Naomi Ando scite author profile

tient without a surgeon's assistance. Tracheal intubation prior to transport was desired. However, the physician made an optimistic prediction that the patient would not choke during transport because he was not stridorous at that time. He was transported to Iida Municipal Hospital by ambulance. During transport, he felt dyspneic in the supine position and was placed in the sitting position with 5 l/min of oxygen.About 1 h later the ambulance arrived and a surgeon examined the patient. Physical examination revealed the patient had dyspnea but was making an effort to breathe deeply in the sitting position. Respiratory rate was about 20-25 breaths per minute. His neck was short and thick with no palpable mass. There was no area of ecchymosis on his posterior neck. SpO 2 was 95%-96% on 5 l/min of oxygen. Approximately 30 min after the patient's arrival, the surgeon decided to carry out CT to reevaluate the size of the hematoma before operation. During the CT scan, dyspnea developed suddenly and the patient became tachypneic. The surgeon tried tracheal intubation over and over again with an inside diameter (I.D.) 8.0-mm tracheal tube, but was unsuccessful. The surgeon gave diazepam 10 mg intravenously to the patient to sedate him for easy tracheal intubation. Then the patient became cyanosed and the SpO 2 fell below 85%. The surgeon called an anesthesiologist urgently for assistance of airway management.The anesthesiologist attempted to intubate with an I.D. 7.5-mm tracheal tube, but was also unsuccessful. Then the anesthesiologist reattempted, directing the surgeon to prepare fiberoptic intubation and emergent tracheostomy. The anesthesiologist successfully intubated blindly with an I.D. 6.0-mm tracheal tube. The patient was quickly relieved from dyspnea with no resistance to breathing. CT scan revealed no further extension of retropharyngeal hematoma and showed that the tracheal tube, which was fixed at a right oral angle at a depth of 26 cm from its end, was placed about 5.5 cm proximal from tracheal bifurcation and the most

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Abstract 1568: A2aR inhibition enhances the antitumor activity of CTLA4 blockade in mouse Pten-deficient prostate cancer

Velasco

Kura

Sako

et al. 2021

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Extracellular adenosine impairs immune function in tumors and limits the efficacy of anti-CTAL4 immune checkpoint blockade. We previously showed that adenosine 2A receptor (A2aR) blockade with AZD4635 moderately inhibited tumor growth, in part by improving antigen presentation and cytotoxic T cell (CTL) activity in mouse Pten-deficient prostate cancer. Here, we continue to investigate the antitumor activity of AZD4635 and its effects when combined with CTLA4 blockade (aCTLA4) in preclinical models of Pten-deficient prostate cancer. Prostate tumors from Pten conditional knockout (KO) mice treated with aCTLA4 for five days had increased expression levels of adenosinergic genes. Furthermore, gene expression, flow cytometric and IHC analyses showed increased T regulatory cell differentiation and accumulation that was offset with the addition of AZD4635. Moreover, expression levels of genes associated with Th 1 cell differentiation and T cell-mediated cytotoxicity were increased in AZD4635/aCTLA4 treated tumors. Adding AZD4635 to a four-week regimen of aCTLA4 therapy improved the antitumor response by two-fold in an early-stage intervention model of Pten-deficient prostate cancer. Androgen deprivation (AD) has the potential to promote T cell infiltration in prostate tumors and using the AZD4635/aCTLA4 treatment combination as neoadjuvant therapy to AD via surgical castration led to a greater antitumor response. The antitumor activity of this treatment combination was further examined and confirmed in a subcutaneous syngeneic genome-derived allograft model using tumor-bearing conditional Pten-deficient knockout mice grafted with Pten-deficient CRPC tumor fragments. In a Pten/Trp53 conditional double knockout (DKO) mouse model of advanced prostate cancer, the AZD4635/aCTLA4 treatment combination did not improve overall survival rates. However, when AZD4635/aCTLA4 was used as neoadjuvant therapy to AR inhibition with the anti-androgen apalutamide, it improved median survival time from 21 days in monotherapy treated mice to 34 days in AZD4635/aCTLA4 treated mice. These results provide preclinical evidence to support the rational combination of A2AR blockade with AZD4635 and aCTLA4 immune checkpoint inhibition for PTEN-deficient prostate cancer. Citation Format: Marco A. De Velasco, Yurie Kura, Noriko Sako, Naomi Ando, Kazuko Sakai, Alwin Schuller, Kazutoshi Fujita, Masahiro Nozawa, Kazuhiro Yoshimura, Kazuto Nishio, Hirotsugu Uemura. A2aR inhibition enhances the antitumor activity of CTLA4 blockade in mouse Pten-deficient prostate cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 1568.

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Context-Specific Efficacy of Apalutamide Therapy in Preclinical Models of Pten-Deficient Prostate Cancer

Velasco

Kura

Ando

et al. 2021

Cancers

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Significant improvements with apalutamide, a nonsteroidal antiandrogen used to treat patients suffering from advanced prostate cancer (PCa), have prompted evaluation for additional indications and therapeutic development with other agents; however, persistent androgen receptor (AR) signaling remains problematic. We used autochthonous mouse models of Pten-deficient PCa to examine the context-specific antitumor activity of apalutamide and profile its molecular responses. Overall, apalutamide showed potent antitumor activity in both early-stage and late-stage models of castration-naïve prostate cancer (CNPC). Molecular profiling by Western blot and immunohistochemistry associated persistent surviving cancer cells with upregulated AKT signaling. While apalutamide was ineffective in an early-stage model of castration-resistant prostate cancer (CRPC), it tended to prolong survival in late-stage CRPC. Molecular features associated with surviving cancer cells in CRPC included upregulated aberrant-AR, and phosphorylated S6 and proline-rich Akt substrate of 40 kDa (PRAS40). Strong synergy was observed with the pan-AKT inhibitor GSK690693 and apalutamide in vitro against the CNPC- and CRPC-derived cell lines and tended to improve the antitumor responses in CNPC but not CRPC in vivo. Upregulation of signal transducer and activator of transcription 3 (STAT3) and proviral insertion in murine-1 (PIM-1) were associated with combined apalutamide/GSK690693. Our findings show that apalutamide can attenuate Pten-deficient PCa in a context-specific manner and provides data that can be used to further study and, possibly, develop additional combinations with apalutamide.

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Naomi Ando

Possible clinical cure of metastatic breast cancer: lessons from our 30-year experience with oligometastatic breast cancer patients and literature review

Conditional PTEN-deficient Mice as a Prostate Cancer Chemoprevention Model

Acute airway obstruction secondary to retropharyngeal hematoma

Abstract 1568: A2aR inhibition enhances the antitumor activity of CTLA4 blockade in mouse Pten-deficient prostate cancer

Context-Specific Efficacy of Apalutamide Therapy in Preclinical Models of Pten-Deficient Prostate Cancer

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