Rapid tissue processing using a temperature-controlled collection device to preserve tumor biomarkers

Precision tissue diagnostics rely on high quality input specimens so that assay results are not affected by artifact, but advances in collection and processing of tissue specimens have lagged behind innovations in diagnostic assay development. Therefore, we have designed and evaluated a novel surgical tissue collection device that maintains and monitors sample temperature and motion throughout transport so that the major preanalytical variable of tissue temperature can be controlled and measured. This device, in combination with an improved cold–hot tissue fixation protocol affords optimal biomarker preservation in less overall time, thereby simultaneously improving diagnostic quality and turnaround time. We collected 50 primary and metastatic liver tumors using a novel transport device. Tissue was fixed using a rapid cold–hot fixation protocol and immunohistochemical assays were used to assess the performance of the device, in comparison to control tissue preserved using standard clinical fixation protocol. Two pathologists evaluated the IHC studies in a blinded fashion to determine the immunophenotype of each tumor. The observed IHC staining intensities and the clinical impressions of the immunophenotypes did not differ between tissue collected with the novel device and control tissue, while improvements in processing time were achieved. The novel cold transport device and rapid fixation protocol can be successfully and safely combined and used to monitor specimen conditions, thus preserving the diagnostic utility of specimens and improving the overall turn-around time of the diagnostic process.

Monitoring Dehydration and Clearing in Tissue Processing for High-Quality Clinical Pathology

The development of precision testing for disease diagnosis has advanced medicine by specifically matching patients with drugs to treat specific diseases. High-quality diagnostics start with high-quality tissue specimens. The development and optimization of tissue handling and processing have lagged behind bioassay development. Ultrasound time-of-flight (TOF) technology has been successfully used to monitor the critical processing step of tissue fixation with formalin. In this study, we expand the use of this technology to monitor tissue dehydration and clearing by analyzing TOF signals from 270 different specimens, representing 13 different tissue types obtained through surgical resections. We determined the time constant τ₉₀ for each tissue type for the following tissue processing solvents: 70% ethanol, 90% ethanol, 100% ethanol, and xylene. The TOF signals were correlated with tissue morphology to ensure that high-quality tissue was produced. Tissues can be grouped into those exhibiting fast and slow reagent diffusion. We monitored incomplete dehydration of tissue by skipping a key processing step, dehydration in absolute ethanol, and then correlated the τ₉₀ with poor histomorphology, demonstrating that the technique can detect significant processing errors. Ultrasound TOF technology can therefore be used to monitor all phases of tissue processing cycle and yields an important preanalytical quality metric.

Rapid two-temperature formalin fixation

Formalin fixation is a mainstay of modern histopathologic analysis, yet the practice is poorly standardized and a significant potential source of preanalytical errors. Concerns of workflow and turnaround time drive interest in developing shorter fixation protocols, but rapid protocols can lead to poor histomorphology or inadequate downstream assay results. Additionally, assays such as immunohistochemistry for phosphorylated epitopes have historically been challenging in the context of formalin-fixed tissue, indicating that there may be room for improvement in this process that is fundamental to the practice of anatomic pathology. With these issues in mind, we studied basic formalin biochemistry to develop a novel formalin fixation protocol that involves a pre-incubation in subambient temperature formalin prior to a brief exposure to heated formalin. This new protocol is more rapid than standard protocols yet preserves histomorphology and yields tissue that is compatible with an expanded set of downstream clinical and research assays, including immunohistochemistry for phosphorylated epitopes.

Resonant Electron Transfer in Collisions between Two Fullerene Ions

Fullerenes are a direct link between atoms with discrete electronic energy levels and solids with a band structure and a well-defined surface. In this Letter, we report on the first ever experiment on resonant electron transfer in collisions between two fullerene ions. Total cross sections have been measured for the reaction C+60+C2+60-->C2+60+C+60 at center-of-mass energies ranging from 27 to 69 keV. Surprisingly, within the error bars, these cross sections are identical to the respective cross sections for C+60+C60 measured by Rohmund and Campbell [J. Phys. B 30, 5293 (1997)]]. We show that the experimental data for both collision systems are very well reproduced by a quantum mechanical treatment of the reaction based on the concept of hole particles and the polarizability of the fullerene molecule.

Hypericin activated by an incoherent light source has photodynamic effects on esophageal cancer cells

BACKGROUND AND AIMS

Photodynamic therapy (PDT) is a new treatment modality for early esophageal neoplasia. With two absorption maxima in the visible light range (550 and 588 nm) hypericin is a very promising photosensitizer for PDT with incoherent light sources. We studied the effects of photosensitizing hypericin in both primary cell cultures and cell lines (squamous: Kyse-140 and adenocarcinoma: OE-33) of human esophageal cancer using an incoherent white light source.

MATERIALS AND METHODS

Esophageal cancer cells were preincubated (4-24 h) with hypericin (10 nM-1 micro M) and then irradiated with a light energy dose of 30 J/cm(2).

RESULTS

Hypericin showed strong phototoxic effects and induced apoptosis in a dose-dependent fashion. The IC(50) value of hypericin phototoxicity was approximately 30 nM in both squamous and adenocarcinoma cells. In the concentrations used nonphotoactivated hypericin showed no toxic or apoptotic potency. The phototoxicity of hypericin was compared to that of delta-aminolevulinic acid (5-ALA), which is already being used for photodynamic therapy of gastrointestinal cancer. 5-ALA produced similar phototoxic effects but at a much higher dose (IC(50) 182+/-8 micro M in Kyse-140 and 308+/-40 micro M in OE-33 cells). Moreover, 5-ALA did not induce apoptosis to a relevant extent.

CONCLUSION

Hypericin is a very promising new photosensitizer for innovative photodynamic therapy of esophageal cancer. Both the well known clinical safety of hypericin and the lower costs of broad band light sources argue in favor of clinical trials.

[Comparative study of the anti-arrhythmia effect of flecainide acetate and prajmalium bitartrate in patients with tachycardiac ventricular rhythm disorders]

In an open randomized therapeutic study, 20 patients known to have frequent ventricular premature beats (VPB) and/or ventricular pairs (VP) were treated with both 2 X 200 mg flecainide (F) and 4 X 20 mg prajmalium-bitartrate (P) for 3 months each. There was a drug-free interval of one week between the two therapy phases. 24-hour long-term ECG-registrations were carried out before the start of the therapy phases as well as 1 week, 1 month, 2 months and 3 months after the initiation of antiarrhythmic therapy. After one week, the group as a whole evidenced a VPB reduction of 94% under F and only 57% under P (p less than or equal to 0.05). The percentage of individual patients in whom there was a statistically significant VPB reduction was also higher under F than under P (65% vs. 40%). In the group as a whole, there was a VP reduction of 99% under F and 88% under P (p less than or equal to 0.05) after one week. Of the 13 individuals with frequent VP (over 16 VP/24 h), a significant reduction was seen in 77% under F and only 38% under P. The difference between the two antiarrhythmic agents registered after one week was also observed in the further course of therapy but could no longer be statistically confirmed for the ventricular pairs. An aggravation of ventricular arrhythmias was observed in 2 patients under F and in 3 under P.(ABSTRACT TRUNCATED AT 250 WORDS)