Chen Hsing Su scite author profile

Glioblastoma multiforme (GBM), the most prevalent and malignant form of a primary brain tumour, is resistant to chemotherapy. In this study, we concurrently loaded three chemotherapeutic agents [bis-chloroethylnitrosourea, irinotecan, and cisplatin; BIC] into 50:50 poly[(d,l)-lactide-co-glycolide] (PLGA) nanofibres and an antiangiogenic agent (combretastatin) into 75:25 PLGA nanofibres [BIC and combretastatin (BICC)/PLGA]. The BICC/PLGA nanofibrous membranes were surgically implanted onto the brain surfaces of healthy rats for conducting pharmacodynamic studies and onto C6 glioma-bearing rats for estimating the therapeutic efficacy.The chemotherapeutic agents were rapidly released from the 50:50 PLGA nanofibres after implantation, followed by the release of combretastatin (approximately 2 weeks later) from the 75:25 PLGA nanofibres. All drug concentrations remained higher in brain tissues than in the blood for more than 8 weeks. The experimental results, including attenuated malignancy, retarded tumour growth, and prolonged survival in tumour-bearing rats, demonstrated the efficacy of the BICC/PLGA nanofibrous membranes. Furthermore, the efficacy of BIC/PLGA and BICC/PLGA nanofibrous membranes was compared. The BICC/PLGA nanofibrous membranes more efficiently retarded the tumour growth and attenuated the malignancy of C6 glioma-bearing rats. Moreover, the addition of combretastatin did not significantly change the drug release behaviour of the BIC/PLGA nanofibrous membranes. The present advanced and novel interstitial chemotherapy and targeted treatment provide a potential strategy and regimen for treating GBM.

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Biodegradable Vancomycin-eluting Poly[(d,l)-lactide-co-glycolide] Nanofibres for the Treatment of Postoperative Central Nervous System Infection

Tseng

Wang

et al. 2015

Sci Rep

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The incidence of postoperative central nervous system infection (PCNSI) is higher than 5%–7%. Successful management of PCNSI requires a combined therapy of surgical debridement and long-term antibiotic treatment. In this study, Duraform soaked in a prepared bacterial solution was placed on the brain surface of rats to induce PCNSI. Virgin poly[(d,l)-lactide-co-glycolide] (PLGA) nanofibrous membranes (vehicle-control group) and vancomycin-eluting PLGA membranes (vancomycin-nanofibres group) were implanted. The wound conditions were observed and serial brain MRI and pathology examinations were performed regularly. PCNSI was consistently induced in a single, simple step. In the vehicle-control group, most rats died within 1 week, and the survival rate was low (odds ratio = 0.0357, 95% confidence interval = 0.0057–0.2254). The wounds and affected cerebral tissues necrosed with purulence and increased in mass from the resulting PCNSI volumes. Initially, the mean PCNSI volumes showed no significant difference between the two groups. The PCNSI volume in the rats in the vancomycin-nanofibres group significantly decreased (P < 0.01), and the wound appearance was excellent. Pathologic examinations revealed that the necrosis and leukocyte infiltration area decreased considerably. The experimental results suggest that vancomycin-eluting PLGA nanofibres are favourable candidates for treating PCNSI after surgical debridement.

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Comparison of the Therapeutic Effect of Teriparatide With That of Combined Vertebroplasty With Antiresorptive Agents for the Treatment of New-onset Adjacent Vertebral Compression Fracture After Percutaneous Vertebroplasty

Yang

et al. 2013

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Research and design of the smart field digital surgery system for emergency medical rescue

Zhao

Meng

Tan

et al. 2020

J. Phys.: Conf. Ser.

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Natural disasters happened frequently around the world resulted in vast injured persons. The injured needs immediate on-site treatment to either save life or decrease mortality rate. The field surgery system, constructing a complete field on-site treatment force, is the fundamental to provide immediate medical care for the injured. In this paper, a smart field digital surgery system, integration with remote consultation system, medical information system and self-support system, was constructed to satisfy the demand of fast surgical treatment for emergency medical rescue in complex regional environment. The field digital surgical treatment technology platform for the injured in emergency was established based on taking the control of the cleanliness of the surgical cabin, designing a remote consultation system, developing the medical information system, as well as designing miniaturization magnet of field magnetic resonance imaging (MRI) system, which significantly improved the surgical treatment capability of the field digital surgery system.

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Chen Hsing Su

Concurrent delivery of carmustine, irinotecan, and cisplatin to the cerebral cavity using biodegradable nanofibers: In vitro and in vivo studies

Advanced interstitial chemotherapy combined with targeted treatment of malignant glioma in rats by using drug-loaded nanofibrous membranes

Biodegradable Vancomycin-eluting Poly[(d,l)-lactide-co-glycolide] Nanofibres for the Treatment of Postoperative Central Nervous System Infection

Comparison of the Therapeutic Effect of Teriparatide With That of Combined Vertebroplasty With Antiresorptive Agents for the Treatment of New-onset Adjacent Vertebral Compression Fracture After Percutaneous Vertebroplasty

Research and design of the smart field digital surgery system for emergency medical rescue

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