Your search keyword '"Dubner R"' showing total 5 results

1. Tumor associated PD-L1 expression pattern in microscopically tumor positive sentinel lymph nodes in patients with melanoma

Author

Tarhini, AA, Zahoor, H, Yearley, JH, Gibson, C, Rahman, Z, Dubner, R, Rao, UNM, Sander, C, Kirkwood, JM, Tarhini, AA, Zahoor, H, Yearley, JH, Gibson, C, Rahman, Z, Dubner, R, Rao, UNM, Sander, C, and Kirkwood, JM

Abstract

Background: Characterization of PD-L1 expression within clinically/radiologically negative but microscopically tumor positive sentinel lymph nodes (SLN) is important to our understanding of the relevance of this immune checkpoint pathway for adjuvant therapy. Methods: Patients included had primary cutaneous melanoma, Breslow thickness of 2.01-4.0 or >4mm with or without tumor ulceration (T3a, T3b, T4a, T4b). All patients had microscopically tumor positive SLN. Hematoxylin and eosin (H&E) staining was performed, followed by PD-L1 immunohistochemical (IHC) staining using a preliminary IHC assay with anti-PD-L1 antibody clone 22C3. The slides were separately evaluated by two pathologists (JY and CG). Samples containing metastatic melanoma lesions were scored separately for PD-L1 expression in intratumoral and peritumoral locations, by utilizing two scoring methods. Results: Twenty-four patients where metastatic melanoma presence in the SLN was confirmed by H&E review of the cut sections were included in the final analysis of PD-L1 expression. SLN tumor size ranged from 1 to 2mm. For three patients, the melanin content was too high to confidently assign a PD-L1 score. For the remaining 21 patients, all had some evidence of either intratumoral or peritumoral PD-L1 expression. The frequency of intratumoral tumor-associated PD-L1 expression was: 0% of tumor cells (3pts, 14%); <1% (5pts, 24%); 1-10% (6pts, 29%) and >10% (7pts, 33%). Conclusions: Tumor-associated PD-L1 expression is readily detectable within melanoma micrometastases in the SLN of the majority of patients. These results support the testing of a therapeutic role for PD1/PD-L1 inhibition in the adjuvant setting, targeting melanoma micrometastases.

Published

2015

2. Tumor associated PD-L1 expression pattern in microscopically tumor positive sentinel lymph nodes in patients with melanoma

Author

Tarhini, AA, Zahoor, H, Yearley, JH, Gibson, C, Rahman, Z, Dubner, R, Rao, UNM, Sander, C, Kirkwood, JM, Tarhini, AA, Zahoor, H, Yearley, JH, Gibson, C, Rahman, Z, Dubner, R, Rao, UNM, Sander, C, and Kirkwood, JM

Abstract

Background: Characterization of PD-L1 expression within clinically/radiologically negative but microscopically tumor positive sentinel lymph nodes (SLN) is important to our understanding of the relevance of this immune checkpoint pathway for adjuvant therapy. Methods: Patients included had primary cutaneous melanoma, Breslow thickness of 2.01-4.0 or >4mm with or without tumor ulceration (T3a, T3b, T4a, T4b). All patients had microscopically tumor positive SLN. Hematoxylin and eosin (H&E) staining was performed, followed by PD-L1 immunohistochemical (IHC) staining using a preliminary IHC assay with anti-PD-L1 antibody clone 22C3. The slides were separately evaluated by two pathologists (JY and CG). Samples containing metastatic melanoma lesions were scored separately for PD-L1 expression in intratumoral and peritumoral locations, by utilizing two scoring methods. Results: Twenty-four patients where metastatic melanoma presence in the SLN was confirmed by H&E review of the cut sections were included in the final analysis of PD-L1 expression. SLN tumor size ranged from 1 to 2mm. For three patients, the melanin content was too high to confidently assign a PD-L1 score. For the remaining 21 patients, all had some evidence of either intratumoral or peritumoral PD-L1 expression. The frequency of intratumoral tumor-associated PD-L1 expression was: 0% of tumor cells (3pts, 14%); <1% (5pts, 24%); 1-10% (6pts, 29%) and >10% (7pts, 33%). Conclusions: Tumor-associated PD-L1 expression is readily detectable within melanoma micrometastases in the SLN of the majority of patients. These results support the testing of a therapeutic role for PD1/PD-L1 inhibition in the adjuvant setting, targeting melanoma micrometastases.

Published

2015

3. Advances in Diagnosis and Detection of Oral Diseases

Author

University of Michigan, School of Dentistry, Ann Arbor, Michigan, National Institute of Dental Research, National Institutesof Health, Bethesda, Maryland, University of Connecticut, School of Dental Medicine, Farmington, Connecticut, Harvard University School of Dental Medicine, Boston, Massachusetts, SUNY at Buffalo, School of Dentistry, Buffalo, New York, Baum, B. J., Burstone, C. J., Dubner, R., Goldhaber, P., Levine, M. J., Loesche, W. J., Terranova, V., University of Michigan, School of Dentistry, Ann Arbor, Michigan, National Institute of Dental Research, National Institutesof Health, Bethesda, Maryland, University of Connecticut, School of Dental Medicine, Farmington, Connecticut, Harvard University School of Dental Medicine, Boston, Massachusetts, SUNY at Buffalo, School of Dentistry, Buffalo, New York, Baum, B. J., Burstone, C. J., Dubner, R., Goldhaber, P., Levine, M. J., Loesche, W. J., and Terranova, V.

Abstract

Medicine, particularly with respect to diagnostic decision-making, has seen remarkable advances in the last ten years. The art of diagnosis has become much more of a science. Basic science advances have moved from the laboratory into the hospital and radically changed the way a medical diagnosis is arrived at or confirmed. Dentistry, especially oral diagnosis, as yet has not been a significant part of this general medical advance. However, several examples demonstrate that this situation is starting to change. Oral conditions are beginning to be evaluated with greater precision and sophistication. This report reviews some recent advances in oral diagnostic research and suggests where they will carry dentistry over the next 25 years.

Published

2010

4. Towards a mechanism-based classification of pain? [editorial]

Author

Woolf, CJ, Bennett, GJ, Doherty, M, Dubner, R, Kidd, B, Koltzenburg, M, Lipton, R, Loeser, JD, Payne, R, Torebjork, E, Woolf, CJ, Bennett, GJ, Doherty, M, Dubner, R, Kidd, B, Koltzenburg, M, Lipton, R, Loeser, JD, Payne, R, and Torebjork, E

Published

1999

5. Towards a mechanism-based classification of pain?

Author

Woolf, C, Bennett, GJ, Doherty, M, Dubner, R, Kidd, B, Koltzenburg, M, Lipton, R, Loeser, JD, Payne, R, Torebjork, E, Woolf, C, Bennett, GJ, Doherty, M, Dubner, R, Kidd, B, Koltzenburg, M, Lipton, R, Loeser, JD, Payne, R, and Torebjork, E

Published

1998