[ad_1]
Kargozar S, Mozafari M. Nanotechnology and nanomedicine: begin small, suppose massive. Mater At the moment Proc. 2018;5:15492–500.
Li H, Jin H, Wan W, Wu C, Wei L. Most cancers nanomedicine: mechanisms, obstacles and methods. Nanomedicine. 2018;13:1639–56.
Martins JP, Das Neves J, de la Fuente M, Celia C, Florindo H, Günday-Türeli N, Popat A, Santos JL, Sousa F, Schmid R. The stable progress of nanomedicine. Drug Deliv Transl Res. 2020;10:726–9.
Zheng X, Zhang P, Fu Z, Meng S, Dai L, Yang H. Functions of nanomaterials in tissue engineering. RSC Adv. 2021;11:19041–58.
Pham SH, Choi Y, Choi J. Stimuli-responsive nanomaterials for software in antitumor remedy and drug supply. Pharmaceutics. 2020;12:630.
Xiang H, Chen Y. Vitality-converting nanomedicine. Small. 2019;15:1805339.
Du J, Yang S, Qiao Y, Lu H, Dong H. Current progress in near-infrared photoacoustic imaging. Biosens Bioelectron. 2021;191: 113478.
Chen H, Tang X, Nie G, Wang Z, Hu J, Hu J, Qin H. Quantitative tracing of bioprobes by concurrently monitoring radiative and nonradiative relaxations. J Innov Choose Well being Sci. 2023;16:2243002.
Choi W, Park B, Choi S, Oh D, Kim J, Kim C. Current advances in contrast-enhanced photoacoustic imaging: overcoming the bodily and sensible challenges. Chem Rev. 2023;123:7379–419.
Bell AG. Upon the manufacturing and replica of sound by gentle. Am J Sci. 1880;9:404–26.
Isaiev M, Mussabek G, Lishchuk P, Dubyk Okay, Zhylkybayeva N, Yar-Mukhamedova G, Lacroix D, Lysenko V. Utility of the photoacoustic strategy within the characterization of nanostructured supplies. Nanomaterials. 2022;12:708.
Steinberg I, Huland DM, Vermesh O, Frostig HE, Tummers WS, Gambhir SS. Photoacoustic medical imaging. Photoacoustics. 2019;14:77–98.
Oraevsky A, Clingman B, Zalev J, Stavros A, Yang W, Parikh J. Scientific optoacoustic imaging mixed with ultrasound for coregistered useful and anatomical mapping of breast tumors. Photoacoustics. 2018;12:30–45.
Jo J, Tian C, Xu G, Sarazin J, Schiopu E, Gandikota G, Wang X. Photoacoustic tomography for human musculoskeletal imaging and inflammatory arthritis detection. Photoacoustics. 2018;12:82–9.
Aguirre J, Hindelang B, Berezhnoi A, Darsow U, Lauffer F, Eyerich Okay, Biedermann T, Ntziachristos V. Assessing nailfold microvascular construction with ultra-wideband raster-scan optoacoustic mesoscopy. Photoacoustics. 2018;10:31–7.
Zare A, Shamshiripour P, Lotfi S, Shahin M, Rad VF, Moradi A-R, Hajiahmadi F, Ahmadvand D. Scientific theranostics purposes of photo-acoustic imaging as a future prospect for most cancers. J Management Launch. 2022;351:805–33.
Jeon S, Kim J, Lee D, Baik JW, Kim C. Assessment on sensible photoacoustic microscopy. Photoacoustics. 2019;15: 100141.
Zhan H, Solar C, Xu M, Luo T, Wang G, Xi G, Liu Z, Zhuo S. Evaluation of intraoperative microscopy imaging strategies and their future purposes. Entrance Phys. 2022;10: 991279.
Hosseinaee Z, Le M, Bell Okay, Reza PH. In direction of non-contact photoacoustic imaging. Photoacoustics. 2020;20: 100207.
Zhang Z, Jin H, Zheng Z, Sharma A, Wang L, Pramanik M, Zheng Y. Deep and area switch studying aided photoacoustic microscopy: acoustic decision to optical decision. IEEE Trans Med Imaging. 2022;41:3636–48.
Neprokin A, Broadway C, Myllylä T, Bykov A, Meglinski I. Photoacoustic imaging in biomedicine and life sciences. Life. 2022;12: 588.
Guo H, Li Y, Qi W, Xi L. Photoacoustic endoscopy: a progress assessment. J Biophotonics. 2020;13: e202000217.
Zhang J, Duan F, Liu Y, Nie L. Excessive-resolution photoacoustic tomography for early-stage most cancers detection and its medical translation. Radiol Imaging Most cancers. 2020;2: e190030.
Park B, Oh D, Kim J, Kim C. Purposeful photoacoustic imaging: from nano- and micro- to macro-scale. Nano Converg. 2023;10:29.
Zheng S, Li H, Lai Okay, Chen M, Fu G, Liu WH, Fu G, Nie L. Noninvasive photoacoustic and fluorescent monitoring of optical dye labeled T mobile actions of diseased websites at new depth. J Biophotonics. 2018;11: e201800073.
Li L, Li S, Fan Z, Huang G, Tang J, Nie L. Present methods of photoacoustic imaging assisted most cancers theragnostics towards medical research. ACS Photonics. 2022;9:2555–78.
Wang Z, Yang F, Zhang W, Xiong Okay, Yang S. In direction of in vivo photoacoustic human imaging: shining a brand new gentle on medical diagnostics. Fundam Res. 2023. https://doi.org/10.1016/j.fmre.2023.01.008.
Park B, Bang CH, Lee C, Han JH, Choi W, Kim J, Park GS, Rhie JW, Lee JH, Kim C. 3D wide-field multispectral photoacoustic imaging of human melanomas in vivo: a pilot research. J Eur Acad Dermatol Venereol. 2021;35:669–76.
Singh M, Thomas A. Photoacoustic elastography imaging: a assessment. J Biomed Choose. 2019;24:040902.
Sivasubramanian M, Lo L-W. Evaluation of nanoparticle-mediated tumor oxygen modulation by photoacoustic imaging. Biosensors. 2022;12:336.
Pattyn A, Mumm Z, Alijabbari N, Duric N, Anastasio MA, Mehrmohammadi M. Mannequin-based optical and acoustical compensation for photoacoustic tomography of heterogeneous mediums. Photoacoustics. 2021;23: 100275.
Jeng G-S, Li M-L, Kim M, Yoon SJ, Pitre JJ Jr, Li DS, Pelivanov I, O’Donnell M. Actual-time interleaved spectroscopic photoacoustic and ultrasound (PAUS) scanning with simultaneous fluence compensation and movement correction. Nat Commun. 2021;12:716.
Zheng S, Yingsa H, Meichen S, Qi M. Quantitative photoacoustic tomography with gentle fluence compensation based mostly on radiance Monte Carlo mannequin. Phys Med Biol. 2023;68:065009.
Zhao H, Chen N, Li T, Zhang J, Lin R, Gong X, Track L, Liu Z, Liu C. Movement correction in optical decision photoacoustic microscopy. IEEE Trans Med Imaging. 2019;38:2139–50.
Hindelang B, Nau T, Englert L, Berezhnoi A, Lauffer F, Darsow U, Biedermann T, Eyerich Okay, Aguirre J, Ntziachristos V. Enabling precision monitoring of psoriasis therapy by optoacoustic mesoscopy. Sci Transl Med. 2022;14:eabm8059.
Han S, Lee D, Kim S, Kim H-H, Jeong S, Kim J. Distinction brokers for photoacoustic imaging: a assessment specializing in the wavelength vary. Biosensors. 2022;12:594.
Nandy S, Mostafa A, Hagemann IS, Powell MA, Amidi E, Robinson Okay, Mutch DG, Siegel C, Zhu Q. Analysis of ovarian most cancers: preliminary software of coregistered photoacoustic tomography and US. Radiology. 2018;289:740–7.
Kothapalli S-R, Sonn GA, Choe JW, Nikoozadeh A, Bhuyan A, Park KK, Cristman P, Fan R, Moini A, Lee BC. Simultaneous transrectal ultrasound and photoacoustic human prostate imaging. Sci Transl Med. 2019;11: eaav2169.
Na S, Russin JJ, Lin L, Yuan X, Hu P, Jann KB, Yan L, Maslov Okay, Shi J, Wang DJ. Massively parallel useful photoacoustic computed tomography of the human mind. Nat Biomed Eng. 2022;6:584–92.
Dima A, Ntziachristos V. In-vivo handheld optoacoustic tomography of the human thyroid. Photoacoustics. 2016;4:65–9.
Oraevsky AA, Karabutov AA, Solomatin SV, Savateeva EV, Andreev VA, Gatalica Z, Singh H, Fleming RD. Laser optoacoustic imaging of breast most cancers in vivo. In: Biomedical optoacoustics II. SPIE; 2001. p. 6–15.
Stoffels I, Morscher S, Helfrich I, Hillen U, Leyh J, Burton NC, Sardella TC, Claussen J, Poeppel TD, Bachmann HS. Metastatic standing of sentinel lymph nodes in melanoma decided noninvasively with multispectral optoacoustic imaging. Sci Transl Med. 2015;7:317ra199.
Waldner MJ, Knieling F, Egger C, Morscher S, Claussen J, Vetter M, Kielisch C, Fischer S, Pfeifer L, Hagel A. Multispectral optoacoustic tomography in Crohn’s illness: noninvasive imaging of illness exercise. Gastroenterology. 2016;151:238–40.
Regensburger AP, Fonteyne LM, Jüngert J, Wagner AL, Gerhalter T, Nagel AM, Heiss R, Flenkenthaler F, Qurashi M, Neurath MF. Detection of collagens by multispectral optoacoustic tomography as an imaging biomarker for Duchenne muscular dystrophy. Nat Med. 2019;25:1905–15.
Buehler A, Diot G, Volz T, Kohlmeyer J, Ntziachristos V. Imaging of fatty tumors: look of subcutaneous lipomas in optoacoustic pictures. J Biophoton. 2017;10:983–9.
Zhang HF, Maslov Okay, Stoica G, Wang LV. Purposeful photoacoustic microscopy for high-resolution and noninvasive in vivo imaging. Nat Biotechnol. 2006;24:848–51.
Manohar S, Dantuma M. Present and future tendencies in photoacoustic breast imaging. Photoacoustics. 2019;16:100134.
Nyayapathi N, Xia J. Photoacoustic imaging of breast most cancers: a mini assessment of system design and picture options. J Biomed Choose. 2019;24:121911.
Han T, Yang M, Yang F, Zhao L, Jiang Y, Li C. A 3-dimensional modeling methodology for quantitative photoacoustic breast imaging with handheld probe. Photoacoustics. 2021;21: 100222.
Ma H, Cheng Z, Wang Z, Zhang W, Yang S. Switchable optical and acoustic decision photoacoustic dermoscope devoted into in vivo biopsy-like of human pores and skin. Appl Phys Lett. 2020;116:073703.
Wang Z, Yang F, Ma H, Cheng Z, Zhang W, Xiong Okay, Shen T, Yang S. Bifocal 532/1064 nm alternately illuminated photoacoustic microscopy for capturing deep vascular morphology in human pores and skin. J Eur Acad Dermatol Venereol. 2022;36:51–9.
Tran MH, Fei B. Compact and ultracompact spectral imagers: know-how and purposes in biomedical imaging. J Biomed Choose. 2023;28:040901.
Yang J, Zhang G, Shang Q, Wu M, Huang L, Jiang H. Detecting hemodynamic adjustments within the foot vessels of diabetic sufferers by photoacoustic tomography. J Biophoton. 2020;13: e202000011.
Wang Z, Yang F, Cheng Z, Zhang W, Xiong Okay, Shen T, Yang S. Quantitative multilayered evaluation of pores and skin lightening by photoacoustic microscopy. Quant Imaging Med Surg. 2022;12:470.
Tsuge I, Saito S, Yamamoto G, Sekiguchi H, Yoshikawa A, Matsumoto Y, Suzuki S, Toi M. Preoperative vascular mapping for anterolateral thigh flap surgical procedures: a medical trial of photoacoustic tomography imaging. Microsurgery. 2020;40:324–30.
Lv J, Xu Y, Xu L, Nie L. Quantitative useful analysis of liver fibrosis in mice with dynamic contrast-enhanced photoacoustic imaging. Radiology. 2021;300:89–97.
Rodrigues BL, Mazzaro MC, Nagasako CK, Ayrizono MLS, Fagundes JJ, Leal RF. Evaluation of illness exercise in inflammatory bowel illnesses: non-invasive biomarkers and endoscopic scores. World J Gastrointest Endosc. 2020;12:504.
Regensburger AP, Wagner AL, Claussen J, Waldner MJ, Knieling F. Shedding gentle on pediatric illnesses: multispectral optoacoustic tomography on the doorway to medical purposes. Mol Cell Pediatr. 2020;7:3.
Guo T, Xiong Okay, Zhang Z, Li L, Yang S. In vivo anatomical imaging of colorectum by tens-of-micron-resolved photoacoustic/ultrasonic endoscope. Appl Phys Lett. 2021;118:153702.
Leng X, Uddin KS, Chapman W Jr, Luo H, Kou S, Amidi E, Yang G, Chatterjee D, Shetty A, Hunt S. Assessing rectal most cancers therapy response utilizing coregistered endorectal photoacoustic and US imaging paired with deep studying. Radiology. 2021;299:349–58.
Lan L, Luo Y, Zhou M, Huo L, Chen H, Zuo Q, Deng W. Comparability of diagnostic accuracy of thyroid most cancers with ultrasound-guided fine-needle aspiration and core-needle biopsy: a scientific assessment and meta-analysis. Entrance Endocrinol. 2020;11:11.
Cao Y, Zhong X, Diao W, Mu J, Cheng Y, Jia Z. Radiomics in differentiated thyroid most cancers and nodules: explorations, software, and limitations. Cancers. 2021;13:2436.
Karlas A, Pleitez MA, Aguirre J, Ntziachristos V. Optoacoustic imaging in endocrinology and metabolism. Nat Rev Endocrinol. 2021;17:323–35.
Kim J, Park B, Ha J, Steinberg I, Hooper SM, Jeong C, Park E-Y, Choi W, Liang T, Bae JS, et al. Multiparametric photoacoustic evaluation of human thyroid cancers in vivo. Most cancers Res. 2021;81:4849–60.
Wu Y, Zeng F, Zhao Y, Wu S. Rising distinction brokers for multispectral optoacoustic imaging and their biomedical purposes. Chem Soc Rev. 2021;50:7924–40.
Li JW, Wu CCH, Lee JWJ, Liang R, Quickly GST, Wang LM, Koh XH, Koh CJ, Chew WD, Lin KW, et al. Actual-world validation of a computer-aided prognosis system for prediction of polyp histology in colonoscopy: a potential multicenter research. Am J Gastroenterol. 2023;118:1353–64.
Amidi E, Yang G, Uddin KMS, Luo H, Middleton W, Powell M, Siegel C, Zhu Q. Position of blood oxygenation saturation in ovarian most cancers prognosis utilizing multi-spectral photoacoustic tomography. J Biophoton. 2021;14:e202000368.
Steiner AR, Rousseau-Blass F, Schroeter A, Hartnack S, Bettschart-Wolfensberger R. Systematic assessment: anesthetic protocols and administration as confounders in rodent blood oxygen degree dependent useful magnetic resonance imaging (BOLD fMRI)—half B: results of anesthetic brokers, doses and timing. Animals. 2021;11:199.
Na S, Wang LV. Photoacoustic computed tomography for useful human mind imaging. Biomed Choose Categorical. 2021;12:4056–83.
Zhang J, Solar X, Li H, Ma H, Duan F, Wu Z, Zhu B, Chen R, Nie L. In vivo characterization and evaluation of glioblastoma at totally different levels utilizing multiscale photoacoustic molecular imaging. Photoacoustics. 2023;30: 100462.
Gu Y, Solar Y, Wang X, Li H, Qiu J, Lu W. Utility of photoacoustic computed tomography in biomedical imaging: a literature assessment. Bioeng Transl Med. 2023;8: e10419.
Stoffels I, Jansen P, Petri M, Goerdt L, Brinker TJ, Griewank KG, Poeppel TD, Schadendorf D, Klode J. Evaluation of nonradioactive multispectral optoacoustic tomographic imaging with standard lymphoscintigraphic imaging for sentinel lymph node biopsy in melanoma. JAMA Netw Open. 2019;2:e199020.
Suzuki Y, Kajita H, Kono H, Okabe Okay, Sakuma H, Imanishi N, Aiso S, Kishi Okay. The direct statement of lymphaticovenular anastomosis patency with photoacoustic lymphangiography. Plast Reconst Surg. 2021;9:e3348.
Manwar R, Kratkiewicz Okay, Avanaki Okay. Overview of ultrasound detection applied sciences for photoacoustic imaging. Micromachines. 2020;11:692.
Han X, Xu Okay, Taratula O, Farsad Okay. Functions of nanoparticles in biomedical imaging. Nanoscale. 2019;11:799–819.
Shrestha B, DeLuna F, Anastasio MA, Ye JY, Brey EM. Photoacoustic imaging in tissue engineering and regenerative drugs. Tissue Eng Half B Rev. 2020;26:79–102.
Razansky D, Klohs J, Ni R. Multi-scale optoacoustic molecular imaging of mind illnesses. Eur J Nucl Med Mol Imaging. 2021;48:4152–70.
D’Alonzo RA, Gill S, Rowshanfarzad P, Keam S, MacKinnon KM, Prepare dinner AM, Ebert MA. In vivo noninvasive preclinical tumor hypoxia imaging strategies: a assessment. Int J Radiat Biol. 2021;97:593–631.
Guo B, Feng Z, Hu D, Xu S, Middha E, Pan Y, Liu C, Zheng H, Qian J, Sheng Z. Exact deciphering of mind vasculatures and microscopic tumors with twin NIR-II fluorescence and photoacoustic imaging. Adv Mater. 2019;31: 1902504.
Lan H-R, Zhang Y-N, Han Y-J, Yao S-Y, Yang M-X, Xu X-G, Mou X-Z, Jin Okay-T. Multifunctional nanocarriers for focused drug supply and diagnostic purposes of lymph nodes metastasis: a assessment of current tendencies and future views. J Nanobiotechnol. 2023;21:247.
Joyce Okay, Fabra GT, Bozkurt Y, Pandit A. Bioactive potential of pure biomaterials: identification, retention and evaluation of organic properties. Sign Transduct Goal Ther. 2021;6:122.
Haleem A, Javaid M, Singh RP, Rab S, Suman R. Functions of nanotechnology in medical area: a quick assessment. Glob Well being J. 2023;7:70–7.
Wallyn J, Anton N, Akram S, Vandamme TF. Biomedical imaging: ideas, applied sciences, medical features, distinction brokers, limitations and future tendencies in nanomedicines. Pharm Res. 2019;36:1–31.
Chen J, Fan T, Xie Z, Zeng Q, Xue P, Zheng T, Chen Y, Luo X, Zhang H. Advances in nanomaterials for photodynamic remedy purposes: standing and challenges. Biomaterials. 2020;237: 119827.
Wu Y, Ali MR, Chen Okay, Fang N, El-Sayed MA. Gold nanoparticles in organic optical imaging. Nano At the moment. 2019;24:120–40.
Chen J, Nguyen VP, Jaiswal S, Kang X, Lee M, Paulus YM, Wang TD. Skinny layer-protected gold nanoparticles for focused multimodal imaging with photoacoustic and CT. Prescription drugs. 2021;14:1075.
Jiang S, Lin J, Huang P. Nanomaterials for NIR-II photoacoustic imaging. Adv Healthc Mater. 2023;12:2202208.
Sharifi M, Attar F, Saboury AA, Akhtari Okay, Hooshmand N, Hasan A, El-Sayed MA, Falahati M. Plasmonic gold nanoparticles: optical manipulation, imaging, drug supply and remedy. J Management Launch. 2019;311:170–89.
Vu T, Razansky D, Yao J. Listening to tissues with new gentle: current technological advances in photoacoustic imaging. J Choose. 2019;21:103001.
Upputuri PK, Pramanik M. Current advances in photoacoustic distinction brokers for in vivo imaging. Wiley Interdiscip Rev Nanomed Nanobiotechnol. 2020;12:e1618.
Kim D, Shin Okay, Kwon SG, Hyeon T. Synthesis and biomedical purposes of multifunctional nanoparticles. Adv Mater. 2018;30: 1802309.
Farooq A, Sabah S, Dhou S, Alsawaftah N, Husseini G. Exogenous distinction brokers in photoacoustic imaging: an in vivo assessment for tumor imaging. Nanomaterials. 2022;12:393.
Maturi M, Locatelli E, Monaco I, Comes Franchini M. Present ideas in nanostructured distinction media improvement for in vivo photoacoustic imaging. Biomater Sci. 2019;7:1746–75.
Liu X, Duan Y, Liu B. Nanoparticles as distinction brokers for photoacoustic mind imaging. Combination. 2021;2:4–19.
Zheng Y, Liu M, Jiang L. Progress of photoacoustic imaging mixed with focused photoacoustic distinction brokers in tumor molecular imaging. Entrance Chem. 2022;10:10.
Han Z, Tu X, Qiao L, Solar Y, Li Z, Solar X, Wu Z. Phototherapy and multimodal imaging of cancers based mostly on perfluorocarbon nanomaterials. J Mater Chem B. 2021;9:6751–69.
Yin C, Wen G, Liu C, Yang B, Lin S, Huang J, Zhao P, Wong SHD, Zhang Okay, Chen X. Natural semiconducting polymer nanoparticles for photoacoustic labeling and monitoring of stem cells within the second near-infrared window. ACS Nano. 2018;12:12201–11.
Zhen X, Pu Okay, Jiang X. Photoacoustic imaging and photothermal remedy of semiconducting polymer nanoparticles: sign amplification and second near-infrared development. Small. 2021;17:2004723.
Yu C, Xu L, Zhang Y, Timashev PS, Huang Y, Liang X-J. Polymer-based nanomaterials for noninvasive most cancers photothermal remedy. ACS Appl Polym Mater. 2020;2:4289–305.
Laramie MD, Smith MK, Marmarchi F, McNally LR, Henary M. Small molecule optoacoustic distinction brokers: an unexplored avenue for enhancing in vivo imaging. Molecules. 2018;23:2766.
Mokrousov MD, Thompson W, Ermilov SA, Abakumova T, Novoselova MV, Inozemtseva OA, Zatsepin TS, Zharov VP, Galanzha EI, Gorin DA. Indocyanine inexperienced dye based mostly bimodal distinction agent examined by photoacoustic/fluorescence tomography setup. Biomed Choose Categorical. 2021;12:3181–95.
Wang C, Fan W, Zhang Z, Wen Y, Xiong L, Chen X. Superior nanotechnology main the way in which to multimodal imaging-guided precision surgical remedy. Adv Mater. 2019;31: 1904329.
St. Lorenz A, Buabeng ER, Taratula O, Taratula O, Henary M. Close to-infrared heptamethine cyanine dyes for nanoparticle-based photoacoustic imaging and photothermal remedy. J Med Chem. 2021;64:8798–805.
Changalvaie B, Han S, Moaseri E, Scaletti F, Truong L, Caplan R, Cao A, Bouchard R, Truskett TM, Sokolov KV, Johnston KP. Indocyanine inexperienced J aggregates in polymersomes for near-infrared photoacoustic imaging. ACS Appl Mater Interfaces. 2019;11:46437–50.
Akbar A, Khan S, Chatterjee T, Ghosh M. Unleashing the ability of porphyrin photosensitizers: illuminating breakthroughs in photodynamic remedy. J Photochem Photobiol B Biol. 2023;248: 112796.
Moore C, Jokerst JV. Methods for image-guided remedy, surgical procedure, and drug supply utilizing photoacoustic imaging. Theranostics. 2019;9:1550–71.
Caldas M, Santos AC, Veiga F, Rebelo R, Reis RL, Correlo VM. Melanin nanoparticles as a promising device for biomedical purposes—a assessment. Acta Biomater. 2020;105:26–43.
Fan Q, Cheng Okay, Hu X, Ma X, Zhang R, Yang M, Lu X, Xing L, Huang W, Gambhir SS, Cheng Z. Transferring biomarker into molecular probe: melanin nanoparticle as a naturally lively platform for multimodality imaging. J Am Chem Soc. 2014;136:15185–94.
Sarbadhikary P, George BP, Abrahamse H. Current advances in photosensitizers as multifunctional theranostic brokers for imaging-guided photodynamic remedy of most cancers. Theranostics. 2021;11:9054–88.
Liu H, Yang Y, Liu Y, Pan J, Wang J, Man F, Zhang W, Liu G. Melanin-like nanomaterials for superior biomedical purposes: a flexible platform with extraordinary promise. Adv Sci. 2020;7:1903129.
Fan Q, Cheng Okay, Yang Z, Zhang R, Yang M, Hu X, Ma X, Bu L, Lu X, Xiong X, et al. Perylene-diimide-based nanoparticles as extremely environment friendly photoacoustic brokers for deep mind tumor imaging in residing mice. Adv Mater. 2015;27:843–7.
Zhao Z, Xu N, Wang Y, Ling G, Zhang P. Perylene diimide-based therapy and prognosis of illnesses. J Mater Chem B. 2021;9:8937–50.
Li Y, Chen Q, Pan X, Lu W, Zhang J. New perception into the applying of fluorescence platforms in tumor prognosis: from chemical foundation to medical software. Med Res Rev. 2023;43:570–613.
Liu J, Li R, Yang B. Carbon dots: a brand new sort of carbon-based nanomaterial with broad purposes. ACS Cent Sci. 2020;6:2179–95.
Jeong S, Yoo SW, Kim HJ, Park J, Kim JW, Lee C, Kim H. Current progress on molecular photoacoustic imaging with carbon-based nanocomposites. Supplies. 2021;14:5643.
Kang MS, Lee H, Jeong SJ, Eom TJ, Kim J, Han D-W. State of the Artwork in carbon nanomaterials for photoacoustic imaging. Biomedicines. 2022;10:1374.
Wang Z, Solar X, Huang T, Track J, Wang Y. A sandwich nanostructure of gold nanoparticle coated diminished graphene oxide for photoacoustic imaging-guided photothermal remedy within the second NIR window. Entrance Bioeng Biotechnol. 2020. https://doi.org/10.3389/fbioe.2020.00655.
Crețu BE-B, Dodi G, Shavandi A, Gardikiotis I, Șerban IL, Balan V. Imaging constructs: the rise of iron oxide nanoparticles. Molecules. 2021;26:3437.
Qi Z, Shi J, Zhang Z, Cao Y, Li J, Cao S. PEGylated graphene oxide-capped gold nanorods/silica nanoparticles as multifunctional drug supply platform with enhanced near-infrared responsiveness. Mater Sci Eng C. 2019;104:109889.
Itoo AM, Vemula SL, Gupta MT, Giram MV, Kumar SA, Ghosh B, Biswas S. Multifunctional graphene oxide nanoparticles for drug supply in most cancers. J Management Launch. 2022;350:26–59.
Lin L, Wang LV. The rising function of photoacoustic imaging in medical oncology. Nat Rev Clin Oncol. 2022;19:365–84.
Yang J, Su H, Solar W, Cai J, Liu S, Chai Y, Zhang C. Twin chemodrug-loaded single-walled carbon nanohorns for multimodal imaging-guided chemo-photothermal remedy of tumors and lung metastases. Theranostics. 2018;8:1966–84.
Solar S, Chen J, Jiang Okay, Tang Z, Wang Y, Li Z, Liu C, Wu A, Lin H. Ce6-modified carbon dots for multimodal-imaging-guided and single-NIR-laser-triggered photothermal/photodynamic synergistic most cancers remedy by diminished irradiation energy. ACS Appl Mater Interfaces. 2019;11:5791–803.
Jin C, Wang Okay, Oppong-Gyebi A, Hu J. Utility of nanotechnology in most cancers prognosis and remedy—a mini-review. Int J Med Sci. 2020;17:2964–73.
Upadhyay Okay, Tamrakar RK, Thomas S, Kumar M. Floor functionalized nanoparticles: a boon to biomedical science. Chem Biol Work together. 2023;380: 110537.
Zhang P, Li Y, Tang W, Zhao J, Jing L, McHugh KJ. Theranostic nanoparticles with disease-specific administration methods. Nano At the moment. 2022;42: 101335.
Wang L, Rao Y, Liu X, Solar L, Gong J, Zhang H, Shen L, Bao A, Yang H. Administration route governs the therapeutic efficacy, biodistribution and macrophage concentrating on of anti-inflammatory nanoparticles within the lung. J Nanobiotechnol. 2021;19:56.
Borg RE, Rochford J. Molecular photoacoustic distinction brokers: design ideas & purposes. Photochem Photobiol. 2018;94:1175–209.
Chen Q, Qin W, Qi W, Xi L. Progress of medical translation of handheld and semi-handheld photoacoustic imaging. Photoacoustics. 2021;22: 100264.
Lawrence DJ, Bayer CL. Photoacoustic imaging supplies an in vivo evaluation of the preeclamptic placenta reworking and performance in response to remedy. Placenta. 2022;126:46–53.
Lediju Bell MA. Photoacoustic imaging for surgical steerage: ideas, purposes, and outlook. J Appl Phys. 2020. https://doi.org/10.1063/5.0018190.
Fu Q, Zhu R, Track J, Yang H, Chen X. Photoacoustic imaging: distinction brokers and their biomedical purposes. Adv Mater. 2019;31: 1805875.
Mellor RD, Uchegbu IF. Ultrasmall-in-nano: why measurement issues. Nanomaterials. 2022;12:2476.
Mantri Y, Jokerst JV. Engineering plasmonic nanoparticles for enhanced photoacoustic imaging. ACS Nano. 2020;14:9408–22.
Ong SY, Zhang C, Dong X, Yao SQ. Current advances in polymeric nanoparticles for enhanced fluorescence and photoacoustic imaging. Angew Chem. 2021;60:17797–809.
Attia ABE, Balasundaram G, Moothanchery M, Dinish US, Bi R, Ntziachristos V, Olivo M. A assessment of medical photoacoustic imaging: present and future tendencies. Photoacoustics. 2019;16: 100144.
Zhao T, Desjardins AE, Ourselin S, Vercauteren T, Xia W. Minimally invasive photoacoustic imaging: present standing and future views. Photoacoustics. 2019;16: 100146.
Yang Z, Track J, Tang W, Fan W, Dai Y, Shen Z, Lin L, Cheng S, Liu Y, Niu G, et al. Stimuli-responsive nanotheranostics for real-time monitoring drug launch by photoacoustic imaging. Theranostics. 2019;9:526–36.
Zhu Q. A assessment of co-registered transvaginal photoacoustic and ultrasound imaging for ovarian most cancers prognosis. Curr Opin Biomed Eng. 2022;22: 100381.
Yang G, Amidi E, Chapman W, Nandy S, Mostafa A, Abdelal H, Alipour Z, Chatterjee D, Mutch M, Zhu Q. Co-registered photoacoustic and ultrasound imaging of human colorectal most cancers. J Biomed Choose. 2019;24:121913.
Banerjee P, Roy S, Chakraborty S. Current development of imaging methods of the lymphatic system: reply to the many years previous questions. Microcirculation. 2022;29: e12780.
Cardinell Okay, Gupta N, Koivisto BD, Kumaradas JC, Zhou X, Irving H, Luciani P, Yücel YH. A novel photoacoustic-fluorescent distinction agent for quantitative imaging of lymphatic drainage. Photoacoustics. 2021;21: 100239.
Padera TP, Meijer EFJ, Munn LL. The lymphatic system in illness processes and most cancers development. Annu Rev Biomed Eng. 2016;18:125–58.
Oliver G, Kipnis J, Randolph GJ, Harvey NL. The lymphatic vasculature within the twenty first century: novel useful roles in homeostasis and illness. Cell. 2020;182:270–96.
Solari E, Marcozzi C, Negrini D, Moriondo A. Lymphatic vessels and their environment: how native bodily elements have an effect on lymph circulate. Biology. 2020;9:463.
Russell PS, Hong J, Trevaskis NL, Windsor JA, Martin ND, Phillips ARJ. Lymphatic contractile perform: a complete assessment of drug results and potential medical software. Cardiovasc Res. 2021;118:2437–57.
Mukherjee A, Dixon JB. Mechanobiology of lymphatic vessels. In: Hecker M, Duncker DJ, editors. Vascular mechanobiology in physiology and illness. Cham: Springer Worldwide Publishing; 2021. p. 191–239.
Rezzola S, Sigmund EC, Halin C, Ronca R. The lymphatic vasculature: an lively and dynamic participant in most cancers development. Med Res Rev. 2022;42:576–614.
Misra S, Carroll BJ. Complete strategy to administration of lymphedema. Curr Deal with Choices Cardiovasc Med. 2023;25:245–60.
Brouillard P, Witte MH, Erickson RP, Damstra RJ, Becker C, Quéré I, Vikkula M. Main lymphoedema. Nat Rev Dis Prim. 2021;7:77.
Jaszkul KM, Farrokhi Okay, Castanov V, Minkhorst Okay, Li EA, Sano L, Kim S, Keelan S, Al-Ghanim Okay, Simpson A. International influence of lymphedema on high quality of life and society. Eur J Plast Surg. 2023. https://doi.org/10.1111/1471-0528.
Bernas M, Thiadens SRJ, Stewart P, Granzow J. Secondary lymphedema from most cancers remedy. Clin Exp Metastasis. 2022;39:239–47.
Gillot L, Baudin L, Rouaud L, Kridelka F, Noël A. The pre-metastatic area of interest in lymph nodes: formation and traits. Cell Mol Life Sci. 2021;78:5987–6002.
Vella G, Hua Y, Bergers G. Excessive endothelial venules in most cancers: regulation, perform, and therapeutic implication. Most cancers Cell. 2023;41:527–45.
Jones D. Parallels of resistance between angiogenesis and lymphangiogenesis inhibition in most cancers remedy. Cells. 2020;9: 762.
Liu H, Yang Z, Lu W, Chen Z, Chen L, Han S, Wu X, Cai T, Cai Y. Chemokines and chemokine receptors: a brand new technique for breast most cancers remedy. Most cancers Med. 2020;9:3786–99.
Li C, Jiang P, Wei S, Xu X, Wang J. Regulatory T cells in tumor microenvironment: new mechanisms, potential therapeutic methods and future prospects. Mol Most cancers. 2020;19:116.
Jalkanen S, Salmi M. Lymphatic endothelial cells of the lymph node. Nat Rev Immunol. 2020;20:566–78.
Giovanelli P, Sandoval TA, Cubillos-Ruiz JR. Dendritic cell metabolism and performance in tumors. Developments Immunol. 2019;40:699–718.
Ramos MJ, Lui AJ, Hollern DP. The evolving panorama of B cells in most cancers metastasis. Most cancers Res. 2023. https://doi.org/10.1158/0008-5472.CAN-23-0620.
Liskova A, Koklesova L, Samec M, Smejkal Okay, Samuel SM, Varghese E, Abotaleb M, Biringer Okay, Kudela E, Danko J, et al. Flavonoids in most cancers metastasis. Cancers. 2020;12:1498.
Gao S, Yang D, Fang Y, Lin X, Jin X, Wang Q, Wang X, Ke L, Shi Okay. Engineering nanoparticles for focused reworking of the tumor microenvironment to enhance most cancers immunotherapy. Theranostics. 2019;9:126–51.
Tan YY, Yap PK, Xin Lim GL, Mehta M, Chan Y, Ng SW, Kapoor DN, Negi P, Anand Okay, Singh SK, et al. Views and developments within the design of nanomaterials for focused most cancers theranostics. Chem Biol Work together. 2020;329: 109221.
Zackrisson S, Van De Ven S, Gambhir S. Mild in and sound out: rising translational methods for photoacoustic imaging. Most cancers Res. 2014;74:979–1004.
Paltauf G, Nuster R, Frenz M. Progress in biomedical photoacoustic imaging instrumentation towards medical software. J Appl Phys. 2020;128:180907.
Li Y, Ayala-Orozco C, Rauta PR, Krishnan S. The applying of nanotechnology in enhancing immunotherapy for most cancers therapy: present results and perspective. Nanoscale. 2019;11:17157–78.
Veeranarayanan S, Maekawa T. Exterior stimulus responsive inorganic nanomaterials for most cancers theranostics. Adv Drug Deliv Rev. 2019;138:18–40.
Polomska AK, Proulx ST. Imaging know-how of the lymphatic system. Adv Drug Deliv Rev. 2021;170:294–311.
Deán-Ben XL, Razansky D. Optoacoustic picture formation approaches—a medical perspective. Phys Med Biol. 2019;64:18TR01.
Kashyap BK, Singh VV, Solanki MK, Kumar A, Ruokolainen J, Kesari KK. Sensible nanomaterials in most cancers theranostics: challenges and alternatives. ACS Omega. 2023;8:14290–320.
Zhou H, Lei P-J, Padera TP. Development of metastasis via lymphatic system. Cells. 2021;10:627.
Steinbrueck A, Karges J. Metallic complexes and nanoparticles for photoacoustic imaging. ChemBioChem. 2023;24:e2023000.
Cheng J, Liu Y, Zhao Y, Zhang L, Zhang L, Mao H, Huang C. Nanotechnology-assisted isolation and evaluation of circulating tumor cells on microfluidic gadgets. Micromachines. 2020;11:774.
Dai Y, Yu X, Wei J, Zeng F, Li Y, Yang X, Luo Q, Zhang Z. Metastatic standing of sentinel lymph nodes in breast most cancers decided with photoacoustic microscopy by way of dual-targeting nanoparticles. Mild Sci Appl. 2020;9:164.
Yasin D, Sami N, Afzal B, Husain S, Naaz H, Ahmad N, Zaki A, Rizvi MA, Fatma T. Prospects in using gold nanoparticles as most cancers theranostics and focused drug supply brokers. Appl Nanosci. 2023;13:4361–93.
Alsaab HO, Al-Hibs AS, Alzhrani R, Alrabighi KK, Alqathama A, Alwithenani A, Almalki AH, Althobaiti YS. Nanomaterials for antiangiogenic therapies for most cancers: a promising device for customized drugs. Int J Mol Sci. 2021;22:1631.
Chen M-H, Chen M-H, Li C-Y, Tung F-I, Chen S-Y, Liu T-Y. Utilizing gold-nanorod-filled mesoporous silica nanobeads for enhanced radiotherapy of oral squamous carcinoma. Nanomaterials. 2021;11:2235.
Han M, Choi W, Ahn J, Ryu H, Search engine optimization Y, Kim C. In vivo dual-modal photoacoustic and ultrasound imaging of sentinel lymph nodes utilizing a solid-state dye laser system. Sensors. 2020;20:3714.
Scheenen TWJ, Zamecnik P. The function of magnetic resonance imaging in (future) most cancers staging: word the nodes. Make investments Radiol. 2021;56:42–9.
Novoselova MV, Abakumova TO, Khlebtsov BN, Zatsepin TS, Lazareva EN, Tuchin VV, Zharov VP, Gorin DA, Galanzha EI. Optical clearing for photoacoustic lympho-and angiography past standard depth restrict in vivo. Photoacoustics. 2020;20: 100186.
Kurochkin MA, German SV, Abalymov A, Vorontsov DА, Gorin DA, Novoselova MV. Sentinel lymph node detection by combining nonradioactive strategies with distinction brokers: state-of-the-art and prospects. J Biophotonics. 2022;15:e202100149.
Han M, Kang R, Zhang C. Lymph node mapping for tumor micrometastasis. ACS Biomater Sci Eng. 2022;8:2307–20.
Sinnamon AJ, Neuwirth MG, Track Y, Schultz SM, Liu S, Xu X, Sehgal CM, Karakousis GC. Multispectral photoacoustic imaging for the detection of subclinical melanoma. J Surg Oncol. 2019;119:1070–6.
Viator JA, Hazur M, Sajewski A, Tarhini A, Sanders ME, Edgar RH. Photoacoustic detection of circulating melanoma cells in late stage sufferers. J Innov Choose Well being Sci. 2020;13:2050023.
Liu J-J, Wang Z, Nie L-M, Zhu Y-Y, Li G, Lin L-L, Chen M, Zhang G-J. RGD-functionalised melanin nanoparticles for intraoperative photoacoustic imaging-guided breast most cancers surgical procedure. Eur J Nucl Med Mol Imaging. 2022;49:847–60.
Rostami P, Kashaninejad N, Moshksayan Okay, Saidi MS, Firoozabadi B, Nguyen N-T. Novel approaches in most cancers administration with circulating tumor cell clusters. J Sci-Adv Mater Dev. 2019;4:1–18.
Li F, Xu H, Zhao Y. Magnetic particles as promising circulating tumor cell catchers aiding liquid biopsy in most cancers prognosis: a assessment. TrAC Developments Anal Chem. 2021;145:116453.
von Knorring T, Mogensen M. Photoacoustic tomography for evaluation and quantification of cutaneous and metastatic malignant melanoma-a systematic assessment. Photodiagnosis Photodyn Ther. 2021;33: 102095.
Liu C, Liang Y, Wang L. Single-shot photoacoustic microscopy of hemoglobin focus, oxygen saturation, and blood circulate in sub-microseconds. Photoacoustics. 2020;17: 100156.
Grootendorst DJ, Jose J, Fratila RM, Visscher M, Velders AH, Ten Haken B, Van Leeuwen TG, Steenbergen W, Manohar S, Ruers TJM. Analysis of superparamagnetic iron oxide nanoparticles (Endorem®) as a photoacoustic distinction agent for intra-operative nodal staging. Distinction Media Mol Imaging. 2013;8:83–91.
Halder J, Pradhan D, Biswasroy P, Rai VK, Kar B, Ghosh G, Rath G. Developments in iron oxide nanoparticles: a nano-platform for theranostic software in breast most cancers. J Drug Goal. 2022;30:1055–75.
Vallabani NVS, Singh S. Current advances and future prospects of iron oxide nanoparticles in biomedicine and diagnostics. 3 Biotech. 2018;8:279.
Peng X, Wang J, Zhou F, Liu Q, Zhang Z. Nanoparticle-based approaches to focus on the lymphatic system for antitumor therapy. Cell Mol Life Sci. 2021;78:5139–61.
Kim M, Lee J-H, Nam J-M. Plasmonic photothermal nanoparticles for biomedical purposes. Adv Sci. 2019;6:1900471.
Lukianova-Hleb EY, Kim Y-S, Belatsarkouski I, Gillenwater AM, O’Neill BE, Lapotko DO. Intraoperative diagnostics and elimination of residual microtumours with plasmonic nanobubbles. Nat Nanotechnol. 2016;11:525–32.
Park B, Park S, Kim J, Kim C. Listening to drug supply and responses by way of photoacoustic imaging. Adv Drug Deliv Rev. 2022;184: 114235.
Mitchell MJ, Billingsley MM, Haley RM, Wechsler ME, Peppas NA, Langer R. Engineering precision nanoparticles for drug supply. Nat Rev Drug Discov. 2021;20:101–24.
Liu Y, Ou H, Pei X, Jiang B, Ma Y, Liu N, Wen C, Peng C, Hu X. Chemo-drug controlled-release methods of nanocarrier within the improvement of most cancers therapeutics. Curr Med Chem. 2021;28:6307–22.
Liu N, Mishra Okay, Stiel AC, Gujrati V, Ntziachristos V. The sound of drug supply: optoacoustic imaging in pharmacology. Adv Drug Deliv Rev. 2022;189: 114506.
Manivasagan P, Bharathiraja S, Bui NQ, Lim IG, Oh J. Paclitaxel-loaded chitosan oligosaccharide-stabilized gold nanoparticles as novel brokers for drug supply and photoacoustic imaging of most cancers cells. Int J Pharm. 2016;511:367–79.
Moore C, Chen F, Wang J, Jokerst JV. Listening for the therapeutic window: advances in drug supply using photoacoustic imaging. Adv Drug Deliv Rev. 2019;144:78–89.
Lee C, Kim J, Zhang Y, Jeon M, Liu C, Track L, Lovell JF, Kim C. Twin-color photoacoustic lymph node imaging utilizing nanoformulated naphthalocyanines. Biomaterials. 2015;73:142–8.
Kunde SS, Wairkar S. Focused supply of albumin nanoparticles for Breast most cancers: a assessment. Colloids Surf B Biointerfaces. 2022;213: 112422.
Du B, Qu C, Qian Okay, Ren Y, Li Y, Cui X, He S, Wu Y, Ko T, Liu R, et al. An IR820 dye–protein advanced for second near-infrared window and photoacoustic imaging. Adv Choose Mater. 2020;8: 1901471.
Yücel YH, Cheng F, Cardinell Okay, Zhou X, Irving H, Gupta N. Age-related decline of lymphatic drainage from the attention: a noninvasive in vivo photoacoustic tomography research. Exp Eye Res. 2020;194: 108029.
Dongre A, Weinberg RA. New insights into the mechanisms of epithelial–mesenchymal transition and implications for most cancers. Nat Rev Mol Cell Biol. 2019;20:69–84.
Phillips MC, Mousa SA. Scientific software of nano-targeting for enhancing chemotherapeutic efficacy and security in most cancers administration. Nanomedicine. 2022;17:405–21.
Kukačka J, Metz S, Dehner C, Muckenhuber A, Paul-Yuan Okay, Karlas A, Fallenberg EM, Rummeny E, Jüstel D, Ntziachristos V. Picture processing enhancements afford second-generation handheld optoacoustic imaging of breast most cancers sufferers. Photoacoustics. 2022;26: 100343.
Park Okay, Kim JY, Lee C, Jeon S, Lim G, Kim C. Handheld photoacoustic microscopy probe. Sci Rep. 2017;7:13359.
Ansari R, Zhang EZ, Desjardins AE, Beard PC. All-optical forward-viewing photoacoustic probe for high-resolution 3D endoscopy. Mild Sci Appl. 2018;7:75.
Lin CY, Chen F, Hariri A, Chen CJ, Wilder-Smith P, Takesh T, Jokerst JV. Photoacoustic imaging for noninvasive periodontal probing depth measurements. J Dent Res. 2018;97:23–30.
Soto F, Wang J, Ahmed R, Demirci U. Medical micro/nanorobots in precision drugs. Adv Sci. 2020;7: 2002203.
Liu Y, Bhattarai P, Dai Z, Chen X. Photothermal remedy and photoacoustic imaging by way of nanotheranostics in preventing most cancers. Chem Soc Rev. 2019;48:2053–108.
Wang Q, He Z, Zhu H, Gao W, Zhang N, Li J, Yan J, He B, Ye X. Concentrating on drug supply and environment friendly lysosomal escape for chemo-photodynamic most cancers remedy by a peptide/DNA nanocomplex. J Mater Chem B. 2022;10:438–49.
James S, Neuhaus Okay, Murphy M, Leahy M. Distinction brokers for photoacoustic imaging: a assessment of stem cell monitoring. Stem Cell Res Ther. 2021;12:511.
[ad_2]
