Your search keyword '"Nikhil Babu Oommen"' showing total 13 results

1. Supplementary Figures 1-3 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Figures 1-3 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

2. Supplementary Figure Legends 1-5 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Figure Legends 1-5 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

3. Supplementary Tables 5-8 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Tables 5-8 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

4. Supplementary Figure 4 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Figure 4 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

5. Supplementary Figure 5 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Figure 5 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

6. Supplementary Tables 1-4 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Johann S. de Bono, Leon W.M.M. Terstappen, Michael E. Cox, Arturo Molina, Colin S. Cooper, Stan B. Kaye, David Dearnaley, Christopher Parker, Craig P. Carden, Ronald Sipkema, Emilda Thompson, Charles Jameson, George Hawche, Nikhil Babu Oommen, Ruth Riisnaes, Joana Moreira, Frank Coumans, Rianne Levink, Roger A'Hern, Elaine Vickers, Alison H.M. Reid, David Olmos, Joost F. Swennenhuis, and Gerhardt Attard

Abstract

Supplementary Tables 1-4 from Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Published

2023

7. Randomized Phase II trial of nintedanib, afatinib and sequential combination in castration-resistant prostate cancer

Author

K Pelling, Aurelius Omlin, Duncan Wheatley, Joe M. O'Sullivan, Johann S. de Bono, Catherine Heath, Peter Jenkins, Graeme Lumsden, Peter C.C. Fong, Ian Pedley, Graham Temple, Emilda Thompson, Nikhil Babu Oommen, Tamas Hickish, David Olmos, Robert Jones, Vasilios Karavasilis, D. Bloomfield, and L Rhoda Molife

Subjects

Male, Oncology, Cancer Research, medicine.medical_specialty, Indoles, Nausea, Afatinib, law.invention, Lethargy, chemistry.chemical_compound, Randomized controlled trial, law, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, medicine, Clinical endpoint, Humans, Neoplasm Metastasis, Adverse effect, Aged, Neoplasm Staging, Aged, 80 and over, business.industry, General Medicine, Middle Aged, Prostatic Neoplasms, Castration-Resistant, Treatment Outcome, chemistry, Quinazolines, Vomiting, Nintedanib, Neoplasm Grading, medicine.symptom, business, medicine.drug

Abstract

ABSTRACT Aims: The aim of this article was to evaluate afatinib (BIBW 2992), an ErbB family blocker, and nintedanib (BIBF 1120), a triple angiokinase inhibitor, in castration-resistant prostate cancer patients. Patients & methods: Patients were randomized to receive nintedanib (250 mg twice daily), afatinib (40 mg once daily [q.d.]), or alternating sequential 7-day nintedanib (250 mg twice daily) and afatinib (70 mg q.d. [Combi70]), which was reduced to 40 mg q.d. (Combi40) due to adverse events. The primary end point was progression-free rate at 12 weeks. Results: Of the 85 patients treated 46, 20, 16 and three received nintedanib, afatinib, Combi40 and Combi70, respectively. At 12 weeks, the progression-free rate was 26% (seven out of 27 patients) for nintedanib, and 0% for afatinib and Combi40 groups. Two patients had a ≥50% decline in PSA (nintedanib and the Combi40 groups). The most common drug-related adverse events were diarrhea, nausea, vomiting and lethargy. Conclusion: Nintedanib and/or afatinib demonstrated limited anti-tumor activity in unselected advanced castration-resistant prostate cancer patients.

Published

2014

8. Characterization of ERG, AR and PTEN Gene Status in Circulating Tumor Cells from Patients with Castration-Resistant Prostate Cancer

Author

Charles Jameson, Michael E. Cox, Rianne Levink, Ronald Sipkema, Joana Moreira, Emilda Thompson, Leon W.M.M. Terstappen, Nikhil Babu Oommen, Alison Reid, David Olmos, Frank A. W. Coumans, Roger A'Hern, Johann S. de Bono, Stan B. Kaye, David P. Dearnaley, Elaine Vickers, Joost F. Swennenhuis, Chris Parker, Colin Cooper, Ruth Riisnaes, Arturo Molina, Craig P. Carden, George Hawche, Gerhardt Attard, and Medical Cell Biophysics

Subjects

Male, Cancer Research, Pathology, medicine.medical_specialty, Neoplasms, Hormone-Dependent, Oncogene Proteins, Fusion, urologic and male genital diseases, TMPRSS2, Prostate cancer, chemistry.chemical_compound, Circulating tumor cell, Transcriptional Regulator ERG, Antigens, Neoplasm, Prostate, Gene Order, medicine, Humans, PTEN, In Situ Hybridization, Fluorescence, Androstenols, biology, Immunomagnetic Separation, business.industry, PTEN Phosphohydrolase, Abiraterone acetate, Prostatic Neoplasms, Epithelial Cell Adhesion Molecule, Neoplastic Cells, Circulating, medicine.disease, medicine.anatomical_structure, Oncology, chemistry, Receptors, Androgen, 2023 OA procedure, Trans-Activators, Cancer research, biology.protein, Keratins, Androstenes, Cancer biomarkers, business, Cell Adhesion Molecules, Erg

Abstract

Hormone-driven expression of the ERG oncogene after fusion with TMPRSS2 occurs in 30% to 70% of therapy-naive prostate cancers. Its relevance in castration-resistant prostate cancer (CRPC) remains controversial as ERG is not expressed in some TMPRSS2-ERG androgen-independent xenograft models. However, unlike these models, CRPC patients have an increasing prostate-specific antigen, indicating active androgen receptor signaling. Here, we collected blood every month from 89 patients (54 chemotherapy-naive patients and 35 docetaxel-treated patients) treated in phase I/phase II clinical trials of an orally available, highly specific CYP17 inhibitor, abiraterone acetate, that ablates the synthesis of androgens and estrogens that drive TMPRSS2-ERG fusions. We isolated circulating tumor cells (CTC) by anti–epithelial cell adhesion molecule immunomagnetic selection followed by cytokeratin and CD45 immunofluorescence and 4′,6-diamidino-2-phenylindole staining. We used multicolor fluorescence in situ hybridization to show that CRPC CTCs, metastases, and prostate tissue invariably had the same ERG gene status as therapy-naive tumors (n = 31). We then used quantitative reverse transcription–PCR to show that ERG expression was maintained in CRPC. We also observed homogeneity in ERG gene rearrangement status in CTCs (n = 48) in contrast to significant heterogeneity of AR copy number gain and PTEN loss, suggesting that rearrangement of ERG may be an earlier event in prostate carcinogenesis. We finally report a significant association between ERG rearrangements in therapy-naive tumors, CRPCs, and CTCs and magnitude of prostate-specific antigen decline (P = 0.007) in CRPC patients treated with abiraterone acetate. These data confirm that CTCs are malignant in origin and indicate that hormone-regulated expression of ERG persists in CRPC. [Cancer Res 2009;69(7):2912–8]

Published

2009

9. Clinical and biochemical consequences of CYP17A1 inhibition with abiraterone given with and without exogenous glucocorticoids in castrate men with advanced prostate cancer

Author

Emilda Thompson, Gerhardt Attard, Amy Mulick Cassidy, Wiebke Arlt, Mitch Dowsett, Alison Reid, Elizabeth Folkerd, Johann S. de Bono, Beverly A. Hughes, Richard J. Auchus, and Nikhil Babu Oommen

Subjects

Male, medicine.medical_specialty, Antineoplastic Agents, Hormonal, medicine.drug_class, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Context (language use), Pharmacology, Biochemistry, Models, Biological, Biomarkers, Pharmacological, Prostate cancer, chemistry.chemical_compound, Endocrinology, Internal medicine, Antineoplastic Combined Chemotherapy Protocols, Medicine, Humans, CYP17A1 Inhibitor, Enzyme Inhibitors, Glucocorticoids, Dexamethasone, Androstenols, business.industry, Biochemistry (medical), Carcinoma, Abiraterone acetate, Prostatic Neoplasms, Steroid 17-alpha-Hydroxylase, medicine.disease, Eplerenone, Treatment Outcome, chemistry, Mineralocorticoid, CYP17A1, Chemotherapy, Adjuvant, Disease Progression, Androstenes, business, Orchiectomy, Biomarkers, medicine.drug

Abstract

Abiraterone acetate is a small-molecule cytochrome P450 17A1 (CYP17A1) inhibitor that is active in castration-resistant prostate cancer.Our objective was to determine the impact of abiraterone with and without dexamethasone treatment on in vivo steroidogenesis.We treated 42 castrate, castration-resistant prostate cancer patients with continuous, daily abiraterone acetate and prospectively collected blood and urine before and during abiraterone treatment and after addition of dexamethasone 0.5 mg daily.Treatment with single-agent abiraterone acetate was associated with accumulation of steroids with mineralocorticoid properties upstream of CYP17A1. This resulted in side effects, including hypertension, hypokalemia, and fluid overload, in 38 of 42 patients that were generally treated effectively with eplerenone. Importantly, serum and urinary androgens were suppressed by more than 90% from baseline. Urinary metabolites of 17-hydroxypregnenolone and 17-hydroxyprogesterone downstream of 17α-hydroxylase remained unchanged. However, 3α5α-17-hydroxypregnanolone, which can be converted via the backdoor pathway toward 5α-dihydrotestosterone, increased significantly and correlated with levels of the major 5α-dihydrotestosterone metabolite androsterone. In contrast, urinary metabolites of 11-deoxycortisol and active glucocorticoids declined significantly. Addition of dexamethasone to abiraterone acetate significantly suppressed ACTH and endogenous steroids, including 3α5α-17-hydroxypregnanolone.CYP17A1 inhibition with abiraterone acetate is characterized by significant suppression of androgen and cortisol synthesis. The latter is associated with a rise in ACTH that causes raised mineralocorticoids, leading to side effects and incomplete 17α-hydroxylase inhibition. Concomitant inhibition of 17,20-lyase results in diversion of 17-hydroxyprogesterone metabolites toward androgen synthesis via the backdoor pathway. Addition of dexamethasone reverses toxicity and could further suppress androgens by preventing a rise in substrates of backdoor androgen synthesis.

Published

2011

10. Significant and Sustained Antitumor Activity in Post-Docetaxel, Castration-Resistant Prostate Cancer With the CYP17 Inhibitor Abiraterone Acetate

Author

Nikhil Babu Oommen, Charles J. Ryan, David Olmos, Gloria Lee, Joanne Hunt, Daniel C. Danila, David P. Dearnaley, Arturo Molina, Gerhardt Attard, Leon W.M.M. Terstappen, Thian Kheoh, Howard I. Scher, Christina Messiou, L Rhoda Molife, Eric J. Small, Peter C.C. Fong, Johann S. de Bono, Chris Parker, Joost F. Swennenhuis, Alison Reid, and Medical Cell Biophysics

Subjects

Male, Cancer Research, medicine.medical_specialty, medicine.drug_class, Urology, Antineoplastic Agents, Docetaxel, Antiandrogen, METIS-269463, Prostate cancer, chemistry.chemical_compound, Original Reports, medicine, Humans, CYP17A1 Inhibitor, Aged, Aged, 80 and over, Gynecology, Androstenols, business.industry, Abiraterone acetate, Prostatic Neoplasms, Steroid 17-alpha-Hydroxylase, Androgen Antagonists, Middle Aged, Prostate-Specific Antigen, medicine.disease, Prostate-specific antigen, Oncology, Tolerability, chemistry, Response Evaluation Criteria in Solid Tumors, Androstenes, Taxoids, business, Orchiectomy, medicine.drug

Abstract

Purpose The principal objective of this trial was to evaluate the antitumor activity of abiraterone acetate, an oral, specific, irreversible inhibitor of CYP17 in docetaxel-treated patients with castration-resistant prostate cancer (CRPC). Patients and Methods In this multicenter, two-stage, phase II study, abiraterone acetate 1,000 mg was administered once daily continuously. The primary end point was achievement of a prostate-specific antigen (PSA) decline of ≥ 50% in at least seven of 35 patients. Per an attained phase II design, more than 35 patients could be enrolled if the primary end point was met. Secondary objectives included: PSA declines of ≥ 30% and ≥ 90%; rate of RECIST (Response Evaluation Criteria in Solid Tumors) responses and duration on study; time to PSA progression; safety and tolerability; and circulating tumor cell (CTC) enumeration. Results Docetaxel-treated patients with CRPC (N = 47) were enrolled. PSA declines of ≥ 30%, ≥ 50% and ≥ 90% were seen in 68% (32 of 47), 51% (24 of 47), and 15% (seven of 47) of patients, respectively. Partial responses (by RECIST) were reported in eight (27%) of 30 patients with measurable disease. Median time to PSA progression was 169 days (95% CI, 113 to 281 days). The median number of weeks on study was 24, and 12 (25.5%) of 47 patients remained on study ≥ 48 weeks. CTCs were enumerated in 34 patients; 27 (79%) of 34 patients had at least five CTCs at baseline. Eleven (41%) of 27 patients had a decline from at least five to less than 5 CTCs, and 18 (67%) of 27 had a ≥ 30% decline in CTCs after starting treatment with abiraterone acetate. Abiraterone acetate was well tolerated. Conclusion Abiraterone acetate has significant antitumor activity in post-docetaxel patients with CRPC. Randomized, phase III trials of abiraterone acetate are underway to define the future role of this agent.

Published

2010

11. Selective inhibition of CYP17 with abiraterone acetate is highly active in the treatment of castration-resistant prostate cancer

Author

Elizabeth Folkerd, David Olmos, Thian Kheoh, Stan B. Kaye, Johann S. de Bono, Arturo Molina, Mitch Dowsett, Emilda Thompson, David P. Dearnaley, Gerhardt Attard, Rajesh Sinha, G. Maier, Christina Messiou, Gloria Lee, L Rhoda Molife, Alison Reid, Roger A'Hern, Nikhil Babu Oommen, and Chris Parker

Subjects

Male, Cancer Research, medicine.medical_specialty, Galeterone, Neoplasms, Hormone-Dependent, Antineoplastic Agents, Hormonal, medicine.drug_class, Kaplan-Meier Estimate, Antiandrogen, Drug Administration Schedule, chemistry.chemical_compound, Prostate cancer, Adrenal Cortex Hormones, Internal medicine, medicine, Orteronel, Humans, Testosterone, Prospective Studies, CYP17A1 Inhibitor, Enzyme Inhibitors, Aged, Aged, 80 and over, Androstenols, business.industry, Abiraterone acetate, Prostatic Neoplasms, Steroid 17-alpha-Hydroxylase, Androgen Antagonists, Middle Aged, Prostate-Specific Antigen, medicine.disease, Prostate-specific antigen, Endocrinology, Oncology, chemistry, Drug Resistance, Neoplasm, Disease Progression, Androstenes, business

Abstract

Purpose It has been postulated that castration-resistant prostate cancer (CRPC) commonly remains hormone dependent. Abiraterone acetate is a potent, selective, and orally available inhibitor of CYP17, the key enzyme in androgen and estrogen biosynthesis. Patients and Methods This was a phase I/II study of abiraterone acetate in castrate, chemotherapy-naive CRPC patients (n = 54) with phase II expansion at 1,000 mg (n = 42) using a two-stage design to reject the null hypothesis if more than seven patients had a prostate-specific antigen (PSA) decline of ≥ 50% (null hypothesis = 0.1; alternative hypothesis = 0.3; α = .05; β = .14). Computed tomography scans every 12 weeks and circulating tumor cell (CTC) enumeration were performed. Prospective reversal of resistance at progression by adding dexamethasone 0.5 mg/d to suppress adrenocorticotropic hormone and upstream steroids was pursued. Results A decline in PSA of ≥ 50% was observed in 28 (67%) of 42 phase II patients, and declines of ≥ 90% were observed in eight (19%) of 42 patients. Independent radiologic evaluation reported partial responses (Response Evaluation Criteria in Solid Tumors) in nine (37.5%) of 24 phase II patients with measurable disease. Decreases in CTC counts were also documented. The median time to PSA progression (TTPP) on abiraterone acetate alone for all phase II patients was 225 days (95% CI, 162 to 287 days). Exploratory analyses were performed on all 54 phase I/II patients; the addition of dexamethasone at disease progression reversed resistance in 33% of patients regardless of prior treatment with dexamethasone, and pretreatment serum androgen and estradiol levels were associated with a probability of ≥ 50% PSA decline and TTPP on abiraterone acetate and dexamethasone. Conclusion CYP17 blockade by abiraterone acetate results in declines in PSA and CTC counts and radiologic responses, confirming that CRPC commonly remains hormone driven.

Published

2009

12. Durable radiologic and clinical disease stability beyond PSA progression in patients with metastatic castration-resistant prostate cancer (mCRPC) treated with abiraterone acetate (AA)

Author

Aurelius Omlin, Nikhil Babu Oommen, David Olmos, Andrea Zivi, Joanne Hunt, Alison H.M. Reid, Gerhardt Attard, Diletta Bianchini, Elizabeth Sheridan, Emilda Thompson, Carmel Jo Pezaro, Deborah Mukherji, J. Mezynski, Johann S. de Bono, Ajit Sarvadikar, Amy Mulick Cassidy, and Shahneen Sandhu

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Abiraterone acetate, ECOG Performance Status, PSA PROGRESSION, Disease, medicine.disease, Surgery, Prostate-specific antigen, Prostate cancer, chemistry.chemical_compound, chemistry, Internal medicine, medicine, In patient, CYP17A1 Inhibitor, business

Abstract

4553 Background: AA, a potent oral CYP17A1 inhibitor is approved for treatment of mCRPC with a survival advantage of 4.9 months. In clinical practice, response evaluation remains challenging for pts with mCRPC. CTC conversion from CTC ≥ 5 to CTC < 5 with treatment predicts for improved overall survival in mCRPC. We hypothesized that pts continue to have durable disease stability beyond PSA progression on AA. Methods: Prostate Specific Antigen (PSA) responses, radiological responses and CTC conversion rates were retrospectively analysed in pts treated on AA at our institution. CTCs, PSA and imaging were obtained at predefined time points during these studies. Radiological and PSA progression were defined by standard Prostate Cancer Working Group Criteria II. Clinical progression consisted of worsening disease related pain, skeletal events or declining performance status.Pearson’s chi-squared test and the Kaplan-Meier method were used for this analysis. Results: 141 patients [ECOG Performance Status 0-2; Median Age: 69.7 (range 44.7-87.1); 85 post-docetaxel, 56 pre-docetaxel] received AA. The median duration of clinical and radiological stable disease (SD) was 16.8 months (n=55) and 5.6 months (n=75) in patients with a baseline CTCs count of ≤ 5 cells/7.5mls and ≥ 5 cells/7.5 mls respectively. In the 105 patients with documented PSA progression on AA there was a median 5.7-month delay in detecting radiological and/or clinical progression (95% CI: 4.2, 8.4; range 0.3, 35.6 months). Radiological and clinical SD of ≥ 1 year, ≥ 2 years and ≥ 3 years on AA was observed in 43/141 (30.5%), 21/141 (14.9%) and 12/141 (8.5%) respectively. Conclusions: Radiological and clinical disease stabilization beyond PSA progression is maintained in a high proportion of mCRPC patients treated with AA. Future studies should evaluate whether continued AA treatment beyond PSA and radiological progression can impact outcome.

Published

2012

13. Crossover pharmacokinetics (PK) study to assess oral administration of abiraterone acetate capsule and tablet formulations in fasted and fed states in patients with prostate cancer

Author

Nikhil Babu Oommen, Vanessa Martins, Fairooz F. Kabbinavar, D. McIntosh, Florence I. Raynaud, Craig P. Carden, Robin L. Jones, Gloria Lee, S. B. Riggs, and J.S. de Bono

Subjects

Cancer Research, business.industry, Abiraterone acetate, Area under the curve, Capsule, Pharmacology, medicine.disease, chemistry.chemical_compound, Prostate cancer, Oncology, chemistry, Pharmacokinetics, Oral administration, Medicine, In patient, Dosing, business

Abstract

5168 Background: Abiraterone acetate (A) is an oral compound with metabolites that selectively inhibit CYP 17(17OH/ 17,20 lyase), blocking adrenal androgen synthesis and exhibiting anti-tumor activity in castration resistant prostate cancer (CRPC). Methods: Patients were divided into fed or fasted groups, and treated at 1000mg/day as a single dose in either capsule or tablet formulation on day 1, then the opposite formulation one week later on day 8, and from day 15, continuous dosing of 1000mg of the tablet formulation. PK samples were taken pre-dose and 1, 2, 4, 6, 8, 24, 48 and 72 hr post dose on days 1 and 8. Statistical analysis employed a two- period crossover model, using non-compartmental analysis. Results: A was well tolerated and side effects readily managed by mineralocorticoid antagonists. Overall 31 patients were enrolled, with PK results from 19 patients presented here. Area under the curve (AUC), was not significantly different between the two formulations for either the fed (p=0.412) or th...

Published

2008