A study on the possibility of drug delivery approach through ultrasonic sensitive nanocarriers

Publish Year: 1397
نوع سند: مقاله ژورنالی
زبان: English
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JR_NAMJ-5-3_002

تاریخ نمایه سازی: 18 تیر 1398

Abstract:

Physical drug delivery through smart nanocarrier and external stimulus could lead to significant improvements of drug potency as well as noticeable decrease in unwanted side effects. Currently, many external energy sources such as light, magnetic fields, ultrasound, ...,  are under investigation as external stimulus for physical drug delivery. The purpose of this paper is to review most recent developments of triggered release of drugs and biomolecules under external ultrasound exposure. A special attention has also been paid to the metal nanostructures for ultrasound mediated drug delivery and also, other nanostructures were also considered. We briefly introduced ultrasound regulation and safety consideration. Further it is concluded that the use of nanostructures for delivery of active biomolecules in combination with ultrasound as a stimulus to trigger drug release from the nanocarriers and increased drug penetration has gained much attention for effective drug delivery and overcoming difficulties of multi-drug resistance of cancer.

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Authors

Ali Akbar Karimi Zarchi

Nanobiotechnology Research Center, Baqiyatallah University of Medical Sciences, Tehran, Iran

Seyed Mohammad Amini

Radiation Biology Research Center, Iran University of Medical Sciences (IUMS), Tehran, Iran|Department of Medical Nanotechnology, School of Advanced Technologies in Medicine, Iran University of Medical Sciences (IUMS), Tehran, Iran

Zohreh Jomehfarsangi

Department of Medical Nanotechnology, School of Advanced Technologies in Medicine (SATiM), Tehran University of Medical Sciences (TUMS), Tehran, Iran

Elham Mohammadi

Radiation Biology Research Center, Iran University of Medical Sciences (IUMS), Tehran, Iran|Department of Medical Nanotechnology, School of Advanced Technologies in Medicine, Iran University of Medical Sciences (IUMS), Tehran, Iran

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  • Hill C. Medical ultrasonics: an historical review. BJR. 1973; 46(550): ...
  • Feril LB, Jr., Tachibana K. Use of ultrasound in drug ...
  • Mitragotri S. Healing sound: the use of ultrasound in drug ...
  • Liu Y, Miyoshi H, Nakamura M. Encapsulated ultrasound microbubbles: therapeutic ...
  • Nabili M, Patel H, Mahesh SP, Liu J, Geist C, ...
  • Qiu-Lan Zhou, Zhi-Yi Chen, Yi-Xiang Wang, Feng Yang, Yan Lin, ...
  • Cho K, Wang X, Nie S, Shin DM. Therapeutic nanoparticles ...
  • Lavon I, Kost J. Ultrasound and transdermal drug delivery. Drug ...
  • Paliwal S, Menon GK, Mitragotri S. Low-frequency sonophoresis: ultrastructural basis ...
  • Yang F, Zhang M, He W, Chen P, Cai X, ...
  • Jing Y, Zhu Y, Yang X, Shen J, Li C. ...
  • Hoskins PR, Martin K, Thrush A. Diagnostic ultrasound: physics and ...
  • Yagi N, Oshiro Y, Ishikawa T, Hata Y, editors. Ultrasonic ...
  • Beutel J, Kundel HL, Van Metter RL. Handbook of Medical ...
  • Kennedy JE. High-intensity focused ultrasound in the treatment of solid ...
  • Wells P. Absorption and dispersion of ultrasound in biological tissue. ...
  • Mo S, Coussios C-C, Seymour L, Carlisle R. Ultrasound-enhanced drug ...
  • Alippi A, Galbato A, Cataldo F. Ultrasound cavitation in sonochemistry: ...
  • Barnett S, Ter Haar G, Ziskin M, Nyborg W, Maeda ...
  • Liu RH, Lenigk R, Druyor-Sanchez RL, Yang J, Grodzinski P. ...
  • Husseini GA, Pitt WG. Micelles and nanoparticles for ultrasonic drug ...
  • Pitt WG, Husseini GA, Staples BJ. Ultrasonic drug delivery–a general ...
  • Suzuki R, Oda Y, Utoguchi N, Maruyama K. Progress in ...
  • Apfel RE, Holland CK. Gauging the likelihood of cavitation from ...
  • ter Haar G. High intensity ultrasound. Surgical Innovation. 2001; 8(1): ...
  • Wu F, Wang Z-B, Chen W-Z, Zou J-Z, Bai J, ...
  • Dromi S, Frenkel V, Luk A, Traughber B, Angstadt M, ...
  • Linet MS, pyo Kim K, Rajaraman P. Children’s exposure to ...
  • Suslick KS. Ultrasound: its chemical, physical, and biological effects: VCH ...
  • Lubbers J, Hekkenberg RT, Bezemer RA. Time to threshold (< ...
  • Williams AR. Ultrasound: biological effects and potential hazards: Academic Press ...
  • Mitragotri S, Edwards DA, Blankschtein D, Langer R. A mechanistic ...
  • Levy D, Kost J, Meshulam Y, Langer R. Effect of ...
  • Mitragotri S, Blankschtein D, Langer R. Ultrasound-mediated transdermal protein delivery. ...
  • Mitragotri S, Blankschtein D, Langer R. Transdermal drug delivery using ...
  • Mitragotri S, Kost J. Transdermal delivery of heparin and low-molecular ...
  • Yamashita N, Tachibana K, Ogawa K, Tsujita N, Tomita A. ...
  • Illing R, Kennedy J, Wu F, Ter Haar G, Protheroe ...
  • Kennedy J, Ter Haar G, Cranston D. High intensity focused ...
  • Oosterhof G, Cornel E, Smits G, Debruyne F, Schalken J. ...
  • Hancock H, Dreher MR, Crawford N, Pollock CB, Shih J, ...
  • Lindner JR, Kaul S. Delivery of drugs with ultrasound. Echocardiography. ...
  • Grayburn PA. Current and future contrast agents. Echocardiography. 2002; 19(3): ...
  • Klibanov AL. Microbubble contrast agents: targeted ultrasound imaging and ultrasound-assisted ...
  • Schroeder A, Kost J, Barenholz Y. Ultrasound, liposomes, and drug ...
  • Pong M, Umchid S, Guarino AJ, Lewin PA, Litniewski J, ...
  • Kimura A, Sakai A, Tsukishiro S-i, BEPPU S, FuJIwARA H. ...
  • Huang S-L. Liposomes in ultrasonic drug and gene delivery. Adv. ...
  • Kheirolomoom A, Dayton PA, Lum AF, Little E, Paoli EE, ...
  • Huang S-L, McPherson DD, MacDonald RC. A method to co-encapsulate ...
  • Husseini GA, Pitt WG. Ultrasonic‐activated micellar drug delivery for cancer ...
  • Rapoport N, Christensen D, Fain H, Barrows L, Gao Z. ...
  • Miller DW, Batrakova EV, Waltner TO, Alakhov VY, Kabanov AV. ...
  • You J, Zhang G, Li C. Exceptionally high payload of ...
  • Amini SM, Kharrazi S, Hadizadeh M, Fateh M, Saber R. ...
  • Darabpour E, Kashef N, Amini SM, Kharrazi S, Djavid GE. ...
  • Khademi S, Sarkar S, Kharrazi S, Amini SM, Shakeri-Zadeh A, ...
  • Shirkhanloo H, Safari M, Amini SM, Rashidi M. Novel Semisolid ...
  • Amini SM, Kharrazi S, Rezayat SM, Gilani K. Radiofrequency electric ...
  • Amini SM, Kharrazi S, Jaafari MR. Radio frequency hyperthermia of ...
  • Amstad E, Kohlbrecher J, Müller E, Schweizer T, Textor M, ...
  • Fatemi F, Amini SM, Kharrazi S, Rasaee MJ, Mazlomi MA, ...
  • Emami T, Madani R, Golchinfar F, Shoushtary A, Amini SM. ...
  • Shaabani E, Amini SM, Kharrazi S, Tajerian R. Curcumin coated ...
  • Esmaeili-bandboni A, Amini SM, Faridi-majidi R, Bagheri J, Mohammadnejad J, ...
  • Fujimoto T, Terauchi S-y, Umehara H, Kojima I, Henderson W. ...
  • Gedanken A. Using sonochemistry for the fabrication of nanomaterials. Ultrason ...
  • Gedanken A, Mastai Y. Sonochemistry and other novel methods developed ...
  • Suslick KS, Choe S-B, Cichowlas AA, Grinstaff MW. Sonochemical synthesis ...
  • Prozorov T, Prozorov R, Suslick KS. High velocity interparticle collisions ...
  • Okitsu K, Ashokkumar M, Grieser F. Sonochemical synthesis of gold ...
  • Watt J, Austin MJ, Simocko CK, Pete DV, Chavez J, ...
  • Lea-Banks H, Teo B, Stride E, Coussios CC. The effect ...
  • Mo S, Carlisle R, Laga R, Myers R, Graham S, ...
  • Mannaris C, Teo BM, Seth A, Bau L, Coussios C, ...
  • Shchukin DG, Gorin DA, Möhwald H. Ultrasonically induced opening of ...
  • Skirtach AG, De Geest BG, Mamedov A, Antipov AA, Kotov ...
  • Kolesnikova TA, Gorin DA, Fernandes P, Kessel S, Khomutov GB, ...
  • Pavlov AM, Saez V, Cobley A, Graves J, Sukhorukov GB, ...
  • Zarchi AAK, Amini SM, Salimi A, kharrazi S. Synthesis and ...
  • Li Y, He D, Tu J, Wang R, Zu C, ...
  • Liu Y, Miyoshi H, Nakamura M. Encapsulated ultrasound microbubbles: therapeutic ...
  • Tachibana K, Uchida T, Ogawa K, Yamashita N, Tamura K. ...
  • Juffermans L, Dijkmans PA, Musters R, Visser CA, Kamp O. ...
  • Miller DL, Gies RA. The interaction of ultrasonic heating and ...
  • Van Wamel A, Kooiman K, Emmer M, Ten Cate F, ...
  • Bekeredjian R, Chen S, Frenkel PA, Grayburn PA, Shohet RV. ...
  • Aoi A, Watanabe Y, Mori S, Takahashi M, Vassaux G, ...
  • Hynynen K. Ultrasound for drug and gene delivery to the ...
  • Huang S-L, MacDonald RC. Acoustically active liposomes for drug encapsulation ...
  • Ahmed SE, Moussa HG, Martins AM, Al-Sayah MH, Husseini GA. ...
  • Huang S-L, Kee PH, Kim H, Moody MR, Chrzanowski SM, ...
  • Marin A, Muniruzzaman M, Rapoport N. Mechanism of the ultrasonic ...
  • Gao Z-G, Fain HD, Rapoport N. Controlled and targeted tumor ...
  • Husseini GA, Myrup GD, Pitt WG, Christensen DA, Rapoport NY. ...
  • Rapoport N. Combined cancer therapy by micellar-encapsulated drug and ultrasound. ...
  • Husseini GA, El-Fayoumi RI, O Neill KL, Rapoport NY, Pitt ...
  • Husseini GA, de la Rosa MAD, Gabuji T, Zeng Y, ...
  • Cavalli R, Bisazza A, Rolfo A, Balbis S, Madonnaripa D, ...
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