Pre-Analytical Considerations for Successful Next-Generation Sequencing (NGS): Challenges and Opportunities for Formalin-Fixed and Paraffin-Embedded Tumor Tissue (FFPE) Samples

Arreaza, Gladys; Qiu, Ping; Pang, Ling; Albright, Andrew; Hong, Lewis Z.; Marton, Matthew J.; Levitan, Diane

doi:10.3390/ijms17091579

Cited by 71 publications

(56 citation statements)

References 22 publications

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“…Despite the tested use of FFPE tissue in NGS [6], further studies are required to check whether archival FFPE samples are suitable for NGS [7,8]. A recent study found that FFPE samples stored for more than 7 years were not worth being included in NGS studies [9].…”

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confidence: 99%

Suitability of melanoma FFPE samples for NGS libraries: time and quality thresholds for downstream molecular tests

et al. 2018

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The use of NGS in clinical practice for precision diagnosis requires a quality starting material. Despite the broadly established use of formalin-fixed paraffin-embedded (FFPE) samples in molecular testing, these usually have low-quality DNA. We established a method to determine the suitability of melanoma FFPE samples for an amplicon-based NGS custom panel analysis. DNA was extracted from unstained melanoma samples and wide local excision samples. Amplicon-based libraries were constructed and tested using time and quality parameters as variables. Time elapsed from sample retrieval >7 years, a quality control value > 5.63 and a DNA integrity value < 2.05 indicated samples were not suitable. A decision tree is provided with rate of samples suitable for analysis according to the combination of these parameters.

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confidence: 99%

Suitability of melanoma FFPE samples for NGS libraries: time and quality thresholds for downstream molecular tests

et al. 2018

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“…Over-fixation has been reported to cause excessive crosslinking, which interferes with the extraction of nucleic acids and proteins for NGS analysis. 18 On the other hand, under-fixation can lead to the degradation of nucleic acid and protein, or a change in gene expression in poorly perfused areas where the formalin has not reached. 18 Furthermore, fixation with formalin needs to be performed immediately after removal of the specimen to avoid ischemic changes in the tissue.…”

Section: Discussionmentioning

confidence: 99%

“…18 On the other hand, under-fixation can lead to the degradation of nucleic acid and protein, or a change in gene expression in poorly perfused areas where the formalin has not reached. 18 Furthermore, fixation with formalin needs to be performed immediately after removal of the specimen to avoid ischemic changes in the tissue. 18 Here, we have shown that high-quality DNA can be obtained as long as an appropriate preservation procedure is performed following a standard protocol with NBF.…”

Section: Discussionmentioning

confidence: 99%

“…18 Furthermore, fixation with formalin needs to be performed immediately after removal of the specimen to avoid ischemic changes in the tissue. 18 Here, we have shown that high-quality DNA can be obtained as long as an appropriate preservation procedure is performed following a standard protocol with NBF.…”

Section: Discussionmentioning

confidence: 99%

“…17 Recently, it has been reported that the quality of FFPE samples varies depending on how surgical specimens have been prepared and preserved. 18 Therefore, it is extremely important that the next generation of surgeons who will be harvesting samples for NGS know how to appropriately handle samples for FFPE processing. Furthermore, it is important to clarify how much DNA can be harvested from a minimally sized sample, because often only a small amount of tissue is available in clinical settings such as from a biopsy or after neoadjuvant therapy.…”

Section: Introductionmentioning

confidence: 99%

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Formalin-fixed paraffin-embedded sample conditions for deep next generation sequencing

Nagahashi

Shimada

Ichikawa

et al. 2017

Journal of Surgical Research

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Introduction Precision medicine is only possible in oncology practice if targetable genes in fragmented DNA, such as DNA from formalin-fixed paraffin-embedded (FFPE) samples, can be sequenced using next generation sequencing (NGS). The aim of this study is to examine the quality and quantity of DNA from FFPE cancerous tissue samples from surgically resected and biopsy specimens. Methods DNA was extracted from unstained FFPE tissue sections prepared from surgically resected specimens of breast, colorectal and gastric cancer, and biopsy specimens of breast cancer. A total quantity of DNA ≥60 ng from a sample was considered adequate for NGS. The DNA quality was assessed by Q-ratios, with a Q-ratio >0.1 considered sufficient for NGS. Results The Q-ratio for DNA from FFPE tissue processed with neutral-buffered formalin was significantly better than that processed with unbuffered formalin. All Q-ratios for DNA from breast, colorectal and gastric cancer samples indicated DNA levels sufficient for NGS. DNA extracted from gastric cancer FFPE samples prepared within the last seven years is suitable for NGS analysis, whereas those older than seven years may not be suitable. Our data suggested that adequate amounts of DNA can be extracted from FFPE samples, not only of surgically resected tissue but also of biopsy specimens. Conclusion The type of formalin used for fixation and the time since FFPE sample preparation affect DNA quality. Sufficient amounts of DNA can be extracted from FFPE samples of both surgically resected and biopsy tissue, thus expanding the potential diagnostic uses of NGS in a clinical setting.

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A streamlined mass spectrometry–based proteomics workflow for large‐scale FFPE tissue analysis

Coscia

Doll

Bech

et al. 2020

The Journal of Pathology

146

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Formalin fixation and paraffin-embedding (FFPE) is the most common method to preserve human tissue for clinical diagnosis, and FFPE archives represent an invaluable resource for biomedical research. Proteins in FFPE material are stable over decades but their efficient extraction and streamlined analysis by mass spectrometry (MS)-based proteomics has so far proven challenging. Herein we describe a MS-based proteomic workflow for quantitative profiling of large FFPE tissue cohorts directly from histopathology glass slides. We demonstrate broad applicability of the workflow to clinical pathology specimens and variable sample amounts, including low-input cancer tissue isolated by laser microdissection. Using state-of-the-art data dependent acquisition (DDA) and data independent acquisition (DIA) MS workflows, we consistently quantify a large part of the proteome in 100 min single-run analyses. In an adenoma cohort comprising more than 100 samples, total workup took less than a day. We observed a moderate trend towards lower protein identification in long-term stored samples (>15 years), but clustering into distinct proteomic subtypes was independent of archival time. Our results underscore the great promise of FFPE tissues for patient phenotyping using unbiased proteomics and they prove the feasibility of analyzing large tissue cohorts in a robust, timely, and streamlined manner.

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Pre-Analytical Considerations for Successful Next-Generation Sequencing (NGS): Challenges and Opportunities for Formalin-Fixed and Paraffin-Embedded Tumor Tissue (FFPE) Samples

Cited by 71 publications

References 22 publications

Suitability of melanoma FFPE samples for NGS libraries: time and quality thresholds for downstream molecular tests

Suitability of melanoma FFPE samples for NGS libraries: time and quality thresholds for downstream molecular tests

Formalin-fixed paraffin-embedded sample conditions for deep next generation sequencing

A streamlined mass spectrometry–based proteomics workflow for large‐scale FFPE tissue analysis

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