Mikael Sandell scite author profile

Mikael Sandell

3Publications

37Citation Statements Received

101Citation Statements Given

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Karolinska University Hospital, Karolinska Institutet, KTH Royal Institute of Technology

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Myocardial micro-biopsy procedure for molecular characterization with increased precision and reduced trauma

Grankvist¹,

Chireh²,

Sandell³

et al. 2020

Sci Rep

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Endomyocardial biopsy is a valuable tool in cardiac diagnostics but is limited by low diagnostic yield and significant complication risks. Meanwhile, recent developments in transcriptomic and proteomic technologies promise a wealth of biological data from minimal tissue samples. To take advantage of the minimal tissue amount needed for molecular analyses, we have developed a sub-millimeter endovascular biopsy device, considerably smaller than current clinical equipment, and devised a lowinput RNA-sequencing protocol for analyzing small tissue samples. In in vivo evaluation in swine, 81% of biopsy attempts (n = 157) were successful. High quality RNA-sequencing data was generated from 91% of the sequenced cardiac micro-biopsy samples (n = 32). Gene expression signatures of samples taken with the novel device were comparable with a conventional device. no major complications were detected either during procedures or during 7 days' follow-up, despite acquiring a relatively large number of biopsies (median 30) in each animal. In conclusion, the novel device coupled with RNAsequencing provides a feasible method to obtain molecular data from the myocardium. The method is less traumatic and has a higher flexibility compared to conventional methods, enabling safer and more targeted sampling from different parts of the myocardium. Endomyocardial biopsy (EMB) is an established method for obtaining ventricular cardiac tissue for pathologic diagnosis and research, primarily for rejection monitoring after cardiac transplantation. EMB is also used in diagnosis of cardiomyopathies, infectious and neoplastic disease. Typically, the EMB device is inserted into the femoral vein or the right internal jugular vein and advanced to the right ventricle (RV), where samples are taken from the ventricular septum 1. The use of EMB is declining 2 , despite being the gold standard method for a number of diagnoses and being supported by cardiology organizations 1,3. This decline may be caused by an increasing use of non-invasive low-risk tests, low diagnostic yield, and complication risks. In fact, the diagnostic yield of EMB is low for many diseases 4. Moreover, the method has a significant complication risk, variably reported between 2.7% and 8.9% 1,2 .

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Transcriptomic analysis of the harvested endothelial cells in a swine model of mechanical thrombectomy

et al. 2018

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PurposeIn mechanical thrombectomy (MT) for ischemic stroke, endothelial cells (ECs) from intracranial blood vessels adhere to the stent retriever device and can be harvested. However, understanding the molecular biology and the role of the endothelium in different pathological conditions remains insufficient. The purpose of the study was to characterize and analyze the molecular aspect of harvested ECs using cell culture and transcriptomic techniques in an MT swine model relevant to clinical ischemic stroke.MethodsIn swine, preformed thrombi were injected into the external carotid and subclavian arteries to occlude their branches. MT was performed according to clinical routine. The stent retriever device and thrombus were treated with cell dissociation buffer. The resulting cell suspension was analyzed by immunohistochemistry and was cultured. Cultured cells were analyzed using single-cell RNA sequencing (scRNA-seq) after fluorescence-activated cell sorting (FACS).ResultsA total number of 37 samples were obtained containing CD31-positive cells. Cell culture was successful in 90% of samples, and the cells expressed multiple typical EC protein markers. Eighty-nine percent of the sorted cells yielded high-quality transcriptomes, and single-cell transcriptomes from cultured cells showed that they expressed typical endothelial gene patterns. Gene expression analysis of ECs from an occluded artery did not show distinctive clustering into subtypes.ConclusionECs harvested during MT can be cultured and analyzed using single-cell transcriptomic techniques. This analysis can be implemented in clinical practice to study the EC gene expression of comorbidities, such as hypertension, diabetes mellitus, and metabolic syndrome, in patients suffering from acute ischemic stroke.

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Micro-biopsy for detection of gene expression changes in ischemic swine myocardium: A pilot study

et al. 2021

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Micro-endomyocardial biopsy (micro-EMB) is a novel catheter-based biopsy technique, aiming to increase flexibility and safety compared to conventional EMB. The technique was developed and evaluated in healthy swine. Therefore, the ability to detect disease related tissue changes could not be evaluated. The aim of the present pilot study was to investigate the ability to detect disease related gene expression changes using micro-EMB. Myocardial infarction was induced in three swine by coronary artery balloon occlusion. Micro-EMB samples (n = 164) were collected before, during, and after occlusion. RNA-sequencing was performed on 85 samples, and 53 of these were selected for bioinformatic analysis. A large number of responding genes was detected from the infarcted area (n = 1911). The early responding genes (n = 1268) were mostly related to apoptosis and inflammation. There were fewer responding genes two days after infarction (n = 6), which were related to extra-cellular matrix changes, and none after 14 days. In contrast to the infarcted area, samples harvested from a non-infarcted myocardial region showed considerably fewer regulated genes (n = 33). Deconvolution analysis, to estimate the proportion of different cell types, revealed a higher proportion of fibroblasts and a reduced proportion of cardiomyocytes two days after occlusion compared to baseline (p < 0.02 and p < 0.01, respectively. S5 File). In conclusion, this pilot study demonstrates the capabilities of micro-EMB to detect local gene expression responses at an early stage after ischemia, but not at later timepoints.

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Mikael Sandell

Myocardial micro-biopsy procedure for molecular characterization with increased precision and reduced trauma

Transcriptomic analysis of the harvested endothelial cells in a swine model of mechanical thrombectomy

Micro-biopsy for detection of gene expression changes in ischemic swine myocardium: A pilot study

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