Your search keyword '"Elemento O"' showing total 5 results

1. Analytical demands to use whole-genome sequencing in precision oncology

Author

Meggendorfer, M, Jobanputra, V, Wrzeszczynski, KO, Roepman, P, de Bruijn, E, Cuppen, E, Buttner, R, Caldas, C, Grimmond, S, Mullighan, CG, Elemento, O, Rosenquist, R, Schuh, A, Haferlach, T, Meggendorfer, M, Jobanputra, V, Wrzeszczynski, KO, Roepman, P, de Bruijn, E, Cuppen, E, Buttner, R, Caldas, C, Grimmond, S, Mullighan, CG, Elemento, O, Rosenquist, R, Schuh, A, and Haferlach, T

Abstract

Interrogating the tumor genome in its entirety by whole-genome sequencing (WGS) offers an unprecedented insight into the biology and pathogenesis of cancer, with potential impact on diagnostics, prognostication and therapy selection. WGS is able to detect sequence as well as structural variants and thereby combines central domains of cytogenetics and molecular genetics. Given the potential of WGS in directing targeted therapeutics and clinical decision-making, we envision a gradual transition of the method from research to clinical routine. This review is one out of three within this issue aimed at facilitating this effort, by discussing in-depth analytical validation, clinical interpretation and clinical utility of WGS. The review highlights the requirements for implementing, validating and maintaining a clinical WGS pipeline to obtain high-quality patient-specific data in accordance with the local regulatory landscape. Every step of the WGS pipeline, which includes DNA extraction, library preparation, sequencing, bioinformatics analysis, and data storage, is considered with respect to its logistics, necessities, potential pitfalls, and the required quality management. WGS is likely to drive clinical diagnostics and patient care forward, if requirements and challenges of the technique are recognized and met.

Published

2022

2. Implementation of Whole-Genome and Transcriptome Sequencing Into Clinical Cancer Care

Author

Cuppen, E, Elemento, O, Rosenquist, R, Nikic, S, IJzerman, M, Zaleski, ID, Frederix, G, Levin, L-A, Mullighan, CG, Buettner, R, Pugh, TJ, Grimmond, S, Caldas, C, Andre, F, Custers, I, Campo, E, van Snellenberg, H, Schuh, A, Nakagawa, H, von Kalle, C, Haferlach, T, Froehling, S, Jobanputra, V, Cuppen, E, Elemento, O, Rosenquist, R, Nikic, S, IJzerman, M, Zaleski, ID, Frederix, G, Levin, L-A, Mullighan, CG, Buettner, R, Pugh, TJ, Grimmond, S, Caldas, C, Andre, F, Custers, I, Campo, E, van Snellenberg, H, Schuh, A, Nakagawa, H, von Kalle, C, Haferlach, T, Froehling, S, and Jobanputra, V

Abstract

PURPOSE: The combination of whole-genome and transcriptome sequencing (WGTS) is expected to transform diagnosis and treatment for patients with cancer. WGTS is a comprehensive precision diagnostic test that is starting to replace the standard of care for oncology molecular testing in health care systems around the world; however, the implementation and widescale adoption of this best-in-class testing is lacking. METHODS: Here, we address the barriers in integrating WGTS for cancer diagnostics and treatment selection and answer questions regarding utility in different cancer types, cost-effectiveness and affordability, and other practical considerations for WGTS implementation. RESULTS: We review the current studies implementing WGTS in health care systems and provide a synopsis of the clinical evidence and insights into practical considerations for WGTS implementation. We reflect on regulatory, costs, reimbursement, and incidental findings aspects of this test. CONCLUSION: WGTS is an appropriate comprehensive clinical test for many tumor types and can replace multiple, cascade testing approaches currently performed. Decreasing sequencing cost, increasing number of clinically relevant aberrations and discovery of more complex biomarkers of treatment response, should pave the way for health care systems and laboratories in implementing WGTS into clinical practice, to transform diagnosis and treatment for patients with cancer.

Published

2022

3. Phenotype, penetrance, and treatment of 133 cytotoxic T-lymphocyte antigen 4-insufficient subjects

Author

Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., Grimbacher, B., Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., and Grimbacher, B.

Abstract

Item does not contain fulltext, BACKGROUND: Cytotoxic T-lymphocyte antigen 4 (CTLA-4) is a negative immune regulator. Heterozygous CTLA4 germline mutations can cause a complex immune dysregulation syndrome in human subjects. OBJECTIVE: We sought to characterize the penetrance, clinical features, and best treatment options in 133 CTLA4 mutation carriers. METHODS: Genetics, clinical features, laboratory values, and outcomes of treatment options were assessed in a worldwide cohort of CTLA4 mutation carriers. RESULTS: We identified 133 subjects from 54 unrelated families carrying 45 different heterozygous CTLA4 mutations, including 28 previously undescribed mutations. Ninety mutation carriers were considered affected, suggesting a clinical penetrance of at least 67%; median age of onset was 11 years, and the mortality rate within affected mutation carriers was 16% (n = 15). Main clinical manifestations included hypogammaglobulinemia (84%), lymphoproliferation (73%), autoimmune cytopenia (62%), and respiratory (68%), gastrointestinal (59%), or neurological features (29%). Eight affected mutation carriers had lymphoma, and 3 had gastric cancer. An EBV association was found in 6 patients with malignancies. CTLA4 mutations were associated with lymphopenia and decreased T-, B-, and natural killer (NK) cell counts. Successful targeted therapies included application of CTLA-4 fusion proteins, mechanistic target of rapamycin inhibitors, and hematopoietic stem cell transplantation. EBV reactivation occurred in 2 affected mutation carriers after immunosuppression. CONCLUSIONS: Affected mutation carriers with CTLA-4 insufficiency can present in any medical specialty. Family members should be counseled because disease manifestation can occur as late as 50 years of age. EBV- and cytomegalovirus-associated complications must be closely monitored. Treatment interventions should be coordinated in clinical trials.

Published

2018

4. Phenotype, penetrance, and treatment of 133 cytotoxic T-lymphocyte antigen 4-insufficient subjects

Author

Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., Grimbacher, B., Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., and Grimbacher, B.

Abstract

Item does not contain fulltext, BACKGROUND: Cytotoxic T-lymphocyte antigen 4 (CTLA-4) is a negative immune regulator. Heterozygous CTLA4 germline mutations can cause a complex immune dysregulation syndrome in human subjects. OBJECTIVE: We sought to characterize the penetrance, clinical features, and best treatment options in 133 CTLA4 mutation carriers. METHODS: Genetics, clinical features, laboratory values, and outcomes of treatment options were assessed in a worldwide cohort of CTLA4 mutation carriers. RESULTS: We identified 133 subjects from 54 unrelated families carrying 45 different heterozygous CTLA4 mutations, including 28 previously undescribed mutations. Ninety mutation carriers were considered affected, suggesting a clinical penetrance of at least 67%; median age of onset was 11 years, and the mortality rate within affected mutation carriers was 16% (n = 15). Main clinical manifestations included hypogammaglobulinemia (84%), lymphoproliferation (73%), autoimmune cytopenia (62%), and respiratory (68%), gastrointestinal (59%), or neurological features (29%). Eight affected mutation carriers had lymphoma, and 3 had gastric cancer. An EBV association was found in 6 patients with malignancies. CTLA4 mutations were associated with lymphopenia and decreased T-, B-, and natural killer (NK) cell counts. Successful targeted therapies included application of CTLA-4 fusion proteins, mechanistic target of rapamycin inhibitors, and hematopoietic stem cell transplantation. EBV reactivation occurred in 2 affected mutation carriers after immunosuppression. CONCLUSIONS: Affected mutation carriers with CTLA-4 insufficiency can present in any medical specialty. Family members should be counseled because disease manifestation can occur as late as 50 years of age. EBV- and cytomegalovirus-associated complications must be closely monitored. Treatment interventions should be coordinated in clinical trials.

Published

2018

5. Phenotype, penetrance, and treatment of 133 cytotoxic T-lymphocyte antigen 4-insufficient subjects

Author

Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., Grimbacher, B., Schwab, C., Gabrysch, A., Olbrich, P., Patino, V., Warnatz, K., Wolff, D., Hoshino, A., Kobayashi, M., Imai, K., Takagi, M., Dybedal, I., Haddock, J.A., Sansom, D.M., Lucena, J.M., Seidl, M., Schmitt-Graeff, A., Reiser, V., Emmerich, F., Frede, N., Bulashevska, A., Salzer, U., Schubert, Desiree, Hayakawa, S., Okada, S., Kanariou, M., Kucuk, Z.Y., Chapdelaine, H., Petruzelkova, L., Sumnik, Z., Sediva, A., Slatter, M., Arkwright, P.D., Cant, A., Lorenz, H.M., Giese, T., Lougaris, V., Plebani, A., Price, C., Sullivan, K.E., Moutschen, M., Litzman, J., Freiberger, T., Veerdonk, F.L. van de, Recher, M., Albert, M.H., Hauck, F., Seneviratne, S., Schmid, J., Kolios, A., Unglik, G., Klemann, C., Speckmann, C., Ehl, S., Leichtner, A., Blumberg, R., Franke, A., Snapper, S., Zeissig, S., Cunningham-Rundles, C., Giulino-Roth, L., Elemento, O., Duckers, G., Niehues, T., Fronkova, E., Kanderova, V., Platt, C.D., Chou, J., Chatila, T.A., Geha, R., McDermott, E., Bunn, S., Kurzai, M., Schulz, A., Alsina, L., Casals, F., Deya-Martinez, A., Hambleton, S., Kanegane, H., Tasken, K., Neth, O., and Grimbacher, B.

Abstract

Item does not contain fulltext, BACKGROUND: Cytotoxic T-lymphocyte antigen 4 (CTLA-4) is a negative immune regulator. Heterozygous CTLA4 germline mutations can cause a complex immune dysregulation syndrome in human subjects. OBJECTIVE: We sought to characterize the penetrance, clinical features, and best treatment options in 133 CTLA4 mutation carriers. METHODS: Genetics, clinical features, laboratory values, and outcomes of treatment options were assessed in a worldwide cohort of CTLA4 mutation carriers. RESULTS: We identified 133 subjects from 54 unrelated families carrying 45 different heterozygous CTLA4 mutations, including 28 previously undescribed mutations. Ninety mutation carriers were considered affected, suggesting a clinical penetrance of at least 67%; median age of onset was 11 years, and the mortality rate within affected mutation carriers was 16% (n = 15). Main clinical manifestations included hypogammaglobulinemia (84%), lymphoproliferation (73%), autoimmune cytopenia (62%), and respiratory (68%), gastrointestinal (59%), or neurological features (29%). Eight affected mutation carriers had lymphoma, and 3 had gastric cancer. An EBV association was found in 6 patients with malignancies. CTLA4 mutations were associated with lymphopenia and decreased T-, B-, and natural killer (NK) cell counts. Successful targeted therapies included application of CTLA-4 fusion proteins, mechanistic target of rapamycin inhibitors, and hematopoietic stem cell transplantation. EBV reactivation occurred in 2 affected mutation carriers after immunosuppression. CONCLUSIONS: Affected mutation carriers with CTLA-4 insufficiency can present in any medical specialty. Family members should be counseled because disease manifestation can occur as late as 50 years of age. EBV- and cytomegalovirus-associated complications must be closely monitored. Treatment interventions should be coordinated in clinical trials.

Published

2018