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200 10$aArts therapies with people with physical disabilities $ean archetypal approach /$fMarion Gordon-Flower
210  1$aLondon ;$aPhiladelphia :$cJessica Kingsley Publishers,$d2020.
215   $a1 online resource (186 pages)
311   $a1-78592-364-1 
327   $aOverview and introduction -- Developing therapeutic goal plans -- Individual arts therapy -- Art groups -- Environmental sculpture -- Expressive dance movement -- Drama -- Music -- Models of supervision within the multidisciplinary team.
330   $aFor those with mobility and communication challenges, arts therapies can be especially significant and rewarding as a means of self-expression and engaging with others. This book provides practical guidance on multimodal and archetypal arts therapy approaches adapted specifically for a physical disability context. Practical strategies and interventions are given, alongside case studies from individual and group arts therapy sessions. The author acknowledges the challenges of working with clients with physical disabilities, such as physical assistance in using resources, subtleties in communication of preferences and the need for extra members of staff, and gives clear guidance for accessible and effective sessions. This is essential reading for any arts therapist wanting a tailored approach to meeting the needs of people with physical disabilities, with a focus on person-centred and strengths-based methods. In addition, all frameworks covered are also adaptable for other client groups.
606   $aArts$xTherapeutic use
606   $aPeople with disabilities$xRehabilitation
606   $aPeople with disabilities and the arts
615  0$aArts$xTherapeutic use.
615  0$aPeople with disabilities$xRehabilitation.
615  0$aPeople with disabilities and the arts.
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200 10$aSmart Nanomaterials in Biomedical Applications /$fedited by Jin-Chul Kim, Madhusudhan Alle, Azamal Husen
205   $a1st ed. 2021.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2021.
215   $a1 online resource (603 pages)
225 1 $aNanotechnology in the Life Sciences,$x2523-8035
311 08$a3-030-84261-4 
327   $aForeword -- Preface -- Introduction to active smart nanomaterials for biomedical applications -- Cancer cell sensing and therapy using affinity tag-conjugated gold nanoparticles -- Gold nanoparticles enlighten the future of cancer theranostics -- Recent advances in hydrogels smart drug delivery systems -- Carbon-based nanomaterials for biomedical applications -- A new era of cancer treatment: carbon nanotubes as drug delivery tools -- pH- and ion-sensitive materials for control drug delivery -- Thermo-responsive polymers and their application as smart biomaterias -- Redox-responsive polymers and their application in drug delivery systems -- Recent strategies to explore the biomedical applications of nanocellulose -- Tissue engineering using cellulose nanofibrils as Scaffold material -- Use of solidlipid nanoparticles to improve the oral bioavailability of poor soluble drugs -- Applications of dendrimers in drug delivery systems -- Liposomes for drug delivery: progress and problems -- Cubosome nanoparticles for enhanced delivery of anticancer drug -- Layer-by-Layer assemblies for cancer diagnosis and treatment -- Polymeric micelles for drug delivery -- Role of plant-based materials/gums in developing drug delivery systems -- Ethosomes: A novel tool for drug delivery through the skin -- Niosomes as nanoparticular drug carriers: fundamentals and recent applications -- Graphene oxide nanosheets used in photothermal therapy -- Metal doped carbon dots used in bio-imaging and cancer therapy -- Bibliography -- Glossary -- Index.
330   $aWith the start of 2020, the wrath of pandemic challenged the scientific community to develop more advanced drug delivery approaches for biomedical applications, endowing conventional drugs with additional therapeutic benefits and minimum side effects. Although significant advancements have been done in the field of drug delivery, there is a need to focus towards strategizing novel and improved drug delivery systems that should be convenient and cost-effective to the patients, and simultaneously they should also provide financial benefits to pharmaceutical companies. Controlled drug delivery technology offers ample opportunities and scope for improvising the therapeutic efficacy of drugs via optimizing thedrug release rate and time. For this endeavour, smart nanomaterials have served as remarkable candidates for biomedical applications, owing to their ground-breaking properties and design. The development of such nanomaterials requires a broad knowledge related to their physio-chemical properties, molecular structure, mechanisms by which the nanomaterials interact with the cells, and methods by which drugs are released at the site of action. This knowledge must also be allied with the knowledge of signaling crosstalk mechanisms that are modulated by the nanomaterial-drugs composite. It can be anticipated that these emerging drug delivery technologies can facilitate the world to successfully encounter such pandemic outbursts in the future in a cost-effective and time-effective manner. The chapters in this book deal with the advanced technologies and approaches that can benefit advanced students, researchers, and industry experts in developing smart and intelligent nanomaterials for future biomedical applications, and development, manufacturing, and commercialization for controlled and targeted drug delivery.
410  0$aNanotechnology in the Life Sciences,$x2523-8035
606   $aCancer
606   $aNanomedicine
606   $aDrug delivery systems
606   $aNanotechnology
606   $aCancer Nanotechnology
606   $aDrug Delivery
606   $aNanotechnology
606   $aNanomedicine and Nanotoxicology
615  0$aCancer.
615  0$aNanomedicine.
615  0$aDrug delivery systems.
615  0$aNanotechnology.
615 14$aCancer Nanotechnology.
615 24$aDrug Delivery.
615 24$aNanotechnology.
615 24$aNanomedicine and Nanotoxicology.
676   $a620.5
676   $a610.28
702   $aKim$b Jin-Chul
702   $aAlle$b Madhusudhan
702   $aHusen$b Azamal
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