Your search keyword '"Rita Motalli-Pepio"' showing total 6 results

1. Clinical validation of a next-generation sequencing-based multi-cancer early detection 'liquid biopsy' blood test in over 1,000 dogs using an independent testing set: The CANcer Detection in Dogs (CANDiD) study

Author

Andi Flory, Kristina M. Kruglyak, John A. Tynan, Lisa M. McLennan, Jill M. Rafalko, Patrick Christian Fiaux, Gilberto E. Hernandez, Francesco Marass, Prachi Nakashe, Carlos A. Ruiz-Perez, Donna M. Fath, Thuy Jennings, Rita Motalli-Pepio, Kate Wotrang, Angela L. McCleary-Wheeler, Susan Lana, Brenda Phillips, Brian K. Flesner, Nicole F. Leibman, Tracy LaDue, Chelsea D. Tripp, Brenda L. Coomber, J. Paul Woods, Mairin Miller, Sean W. Aiken, Amber Wolf-Ringwall, Antonella Borgatti, Kathleen Kraska, Christopher B. Thomson, Alane Kosanovich Cahalane, Rebecca L. Murray, William C. Kisseberth, Maria A. Camps-Palau, Franck Floch, Claire Beaudu-Lange, Aurélia Klajer-Peres, Olivier Keravel, Luc-André Fribourg-Blanc, Pascale Chicha Mazetier, Angelo Marco, Molly B. McLeod, Erin Portillo, Terry S. Clark, Scott Judd, C. Kirk Feinberg, Marie Benitez, Candace Runyan, Lindsey Hackett, Scott Lafey, Danielle Richardson, Sarah Vineyard, Mary Tefend Campbell, Nilesh Dharajiya, Taylor J. Jensen, Dirk van den Boom, Luis A. Diaz, Daniel S. Grosu, Arthur Polk, Kalle Marsal, Susan Cho Hicks, Katherine M. Lytle, Lauren Holtvoigt, Jason Chibuk, Ilya Chorny, and Dana W. Y. Tsui

Subjects

Medicine, Science

Abstract

Cancer is the leading cause of death in dogs, yet there are no established screening paradigms for early detection. Liquid biopsy methods that interrogate cancer-derived genomic alterations in cell-free DNA in blood are being adopted for multi-cancer early detection in human medicine and are now available for veterinary use. The CANcer Detection in Dogs (CANDiD) study is an international, multi-center clinical study designed to validate the performance of a novel multi-cancer early detection “liquid biopsy” test developed for noninvasive detection and characterization of cancer in dogs using next-generation sequencing (NGS) of blood-derived DNA; study results are reported here. In total, 1,358 cancer-diagnosed and presumably cancer-free dogs were enrolled in the study, representing the range of breeds, weights, ages, and cancer types seen in routine clinical practice; 1,100 subjects met inclusion criteria for analysis and were used in the validation of the test. Overall, the liquid biopsy test demonstrated a 54.7% (95% CI: 49.3–60.0%) sensitivity and a 98.5% (95% CI: 97.0–99.3%) specificity. For three of the most aggressive canine cancers (lymphoma, hemangiosarcoma, osteosarcoma), the detection rate was 85.4% (95% CI: 78.4–90.9%); and for eight of the most common canine cancers (lymphoma, hemangiosarcoma, osteosarcoma, soft tissue sarcoma, mast cell tumor, mammary gland carcinoma, anal sac adenocarcinoma, malignant melanoma), the detection rate was 61.9% (95% CI: 55.3–68.1%). The test detected cancer signal in patients representing 30 distinct cancer types and provided a Cancer Signal Origin prediction for a subset of patients with hematological malignancies. Furthermore, the test accurately detected cancer signal in four presumably cancer-free subjects before the onset of clinical signs, further supporting the utility of liquid biopsy as an early detection test. Taken together, these findings demonstrate that NGS-based liquid biopsy can offer a novel option for noninvasive multi-cancer detection in dogs.

Published

2022

2. Blood-Based Liquid Biopsy for Comprehensive Cancer Genomic Profiling Using Next-Generation Sequencing: An Emerging Paradigm for Non-invasive Cancer Detection and Management in Dogs

Author

Kristina M. Kruglyak, Jason Chibuk, Lisa McLennan, Prachi Nakashe, Gilberto E. Hernandez, Rita Motalli-Pepio, Donna M. Fath, John A. Tynan, Lauren E. Holtvoigt, Ilya Chorny, Daniel S. Grosu, Dana W.Y. Tsui, and Andi Flory

Subjects

cell-free DNA, dog, cancer, tumor, genomic, liquid biopsy, Veterinary medicine, SF600-1100

Abstract

This proof-of-concept study demonstrates that blood-based liquid biopsy using next generation sequencing of cell-free DNA can non-invasively detect multiple classes of genomic alterations in dogs with cancer, including alterations that originate from spatially separated tumor sites. Eleven dogs with a variety of confirmed cancer diagnoses (including localized and disseminated disease) who were scheduled for surgical resection, and five presumably cancer-free dogs, were enrolled. Blood was collected from each subject, and multiple spatially separated tumor tissue samples were collected during surgery from 9 of the cancer subjects. All samples were analyzed using an advanced prototype of a novel liquid biopsy test designed to non-invasively interrogate multiple classes of genomic alterations for the detection, characterization, and management of cancer in dogs. In five of the nine cancer patients with matched tumor and plasma samples, pre-surgical liquid biopsy testing identified genomic alterations, including single nucleotide variants and copy number variants, that matched alterations independently detected in corresponding tumor tissue samples. Importantly, the pre-surgical liquid biopsy test detected alterations observed in spatially separated tissue samples from the same subject, demonstrating the potential of blood-based testing for comprehensive genomic profiling of heterogeneous tumors. Among the three patients with post-surgical blood samples, genomic alterations remained detectable in one patient with incomplete tumor resection, suggesting utility for non-invasive detection of minimal residual disease following curative-intent treatment. Liquid biopsy allows for non-invasive profiling of cancer-associated genomic alterations with a simple blood draw and has potential to overcome the limitations of tissue-based testing posed by tissue-level genomic heterogeneity.

Published

2021

3. Clinical validation of a next-generation sequencing-based multi-cancer early detection 'liquid biopsy' blood test in over 1,000 dogs using an independent testing set: The CANcer Detection in Dogs (CANDiD) study

Author

Andi Flory, Kristina M. Kruglyak, John A. Tynan, Lisa M. McLennan, Jill M. Rafalko, Patrick Christian Fiaux, Gilberto E. Hernandez, Francesco Marass, Prachi Nakashe, Carlos A. Ruiz-Perez, Donna M. Fath, Thuy Jennings, Rita Motalli-Pepio, Kate Wotrang, Angela L. McCleary-Wheeler, Susan Lana, Brenda Phillips, Brian K. Flesner, Nicole F. Leibman, Tracy LaDue, Chelsea D. Tripp, Brenda L. Coomber, J. Paul Woods, Mairin Miller, Sean W. Aiken, Amber Wolf-Ringwall, Antonella Borgatti, Kathleen Kraska, Christopher B. Thomson, Alane Kosanovich Cahalane, Rebecca L. Murray, William C. Kisseberth, Maria A. Camps-Palau, Franck Floch, Claire Beaudu-Lange, Aurélia Klajer-Peres, Olivier Keravel, Luc-André Fribourg-Blanc, Pascale Chicha Mazetier, Angelo Marco, Molly B. McLeod, Erin Portillo, Terry S. Clark, Scott Judd, C. Kirk Feinberg, Marie Benitez, Candace Runyan, Lindsey Hackett, Scott Lafey, Danielle Richardson, Sarah Vineyard, Mary Tefend Campbell, Nilesh Dharajiya, Taylor J. Jensen, Dirk van den Boom, Luis A. Diaz, Daniel S. Grosu, Arthur Polk, Kalle Marsal, Susan Cho Hicks, Katherine M. Lytle, Lauren Holtvoigt, Jason Chibuk, Ilya Chorny, and Dana W. Y. Tsui

Subjects

Osteosarcoma, Multidisciplinary, Dogs, Hematologic Tests, Hemangiosarcoma, Biomarkers, Tumor, Liquid Biopsy, Animals, High-Throughput Nucleotide Sequencing, Humans, Early Detection of Cancer

Abstract

Cancer is the leading cause of death in dogs, yet there are no established screening paradigms for early detection. Liquid biopsy methods that interrogate cancer-derived genomic alterations in cell-free DNA in blood are being adopted for multi-cancer early detection in human medicine and are now available for veterinary use. The CANcer Detection in Dogs (CANDiD) study is an international, multi-center clinical study designed to validate the performance of a novel multi-cancer early detection “liquid biopsy” test developed for noninvasive detection and characterization of cancer in dogs using next-generation sequencing (NGS) of blood-derived DNA; study results are reported here. In total, 1,358 cancer-diagnosed and presumably cancer-free dogs were enrolled in the study, representing the range of breeds, weights, ages, and cancer types seen in routine clinical practice; 1,100 subjects met inclusion criteria for analysis and were used in the validation of the test. Overall, the liquid biopsy test demonstrated a 54.7% (95% CI: 49.3–60.0%) sensitivity and a 98.5% (95% CI: 97.0–99.3%) specificity. For three of the most aggressive canine cancers (lymphoma, hemangiosarcoma, osteosarcoma), the detection rate was 85.4% (95% CI: 78.4–90.9%); and for eight of the most common canine cancers (lymphoma, hemangiosarcoma, osteosarcoma, soft tissue sarcoma, mast cell tumor, mammary gland carcinoma, anal sac adenocarcinoma, malignant melanoma), the detection rate was 61.9% (95% CI: 55.3–68.1%). The test detected cancer signal in patients representing 30 distinct cancer types and provided a Cancer Signal Origin prediction for a subset of patients with hematological malignancies. Furthermore, the test accurately detected cancer signal in four presumably cancer-free subjects before the onset of clinical signs, further supporting the utility of liquid biopsy as an early detection test. Taken together, these findings demonstrate that NGS-based liquid biopsy can offer a novel option for noninvasive multi-cancer detection in dogs.

Published

2021

4. Blood-Based Liquid Biopsy for Comprehensive Cancer Genomic Profiling Using Next-Generation Sequencing: An Emerging Paradigm for Non-invasive Cancer Detection and Management in Dogs

Author

Andi Flory, Dana Wy Tsui, John A. Tynan, Prachi Nakashe, Gilberto E. Hernandez, Rita Motalli-Pepio, Lisa McLennan, Lauren Holtvoigt, Ilya Chorny, Jason Chibuk, Daniel S. Grosu, Donna M. Fath, and Kristina M. Kruglyak

Subjects

0301 basic medicine, Pathology, medicine.medical_specialty, tumor, Genomic profiling, Veterinary medicine, DNA sequencing, cell-free DNA, genomic, 03 medical and health sciences, 0302 clinical medicine, SF600-1100, medicine, cancer, Disseminated disease, Copy-number variation, Liquid biopsy, circulating tumor DNA, General Veterinary, liquid biopsy, business.industry, Cancer in dogs, Cancer, Brief Research Report, medicine.disease, Minimal residual disease, 030104 developmental biology, Cell-free fetal DNA, 030220 oncology & carcinogenesis, dog, Veterinary Science, mutation, business

Abstract

This proof-of-concept study demonstrates that blood-based liquid biopsy using next generation sequencing of cell-free DNA can noninvasively detect multiple classes of genomic alterations in dogs with cancer, including alterations that originate from spatially separated tumor sites.Eleven dogs with a variety of confirmed cancer diagnoses (including localized and disseminated disease) who were scheduled for surgical resection, and 5 presumably cancer-free dogs, were enrolled. Blood was collected from each subject, and multiple spatially separated tumor tissue samples were collected during surgery from 9 of the cancer subjects.All samples were analyzed using an advanced prototype of a novel liquid biopsy test designed to noninvasively interrogate multiple classes of genomic alterations for the detection, characterization, and management of cancer in dogs.In 5 of the 9 cancer patients with matched tumor and plasma samples, pre-surgical liquid biopsy testing identified genomic alterations, including single nucleotide variants and copy number variants, that matched alterations independently detected in corresponding tumor tissue samples. Importantly, the pre-surgical liquid biopsy test detected alterations observed in spatially separated tissue samples from the same subject, demonstrating the potential of blood-based testing for comprehensive genomic profiling of heterogeneous tumors. Among the 3 patients with post-surgical blood samples, genomic alterations remained detectable in one patient with incomplete tumor resection, suggesting utility for noninvasive detection of minimal residual disease following curative-intent treatment.Liquid biopsy allows for noninvasive profiling of cancer-associated genomic alterations with a simple blood draw and has potential to overcome the limitations of tissue-based testing posed by tissue-level genomic heterogeneity.

Published

2021

5. Abstract 1612: Comparative oncology analysis of canine cancer by tumor and liquid biopsy testing for biomarker and therapeutic discovery in humans and dogs

Author

Ilya Chorny, Kristina M. Kruglyak, John A. Tynan, Gilberto E. Hernandez, Prachi Nakashe, Susan Hicks, Rita Motalli-Pepio, Lisa McLennan, Lauren E. Holtvoigt, Jill M. Rafalko, Jason Chibuk, Angela L. McCleary-Wheeler, Andi Flory, Daniel S. Grosu, and Dana W. Tsui

Subjects

Cancer Research, Oncology

Abstract

Human and canine cancers share a high level of homology. Characterizing their respective genomic landscapes can expand the knowledge base of comparative oncology and support biomarker discovery and therapeutic development for the benefit of both species. Genomic profiling via tumor biopsy infers risk to the patient in both human and veterinary medicine and is often complicated by tumor heterogeneity. Blood-based liquid biopsy has been shown to open new opportunities to profile the cancer genome noninvasively in both species. The goal of this study was to benchmark the occurrence of homologous genomic variants in a variety of canine cancers that have a counterpart in humans, including lymphoma (B-cell and T-cell), soft-tissue sarcoma, osteosarcoma, and melanoma, among others, utilizing tumor and liquid biopsy profiling. The study was performed in a prospective cohort of over 300 client-owned dogs that received a confirmed cancer diagnosis either at the time of enrollment or after sample collection. A blood sample was collected prior to biopsy or surgical resection of the tumor to evaluate the use of liquid biopsy to noninvasively profile the cancer genome. Tumor tissue samples were collected at the time of surgical resection. In a subset of the subjects, blood samples were collected 3 to 30 days following surgical removal of the tumor, and longitudinally during cancer therapy and monitoring. The Cancer Gene Census (CGC) and COSMIC databases were interrogated, and a high degree of homology (>90%) between human and canine oncogenes and tumor suppressor genes was observed. A custom panel was designed encompassing 95 of the top 100 human DNA single nucleotide variants from COSMIC that had a canine orthologue, and targeted sequencing was performed on all tissue and blood samples. A large number of these variants—many of which are actionable in human cancer— were detected in the tumor samples and pre-surgical plasma samples. In some patients, tumor-derived variants were detected in the post-surgical plasma that confirmed the presence of residual disease after surgery. As disease progressed, an increase in the variant allele fraction (VAF) of the tumor-derived mutations was observed and tracked with the patient’s clinical course. Additionally, the presence of variants that may be targetable by human cancer drugs were identified in a subset of patients. These findings demonstrate the potential of liquid biopsy to characterize the genomic landscape of canine cancers at diagnosis and throughout treatment, similar to observations reported in human cancers. This builds the foundation for comparative oncology to translate the knowledge of precision medicine between humans and dogs, to facilitate biomarker discovery, and to track emergence of potential actionable biomarkers in various therapeutic contexts to the benefit of both species. Citation Format: Ilya Chorny, Kristina M. Kruglyak, John A. Tynan, Gilberto E. Hernandez, Prachi Nakashe, Susan Hicks, Rita Motalli-Pepio, Lisa McLennan, Lauren E. Holtvoigt, Jill M. Rafalko, Jason Chibuk, Angela L. McCleary-Wheeler, Andi Flory, Daniel S. Grosu, Dana W. Tsui. Comparative oncology analysis of canine cancer by tumor and liquid biopsy testing for biomarker and therapeutic discovery in humans and dogs [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1612.

Published

2022

6. Comparative oncology analysis using genomic profiling of canine cancers by tissue and liquid biopsy testing reveals actionable somatic alterations with orthologs in human cancers

Author

Dana Tsui, Ilya Chorny, Kristina M Kruglyak, John A. Tynan, Gilberto E Hernandez, Prachi Nakashe, Susan Cho Hicks, Rita Motalli-Pepio, Lisa M. McLennan, Lauren E. Holtvoigt, Jill M. Rafalko, Jason Chibuk, Angela L. McCleary-Wheeler, Andi Flory, and Daniel S. Grosu

Subjects

Cancer Research, Oncology

Abstract

e15012 Background: Targeted therapies offer great potential for cancer treatment in humans; however, enrollment in clinical trials may be slow, particularly for rare cancer types. The high homology between human and canine cancer genomes provides an opportunity for comparative oncology analyses that can inform the development of therapeutics for the benefit of both species. Currently, there is no well-established canine cancer genomic database. This study presents preliminary findings from an ongoing initiative aimed at building a foundational database of canine cancer genomic variants and their human orthologs via tissue and liquid biopsy profiling of multiple cancer types. Methods: Matched blood and tissue samples were collected from an all-comers cohort of over 150 cancer-diagnosed, client-owned dogs undergoing surgical resection or tissue sampling by biopsy. Cancer types included those found in both humans and dogs, such as lymphoma, osteosarcoma, mammary gland tumors and melanoma. Blood samples were processed to obtain plasma and white blood cells, and all samples were subjected to DNA extraction, library preparation, and next-generation sequencing. Somatic variants detected by liquid biopsy and tissue testing were mapped to human orthologs targeted by therapeutic agents approved by the FDA or listed in NCCN guidelines, and to orthologs with therapeutic or prognostic levels of evidence annotated in human oncology databases. Results: Somatic alterations were identified in over half of the tissue and/or liquid biopsy samples tested. Results from tissue and liquid biopsy showed high concordance, and liquid biopsy revealed additional alterations that may have been missed in single-site tissue biopsies due to tumor heterogeneity. Of the mutations identified in plasma and/or tissue but absent in matched white blood cells, 10% mapped to a human ortholog listed as a biomarker targeted by either an approved therapeutic agent or a therapeutic currently undergoing clinical trials; examples include NRAS, HRAS and AKT1 mutations. Over 10% of canine cancer patients also harbored orthologs of somatic TP53 mutations reported to be prognostic in multiple human cancers. In particular, TP53 mutations were found in > 20% of canine osteosarcoma patients, which aligns with prior findings in human osteosarcoma and highlights the potential of comparative oncology for cancer types that are rare in humans but common in dogs. Conclusions: The results confirm the homology between canine and human cancers and emphasize the potential to translate genomic knowledge for biomarker discovery and therapeutic development between species. The high concordance between tumor and liquid biopsy findings support the prospect of using a noninvasive blood test to expand the genomic characterization effort to much larger cohorts of cancer-diagnosed dogs.

Published

2022