperature switching or ion induction.

Extracellular matrix powder from cultured cartilage-like tissue as cell carrier for cartilage repair.

Cartilage extracellular matrix (ECM) is a promising material for cartilage repair because of its bioactivity. However, the animal source of ECM unavoidably increases the risk of pathogen infection and the variability of product quality. In this study, we utilized a novel 3D culture method to prepare a new type of artificial decellularized matrix powder (DEMP) for the development of injectable, bioactive, biodegradable cell carriers for cartilage tissue engineering.

Synergistic chemotherapeutic effect of sorafenib-loaded pullulan-Dox conjugate nanoparticles against murine breast carcinoma.

pH-Sensitive pullulan-doxorubicin conjugates encapsulating sorafenib (P-Dox/S) nanoparticles were developed as a synergistic combinatorial delivery system against murine breast carcinoma. The nanoparticles can encapsulate Dox and sorafenib with ultra-high loading capacity (65.34 wt%) through chemical conjugation and physical loading, whereas can remain stable under physiological conditions and gradually release Dox and sorafenib with the decreasing pH.

Roles of calcium phosphate-mediated integrin expression and MAPK signaling pathways in the osteoblastic differentiation of mesenchymal stem cells.

Osteoinduction of calcium phosphate (CaP) ceramics has been widely confirmed and accepted, but the underlying mechanism has not been fully elucidated. This study investigates the early biomolecular events that contributed to the transduction of extracellular material cues outside in, when MSCs were cultured in osteoinductive biphasic calcium phosphate (BCP) ceramics, and explores their roles in BCP-induced osteogenesis. The results demonstrated that BCP ceramics had a strong adsorption affinity for serum proteins, which might favor cell adhesion and mediate the expression of the cell surface receptor - integrin.

The self-crosslinking smart hyaluronic acid hydrogels as injectable three-dimensional scaffolds for cells culture.

Although the disulfide bond crosslinked hyaluronic acid hydrogels have been reported by many research groups, the major researches were focused on effectively forming hydrogels. However, few researchers paid attention to the potential significance of controlling the hydrogel formation and degradation, improving biocompatibility, reducing the toxicity of exogenous and providing convenience to the clinical operations later on. In this research, the novel controllable self-crosslinking smart hydrogels with in-situ gelation property was prepared by a single component, the thiolated hyaluronic acid derivative (HA-SH), and applied as a three-dimensional scaffold to mimic native extracellular matrix (ECM) for the culture of fibroblasts cells (L929) and chondrocytes.

Gambogic acid-loaded electrosprayed particles for site-specific treatment of hepatocellular carcinoma.

This study aims to assess the targeted effect and antitumor efficacy of Gambogic-acid-loaded particles (GA-Ps). GA-Ps with uniform particle sizes of 69.8 ± 17.