Electronic spectroscopy and excited state mixing of OThF.

Electronic spectra for OThF have been recorded using fluorescence excitation and two-photon resonantly enhanced ionization techniques. Multiple vibronic bands were observed in the 340-460 nm range. Dispersed fluorescence spectra provided ground state vibrational constants and evidence of extensive vibronic state mixing at higher excitation energies.

Frailty and postoperative outcomes in brain tumor patients: a systematic review subdivided by tumor etiology.

Purpose: Frailty has gained prominence in neurosurgical oncology, with more studies exploring its relationship to postoperative outcomes in brain tumor patients. As this body of literature continues to grow, concisely reviewing recent developments in the field is necessary. Here we provide a systematic review of frailty in brain tumor patients subdivided by tumor type, incorporating both modern frailty indices and traditional Karnofsky Performance Status (KPS) metrics.

Dextran Fluorescent Probes Containing Sulfadiazine and Rhodamine B Groups.

Fluorescent imaging has been expanded, as a non-invasive diagnostic modality for cancers, in recent years. Fluorescent probes in the near-infrared window can provide high sensitivity, resolution, and signal-to-noise ratio, without the use of ionizing radiation. Some fluorescent compounds with low molecular weight, such as rhodamine B (RhB) and indocyanine green (ICG), have been used in fluorescent imaging to improve imaging contrast and sensitivity; however, since these probes are excreted from the body quickly, they possess significant restrictions for imaging.

Dual-modal polypeptide-containing contrast agents for magnetic resonance/fluorescence imaging.

Dual-modal magnetic resonance/fluorescent imaging (MRI/FI) attracts moreandmoreattentions in diagnosis of tumors. A corresponding dual-modal imaging agent with sufficient tumor sensitivity and specificity should be matched to improve imaging quality. Tripeptide (RGD) and pentapeptide (YIGSR) were selected as the tumor-targeting groups and attached to gadolinium diethylenetriaminepentaacetic acid (Gd-DTPA) and rhodamine B (RhB), and then make two novel polypeptide-based derivatives (RGD-Gd-DTPA-RhB and YIGSR-Gd-DTPA-RhB), respectively.

Developing Scattering Morphology Resolved Total Internal Reflection Microscopy (SMR-TIRM) for Orientation Detection of Colloidal Ellipsoids.

Micrometer scale colloidal particles experiencing ∼ scale interactions and suspended in a fluid are relevant to a broad spectrum of applications. Often, colloidal particles are anisotropic, either by design or by nature. Yet, there are few techniques by which ∼ scale interactions of anisotropic particles can be measured.

Polypeptide-rhodamine B probes containing laminin/fibronectin receptor-targeting sequence (YIGSR/RGD) for fluorescent imaging in cancers.

Currently, fluorescent imaging is one of the most promising diagnostic approaches for facile detection of cancers in situ in thanks to a fluorescent probe. Two novel polypeptide-based fluorescent probes for different biomarkers to cancers are reported here. These probes focused on tyrosine-isoleucine-glycine-serine-arginine (YIGSR) and arginine-glycine-aspartic (RGD), which receptors play an important role in the extracellular matrix and are overexpressed in tumor cells and then can be used as tumor-targeting groups in fluorescent imaging.

Al F labeled sulfonamide-conjugated positron emission tomography tracer in vivo tumor-targeted imaging.

An ideal positron emission tomography (PET) tracer should be highly extractable by the tumor tissue or organ that contains low toxicity and can provide high-resolution images in vivo. In this work, the aim was to evaluate the application of Al F-labeled 1,4,7-triazacyclononane-1,4,7-triacetic acid containing sulfonamide group ( F-Al-NOTA-SN) as a potential tumor-targeting signal-enhanced radioactive tracer in PET. SN as a tumor-targeting group was incorporated to NOTA to make a ligand.