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2. Corrigendum to 'Pulsed-wave low-dose ultrasound hyperthermia selectively enhances nanodrug delivery and improves antitumor efficacy for brain metastasis of breast cancer' [Ultrason. Sonochem. 36 (2017) 198–205]

Author

Win-Li Lin, Chi-Feng Chiang, Sheng-Kai Wu, Houng-Chi Liou, Wen-Mei Fu, and Yu-Hone Hsu

Subjects
Hyperthermia, Acoustics and Ultrasonics, business.industry, Organic Chemistry, Ultrasound, Low dose, Acoustics. Sound, QC221-246, medicine.disease, Inorganic Chemistry, Chemistry, Text mining, Breast cancer, medicine, Cancer research, Chemical Engineering (miscellaneous), Environmental Chemistry, Radiology, Nuclear Medicine and imaging, Pulsed wave, business, QD1-999, Brain metastasis
Published
2021

3. Combination Therapy of Pulsed-Wave Ultrasound Hyperthermia and Immunostimulant OK-432 Enhances Systemic Antitumor Immunity for Cancer Treatment

Author

Shi-Chuen Miaw, Yu-Hone Hsu, Yan-Zhang Lee, Win-Li Lin, Chih-Chun Liu, Ting-Chuan Li, and Chi-Feng Chiang

Subjects
Hyperthermia, Cancer Research, Combination therapy, medicine.drug_class, Colorectal cancer, T cell, medicine.disease_cause, Immunostimulant, 030218 nuclear medicine & medical imaging, Metastasis, Picibanil, 03 medical and health sciences, Mice, 0302 clinical medicine, Immune system, Adjuvants, Immunologic, Cell Line, Tumor, medicine, Animals, Radiology, Nuclear Medicine and imaging, Cell Proliferation, Radiation, business.industry, Hyperthermia, Induced, medicine.disease, Combined Modality Therapy, medicine.anatomical_structure, Oncology, Ultrasonic Waves, 030220 oncology & carcinogenesis, Cancer research, business, Carcinogenesis
Abstract

Purpose In this study, we hypothesized that systemic antitumor immunity might be enhanced by combining pulsed-wave ultrasound hyperthermia (pUSHT) with OK-432 and that the induced antitumor immunity could confer protection against tumorigenesis. These hypotheses were tested in bilateral and rechallenged tumor models. Methods and Materials Bilateral and rechallenged tumor models were applied in the studies. In the bilateral tumor model, BALB/c mice were inoculated in both flanks with CT26-luc tumor cells. The tumors in the right flank were treated with 4 courses of pUSHT with or without OK-432. In the rechallenged tumor model, tumor cells were implanted into the right flank. Once formed, the tumors were treated with pUSHT with OK-432, followed by surgical resection. New tumor cells were then implanted into the contralateral flank. The antitumor response was evaluated via infiltrated immune cells and the severity of necrosis/apoptosis in tumors. Results In the bilateral tumor model, the tumor growth rate and growth activity of both treated (100% reduction) and untreated tumors (90.5% reduction) were significantly inhibited with the combination treatment compared with the sham control group, and the systemic antitumor effect was prolonged. The survival rate was significantly enhanced (sham control, 8 days; OK plus pUSHT, >20 days). IFNγ+ CD4 (treated tumor, 8.6-fold; untreated tumor, 4-fold), IFNγ+ CD8 (treated tumor, 6.7-fold; untreated tumor, 2.6-fold), and T cell and NK cell (treated tumor, 4-fold; untreated tumor, 2.5-fold) infiltration was increased in the combination group compared with the control group. In the rechallenged tumor model, new tumors failed to form with the combination treatment. Conclusion This experimental study combining pUSHT and OK-432 explored a new therapeutic strategy for controlling colon cancer metastasis. The results show that the combination treatment may produce an effective antitumor immune response.

Published
2019

5. Targeting microbubbles-carrying TGFβ1 inhibitor combined with ultrasound sonication induce BBB/BTB disruption to enhance nanomedicine treatment for brain tumors

Author

Chi-Feng Chiang, Wen-Yuan Hsieh, Sheng-Kai Wu, Win-Li Lin, Yung-Chu Chen, and Li-Fang Chen

Subjects
Male, medicine.medical_specialty, Endothelium, medicine.medical_treatment, Sonication, Brain tumor, Pharmaceutical Science, Vascular permeability, Mice, SCID, Capillary Permeability, Rats, Sprague-Dawley, Transforming Growth Factor beta1, Mice, Drug Delivery Systems, medicine, Animals, Pyrroles, Doxorubicin, Mice, Inbred ICR, Chemotherapy, Microbubbles, Brain Neoplasms, Chemistry, medicine.disease, Rats, Surgery, Nanomedicine, medicine.anatomical_structure, Blood-Brain Barrier, Cancer research, Pyrazoles, medicine.drug
Abstract

The clinical application of chemotherapy for brain cancer tumors remains a challenge due to difficulties in the transport of therapeutic agents across the blood–brain barrier/blood–tumor barrier (BBB/BTB). In this study, we developed des-octanoyl ghrelin-conjugated microbubbles (GMB) loaded with TGFβ1 inhibitor (LY364947) (GMBL) to induce BBB/BTB disruption for ultrasound (US) sonication with GMBL. The in-vitro stability study showed that GMB was pretty stable over one month. The in-vivo study showed that the accumulation of superparamagnetic iron oxide nanoparticles (SPION) in the sonicated tumor was significantly higher for focused US sonication in the presence of GMBL, indicating that GMBL/US can locally disrupt BBB/BTB to promote vascular permeability of nanoparticles. In addition, the combination of folate-conjugated polymersomal doxorubicin (FPD) and GMBL/US (FPD + GMBL/US) achieved the best anti-glioma effect and significant improvement in the overall survival time for brain tumor-bearing mice. When combined with focused US, GMBL facilitated local BBB/BTB disruption and simultaneously released LY364947 to decrease the pericyte coverage of the endothelium at the targeted brain tumor sites, resulting in enhanced accumulation and antitumor activity of FPD. The overall results indicate that GMBL/US owns a great potential for non-invasive targeting delivery of nanomedicine across the BBB to treat central nervous system (CNS) diseases.

Published
2015

6. Polymersomes conjugated with des-octanoyl ghrelin and folate as a BBB-penetrating cancer cell-targeting delivery system

Author

Li-Fang Chen, Yung-Chu Chen, Wen-Yuan Hsieh, Win-Li Lin, Chi-Feng Chiang, and Po-Chin Liang

Subjects
Male, medicine.medical_treatment, Biophysics, Brain tumor, Mice, Nude, Bioengineering, Pharmacology, Blood–brain barrier, Polyethylene Glycols, Biomaterials, Mice, Drug Delivery Systems, Folic Acid, Cell Line, Tumor, medicine, Animals, Doxorubicin, Mice, Inbred BALB C, Chemotherapy, business.industry, Glioma, medicine.disease, Ghrelin, Rats, medicine.anatomical_structure, Blood-Brain Barrier, Mechanics of Materials, Nanoparticles for drug delivery to the brain, Cancer cell, Drug delivery, Ceramics and Composites, Nanocarriers, business, medicine.drug
Abstract

Chemotherapy for brain cancer tumors remains a big challenge for clinical medicine due to the inability to transport sufficient drug across the blood-brain barrier (BBB) and the poor penetration of drug into the tumors. To effectively treat brain tumors and reduce side effects on normal tissues, both des-octanoyl ghrelin and folate conjugated with polymersomal doxorubicin (GFP-D) was developed in this study to help transport across the BBB and target the tumor as well. The size measurements revealed that this BBB-penetrating cancer cell-targeting GFP-D was about 85 nm. In-vitro experiments with a BBB model and C6 glioma cells demonstrated that GFP-D owned a robust penetrating-targeting function for drug delivery. In C6 cell viability tests, GFP-D exhibited an inhibitory effect significantly different from the unmodified polymersomal doxorubicin (P-D). In-vivo antitumor experiments showed that GFP-D performed a much better anti-glioma effect and presented a significant improvement in the overall survival of the tumor-bearing mice as compared to the treatments with free doxorubicin (Dox), liposomal doxorubicin (L-D), P-D, or single ligand conjugated P-D. In addition, Cy 5.5 was used as a probe to investigate the delivery property of this penetrating-targeting delivery system. The overall experimental results indicate that this BBB-penetrating cancer cell-targeting GFP is a highly potential nanocarrier for the treatment of brain tumors.

Published
2014

7. Effective heating for tumors with thermally significant blood vessels during hyperthermia treatment

Author

Chihng-Tsung Liauh, Tzyy-Leng Horng, Win-Li Lin, Huang-Wen Huang, Tzu-Ching Shih, and Chi-Feng Chiang

Subjects
Materials science, Tumor region, Power deposition, Energy Engineering and Power Technology, Hyperthermia Treatment, Blood flow, Treatment results, Cooling effect, Thermal diffusivity, Industrial and Manufacturing Engineering, Elevated blood, Biomedical engineering
Abstract

Significant cooling effect by blood vessels, particularly in treated tumor region, during hyperthermia treatment has been recognized by researchers. The present study investigated a heating strategy, using a preheating zone and adaptive optimization, to effectively reduce the cooling effect as thermally significant blood vessels flowed through treated region during hyperthermia treatment. The preheating zone is located in a vessel's entrance region adjacent to treated tumor and the heating strategy attempted to elevate blood temperature before blood flowing into the treated region. We numerically calculated blood and tissue temperatures using 3-D models and the goal of treatment was to reach a uniform therapeutic temperature in the tumor region using the proposed heating strategy. Results showed first, for large blood vessels, the heating strategy effectively elevated blood temperature at the entrance of treated tumor and reduced total tumor power deposition. Consequently, it helped to reach the ideal treated temperature on tumor more effectively, and avoided extreme power deposition due to the cooling effect of blood vessels entering the treated region. For small blood vessels, the preheating zone could further improve the treatment result. Secondly, heating flowing blood with adaptive optimization results in a unique phenomenon along blood flow paths. That is a strong convective nature of blood flow, which creates high thermal gradients in the treated region. Thus, it plays a different and significant role in adaptive optimization process as compared to thermal diffusion of solid tissues.

Published
2013

8. Pulsed-wave low-dose ultrasound hyperthermia selectively enhances nanodrug delivery and improves antitumor efficacy for brain metastasis of breast cancer

Author

Chi-Feng Chiang, Wen-Mei Fu, Yu-Hone Hsu, Sheng-Kai Wu, Win-Li Lin, and Houng-Chi Liou

Subjects
0301 basic medicine, Hyperthermia, Pathology, medicine.medical_specialty, Acoustics and Ultrasonics, Brain tumor, Antineoplastic Agents, Apoptosis, Breast Neoplasms, 02 engineering and technology, Polyethylene Glycols, Inorganic Chemistry, 03 medical and health sciences, Mice, Breast cancer, Drug Delivery Systems, Cell Line, Tumor, medicine, Chemical Engineering (miscellaneous), Environmental Chemistry, Distribution (pharmacology), Animals, Radiology, Nuclear Medicine and imaging, Doxorubicin, Luciferase, Cell Proliferation, business.industry, Brain Neoplasms, Organic Chemistry, Hyperthermia, Induced, 021001 nanoscience & nanotechnology, medicine.disease, Erratum and Corrigendum, Nanostructures, 030104 developmental biology, Ultrasonic Waves, Cancer research, lipids (amino acids, peptides, and proteins), 0210 nano-technology, business, Brain metastasis, medicine.drug
Abstract

The clinical application of chemotherapeutics for brain tumors remains a challenge due to limitation of blood-brain barrier/blood-tumor barrier (BBB/BTB). In this study, we investigated the effects of low-dose focused ultrasound hyperthermia (UH) on the delivery and therapeutic efficacy of pegylated liposomal doxorubicin (PLD) for brain metastasis of breast cancer. Murine breast cancer cells (4T1-luc2) expressing firefly luciferase were implanted into mouse striatum as a brain tumor model. The mice were intravenously injected with PLD with/without transcranial pulsed-wave/continuous-wave UH (pUH/cUH) treatment on day-6 after tumor implantation. pUH (frequency: 500kHz, PRF: 1000Hz, duty cycle: 50%) was conducted under equal acoustic power (2.2-Watt) and sonication duration (10-min) as cUH. The amounts of doxorubicin accumulated in the normal brain and tumor tissues were measured with fluorometry. The tumor growth responses for the control, pUH, PLD, PLD+cUH, and PLD+pUH groups were evaluated with IVIS. The PLD distribution and cell apoptosis were assessed with immunofluorescence staining. The results showed that pUH significantly enhanced the PLD delivery into brain tumors and the tumor growth was further inhibited by PLD+pUH without damaging the sonicated normal brain tissues. This indicates that low-dose transcranial pUH is a promising method to selectively enhance nanodrug delivery and improve the brain tumor treatment.

Published
2016

9. Doxorubicin-modified magnetic nanoparticles as a drug delivery system for magnetic resonance imaging-monitoring magnet-enhancing tumor chemotherapy

Author

Yung-Chu Chen, Win-Li Lin, Lein-Ray Mo, Po-Chin Liang, Chi-Feng Chiang, Wen-Yuan Hsieh, and Shwu-Yuan Wei

Subjects
Male, Proton Magnetic Resonance Spectroscopy, Pharmaceutical Science, 02 engineering and technology, chemotherapy, 01 natural sciences, Polyethylene Glycols, MRI monitoring, Rats, Sprague-Dawley, chemistry.chemical_compound, Nuclear magnetic resonance, Drug Delivery Systems, X-Ray Diffraction, International Journal of Nanomedicine, Neoplasms, Drug Discovery, Spectroscopy, Fourier Transform Infrared, Magnetite Nanoparticles, Original Research, Mice, Inbred BALB C, medicine.diagnostic_test, Temperature, General Medicine, Silanes, 021001 nanoscience & nanotechnology, Magnetic Resonance Imaging, Endocytosis, Drug delivery, polyethylene glycol, superparamagnetic iron oxide, 0210 nano-technology, HT29 Cells, Superparamagnetism, medicine.drug, Materials science, Iron, Biophysics, Mice, Nude, Bioengineering, Antineoplastic Agents, Polyethylene glycol, macromolecular substances, 010402 general chemistry, doxorubicin, Biomaterials, Magnetics, In vivo, PEG ratio, medicine, Animals, Humans, Doxorubicin, Particle Size, Cell Proliferation, Organic Chemistry, technology, industry, and agriculture, Magnetic resonance imaging, 0104 chemical sciences, magnet enhancing, chemistry, Magnetic nanoparticles
Abstract

Po-Chin Liang,1,2,* Yung-Chu Chen,1,3,* Chi-Feng Chiang,1 Lein-Ray Mo,4 Shwu-Yuan Wei,2 Wen-Yuan Hsieh,3 Win-Li Lin1,5 1Institute of Biomedical Engineering, College of Medicine, College of Engineering, 2Department of Medical Imaging, National Taiwan University Hospital, Taipei, 3Biomedical Technology and Device Research Labs, Industrial Technology Research Institute, Hsinchu, 4Division of Gastroenterology, Department of Internal Medicine, E-Da Hospital, Kaohsiung, 5Institute of Biomedical Engineering and Nanomedicine, National Health Research Institutes, Miaoli, Taiwan *These authors contributed equally in this work Abstract: In this study, we developed functionalized superparamagnetic iron oxide (SPIO) nanoparticles consisting of a magnetic Fe3O4 core and a shell of aqueous stable polyethylene glycol (PEG) conjugated with doxorubicin (Dox) (SPIO-PEG-D) for tumor magnetic resonance imaging (MRI) enhancement and chemotherapy. The size of SPIO nanoparticles was ~10nm, which was visualized by transmission electron microscope. The hysteresis curve, generated with vibrating-sample magnetometer, showed that SPIO-PEG-D was superparamagnetic with an insignificant hysteresis. The transverse relaxivity (r2) for SPIO-PEG-D was significantly higher than the longitudinal relaxivity (r1) (r2/r1 >10). The half-life of Dox in blood circulation was prolonged by conjugating Dox on the surface of SPIO with PEG to reduce its degradation. The in vitro experiment showed that SPIO-PEG-D could cause DNA crosslink more serious, resulting in a lower DNA expression and a higher cell apoptosis for HT-29 cancer cells. The Prussian blue staining study showed that the tumors treated with SPIO-PEG-D under a magnetic field had a much higher intratumoral iron density than the tumors treated with SPIO-PEG-D alone. The in vivo MRI study showed that the T2-weighted signal enhancement was stronger for the group under a magnetic field, indicating that it had a better accumulation of SPIO-PEG-D in tumor tissues. In the anticancer efficiency study for SPIO-PEG-D, the results showed that there was a significantly smaller tumor size for the group with a magnetic field than the group without. The in vivo experiments also showed that this drug delivery system combined with a local magnetic field could reduce the side effects of cardiotoxicity and hepatotoxicity. The results showed that the developed SPIO-PEG-D nanoparticles own a great potential for MRI-monitoring magnet-enhancing tumor chemotherapy. Keywords: superparamagnetic iron oxide, polyethylene glycol, doxorubicin, MRI monitoring, magnet enhancing, chemotherapy

Published
2016

10. Biodynamic responses of seated pregnant subjects exposed to vertical vibrations in driving conditions

Author

Chi-Feng Chiang, Truong-Giang Nguyen, and Cho-Chung Liang

Subjects
Engineering, medicine.medical_specialty, business.industry, Commercial vehicle, Mechanical Engineering, Sitting posture, Structural engineering, Experimental validation, Machine design, Physical medicine and rehabilitation, Automotive Engineering, medicine, Safety, Risk, Reliability and Quality, business, human activities
Abstract

A pregnant woman's body is a very sophisticated dynamic system that is sensitive to whole-body vibrations in a sitting posture. While much effort has been devoted to vibration effects on non-pregnant seated persons, little research has been devoted to the biodynamic responses of seated pregnant women exposed to vertical vibrations, especially in driving conditions. In this study a thorough survey of lumped-parameter models for non-pregnant seated persons is implemented. According to the literature the mathematical models adequate for representing the increase in mass due to pregnancy are proposed and evaluated systematically. On the basis of an analytical study and experimental validation, the six-degree-of-freedom model modified from the non-linear model proposed by Muksian and Nash is recommended. In addition, the recommended pregnant model is further integrated with two-dimensional half-car and three-dimensional full-car models to assess the responses of pregnant drivers or passengers exposed to vertic...

Published
2007

11. A study on biodynamic models of seated human subjects exposed to vertical vibration

Author

Cho-Chung Liang and Chi-Feng Chiang

Subjects
Engineering, Mathematical model, business.industry, Vertical vibration, Public Health, Environmental and Occupational Health, Linear model, Biomechanics, Experimental data, Human Factors and Ergonomics, Structural engineering, Experimental validation, Nonlinear model, Whole body vibration, business
Abstract

Humans are most sensitive to whole body vibration under low-frequency excitation in seated posture. As a result, biodynamics of seated human subjects has been a topic of interest over the years, and a number of mathematical models have been established. While much research has been performed on building up specific biodynamic models based on certain experimental data under prescribed testing conditions, a thorough investigation of mathematical human models in seated posture has not yet received the same level of attention. In this paper, a complete study on lumped-parameter models for seated human subjects without backrest support under vertical vibration excitation has been carried out. As part of the study, all models have been analyzed systematically, and validated by the synthesis of various experimental data from published literature. Based on the analytical study and experimental validation, the four-degree-of-freedom (DOF) model developed by Wan, Y. and Schimmels, J.M. [1995. A simple model that captures the essential dynamics of a seated human exposed to whole body vibration. Advances in Bioengineering, ASME, BED 31 333–334] is found to be best fitted to the existing test results, and is recommended for the study of biodynamic responses of seated human subjects under vertical whole body vibration. In addition, for the cases such as the female pregnant, more mass segments might be needed in the analysis. The six-DOF linear model from the modification of nonlinear model established by Muksian, R. and Nash, C.D. [1974. A model for the response of seated human to sinusoidal displacements of the seat, Journal of Biomechanics 7, 209–215] will be suggested.

Published
2006

12. Polymersomes conjugated with des-octanoyl ghrelin for the delivery of therapeutic and imaging agents into brain tissues

Author

Yung-Chu Chen, Li-Fang Chen, Wen-Yuan Hsieh, Win-Li Lin, Chi-Feng Chiang, and Shu-Chuan Liao

Subjects
Materials science, Magnetic Resonance Spectroscopy, Carrier system, Polymers, Central nervous system, Biophysics, Bioengineering, Pharmacology, Endocytosis, Cell Line, Biomaterials, Mice, Drug Delivery Systems, medicine, Animals, Drug Carriers, Tight junction, Brain, Models, Theoretical, Ghrelin, Rats, medicine.anatomical_structure, Nanomedicine, Mechanics of Materials, Blood-Brain Barrier, Nanoparticles for drug delivery to the brain, Polymersome, Ceramics and Composites, Drug carrier
Abstract

The effective protection of the blood-brain barrier (BBB) from tight junctions and efflux transport systems ultimately results in the limited entry of 95% of drug/gene candidates, which are potentially beneficial for central nervous system (CNS) diseases. In order to enhance the brain-specific delivery, in this study we developed a targeting carrier system, which consists of poly(carboxyl ethylene glycol-g-glutamate)-co-poly(distearin-g-glutamate) (CPEGGM-PDSGM) polymersomes with the conjugation of des-octanoyl ghrelin. Des-octanoyl ghrelin across the BBB was reported to be unidirectional (blood-to-brain direction). However, there is no report about the conjugation of des-octanoyl ghrelin to a drug carrier system to confer the BBB targeting property through des-octanoyl ghrelin binding sites mediated endocytosis. To qualitatively and quantitatively investigate this carrier's properties, coumarin 6, Cy5.5 and met-enkephalin were individually encapsulated in these polymersomes. The experimental results showed that the cellular uptake was significantly higher for des-octanoyl ghrelin-conjugated polymersomes (GPs) than unconjugated polymersomes when co-incubated with the BBB cells. In addition, an enhanced accumulation in brain together with a reduced accumulation in liver and spleen was observed in animal study, indicating better brain selectivity for the GPs. In a hot-plate test, a significant inhibition of nociceptive response could be achieved for an intravenous injection of GPs encapsulated with met-enkephalin. The overall results demonstrated that GPs own a great potential for targeting delivery of drug across the BBB to treat CNS diseases.

Published
2013

13. Modeling of a seated human body exposed to vertical vibrations in various automotive postures

Author

Cho-Chung Liang and Chi-Feng Chiang

Subjects
Back, Mathematical model, Computer science, business.industry, Health, Toxicology and Mutagenesis, Protective Devices, Response characteristics, Posture, Public Health, Environmental and Occupational Health, Automotive industry, Experimental data, Poison control, Structural engineering, Experimental validation, Manikins, Vibration, Sagittal plane, Biomechanical Phenomena, medicine.anatomical_structure, medicine, Humans, Ergonomics, business, Automobiles
Abstract

Although much research has been devoted to constructing specific models or to measuring the response characteristics of seated subjects, investigations on a mathematical human model on a seat with a backrest to evaluate vehicular riding comfort have not yet attracted the same level of attention. For the responses of a seated body to vertical vibrations, mathematical models of the mechanisms must be at least two-dimensional in the sagittal plane. In describing the motions of a seated body, two multibody models representative of the automotive postures found in the literature were investigated, one with and the other without a backrest support. Both models were modified to suitably represent the different automotive postures with and without backrest supports, and validated by various experimental data from the published literature pertaining to the same postural conditions. On the basis of the analytical study and the experimental validation, the fourteen-degrees-of-freedom model proposed in this research was found to be best fitted to the test results; therefore, this model is recommended for studying the biodynamic responses of a seated human body exposed to vertical vibrations in various automotive postures.

Published
2008

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