Masamichi Nishihara

Publications (7)24.73 Total impact

• Article: A facile preparation method of a PFC-containing nano-sized emulsion for theranostics of solid tumors.

  Kouichi Shiraishi, Reiko Endoh, Hiroshi Furuhata, Masamichi Nishihara, Ryo Suzuki, Kazuo Maruyama, Yusuke Oda, Jun-ichiro Jo, Yasuhiko Tabata, Jun Yamamoto, Masayuki Yokoyama
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  ABSTRACT: Theranostics means a therapy conducted in a diagnosis-guided manner. For theranostics of solid tumors by means of ultrasound, we designed a nano-sized emulsion containing perfluoropentane (PFC5). This emulsion can be delivered into tumor tissues through the tumor vasculatures owing to its nano-size, and the emulsion is transformed into a micron-sized bubble upon sonication through phase transition of PFC5. The micron-sized bubbles can more efficiently absorb ultrasonic energy for better diagnostic images and can exhibit more efficient ultrasound-driven therapeutic effects than nano-sized bubbles. For more efficient tumor delivery, smaller size is preferable, yet the preparation of a smaller emulsion is technically more difficult. In this paper, we used a bath-type sonicator to successfully obtain small PFC5-containing emulsions in a diameter of ca. 200nm. Additionally, we prepared these small emulsions at 40°C, which is above the boiling temperature of PFC5. Accordingly, we succeeded in obtaining very small nano-emulsions for theranostics through a very facile method.
  International journal of pharmaceutics 12/2011; 421(2):379-87. · 2.96 Impact Factor
• Article: The combretastatin derivative (Cderiv), a vascular disrupting agent, enables polymeric nanomicelles to accumulate in microtumors.

  Katsuyoshi Hori, Masamichi Nishihara, Kouichi Shiraishi, Masayuki Yokoyama
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  ABSTRACT: A previous study found almost no leakage of polymeric nanomicelles from vessels in microtumors. If such vessels become leaky, sufficient nanomedicines may be delivered to microtumors and large tumors. To create leaky vessels, a combretastatin derivative (Cderiv), a vascular disrupting agent, was used. Via vital microscopy with fluorescein isothiocyanate (FITC)-labeled nanomicelles, the effect of Cderiv pretreatment on changes in micelle extravasation was investigated. Whether such treatment would prolong microtumor retention of micelles was also examined. FITC-albumin was used for comparison. The degree of extravasation from intact vessels in microtumors (rat sarcoma LY80) was extremely low and comparable to that from normal vessels. Cderiv pretreatment (1 or 3 days before administration of FITC-labeled compounds) markedly enhanced extravasation of such nanomicelles and albumin from vessels that survived treatment and had restored blood flow. A high concentration of extravasated macromolecules remained even 24 h later in tissue areas whose microcirculatory function had collapsed. Tumors receiving 10 Gy irradiation 3 days before the macromolecules evidenced gradual removal of extravasated macromolecules, which did not accumulate in those areas, despite extravasation from tumor vessels. Our results strongly suggest that pretreatment with Cderiv is quite effective for maintaining microtumor concentrations of nanomicelles and albumin associated with anticancer or diagnostic drugs.
  Journal of Pharmaceutical Sciences 06/2010; 99(6):2914-25. · 3.06 Impact Factor
• Article: Convection-enhanced delivery of a synthetic retinoid Am80, loaded into polymeric micelles, prolongs the survival of rats bearing intracranial glioblastoma xenografts.

  Michiko Yokosawa, Yukihiko Sonoda, Shin-ichiro Sugiyama, Ryuta Saito, Yoji Yamashita, Masamichi Nishihara, Taku Satoh, Toshihiro Kumabe, Masayuki Yokoyama, Teiji Tominaga
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  ABSTRACT: Prognosis for the patients with glioblastoma, the most common malignant brain tumor, remains dismal. A major barrier to progress in treatment of glioblastoma is the relative inaccessibility of tumors to chemotherapeutic agents. Convection-enhanced delivery (CED) is a direct intracranial drug infusion technique to deliver chemotherapeutic agents to the central nervous system, circumventing the blood-brain barrier and reducing systemic side effects. CED can provide wider distribution of infused agents compared to simple diffusion. We have reported that CED of a polymeric micelle carrier system could yield a clinically relevant distribution of encapsulated agents in the rat brain. Our aim was to evaluate the efficacy of CED of polymeric micellar Am80, a synthetic agonist with high affinity to nuclear retinoic acid receptor, in a rat model of glioblastoma xenografts. We also used systemic administration of temozolomide, a DNA-alkylating agent, which has been established as the standard of care for newly diagnosed malignant glioma. U87MG human glioma cells were injected into the cerebral hemisphere of nude rats. Rats bearing U87MG xenografts were treated with CED of micellar Am80 (2.4 mg/m(2)) on day 7 after tumor implantation. Temozolomide (200 mg/m(2)/day) was intraperitoneally administered daily for 5 days, starting on day 7 after tumor implantation. CED of micellar Am80 provided significantly longer survival than the control. The combination of CED of micellar Am80 and systemic administration of temozolomide provided significantly longer survival than single treatment. In conclusion, temozolomide combined with CED of micellar Am80 may be a promising method for the treatment of malignant gliomas.
  The Tohoku Journal of Experimental Medicine 01/2010; 221(4):257-64. · 1.24 Impact Factor
• Article: Vital microscopic analysis of polymeric micelle extravasation from tumor vessels: macromolecular delivery according to tumor vascular growth stage.

  Katsuyoshi Hori, Masamichi Nishihara, Masayuki Yokoyama
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  ABSTRACT: Particles larger than a specific size have been thought to extravasate from tumor vessels but not from normal vessels. Therefore, various nanoparticles incorporating anticancer drugs have been developed to realize selective drug delivery to solid tumors. However, it is not yet clear whether nanoparticles extravasate readily from all tumor vessels including vessels of microtumors. To answer this question, we synthesized new polymeric micelles labeled with fluorescein isothiocyanate (FITC) and injected them into the tail vein of rats with implanted skinfold transparent chambers. We also analyzed, by means of time-lapse vital microscopy with image analysis, extravasation of FITC micelles from tumor vessels at different stages of growth of Yoshida ascites sarcoma LY80. Polymeric micelles readily leaked from vessels at the interface between normal and tumor tissues and those at the interface between tumor tissues and necrotic areas. The micelles showed negligible extravasation, however, from the vascular network of microtumors less than 1 mm in diameter and did not accumulate in the microtumor. Our results suggest that we must develop a novel therapeutic strategy that can deliver sufficient nanomedicine to microtumors.
  Journal of Pharmaceutical Sciences 07/2009; 99(1):549-62. · 3.06 Impact Factor
• Article: Histological study on side effects and tumor targeting of a block copolymer micelle on rats.

  Takanori Kawaguchi, Takashi Honda, Masamichi Nishihara, Tatsuhiro Yamamoto, Masayuki Yokoyama
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  ABSTRACT: Histological examinations were performed with polymeric micelle-injected rats for evaluations of possible toxicities of polymeric micelle carriers. Weight of major organs as well as body weight of rats was measured after multiple intravenous injections of polymeric micelles forming from poly(ethylene glycol)-b-poly(aspartate) block copolymer. No pathological toxic side effects were observed at two different doses, followed only by activation of the mononuclear phagocyte system (MPS) in the spleen, liver, lung, bone marrow, and lymph node. This finding confirms the absence of--or the very low level of--in vivo toxicity of the polymeric micelle carriers that were reported in previous animal experiments and clinical results. Then, immunohistochemical analyses with a biotinylated polymeric micelle confirmed specific accumulation of the micelle in the MPS. The immunohistochemical analyses also revealed, first, very rapid and specific accumulation of the micelle in the vasculatures of tumor capsule of rat ascites hepatoma AH109A, and second, the micelle's scanty infiltration into tumor parenchyma. This finding suggests a unique tumor-accumulation mechanism that is very different from simple EPR effect-based tumor targeting.
  Journal of Controlled Release 03/2009; 136(3):240-6. · 5.73 Impact Factor
• Article: Therapeutic efficacy of a polymeric micellar doxorubicin infused by convection-enhanced delivery against intracranial 9L brain tumor models.

  Tomoo Inoue, Yoji Yamashita, Masamichi Nishihara, Shinichiro Sugiyama, Yukihiko Sonoda, Toshihiro Kumabe, Masayuki Yokoyama, Teiji Tominaga
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  ABSTRACT: Convection-enhanced delivery (CED) with various drug carrier systems has recently emerged as a novel chemotherapeutic method to overcome the problems of current chemotherapies against brain tumors. Polymeric micelle systems have exhibited dramatically higher in vivo antitumor activity in systemic administration. This study investigated the effectiveness of CED with polymeric micellar doxorubicin (DOX) in a 9L syngeneic rat model. Distribution, toxicity, and efficacy of free, liposomal, and micellar DOX infused by CED were evaluated. Micellar DOX achieved much wider distribution in brain tumor tissue and surrounding normal brain tissue than free DOX. Tissue toxicity increased at higher doses, but rats treated with micellar DOX showed no abnormal neurological symptoms at any dose tested (0.1-1.0 mg/ml). Micellar DOX infused by CED resulted in prolonged median survival (36 days) compared with free DOX (19.6 days; p = 0.0173) and liposomal DOX (16.6 days; p = 0.0007) at the same dose (0.2 mg/ml). This study indicates the potential of CED with the polymeric micelle drug carrier system for the treatment of brain tumors.
  Neuro-Oncology 09/2008; 11(2):151-7. · 5.72 Impact Factor
• Article: Particle size-dependent triggering of accelerated blood clearance phenomenon.

  Hiroyuki Koide, Tomohiro Asai, Kentaro Hatanaka, Takeo Urakami, Takayuki Ishii, Eriya Kenjo, Masamichi Nishihara, Masayuki Yokoyama, Tatsuhiro Ishida, Hiroshi Kiwada, Naoto Oku
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  ABSTRACT: A repeat-injection of polyethylene glycol-modified liposomes (PEGylated liposomes) causes a rapid clearance of them from the blood circulation in certain cases that is referred to as the accelerated blood clearance (ABC) phenomenon. In the present study, we examined whether polymeric micelles trigger ABC phenomenon or not. As a preconditioning treatment, polymeric micelles (9.7, 31.5, or 50.2 nm in diameter) or PEGylated liposomes (119, 261 or 795 nm) were preadministered into BALB/c mice. Three days after the preadministration [(3)H]-labeled PEGylated liposomes (127 nm) as a test dose were administered into the mice to determine the biodistribution of PEGylated liposomes. At 24h after the test dose was given, accelerated clearance of PEGylated liposomes from the bloodstream and significant accumulation in the liver was observed in the mice preadministered with 50.2-795 nm nanoassemblies (PEGylated liposomes or polymeric micelles). In contrast, such phenomenon was not observed with 9.7-31.5 nm polymeric micelles. The enhanced blood clearance and hepatic uptake of the test dose (ABC phenomenon) were related to the size of triggering nanoassemblies. Our study provides important information for developing both drug and gene delivery systems by means of nanocarriers.
  International journal of pharmaceutics 07/2008; 362(1-2):197-200. · 2.96 Impact Factor