Your search keyword '"Atrchian, S."' showing total 30 results

1. Predictors of Quality of Life Decline in Patients with Oligometastases treated with Stereotactic Ablative Radiotherapy: Analysis of the Population-Based SABR-5 Phase II Trial

Author

Cruz-Lim, E.M., Mou, B., Jiang, W., Liu, M., Bergman, A., Schellenberg, D., Alexander, A., Berrang, T., Bang, A., Chng, N., Matthews, Q., Carolan, H., Hsu, F., Miller, S., Atrchian, S., Chan, E., Ho, C., Mohamed, I., Lin, A., Huang, V., Mestrovic, A., Hyde, D., Lund, C., Pai, H., Valev, B., Lefresne, S., Tyldesley, S., Olson, R., and Baker, S.

Published

2024

2. Prospective Longitudinal Assessment of Quality of Life After Stereotactic Ablative Radiotherapy for Oligometastases: Analysis of the Population-based SABR-5 Phase II Trial

Author

Cruz-Lim, E.M., Mou, B., Baker, S., Arbour, G., Stefanyk, K., Jiang, W., Liu, M., Bergman, A., Schellenberg, D., Alexander, A., Berrang, T., Bang, A., Chng, N., Matthews, Q., Carolan, H., Hsu, F., Miller, S., Atrchian, S., Chan, E., Ho, C., Mohamed, I., Lin, A., Huang, V., Mestrovic, A., Hyde, D., Lund, C., Pai, H., Valev, B., Lefresne, S., Tyldesley, S., and Olson, R.

Published

2024

3. Validation of the Prognostic Utility of ESTRO/EORTC Oligometastatic Disease Classification: A Secondary Analysis From the Population-Based Phase II SABR-5 Trial

Author

Baker, S., Mou, B., Jiang, W., Liu, M., Bergman, A.M., Schellenberg, D., Alexander, A.S., Carolan, H., Atrchian, S., Berrang, T., Bang, A., Chng, N., Matthews, Q., Tyldesley, S., and Olson, R.A.

Published

2022

4. Prospective Longitudinal Assessment of Quality of Life After Stereotactic Ablative Radiotherapy for Oligometastases: Analysis of the Population-based SABR-5 Phase II Trial

Author

Cruz-Lim, E.M., primary, Mou, B., additional, Baker, S., additional, Arbour, G., additional, Stefanyk, K., additional, Jiang, W., additional, Liu, M., additional, Bergman, A., additional, Schellenberg, D., additional, Alexander, A., additional, Berrang, T., additional, Bang, A., additional, Chng, N., additional, Matthews, Q., additional, Carolan, H., additional, Hsu, F., additional, Miller, S., additional, Atrchian, S., additional, Chan, E., additional, Ho, C., additional, Mohamed, I., additional, Lin, A., additional, Huang, V., additional, Mestrovic, A., additional, Hyde, D., additional, Lund, C., additional, Pai, H., additional, Valev, B., additional, Lefresne, S., additional, Tyldesley, S., additional, and Olson, R., additional

Published

2023

5. OC-0268 Should OARs be prioritized in SABR for oligometastases? A secondary analysis of the SABR-5 trial

Author

Cereno, R.E., primary, Mou, B., additional, Baker, S., additional, Chng, N., additional, Arbour, G., additional, Bergman, A., additional, Liu, M., additional, Schellenberg, D., additional, Matthews, Q., additional, Huang, V., additional, Mestrovic, A., additional, Hyde, D., additional, Alexander, A., additional, Carolan, H., additional, Hsu, F., additional, Atrchian, S., additional, Mohamed, I., additional, Lin, A., additional, Berrang, T., additional, Bang, A., additional, Jiang, W., additional, Pai, H., additional, Tyldesley, S., additional, and Olson, R., additional

Published

2023

6. Predictors of Early Polymetastatic Relapse Following Stereotactic Ablative Radiotherapy for up to 5 Oligometastases: A Secondary Analysis of the Phase II SABR-5 Trial

Author

Baker, S., primary, Mou, B., additional, Jiang, W., additional, Liu, M.C., additional, Bergman, A., additional, Schellenberg, D., additional, Alexander, A.S., additional, Carolan, H., additional, Atrchian, S., additional, Berrang, T., additional, Bang, A., additional, Chng, N., additional, Matthews, Q., additional, Tyldesley, S.K., additional, and Olson, R.A., additional

Published

2022

7. A Population-Based Study on the Treatment and Long-Term Outcomes of Thymoma: A 25-year Single Institution Retrospective Review

Author

Wu, E.C.F., primary, Sit, D., additional, Derocher, H., additional, Lin, A., additional, Sauciuc, D., additional, Murchison, S.C., additional, Lin, T.Y.Y., additional, Siever, J., additional, and Atrchian, S., additional

Published

2022

8. Population Based Phase II Trial of Stereotactic Ablative Radiotherapy (SABR): Overall Survival Results of the SABR-5 Trial

Author

Jiang, W.N., primary, Baker, S., additional, Liu, M., additional, Bergman, A., additional, Schellenberg, D., additional, Mou, B., additional, Alexander, A.S., additional, Carolan, H., additional, Atrchian, S., additional, Chan, E.K., additional, Mohamed, I.G., additional, Berrang, T., additional, Bang, A., additional, Chng, N., additional, Matthews, Q., additional, Pai, H.H., additional, Lefresne, S., additional, Tyldesley, S., additional, and Olson, R.A., additional

Published

2022

9. Impact of Clinical Target Volume Utilization on Outcomes in Patients with Non-Spine Bone Oligometastases Treated with Stereotactic Ablative Radiation Therapy

Author

O’Reilly, E., Johal, E., Clark, H., Mou, B., Cereno, R.E., Liu, M., Schellenberg, D., Jiang, W., Berrang, T., Alexander, A.S., Carolan, H., Atrchian, S., Dunne, E.M., Tyldesley, S., Olson, R.A., and Baker, S.

Published

2024

10. Evaluating Toxicity and Interaction Outcomes of Systemic Therapy and Stereotactic Ablative Radiotherapy for Oligometastatic Disease: A Secondary Analysis of the Phase II SABR-5 Trial

Author

Kooyman, A., Chang, J.S., Liu, M., Jiang, W., Bergman, A., Schellenberg, D., Mou, B., Alexander, A.S., Carolan, H., Hsu, F., Atrchian, S., Chan, E.K., Berrang, T., Chng, N., Matthews, Q., Pai, H.H., Valev, B., Tyldesley, S., Olson, R.A., and Baker, S.

Published

2024

11. Development of Nomograms to Predict Polymetastatic Progression Free Survival and Overall Survival in Patients Treated with Stereotactic Ablative Radiotherapy for Oligometastatic or Oligoprogressive Cancer

Author

Das, S., Liu, W., Lechner, L., Mou, B., Jiang, W., Liu, M., Schellenberg, D., Berrang, T., Alexander, A.S., Ho, C., Valev, B., Carolan, H., Atrchian, S., Bergman, A., Chng, N., Matthews, Q., Arbour, G., Tyldesley, S., Olson, R.A., and Baker, S.

Published

2024

12. Population Based Phase II Trial of Stereotactic Ablative Radiotherapy (SABR) for up to 5 Oligometastases: Preliminary Results of the SABR-5 Trial

Author

Olson, R.A., primary, Jiang, W., additional, Liu, M.C., additional, Bergman, A., additional, Schellenberg, D., additional, Mou, B., additional, Alexander, A.S., additional, Carolan, H., additional, Hsu, F., additional, Miller, S., additional, Atrchian, S., additional, Chan, E.K., additional, Ho, C., additional, Mohamed, I.G., additional, Lin, A., additional, Berrang, T., additional, Bang, A., additional, Chng, N., additional, Matthews, Q., additional, Huang, V., additional, Mestrovic, T., additional, Hyde, D., additional, Lund, C.R., additional, Pai, H.H., additional, Valev, B., additional, Lefresne, S., additional, and Tyldesley, S.., additional

Published

2021

13. Clinical Outcomes of Pancoast Tumors Treated with Trimodality Therapy

Author

Lin, T.Y.Y., primary, Atrchian, S., additional, Humer, M., additional, Siever, J., additional, and Lin, A., additional

Published

2020

14. Axillary Lymph Node Coverage in Breast Cancer Patients Treated with Adjuvant Radiation Using High Tangent Technique: A Single Institution Experience

Author

Atrchian, S., primary, Lali, A., additional, Lin, A., additional, Lucas, S., additional, Rajapakshe, R., additional, and Germain, F., additional

Published

2020

15. Validation of Deep Learning-based Auto-Segmentation for Organs at Risk and Gross Tumor Volumes in Lung Stereotactic Body Radiotherapy

Author

Wong, J., primary, Huang, V., additional, Giambattista, J.A., additional, Teke, T., additional, and Atrchian, S., additional

Published

2019

16. Improvement of Consistency in Delineating Breast Lumpectomy Cavity Using Surgical Clips

Author

Atrchian, S., primary, Sadeghi, P., additional, Cwajna, W., additional, Helyer, L., additional, Rheaume, D., additional, Nolan, M., additional, Rutledge, R., additional, Calverley, V., additional, Bennett, S., additional, and Robar, J., additional

Published

2013

17. 139 CONCURRENT CHEMOTHERAPY (CHT) AND INTENSITY MODULATED RADIATION THERAPY (IMRT) VERSUS IMRT ALONE FOR THE TREATMENT (TT) OF STAGE (STG) III–IV OROPHARYNGEAL CARCINOMA (OPC): A RETROSPECTIVE STUDY AT THE NOVA SCOTIA CANCER CENTRE (NSCC)

Author

Atrchian, S., primary, Hollenhorst, H., additional, Davis, M., additional, Dulung, B., additional, Wilke, D., additional, Rajaraman, M., additional, Robar, J., additional, Clancey, J., additional, and Day, A., additional

Published

2009

18. Impact of Clinical Target Volume Utilization on Outcomes in Patients with Non-Spine Bone Oligometastases Treated with Stereotactic Ablative Radiation Therapy.

Author

O'Reilly, E., Johal, E., Clark, H., Mou, B., Cereno, R.E., Liu, M., Schellenberg, D., Jiang, W., Berrang, T., Alexander, A.S., Carolan, H., Atrchian, S., Dunne, E.M., Tyldesley, S., Olson, R.A., and Baker, S.

Subjects

*STEREOTACTIC radiotherapy, *FAILURE analysis, *BONE metastasis, *OVERALL survival, *DISEASE relapse

Abstract

Despite advancements in stereotactic ablative radiotherapy (SABR) for non-spine bone metastases (NSBMs), uncertainty remains surrounding target volumes. While expert consensus guidelines recommend a clinical target volume (CTV), patterns of failure analyses are lacking, and larger treatment volumes may be associated with higher toxicity. This study aims to compare local failure, marginal failure, and toxicity in NSBMs treated with versus without a CTV in a population-based cohort. A retrospective review was conducted on all patients in British Columbia treated with SABR for NSBMs on the single-arm phase II SABR-5 trial (November 2016 – July 2020) and on the BC Oligometastases Registry (August 2020 - October 2022). Use of a CTV was optional for both SABR-5 and the Registry. NSBMs were stratified based on CTV use for treatment planning. A total of 158 patients (113 on SABR-5 and 45 on Registry) with 200 NSBMs were included. One hundred fifty-nine (80%) NSBMs were treated with a CTV and 41 (21%) without a CTV. The most common histologies were prostate (60%), breast (17%) and lung cancer (6%), and lesions received 35 Gy in 5 fractions (81%) or 24 Gy in 2 fractions (14%). Rib (34%) and pelvis (47%) were the most common lesion sites. Groups with vs without a CTV did not differ in baseline patient or tumor characteristics. After a median follow-up time of 33.7 months (interquartile range [IQR] = 19.5-48.9), local failure rates did not differ, with 2-year local failure 9.3% (95% confidence interval [CI] = 4.4 – 14.2) in lesions treated with a CTV and 7.6% (95% CI = 0 – 15.8) without a CTV (P = 0.39). Marginal failure, defined as disease recurrence outside of the GTV but within 1 cm of the PTV, occurred in 15 (8%) of lesions and 2-year cumulative incidence did not differ between groups (6.2% [95% CI = 2.3 – 10.1] and 2.6%, [95% CI = 0 – 7.5], respectively [ P = 0.16]). Overall survival (OS) was also similar (2-year OS = 84.6%, 95% CI = 78.1 – 91.1, and 90.3%, 95% CI = 79.9 – 100, respectively; P = 0.64). The most common grade ≥ 2 toxicities were pain (n = 18, 9%) and fracture (n = 8, 4%). There were no grade 4 or 5 toxicities. The 2-year cumulative incidence of grade ≥ 2 toxicity did not differ between groups (14.9%, 95% CI = 3.9-25.9 and 15.6%, 95% CI = 9.9-21.3, respectively; P = 0.78). Due to low number of events, local and marginal failure events were collated for a multivariable regression analysis. On multivariable regression, use of a CTV was not associated with the risk of local-marginal failure (hazard ratio [HR] = 2.41, 95% CI = 0.81 – 7.18, P = 0.11). Extraosseous extension (HR = 2.62, 95% CI = 1.07-6.38, P = 0.035) and lack of receipt of systemic therapy (HR = 3.03, 95% CI = 1.40-6.67, P = 0.005) were associated with higher risk. Use of a CTV was not associated with local or marginal failure or toxicity. Extraosseous extension and lack of receipt of systemic therapy were associated with higher risk of local-marginal failure. This may assist in informing future approaches to treatment planning in this patient population. [ABSTRACT FROM AUTHOR]

Published

2024

19. Primary care provider-led cancer survivorship care in the first 5 years following initial cancer treatment: a scoping review of the barriers and solutions to implementation.

Author

Hayes BD, Young HG, Atrchian S, Vis-Dunbar M, Stork MJ, Pandher S, Samper S, McCorquodale S, Loader A, and Voss C

Subjects

Humans, Survivorship, Interdisciplinary Communication, Primary Health Care, Cancer Survivors, Neoplasms therapy

Abstract

Purpose: To synthesize the barriers to primary care provider (PCP)-led cancer survivorship care (≤ 5 years after initial cancer treatment) experienced by healthcare systems around the world, and to explore potential solutions that would succeed within a developed country., Methods: A scoping review of peer-reviewed articles and grey literature was conducted. Four electronic databases (Medline, Embase, Web of Science Core Collection, and Google Scholar) were searched for articles prior to April 2021., Results: Ninety-seven articles published across the globe (USA, Canada, Australia, European Union, and UK) met the review inclusion/exclusion criteria. The four most frequently discussed barriers to PCP-led survivorship care in healthcare systems were as follows: (1) insufficient communication between PCPs and cancer specialists, (2) limited PCP knowledge, (3) time restrictions for PCPs to provide comprehensive survivorship care, and (4) a lack of resources (e.g., survivorship care guidelines). Potential solutions to combat these barriers were as follows: (1) improving interdisciplinary communication, (2) bolstering PCP education, and (3) providing survivorship resources., Conclusions: This scoping review identified and summarized key barriers and solutions to the provision of PCP-led cancer survivorship care. Importantly, the findings from this review provide insight and direction to guide optimization of cancer care practice within BC's healthcare system., Implications for Cancer Survivors: Optimizing the PCP-led survivorship care model will be a valuable contribution to the field of cancer survivorship care and will hopefully lead to more widespread use of this model, ultimately lessening the growing demand for cancer-specific care by cancer specialists., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

20. Upfront Versus Delayed Systemic Therapy in Patients With Oligometastatic Cancer Treated With SABR in the Phase 2 SABR-5 Trial.

Author

Baker S, Lechner L, Liu M, Chang JS, Cruz-Lim EM, Mou B, Jiang W, Bergman A, Schellenberg D, Alexander A, Berrang T, Bang A, Chng N, Matthews Q, Carolan H, Hsu F, Miller S, Atrchian S, Chan E, Ho C, Mohamed I, Lin A, Huang V, Mestrovic A, Hyde D, Lund C, Pai H, Valev B, Lefresne S, Arbour G, Yu I, Tyldesley S, and Olson RA

Subjects

Male, Humans, Retrospective Studies, Progression-Free Survival, Prostatic Neoplasms pathology, Radiosurgery methods

Abstract

Purpose: The optimal sequencing of local and systemic therapy for oligometastatic cancer has not been established. This study retrospectively compared progression-free survival (PFS), overall survival (OS), and SABR-related toxicity between upfront versus delay of systemic treatment until progression in patients in the SABR-5 trial., Methods and Materials: The single-arm phase 2 SABR-5 trial accrued patients with up to 5 oligometastases across SABR-5 between November 2016 and July 2020. Patients received SABR to all lesions. Two cohorts were retrospectively identified: those receiving upfront systemic treatment along with SABR and those for whom systemic treatment was delayed until disease progression. Patients treated for oligoprogression were excluded. Propensity score analysis with overlap weighting balanced baseline characteristics of cohorts. Bootstrap sampling and Cox regression models estimated the association of delayed systemic treatment with PFS, OS, and grade ≥2 toxicity., Results: A total of 319 patients with oligometastases underwent treatment on SABR-5, including 121 (38%) and 198 (62%) who received upfront and delayed systemic treatment, respectively. In the weighted sample, prostate cancer was the most common primary tumor histology (48%) followed by colorectal (18%), breast (13%), and lung (4%). Most patients (93%) were treated for 1 to 2 metastases. The median follow-up time was 34 months (IQR, 24-45). Delayed systemic treatment was associated with shorter PFS (hazard ratio [HR], 1.56; 95% CI, 1.15-2.13; P = .005) but similar OS (HR, 0.90; 95% CI, 0.51-1.59; P = .65) compared with upfront systemic treatment. Risk of grade 2 or higher SABR-related toxicity was reduced with delayed systemic treatment (odds ratio, 0.35; 95% CI, 0.15-0.70; P < .001)., Conclusions: Delayed systemic treatment is associated with shorter PFS without reduction in OS and with reduced SABR-related toxicity and may be a favorable option for select patients seeking to avoid initial systemic treatment. Efforts should continue to accrue patients to histology-specific trials examining a delayed systemic treatment approach., (Crown Copyright © 2024. Published by Elsevier Inc. All rights reserved.)

Published

2024

21. Single vs. multiple fraction non-inferiority trial of stereotactic ablative radiotherapy for the comprehensive treatment of oligo-metastases/progression: SIMPLIFY-SABR-COMET.

Author

Olson R, Abraham H, Leclerc C, Benny A, Baker S, Matthews Q, Chng N, Bergman A, Mou B, Dunne EM, Schellenberg D, Jiang W, Chan E, Atrchian S, Lefresne S, Carolan H, Valev B, Tyldesley S, Bang A, Berrang T, Clark H, Hsu F, Louie AV, Warner A, Palma DA, Howell D, Barry A, Dawson L, Grendarova P, Walker D, Sinha R, Tsai J, Bahig H, Thibault I, Koul R, Senthi S, Phillips I, Grose D, Kelly P, Armstrong J, McDermott R, Johnstone C, Vasan S, Aherne N, Harrow S, and Liu M

Subjects

Humans, Progression-Free Survival, Quality of Life, Equivalence Trials as Topic, Neoplasms mortality, Neoplasms pathology, Neoplasms radiotherapy, Radiosurgery adverse effects, Radiosurgery methods

Abstract

Background: Radiotherapy delivery regimens can vary between a single fraction (SF) and multiple fractions (MF) given daily for up to several weeks depending on the location of the cancer or metastases. With limited evidence comparing fractionation regimens for oligometastases, there is support to explore toxicity levels to nearby organs at risk as a primary outcome while using SF and MF stereotactic ablative radiotherapy (SABR) as well as explore differences in patient-reported quality of life and experience., Methods: This study will randomize 598 patients in a 1:1 ratio between the standard arm (MF SABR) and the experimental arm (SF SABR). This trial is designed as two randomized controlled trials within one patient population for resource efficiency. The primary objective of the first randomization is to determine if SF SABR is non-inferior to MF SABR, with respect to healthcare provider (HCP)-reported grade 3-5 adverse events (AEs) that are related to SABR. Primary endpoint is toxicity while secondary endpoints include lesional control rate (LCR), and progression-free survival (PFS). The second randomization (BC Cancer sites only) will allocate participants to either complete quality of life (QoL) questionnaires only; or QoL questionnaires and a symptom-specific survey with symptom-guided HCP intervention. The primary objective of the second randomization is to determine if radiation-related symptom questionnaire-guided HCP intervention results in improved reported QoL as measured by the EuroQoL-5-dimensions-5levels (EQ-5D-5L) instrument. The primary endpoint is patient-reported QoL and secondary endpoints include: persistence/resolution of symptom reporting, QoL, intervention cost effectiveness, resource utilization, and overall survival., Discussion: This study will compare SF and MF SABR in the treatment of oligometastases and oligoprogression to determine if there is non-inferior toxicity for SF SABR in selected participants with 1-5 oligometastatic lesions. This study will also compare patient-reported QoL between participants who receive radiation-related symptom-guided HCP intervention and those who complete questionnaires alone., Trial Registration: Clinicaltrials.gov identifier: NCT05784428. Date of Registration: 23 March 2023., (© 2024. The Author(s).)

Published

2024

22. Should organs at risk (OARs) be prioritized over target volume coverage in stereotactic ablative radiotherapy (SABR) for oligometastases? a secondary analysis of the population-based phase II SABR-5 trial.

Author

Eufemon Cereno R, Mou B, Baker S, Chng N, Arbour G, Bergman A, Liu M, Schellenberg D, Matthews Q, Huang V, Mestrovic A, Hyde D, Alexander A, Carolan H, Hsu F, Miller S, Atrchian S, Chan E, Ho C, Mohamed I, Lin A, Berrang T, Bang A, Jiang W, Lund C, Pai H, Valev B, Lefresne S, Tyldesley S, and Olson RA

Subjects

Humans, Organs at Risk pathology, Lung pathology, Progression-Free Survival, Lung Neoplasms pathology, Radiosurgery adverse effects

Abstract

Background and Purpose: Stereotactic ablative radiotherapy (SABR) for oligometastases may improve survival, however concerns about safety remain. To mitigate risk of toxicity, target coverage was sacrificed to prioritize organs-at-risk (OARs) during SABR planning in the population-based SABR-5 trial. This study evaluated the effect of this practice on dosimetry, local recurrence (LR), and progression-free survival (PFS)., Methods: This single-arm phase II trial included patients with up to 5 oligometastases between November 2016 and July 2020. Theprotocol-specified planning objective was to cover 95 % of the planning target volume (PTV) with 100 % of the prescribed dose, however PTV coverage was reduced as needed to meet OAR constraints. This trade-off was measured using the coverage compromise index (CCI), computed as minimum dose received by the hottest 99 % of the PTV (D99) divided by the prescription dose. Under-coverage was defined as CCI < 0.90. The potential association between CCI and outcomes was evaluated., Results: 549 lesions from 381 patients were assessed. Mean CCI was 0.88 (95 % confidence interval [CI], 0.86-0.89), and 196 (36 %) lesions were under-covered. The highest mean CCI (0.95; 95 %CI, 0.93-0.97) was in non-spine bone lesions (n = 116), while the lowest mean CCI (0.71; 95 % CI, 0.69-0.73) was in spine lesions (n = 104). On multivariable analysis, under-coverage did not predict for worse LR (HR 0.48, p = 0.37) or PFS (HR 1.24, p = 0.38). Largest lesion diameter, colorectal and 'other' (non-prostate, breast, or lung) primary predicted for worse LR. Largest lesion diameter, synchronous tumor treatment, short disease free interval, state of oligoprogression, initiation or change in systemic treatment, and a high PTV Dmax were significantly associated with PFS., Conclusion: PTV under-coverage was not associated with worse LR or PFS in this large, population-based phase II trial. Combined with low toxicity rates, this study supports the practice of prioritizing OAR constraints during oligometastatic SABR planning., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published

2023

23. Predictors of Early Polymetastatic Relapse After SABR for up to 5 Oligometastases: A Secondary Analysis of the Phase II SABR-5 Trial.

Author

Baker S, Mou B, Jiang W, Liu M, Bergman AM, Schellenberg D, Alexander AS, Carolan H, Atrchian S, Berrang T, Bang A, Chng N, Matthews Q, Tyldesley S, and Olson RA

Subjects

Humans, Adolescent, Adult, Prospective Studies, Neoplasm Recurrence, Local etiology, British Columbia epidemiology, Radiosurgery methods, Lung Neoplasms etiology

Abstract

Purpose: A subset of patients with oligometastatic cancer experience early widespread cancer dissemination and do not benefit from metastasis-directed therapy such as SABR. This study aimed to identify factors associated with early polymetastatic relapse (PMR)., Methods and Materials: The SABR-5 trial was a single arm phase 2 study conducted at all 6 regional cancer centers across British Columbia (BC), Canada. SABR for oligometastases was only offered on trial. Patients with up to 5 oligometastatic lesions (total, progressing, or induced) received SABR to all lesions. Patients were 18 years of age or older, Eastern Cooperative Oncology Group 0 to 2 and life expectancy ≥6 months. This secondary analysis evaluated factors associated with early PMR, defined as disease recurrence within 6 months of SABR, which is not amenable to further local treatment. Univariable and multivariable analyses were performed using binary logistic regression. The Kaplan-Meier method and log-rank tests assessed PMR-free survival and differences between risk groups, respectively., Results: Between November 2016 and July 2020, 381 patients underwent treatment on SABR-5. A total of 16% of patients experienced PMR. Worse performance status (Eastern Cooperative Oncology Group 1-2 vs 0; hazard ratio [HR] = 2.01, P = .018), nonprostate/breast histology (HR = 3.64, P <.001), and oligoprogression (HR = 3.84, P <.001) were independent predictors for early PMR. Risk groups were identified with median PMR-free survival ranging from 5 months to not yet reached at the time of analysis. Rates of 3-year overall survival were 0%, 53% (95% confidence interval [CI], 48-58), 77% (95% CI, 73-81), and 93% (95% CI, 90-96) in groups 1 to 4, respectively (P <.001)., Conclusions: Four distinct risk groups for early PMR are identified, which differ significantly in PMR-free survival and overall survival. The group with all 3 risk factors had a median PMR-free survival of 5 months and may not benefit from local ablative therapy alone. This model should be externally validated with data from other prospective trials., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

24. Progression-Free Survival and Local Control After SABR for up to 5 Oligometastases: An Analysis From the Population-Based Phase 2 SABR-5 Trial.

Author

Baker S, Jiang W, Mou B, Lund CR, Liu M, Bergman AM, Schellenberg D, Alexander AS, Carolan H, Atrchian S, Chng N, Matthews Q, Arbour G, Benny A, Tyldesley S, and Olson RA

Subjects

Adolescent, Adult, British Columbia, Humans, Progression-Free Survival, Prospective Studies, Neoplasms, Radiosurgery methods

Abstract

Purpose: Despite increasing utilization of SABR for oligometastatic cancer, prospective outcomes are lacking. The purpose of this study was to determine progression-free survival (PFS), local control (LC), and prognostic factors from the population-based phase 2 SABR-5 trial., Methods and Materials: The SABR-5 trial was a single-arm phase 2 study with the primary endpoint of toxicity, conducted at the 6 regional cancer centers across British Columbia (BC), Canada, during which time SABR for oligometastases was only offered on trial. Patients with up to 5 oligometastases (total or not controlled by prior treatment and including induced oligometastatic disease) underwent SABR to all lesions. Patients were 18 years of age or older, had an Eastern Cooperative Oncology Group score of 0 to 2, and had life expectancy ≥ 6 months. The secondary outcomes of PFS and LC are presented here., Results: Between November 2016 and July 2020, 381 patients underwent SABR on trial. Median follow-up was 27 months (interquartile range, 18-36). Median PFS was 15 months (95% confidence interval [CI], 12-18). LC at 1 and 3 years were 93% (95% CI, 91-95) and 87% (95% CI, 84-90), respectively. On multivariable analysis, increasing tumor diameter (hazard ratio [HR], 1.09; P < .001), declining performance status (HR, 2.13; P < .001), disease-free interval <18 months (HR, 1.52; P = .003), 4 or more metastases at SABR (HR, 1.48; P = .048), initiation or change in systemic treatment (HR, 0.50; P < .001), and oligoprogression (HR, 1.56; P = .008) were significant independent predictors of PFS. Tumor diameter (sub-hazard ratio [SHR], 1.28; P < .001), colorectal histology (SHR, 4.33; P = .002), and "other" histology (SHR, 3.90; P < .001) were associated with worse LC., Conclusions: In this population-based cohort including patients with genuine oligometastatic, oligoprogressive, and induced oligometastatic disease, the median PFS was 15 months and LC at 3 years was 87%. This supports ongoing efforts to randomize patients in phase 3 trials, even outside the original 1 to 5 metachronous oligometastatic paradigm., (Copyright © 2022 Elsevier Inc. All rights reserved.)

Published

2022

25. Treatment With Stereotactic Ablative Radiotherapy for Up to 5 Oligometastases in Patients With Cancer: Primary Toxic Effect Results of the Nonrandomized Phase 2 SABR-5 Clinical Trial.

Author

Olson R, Jiang W, Liu M, Bergman A, Schellenberg D, Mou B, Alexander A, Carolan H, Hsu F, Miller S, Atrchian S, Chan E, Ho C, Mohamed I, Lin A, Berrang T, Bang A, Chng N, Matthews Q, Baker S, Huang V, Mestrovic A, Hyde D, Lund C, Pai H, Valev B, Lefresene S, and Tyldesley S

Subjects

Male, Humans, Dose Fractionation, Radiation, Kaplan-Meier Estimate, Radiosurgery adverse effects, Radiosurgery methods, Lung Neoplasms pathology, Prostatic Neoplasms

Abstract

Importance: After the publication of the landmark SABR-COMET trial, concerns arose regarding high-grade toxic effects of treatment with stereotactic ablative body radiotherapy (SABR) for oligometastases., Objective: To document toxic effects of treatment with SABR in a large cohort from a population-based, provincial cancer program., Design, Setting, and Participants: From November 2016 to July 2020, 381 patients across all 6 cancer centers in British Columbia were treated in this single-arm, phase 2 trial of treatment with SABR for patients with oligometastatic or oligoprogressive disease. During this period, patients were only eligible to receive treatment with SABR in these settings in trials within British Columbia; therefore, this analysis is population based, with resultant minimal selection bias compared with previously published SABR series., Interventions: Stereotactic ablative body radiotherapy to up to 5 metastases., Main Outcomes and Measures: Rate of grade 2, 3, 4, and 5 toxic effects associated with SABR., Findings: Among 381 participants (122 women [32%]), the mean (SD; range) age was 68 (11.1; 30-97) years, and the median (range) follow-up was 25 (1-54) months. The most common histological findings were prostate cancer (123 [32%]), colorectal cancer (63 [17%]), breast cancer (42 [11%]), and lung cancer (33 [9%]). The number of SABR-treated sites were 1 (263 [69%]), 2 (82 [22%]), and 3 or more (36 [10%]). The most common sites of SABR were lung (188 [34%]), nonspine bone (136 [25%]), spine (85 [16%]), lymph nodes (78 [14%]), liver (29 [5%]), and adrenal (15 [3%]). Rates of grade 2, 3, 4, and 5 toxic effects associated with SABR (based on the highest-grade toxic effect per patient) were 14.2%; (95% CI, 10.7%-17.7%), 4.2% (95% CI, 2.2%-6.2%), 0%, and 0.3% (95% CI, 0%-0.8%), respectively. The cumulative incidence of grade 2 or higher toxic effects associated with SABR at year 2 by Kaplan-Meier analysis was 8%, and for grade 3 or higher, 4%., Conclusions and Relevance: This single-arm, phase 2 clinical trial found that the incidence of grade 3 or higher SABR toxic effects in this population-based study was less than 5%. Furthermore, the rates of grade 2 or higher toxic effects (18.6%) were lower than previously published for SABR-COMET (29%). These results suggest that SABR treatment for oligometastases has acceptable rates of toxic effects and potentially support further enrollment in randomized phase 3 clinical trials., Trial Registration: ClinicalTrials.gov Identifier: NCT02933242.

Published

2022

26. Training and Validation of Deep Learning-Based Auto-Segmentation Models for Lung Stereotactic Ablative Radiotherapy Using Retrospective Radiotherapy Planning Contours.

Author

Wong J, Huang V, Giambattista JA, Teke T, Kolbeck C, Giambattista J, and Atrchian S

Abstract

Purpose: Deep learning-based auto-segmented contour (DC) models require high quality data for their development, and previous studies have typically used prospectively produced contours, which can be resource intensive and time consuming to obtain. The aim of this study was to investigate the feasibility of using retrospective peer-reviewed radiotherapy planning contours in the training and evaluation of DC models for lung stereotactic ablative radiotherapy (SABR)., Methods: Using commercial deep learning-based auto-segmentation software, DC models for lung SABR organs at risk (OAR) and gross tumor volume (GTV) were trained using a deep convolutional neural network and a median of 105 contours per structure model obtained from 160 publicly available CT scans and 50 peer-reviewed SABR planning 4D-CT scans from center A. DCs were generated for 50 additional planning CT scans from center A and 50 from center B, and compared with the clinical contours (CC) using the Dice Similarity Coefficient (DSC) and 95% Hausdorff distance (HD)., Results: Comparing DCs to CCs, the mean DSC and 95% HD were 0.93 and 2.85mm for aorta, 0.81 and 3.32mm for esophagus, 0.95 and 5.09mm for heart, 0.98 and 2.99mm for bilateral lung, 0.52 and 7.08mm for bilateral brachial plexus, 0.82 and 4.23mm for proximal bronchial tree, 0.90 and 1.62mm for spinal cord, 0.91 and 2.27mm for trachea, and 0.71 and 5.23mm for GTV. DC to CC comparisons of center A and center B were similar for all OAR structures., Conclusions: The DCs developed with retrospective peer-reviewed treatment contours approximated CCs for the majority of OARs, including on an external dataset. DCs for structures with more variability tended to be less accurate and likely require using a larger number of training cases or novel training approaches to improve performance. Developing DC models from existing radiotherapy planning contours appears feasible and warrants further clinical workflow testing., Competing Interests: The commercial auto-segmentation software used was provided without cost through a research agreement with Limbus AI Inc. No financial support was provided for this study. JAG, JG, and CK are directors of Limbus AI Inc. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Wong, Huang, Giambattista, Teke, Kolbeck, Giambattista and Atrchian.)

Published

2021

27. Clinical outcomes of pancoast tumors treated with trimodality therapy.

Author

Lin TY, Atrchian S, Humer M, Siever J, and Lin A

Abstract

Background: Superior sulcus tumors, or Pancoast tumors, are challenging thoracic malignancies to treat due to their anatomical location posing difficult surgical access and potential involvement of adjacent vital structures. The current standard of care is trimodality treatment, which consists of induction chemoradiotherapy followed by radical surgical resection. This study aims to report the clinical outcomes of trimodality approach in British Columbia, Canada., Methods: Patients with Pancoast tumors who underwent trimodality treatment between 2000-2015 were included in this provincial multi-center retrospective study. Patient-, disease-, and treatment-related data were collected, and treatment outcomes were recorded., Results: We identified 32 patients who underwent induction chemoradiotherapy and subsequent surgical resection. Mean age was 59 (43-75 years) with median follow-up of 43 months (5-216 months). Complete resection was achieved in 31 patients (97%). Fourteen patients (44%) had pathological complete response after induction chemoradiotherapy. Thirteen (41%) showed minimal microscopic (>90% tumor necrosis) and 5 (16%) macroscopic residual disease (<90% tumor necrosis). Fourteen patients (44%) developed recurrence, which was distant in 9 cases. The 2-, 5-, and 10-year overall survival rates were 67.9%, 50.1%, 31.8% and the 2-, 5-, and 10-year disease-free survival rates were 65.1%, 47.1% and 28.2% respectively. There were no statistically significant differences in overall survival or disease-free survival rates with or without pathological complete response., Conclusions: Complete surgical resection with negative margins can be achieved after induction chemoradiotherapy, and curative-intent trimodality treatment can lead to long-term survival in some patients. This study did not demonstrate any prognostic value of pathological complete response, likely due to small sample size., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at http://dx.doi.org/10.21037/jtd-21-380). The authors have no conflicts of interest to declare., (2021 Journal of Thoracic Disease. All rights reserved.)

Published

2021

28. Patient Outcomes With Dose Escalation Using Modern Radiotherapy Techniques: A Retrospective Review of Anal Cancer Treated at a Large Academic Institution Between 2010 and 2016.

Author

Murchison SC, DeVries KJ, and Atrchian S

Abstract

Introduction: The use of modern radiotherapy techniques (MRTs) has contributed to reduced treatment-related toxicities through better avoidance of normal structures and dose tapering, and has enabled the delivery of higher doses continuously. The purpose of this study was to review retrospectively (1) outcomes for anal cancer treated at BC Cancer (Canada) using MRT, and (2) the utilization and effect of dose escalation on cancer-related outcomes., Methods: Patients between 2010 and 2016 with biopsy-proven anal cancer, aged >18 years, and treated with primary curative-intent chemoradiation using intensity modulated radiotherapy (IMRT) or volumetric modulated arc therapy (VMAT) were included. Primary end points included overall survival (OS), relapse-free survival (RFS), and colostomy-free survival (CFS). Kaplan-Meier curves were created for prognostic factors, as well as dose escalation (>54 Gy vs. ≤54 Gy). Univariate and multivariate analyses were performed to evaluate predictors of the outcome., Results: A total of 273 patients were assessed. The median age was 61 years with 70% being female, 6% HIV positive, and 68% with locally advanced cancer (T3-4, or node positive). The median follow-up time was 41.3 months. Time from diagnosis to treatment was 60 days, and treatment duration 42 days. Dose escalation was prescribed for 22, of whom 15 were locally advanced cases. A total of 97% completed their radiation, including all who were dose-escalated; 11% required unplanned treatment breaks, with over half of breaks <5 days. More than 90% completed at least half of their chemotherapy; 41% had pre-treatment, and 34% post-treatment positron emission tomography (PET) scans. For primary tumor response, 88% were complete and 10% partial; 23% relapsed, with 15% locoregional, 5% distant, and 3% both, and 12% had salvage surgery. The colostomy rate was 15%, with 4% pre-treatment, 10% relapse related, and only 1% treatment-toxicity related. On univariate analysis, male sex was associated with a higher risk of death (p=0.02) and relapse (p=0.041). Non-squamous histology was consistently a strong predictor of all outcomes (OS, p=0.0089; RFS, p<0.0001; CFS, p<0.0001) as was advanced T stage (OS, p=0.0075; RFS, p=0.0019; CFS, p=0.0099), and node positivity (OS, p=0.0014; RFS, p=0.001; CFS, p=0.0071). Age, HIV status, grade, longer treatment times (>42-day median), and lack of a pre- or post-treatment PET scan were not associated with the outcome. Dose escalation beyond 54 Gy was not significant, even among locally advanced tumors. On multivariate analysis, non-squamous histology (OS, p=0.043; RFS, p<0.001; CFS, p=0.01), T4 (OS, p=0.049; RFS, p=0.026; CFS, p=0.042) and node positivity (OS, p=0.05; RFS, p=0.006) remained significant predictors of the outcome, although node positivity was no longer significant for CFS (p=0.10)., Conclusion: BC Cancer outcomes for anal cancer treated with MRTs are comparable to what has been previously reported. Unplanned breaks were notably few, and short. Treatment-related colostomies were rare. Dose-escalated regimens were infrequently prescribed, appeared tolerable, but more often required a break. Prospective trials are needed to clarify efficacy of such regimens., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2020, Murchison et al.)

Published

2020

29. The microbiome and breast cancer: a review.

Author

Chen J, Douglass J, Prasath V, Neace M, Atrchian S, Manjili MH, Shokouhi S, and Habibi M

Subjects

Bacteria classification, Bacteria isolation & purification, Breast pathology, Breast Diseases immunology, Breast Diseases microbiology, Breast Diseases pathology, Breast Diseases therapy, Breast Neoplasms immunology, Breast Neoplasms pathology, Breast Neoplasms therapy, Dysbiosis microbiology, Female, Gastrointestinal Microbiome, Humans, Skin microbiology, Breast microbiology, Breast Neoplasms microbiology, Microbiota

Abstract

The human microbiome plays an integral role in physiology, with most microbes considered benign or beneficial. However, some microbes are known to be detrimental to human health, including organisms linked to cancers and other diseases characterized by aberrant inflammation. Dysbiosis, a state of microbial imbalance with harmful bacteria species outcompeting benign bacteria, can lead to maladies including cancer. The microbial composition varies across body sites, with the gut, urogenital, and skin microbiomes particularly well characterized. However, the microbiome associated with normal breast tissue and breast diseases is poorly understood. Collectively, studies have shown that breast tissue has a distinct microbiome with particular species enriched in the breast tissue itself, as well as the nipple aspirate and gut bacteria of women with breast cancer. More importantly, the breast and associated microbiomes may modulate therapeutic response and serve as potential biomarkers for diagnosing and staging breast cancer.

Published

2019

30. Improvement of consistency in delineating breast lumpectomy cavity using surgical clips.

Author

Atrchian S, Sadeghi P, Cwajna W, Helyer L, Rheaume D, Nolan M, Sadeghi P, and Robar J

Subjects

Female, Humans, Surgical Instruments, Tomography, X-Ray Computed, Breast diagnostic imaging, Mastectomy, Segmental instrumentation, Radiotherapy, Adjuvant instrumentation

Abstract

Background: Delineation of lumpectomy cavity for whole breast radiation therapy after breast conserving surgery can be challenging because of poor visualization of the cavity. The use of surgical clips on lumpectomy cavity walls has been suggested as an effective and low-cost method to improve the accuracy and consistency of lumpectomy cavity delineation., Materials and Methods: Twenty-three eligible female breast cancer patients who were treated with lumpectomy and adjuvant radiation therapy were recruited for this study. During breast conserving surgery, four surgical clips were placed on the superior, inferior, lateral, and medial walls of the lumpectomy cavity. Patients were imaged prior and during radiation treatment. Software was developed to anonymize the image sets and digitally remove the clips from the computed tomography images. Three radiation oncologists contoured the lumpectomy cavity volume, with and without presence of clips. Contoured image sets were analyzed with regard to cavity volume, dimensions, and concordance index. Statistical analysis was performed using a paired t-test., Results: The presence of clips significantly increased the average lumpectomy cavity volumes from 23.50 cc to 26.42 cc (P < 0.0001). The presence of clips also significantly increased the mean craniocaudal, anteroposterior, and mediolateral dimensions by 6.8, 2.3, and 2.9 mm, respectively (all P < 0.01). In addition, the presence of surgical clips improved the consistency in delineation in CC dimension by significantly decreasing the standard deviation (P < 0.006)., Conclusions: The presence of surgical clips improves the accuracy of lumpectomy cavity delineation. However, consistency is only improved in CC dimension., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018