Combined phototherapy in anti-cancer treatment: therapeutics design and perspectives

被引:36
|
作者
Tran T.H. [1 ]
Thapa R.K. [1 ]
Nguyen H.T. [1 ]
Pham T.T. [1 ]
Ramasamy T. [1 ]
Kim D.S. [2 ]
Yong C.S. [1 ]
Kim J.O. [1 ]
Choi H.-G. [2 ]
机构
[1] College of Pharmacy, Yeungnam University, 214-1, Dae-Dong, Gyeongsan
[2] College of Pharmacy & Institute of Pharmaceutical Science and Technology, Hanyang University, 55, Hanyangdaehak-ro, Sangnok-gu, Ansan
来源
Journal of Pharmaceutical Investigation | 2016年 / 46卷 / 6期
关键词
Hyperthermia; Nanocarriers; Photodynamic; Photosensitiser; Photothermal;
D O I
10.1007/s40005-016-0272-x
中图分类号
学科分类号
摘要
Photodynamic (PDT) and photothermal (PTT) therapy are proven effective strategies for the treatment of cancer. PDT, a photochemistry-based therapy, utilises light energy based photosensitiser for the production of cytotoxic species via electron transfer to biological substrates and potential excitation or energy transfer to molecular oxygen. On the other hand, PTT utilises substances that can convert light energy into heat for efficient tumour ablation. This review provides an insight into the current research investigations of different nanocarriers utilising the synergistic effects of PTT and PDT for anticancer therapy. © 2016, The Korean Society of Pharmaceutical Sciences and Technology.
引用
收藏
页码:505 / 517
页数:12
相关论文
共 50 条
  • [41] Design and modular development of I-PARTS: An integrated platform for anti-cancer radiation therapeutics screening
    Papineni, Rao V.
    Costes, Sylvain
    Ray, Shayoni
    McLaughlin, William
    Lukaniec, Brendan
    Kruger, Kurt
    Kanugi, Keith
    CANCER RESEARCH, 2018, 78 (13)
  • [42] Prospects for Treatment of Lung Cancer Using Activated Lymphocytes Combined with Other Anti-Cancer Modalities
    Ganina, Anastasia
    Askarov, Manarbek
    Kozina, Larissa
    Karimova, Madina
    Shayakhmetov, Yerzhan
    Mukhamedzhanova, Perizat
    Brimova, Aigul
    Berikbol, Daulet
    Chuvakova, Elmira
    Zaripova, Lina
    Baigenzhin, Abay
    ADVANCES IN RESPIRATORY MEDICINE, 2024, 92 (06) : 504 - 525
  • [43] Laser treatment in anti-cancer therapy
    Pang, T
    AUSTRALASIAN BIOTECHNOLOGY, 1996, 6 (02) : 78 - 78
  • [44] Nutritional issues in anti-cancer treatment
    Vandebroek, A. J. V.
    Schrijvers, D.
    ANNALS OF ONCOLOGY, 2008, 19 : 52 - 55
  • [45] Cytokines as Anti-Cancer Agents Rational, Results and Perspectives
    Mocellin, Simone
    CURRENT MEDICINAL CHEMISTRY, 2010, 17 (29) : 3296 - 3296
  • [46] Anti-cancer chalcones: Structural and molecular target perspectives
    Mahapatra, Debarshi Mar
    Bharti, Sanjay Kumar
    Asati, Vivek
    EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY, 2015, 98 : 69 - 114
  • [47] Anti-Cancer Compounds Targeted to VDAC: Potential and Perspectives
    Reina, Simona
    De Pinto, Vito
    CURRENT MEDICINAL CHEMISTRY, 2017, 24 (40) : 4447 - 4469
  • [48] Perspectives for the application of interleukin 15 in anti-cancer therapy
    Wegierek, Katarzyna
    Pajtasz-Piasecka, Elzbieta
    POSTEPY HIGIENY I MEDYCYNY DOSWIADCZALNEJ, 2019, 73 : 850 - 864
  • [49] NHE-1: A Promising Target for Novel Anti-cancer Therapeutics
    Loo, Ser Yue
    Chang, Michelle Ker Xing
    Chua, Charis Sui Huay
    Kumar, Alan Prem
    Pervaiz, Shazib
    Clement, Marie Veronique
    CURRENT PHARMACEUTICAL DESIGN, 2012, 18 (10) : 1372 - 1382
  • [50] Current strategies for the development of peptide-based anti-cancer therapeutics
    Borghouts, C
    Kunz, C
    Groner, B
    JOURNAL OF PEPTIDE SCIENCE, 2005, 11 (11) : 713 - 726
12345