Lukas Kohler scite author profile

FGFR1 is a receptor tyrosine kinase of which the ligands belong to the fibroblast growth factor family. To evaluate the significance of FGFR1 in lung cancer, we analysed tumours by immunohistochemistry (IHC) and fluorescence in situ hybridization (FISH). Tissue microarrays were constructed containing 380 lung cancer samples including squamous cell carcinomas (SCC), adenocarcinomas (ADC), non-small cell lung cancer not otherwise specified, metastases, neuroendocrine tumours, large cell lung cancer and small cell lung cancer. FGFR1 expression was analysed by IHC and scored semi-quantitatively by a four-tier approach (0, 1, 2, 3). Using dual-colour interphase FISH with probes specific for the locus on 8p12 and the centromere of chromosome 8 (CEN8), copy numbers of FGFR1 were determined. High expression of FGFR1 was associated with increased FGFR1 gene copy numbers in squamous cell carcinoma (p < 0.001). The FGFR1 locus was equally affected by copy number losses and gains. The higher FGFR1 gene copy numbers in SCC compared to ADC did not reach statistical significance. High copy number amplification of FGFR1 was a very rare event, the FGFR1/CEN8 signal ratio reaching a maximum value of 2.75. There were no significant associations between FGFR1 and clinicopathological parameters. Fibroblast growth factor signalling represents an interesting therapeutic target in lung cancer. However, the pathways are complex with potential oncogenic and anti-oncogenic activities. Our data may help to define criteria for selecting patients that may benefit from these new therapeutic options.

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Hyperspectral Imaging (HSI) as a new diagnostic tool in free flap monitoring for soft tissue reconstruction: a proof of concept study

Kohler

Köhler

Kohler

et al. 2021

BMC Surg

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Objectives Free flap surgery is an essential procedure in soft tissue reconstruction. Complications due to vascular compromise often require revision surgery or flap removal. We present hyperspectral imaging (HSI) as a new tool in flap monitoring to improve sensitivity compared to established monitoring tools. Methods We performed a prospective observational cohort study including 22 patients. Flap perfusion was assessed by standard clinical parameters, Doppler ultrasound, and HSI on t0 (0 h), t1 (16–28 h postoperatively), and t2 (39–77 h postoperatively). HSI records light spectra from 500 to 1000 nm and provides information on tissue morphology, composition, and physiology. These parameters contain tissue oxygenation (StO2), near-infrared perfusion- (NIR PI), tissue hemoglobin- (THI), and tissue water index (TWI). Results Total flap loss was seen in n = 4 and partial loss in n = 2 cases. Every patient with StO2 or NIR PI below 40 at t1 had to be revised. No single patient with StO2 or NIR PI above 40 at t1 had to be revised. Significant differences between feasable (StO2 = 49; NIR PI = 45; THI = 16; TWI = 56) and flaps with revision surgery [StO2 = 28 (p < 0.001); NIR PI = 26 (p = 0.002); THI = 56 (p = 0.002); TWI = 47 (p = 0.045)] were present in all HSI parameters at t1 and even more significant at t2 (p < 0.0001). Conclusion HSI provides valuable data in free flap monitoring. The technique seems to be superior to the gold standard of flap monitoring. StO2 and NIR PI deliver the most valuable data and 40 could be used as a future threshold in surgical decision making. Clinical Trial Register This study is registered at the German Clinical Trials Register (DRKS) under the registration number DRKS00020926.

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Diagnostic and prognostic impact of desmocollins in human lung cancer

et al. 2012

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Objective Desmosomes are intercellular junctions that confer strong cell-cell adhesion. Two main members of desmosomal cadherins, desmogleins (DSGs) and desmocollins (DSCs), are involved in carcinogenesis. However, their role in human lung cancer remained elusive. The aims of this study were to analyse the expression of DSCs and to evaluate their clinical application in lung cancer. Methods The expression of DSC1-3 mRNAs was analysed by RT-PCR. The methylation status of DSCs was analysed by demethylation tests and bisulphite sequencing. Protein expression of DSCs in primary lung cancer was evaluated by immunohistochemistry on tissue microarrays. Results DSC1-3 mRNAs were downregulated in lung cancer cells, and the expression was restored in four out of seven cell lines, respectively, after 5-aza-2 0 -deoxycytidine treatment. A heterogeneous methylation pattern was detected by bisulphite sequencing in exon 1 of DSC2 and DSC3. In 199 patients with primary lung cancer, we found that lower protein expression of DSC1 was significantly linked to worse tumour differentiation (p=0.017), DSC3 proteins were more expressed in squamous cell carcinoma (SCC) compared with adenocarcinoma (ADC) ( p<0.001), and reduced expression of DSC1 and DSC3 was significantly correlated with poor clinical outcome ( p=0.045 and p=0.007, respectively). Conclusions Our data suggest that downregulation of DSC1-3 may be explained by DNA methylation, DSC1 may be a marker for tumour differentiation, DSC3 has a potential diagnostic value in subclassification of non-small cell lung carcinoma into SCC and ADC, and furthermore, DSC1 and DSC3 may be prognostic markers for lung cancer.

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Lukas Kohler

FGFR1 expression and gene copy numbers in human lung cancer

Hyperspectral Imaging (HSI) as a new diagnostic tool in free flap monitoring for soft tissue reconstruction: a proof of concept study

Diagnostic and prognostic impact of desmocollins in human lung cancer

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