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Journal articles on the topic 'Tissue therapy'

Author: Grafiati
Published: 4 June 2021
Last updated: 26 July 2025

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1

Osuchowski, Michał, David Aebisher, Dorota Bartusik-Aebisher, et al. "Photodynamic Therapy-Adjunctive Therapy in the Treatment of Prostate Cancer." Diagnostics 12, no. 5 (2022): 1113. http://dx.doi.org/10.3390/diagnostics12051113.

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The alarming increase in the number of advanced-stage prostate cancer cases with poor prognosis has led to a search for innovative methods of treatment. In response to the need for implementation of new and innovative methods of cancer tissue therapy, we studied photodynamic action in excised prostate tissue in vitro as a model for photodynamic therapy. To ascertain the effects of photodynamic action in prostate tissue, Rose Bengal (0.01 to 0.05 mM) was used as a photosensitizer in the presence of oxygen and light to generate singlet oxygen in tissues in vitro. Five preset concentrations of Ro
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2

Dr., Rajiv Chugh. "Vital Pulp Therapy." A Journal of Clinical Dentistry HealTalk 14, no. 03 (2022): 6–7. https://doi.org/10.4880/zenodo.5820297.

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The human dental pulp is a type of connective tissue found within the hard tissues (dentine and enamel) of the teeth. The vitality of dental pulp is essential for long-term tooth survival. The dental pulp is at risk of infection when exposed to damage such as caries or tooth fracture, which can lead to pain, necrosis, and infection of the jaw bone and the surrounding tissues. The aim of vital pulp therapy is to maintain the healthy pulp tissue and stimulate the formation of reparative dentine by eliminating bacteria from the dentin-pulp complex. The basis of carrying out the Vital Pulp Therapy
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3

Predich, Mima. "Tissue-specific gene therapy." Nature Biotechnology 14, no. 4 (1996): 438. http://dx.doi.org/10.1038/nbt0496-438.

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4

Abhishek, Keskar. "Gene Therapy Review." International Journal of Pharmaceutical Sciences 2, no. 11 (2024): 1704–15. https://doi.org/10.5281/zenodo.14249376.

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Gene therapy involves transferring genetic material into cells to treat disease. This review will discuss gene transfer methods and current and potential applications for craniofacial regeneration, focusing on future development and design. Non-viral gene delivery methods have limitations in gene transfer efficiency. However, they offer advantages such as safety, low immunogenicity, ease of manufacturing, and lack of DNA insert size restrictions. Viral vectors are natural tools for delivering genes. They can be tailored for targeting specific tissues, integrating into specific sites on chromos
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5

Nagaya, Noritoshi. "Induction therapy of tissue regeneration based on tissue engineering Hybrid cell-gene therapy for tissue regeneration." Drug Delivery System 20, no. 2 (2005): 105–9. http://dx.doi.org/10.2745/dds.20.105.

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6

Loginova, Loginova E. N., Nechaeva G. I. Nechaeva, Dakuko A. N. Dakuko, Bogatyrev I V. Bogatyrev I, Potapov V. V. Potapov, and Kirichenko N. A. Kirichenko. "Arrhythmic syndrome of undifferentiated connective tissue dysplasia." Therapy 9_2023 (December 25, 2023): 150–56. http://dx.doi.org/10.18565/therapy.2023.9.150-156.

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7

Uppal, Ridhima, Vidushi Sheokand, Amit Bhardwaj, Chinnu Mary Varghese, and Harender Sehrawat. "Aesthetic Considerations in Implant Therapy - A Review." Journal of Evolution of Medical and Dental Sciences 11, no. 1 (2022): 277–82. http://dx.doi.org/10.14260/jemds/2022/52.

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The success of dental implant depends on its integration with the surrounding tissue and this is influenced by various factors, like implant material, amount of bone and its quality and the implant loading condition. The peri-implant tissue is comprised of the soft (mucosa) and hard (bone) tissues. Absolute contact between the peri-implant bone and the implant surface is another factor essential for the success of any implant system. The direct structural and functional connection between ordered living bone and the surface of a load-carrying implant is defined as ''Osseointegration''. The bon
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8

Fisk, NM, J. Chan, and K. O’Donoghue. "Intrauterine Stem Cell Therapy." Annals of the Academy of Medicine, Singapore 32, no. 5 Suppl (2003): S8—S10. http://dx.doi.org/10.47102/annals-acadmedsg.v32n5sps8.

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Stem cells are found in embryonic, fetal and most adult tissues, and are characterised by two properties: the ability to self renew and to differentiate into multiple discrete tissue types. They offer great promise for tissue regeneration, cell replacement and gene therapy against a range of human diseases, but, with the exception of haemopoietic stem cells, clinical application at present remains largely speculative. Recent success with stem cell transplantation in adults and children, together with advances in stem cell biology and gene manipulation now render intrauterine correction of gene
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9

Konev, Konev V. P., Moskovsky S. N. Moskovsky, Krivosheyn A. E. Krivosheyn, et al. "Osteoporosis as a manifestation of connective tissue dysplasia." Therapy 7_2019 (December 6, 2019): 74–80. http://dx.doi.org/10.18565/therapy.2019.7.74-80.

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10

Yalaev, Yalaev B. I., Tyurin A. V. Tyurin, Nurlygayanov R. Z. Nurlygayanov, and Khusainova R. I. Khusainova. "Role of microRNA in multifactorial connective tissue pathology." Therapy 6_2020 (September 22, 2020): 35–39. http://dx.doi.org/10.18565/therapy.2020.6.35-39.

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11

Ratna, Ardhiyanti Puspita, Kevin Hizkya Ginting, Ipnu Subroto, Arif Santoso, and Reza Yuridian Purwoko. "Regenerative Medicine: Tissue Engineering and Stem Cell Therapy." Join: Journal of Social Science 1, no. 5 (2024): 230–54. http://dx.doi.org/10.59613/nbhme628.

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Regenerative medicine is an emerging field in the medical sciences, focusing on restoring the function of damaged tissues and organs through innovative techniques such as tissue engineering and stem cell therapy. This article explores key aspects of tissue engineering and stem cell therapy, highlighting their potential to revolutionize traditional medical treatments. Tissue engineering involves the use of specially designed biomaterial scaffolds that support the growth and differentiation of stem cells into functional tissues. Stem cell therapy, on the other hand, offers novel approaches for t
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12

Saeed, Sahar Issa, and Mudhaffar Jawad Kamees. "The Evolving Role of Ultrasound in Therapy." Al-Mustansiriyah Journal of Science 32, no. 5 (2021): 13–18. http://dx.doi.org/10.23851/mjs.v32i5.1117.

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This study highlights the role of ultrasound in therapy and to be a step toward of further development. When an ultrasound wave moves through a tissue it will raise the temperature of that tissue. This effect is beneficial in the treatment of some acute and chronic diseases. A special device used in this study. the device is designed to provide ultrasound waves with frequencies of 1 MHz and 3 MHz which are used in therapy. The frequency of ultrasound is inversely proportional to the depth of the tissues which have to be treated, 1 MHz frequency was used to treat deep body structures reaching 5
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13

Akatova, Akatova E. V., Arutyunov G. P. Arutyunov, Baranov A. A. Baranov, et al. "Clinical guidelines. Undifferentiated connective tissue disease." Therapy 5-prilojenie_2024 (August 5, 2024): 1–43. http://dx.doi.org/10.18565/therapy.2024.5suppl.1-43.

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14

Yamamoto, Masaya, and Yasuhiko Tabata. "Induction therapy of tissue regeneration based on tissue engineering Induction therapy of tissue regeneration for chronic fibrotic diseases." Drug Delivery System 20, no. 2 (2005): 110–17. http://dx.doi.org/10.2745/dds.20.110.

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15

Tabata, Yasuhiko. "Regenerative Medical Therapy for Hard Tissues Based on Tissue Engineering." Journal of Hard Tissue Biology 14, no. 2 (2005): 145–46. http://dx.doi.org/10.2485/jhtb.14.145.

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16

Maltseva, Maltseva I. V., Kotovschikova E. F. Kotovschikova, Fadeeva E. A. Fadeeva, and Lomakina N. A. Lomakina. "Peculiarities of connective tissue dysplasia manifestation in generation Z." Therapy 7_2019 (December 6, 2019): 54–59. http://dx.doi.org/10.18565/therapy.2019.7.54-59.

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17

Kruglov, A. N., and M. S. Zarbeeva. "Tissue therapy for severe trachoma." Kazan medical journal 43, no. 1 (2021): 47–48. http://dx.doi.org/10.17816/kazmj83087.

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A number of antibiotics (synthomycin, chloramphenicol, biomycin, terramycin and tetracycline), as well as sulfanilamide drugs (albucid, etazole, norsulfazole, etc.) are very effective in the treatment of trachoma both in fresh cases and in later cases, when there are no severe corneal lesions
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18

DeLany, Judith. "Connective tissue perspectives: Neuromuscular therapy." Journal of Bodywork and Movement Therapies 4, no. 4 (2000): 276–77. http://dx.doi.org/10.1054/jbmt.2000.0167.

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19

Upledger, John E. "Connective tissue perspectives: Craniosacral therapy." Journal of Bodywork and Movement Therapies 4, no. 4 (2000): 286–87. http://dx.doi.org/10.1054/jbmt.2000.0171.

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20

Neil Salyapongse, A., Timothy R. Billiar, and Howard Edington. "Gene Therapy And Tissue Engineering." Clinics in Plastic Surgery 26, no. 4 (1999): 663–76. http://dx.doi.org/10.1016/s0094-1298(20)32665-1.

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21

Pahk, K. J., D. K. Dhar, M. Malago, and N. Saffari. "Ultrasonic Histotripsy for Tissue Therapy." Journal of Physics: Conference Series 581 (January 29, 2015): 012001. http://dx.doi.org/10.1088/1742-6596/581/1/012001.

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22

Blagosklonny, M. V. "Tissue-selective therapy of cancer." British Journal of Cancer 89, no. 7 (2003): 1147–51. http://dx.doi.org/10.1038/sj.bjc.6601256.

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23

Burgess, Darren J. "Tissue penetration of photodynamic therapy." Nature Reviews Cancer 12, no. 11 (2012): 737. http://dx.doi.org/10.1038/nrc3393.

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24

Cutroneo, Kenneth R. "Gene therapy for tissue regeneration." Journal of Cellular Biochemistry 88, no. 2 (2002): 418–25. http://dx.doi.org/10.1002/jcb.10357.

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25

Nakajima, Hiroyuki, and Masashi Komeda. "Induction therapy of tissue regeneration based on tissue engineering Regeneration therapy in cardiovascular surgery." Drug Delivery System 20, no. 2 (2005): 88–95. http://dx.doi.org/10.2745/dds.20.88.

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26

Szabo, Dan Alexandru, Nicolae Neagu, Silvia Teodorescu, Corina Predescu, Ioan Sabin Sopa, and Loredana Panait. "TECAR Therapy Associated with High-Intensity Laser Therapy (Hilt) and Manual Therapy in the Treatment of Muscle Disorders: A Literature Review on the Theorised Effects Supporting Their Use." Journal of Clinical Medicine 11, no. 20 (2022): 6149. http://dx.doi.org/10.3390/jcm11206149.

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Background: It has been estimated that between 30 and 50 per cent of all injuries that take place throughout participation in a sport are the consequence of soft tissue injuries, and muscle injuries are the primary cause of physical disability. Methods: The current literature review was designed between October 2021 and April 2022, according to the PRISMA standards, using the PubMed, Scopus, and Web of Science databases. At the screening stage, we eliminated articles that did not fit into the themes developed in all subchapters of the study (n = 70), articles that dealt exclusively with orthop
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27

Mridha Sharma and Kirandeep Kaur. "Stem Cell Therapy: A Review." International Healthcare Research Journal 2, no. 1 (2018): 3–5. http://dx.doi.org/10.26440/ihrj/02_01/155.

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The human body is an intricate system consisting of numerous cells and tissues working in an organized fashion for the sustenance of life and stem cell biology become an important field for the understanding of tissue regeneration and implementation of regenerative medicine. Stem cells have capability of replicating themselves and can be readily available at the time of a planned procedure. Furthermore, it’s been shown that these cells have high potential to serve as resources not for medical therapies and tissue engineering, but also for dental or bone reconstruction. Stem cell research is no
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28

Munjal, Neha, Shalini Kapoor, Amit Bhardwaj, Gaurav Thakur, and Preeti Karhana. "Regeneration Therapy in Furcation Defect." Journal of Evolution of Medical and Dental Sciences 10, no. 15 (2021): 1091–94. http://dx.doi.org/10.14260/jemds/2021/233.

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One of the main objectives of periodontal therapy is to regenerate tissues lost as a result of periodontal disease.1 Regeneration is the growth and differentiation of the new cells and intercellular substances to form its precursor or regeneration occurs through same type of tissue that has been destroyed from same type of precursor. It is a continuous-physiological phenomenon of new cells along with tissues which are constantly formed and manifested by mitotic activity in epithelium and connective tissue, new bone formation, and continuous cementum deposition. Histological and clinical studie
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29

Vershinina, Vershinina M. V., Khomenya A. A. Khomenya, Foronosova O. A. Foronosova, and Gudilin V. A. Gudilin. "Psycho-vegetative relationships in young smokers with connective tissue dysplasia." Therapy 7_2019 (December 6, 2019): 43–49. http://dx.doi.org/10.18565/therapy.2019.7.43-49.

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30

Vershinina, Vershinina M. V., Nechaeva G. I. Nechaeva, and Gudilin V. A. Gudilin. "Relative cardiovascular risk in young patients with connective tissue dysplasia." Therapy 6_2020 (September 22, 2020): 40–44. http://dx.doi.org/10.18565/therapy.2020.6.40-44.

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31

Viktorova, Viktorova I. A., Ivanova D. S. Ivanova, Nechaeva G. I. Nechaeva, et al. "Rehabilitation of patients with connective tissue dysplasia in outpatient practice." Therapy 6_2020 (September 22, 2020): 8–17. http://dx.doi.org/10.18565/therapy.2020.6.8-17.

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32

Hakim, Mumin, Dmitry Tumin, David P. Martin, et al. "Changes in Cerebral Oxygenation during Transfusion Therapy." Journal of ExtraCorporeal Technology 48, no. 4 (2016): 173–78. http://dx.doi.org/10.1051/ject/201648173.

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This study assesses the effects of transfusion of autologous or allogeneic blood on cerebral and tissue oxygenation during spinal surgery. Packed red blood cell transfusions are indicated to improve oxygen delivery to tissues. There are limited data demonstrating changes in tissue oxygenation with blood administration. Tissue (deltoid) and cerebral oxygenation were monitored using near-infrared spectroscopy during spinal surgery in patients. As indicated, cell saver or allogeneic blood was administered. Tissue and cerebral oxygenation were recorded before and after transfusion. The study enrol
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33

Thompson, William R., Alexander Scott, M. Terry Loghmani, Samuel R. Ward, and Stuart J. Warden. "Understanding Mechanobiology: Physical Therapists as a Force in Mechanotherapy and Musculoskeletal Regenerative Rehabilitation." Physical Therapy 96, no. 4 (2016): 560–69. http://dx.doi.org/10.2522/ptj.20150224.

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Achieving functional restoration of diseased or injured tissues is the ultimate goal of both regenerative medicine approaches and physical therapy interventions. Proper integration and healing of the surrogate cells, tissues, or organs introduced using regenerative medicine techniques are often dependent on the co-introduction of therapeutic physical stimuli. Thus, regenerative rehabilitation represents a collaborative approach whereby rehabilitation specialists, basic scientists, physicians, and surgeons work closely to enhance tissue restoration by creating tailored rehabilitation treatments
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34

Vangsness, C. Thomas, Ivan A. Garcia, C. Randal Mills, Marion A. Kainer, Michael R. Roberts, and Tillman M. Moore. "Allograft Transplantation in the Knee: Tissue Regulation, Procurement, Processing, and Sterilization." American Journal of Sports Medicine 31, no. 3 (2003): 474–81. http://dx.doi.org/10.1177/03635465030310032701.

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Use of musculoskeletal allografts has become increasingly popular, with widespread use among knee surgeons. The advantages and disadvantages of their use have been documented. In the knee, allografts are used for ligament reconstruction, meniscal transplantation, and articular surface reconstruction. The purpose of this review is to present issues surrounding the allograft industry, including regulation of tissues and tissue banks and procurement, processing, sterilization, and storage of allograft tissue. Tissue bank regulation is ultimately under the jurisdiction and authority of the Food an
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35

Лисин and V. Lisin. "Evaluation of Therapeutic Gain \factor in Neutron Therapy Based on the Linear Quadratic Model." Medical Radiology and radiation safety 62, no. 1 (2017): 65–70. http://dx.doi.org/10.12737/25063.

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Purpose: To study the dependencies of therapeutic gain factor (TGF) on dose of cyclotron-produced fast neutron beams using the linear-quadratic model (LQM) parameters characterizing radiation response in tumor and normal tissues.
 Material and methods: The TGF in neutron therapy was calculated as the ratio of the relative biological effectiveness of neutrons for tumor (RBE tumor) to relative biological effectiveness for normal tissue (RBE normal tissue). The LQM was used to calculate the dependencies of neutron RBE on the dose and therapeutic gain factor. We considered two cases: 1) neutr
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36

Nechaeva, Nechaeva G. I., Rozhkova M. Yu Rozhkova, Tereshchenko Yu V. Tereshchenko, Sbitneva L. V. Sbitneva, Silvanovich S. V. Silvanovich, and Stepanov A. A. Stepanov. "Clinical variants of dyspepsia syndrome in patients with connective tissue dysplasia." Therapy 3_2019 (July 22, 2019): 20–24. http://dx.doi.org/10.18565/therapy.2019.3.20-24.

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37

Kokorin, Kokorin V. A., Markova O. A. Markova, Gordeyev I. G. Gordeyev, et al. "Recombinant tissue plazminogen activator Revelisa® in patients with myocardial infarction." Therapy 2_2019 (May 27, 2019): 42–57. http://dx.doi.org/10.18565/therapy.2019.2.42-57.

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38

Nechaeva, Nechaeva G. I., Rozhkova M. Yu Rozhkova, Tereshchenko Yu V. Tereshchenko, Sbitneva L. V. Sbitneva, Silvanovich S. V. Silvanovich, and Stepanov A. A. Stepanov. "Clinical variants of dyspepsia syndrome in patients with connective tissue dysplasia." Therapy 3_2019 (July 22, 2019): 20–25. http://dx.doi.org/10.18565/therapy.2019.3.20-25.

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39

Semenova, Semenova E. V., Nechaeva G. I. Nechaeva, Loginova E. N. Loginova, and Semenkin A. A. Semenkin. "Hereditary connective tissue disorders: a thematic bibliographic review of foreign publications." Therapy 6_2020 (September 22, 2020): 114–22. http://dx.doi.org/10.18565/therapy.2020.6.114-122.

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40

Sahoo, Sambit, Thomas KH Teh, Pengfei He, Siew Lok Toh, and James CH Goh. "Interface Tissue Engineering: Next Phase in Musculoskeletal Tissue Repair." Annals of the Academy of Medicine, Singapore 40, no. 5 (2011): 245–51. http://dx.doi.org/10.47102/annals-acadmedsg.v40n5p245.

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Increasing incidence of musculoskeletal injuries coupled with limitations in the current treatment options have necessitated tissue engineering and regenerative medicine- based approaches. Moving forward from engineering isolated musculoskeletal tissues, research strategies are now being increasingly focused on repairing and regenerating the interfaces between dissimilar musculoskeletal tissues with the aim to achieve seamless integration of engineered musculoskeletal tissues. This article reviews the state-of-the-art in the tissue engineering of musculoskeletal tissue interfaces with a focus
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41

Boboqulov, Hakim Hikmat ugli. "VACUUM THERAPY OF POSTOPERATIVE WOUNDS." EURASIAN JOURNAL OF MEDICAL AND NATURAL SCIENCES 2, no. 11 (2022): 205–8. https://doi.org/10.5281/zenodo.7202794.

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The mechanisms of action of negative pressure wound therapy (vacuum therapy) are described -one of the latest techniques used in the treatment of wounds of various etiologies. Negative pressure ensures continuous fluid evacuation, stimulates the proliferation of granulation tissue tissues and effectively cleans the surface of the wound. This article provides information about vacuum therapy of postoperative wounds.
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42

Ahsan, Zahab S., Erin E. Berube, Brian J. Frondorf, et al. "Role of Lateral Extra-articular Tenodesis in Restraining Internal Tibial Rotation: In Vitro Biomechanical Assessment of Lateral Tissue Engagement." American Journal of Sports Medicine 52, no. 1 (2024): 87–95. http://dx.doi.org/10.1177/03635465231211534.

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Background: The way in which force increases in the anterolateral tissues and the lateral extra-articular tenodesis (LET) tissue to resist internal rotation (IR) of the tibia after anterior cruciate ligament (ACL) reconstruction in isolation and after LET augmentation, respectively, is not well understood. Purpose: (1) To compare in a cadaveric model how force increases (ie, engages) in the anterolateral tissues with IR of the tibia after isolated ACL reconstruction and in the LET tissue after augmentation of the ACL reconstruction with LET and (2) to determine whether IR of the tibia is relat
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43

Raj, Shalya, Rohit Ravinder, and Preeti Mishra. "Gene Therapy: A Review." International Journal of Research and Review 8, no. 6 (2021): 35–39. http://dx.doi.org/10.52403/ijrr.20210606.

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The goal of gene-enhanced tissue engineering is to regenerate lost tissue by the local delivery of cells that have been genetically-enhanced to deliver physiologic levels of specific growth factors. The basis for this approach lies in the presence of a population of progenitor cells that can be induced, under the influence of these growth factors, to differentiate into the specific cells required for tissue regeneration, with guidance from local clues in the wound environment. Keywords: Gene therapy, Growth factor, Tissue engineering, Regeneration.
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44

Orr, Bill. "Soft Tissue Release." Physiotherapy 85, no. 2 (1999): 104. http://dx.doi.org/10.1016/s0031-9406(05)66134-2.

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45

Holey, Liz A. "Connective Tissue Manipulation." Physiotherapy 81, no. 12 (1995): 730–39. http://dx.doi.org/10.1016/s0031-9406(05)66573-x.

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46

Swaney, Sue. "Soft Tissue Manipulation." Physiotherapy 82, no. 2 (1996): 143. http://dx.doi.org/10.1016/s0031-9406(05)66987-8.

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47

Bart Koes, Danielle van der Windt. "Soft-tissue Relationships." Physiotherapy 83, no. 3 (1997): 160. http://dx.doi.org/10.1016/s0031-9406(05)67184-2.

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48

Hills, WM. "Connective Tissue Techniques." Physiotherapy 77, no. 7 (1991): 460. http://dx.doi.org/10.1016/s0031-9406(10)61831-7.

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49

Holey, Liz. "Connective Tissue Techniques." Physiotherapy 77, no. 7 (1991): 460. http://dx.doi.org/10.1016/s0031-9406(10)61832-9.

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50

Brauer, Sandra. "Soft tissue injuries." Australian Journal of Physiotherapy 52, no. 4 (2006): 309. http://dx.doi.org/10.1016/s0004-9514(06)70019-8.

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