Effect of low-energy shock waves in micro-fracture holes in the repair of articular cartilage

BS-SWT2X uses the latest electric-magnetic technology, without air-compressor, so comes with longer lifecycle, at the same time it can provide higher energy and frequency for better treatment result. From technical view, BS-SWT2X can reach energy from 10mJ (0.25Bar) to 190mJ (5Bar), adjustable at stepping 10mJ(0.25Bar). Frequency ranges from 1Hz to 22Hz adjustable. BS-SWT2X has rich software, include: 38 pre-set treatment protocols, wizard-treatment menu, unlimited customized settings, customer profile management. From the view of patient's feeling, BS-SWT2X provides more comfortable feeling, thus even customer receive same dosage in treatment they will have better feeling (less pain).

Smartwave's Radial Pressure Wave technology is now mobile. The Mobile RPW is compact and light enough to be easily carried while also delivering many of features and benefits of the Clinical model. When the need for a powerful yet portable Radial Pressure Wave device is called upon in the clinic or the athletic sports field, the Smartwave Mobile RPW is the ideal choice. Its lightweight and compact design, together with its quiet, built-in compressor makes it perfect for portable use. User friendliness is at the heart of the Mobile RPW's design.

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Effect of Extracorporeal Shock Wave Therapy on Hamstring Tightness in Healthy Subjects: A Pilot Study Yong Wook Kim1 *, Won Hyuk Chang2 *, Na Young Kim1 , Jun Beom Kwon1 , and Sang Chul Lee1 1 Department of Rehabilitation Medicine and Research Institute, Yonsei University College of Medicine, Seoul; 2 Department of Physical and Rehabilitation Medicine, Samsung Medical Center, Sungkyunkwan University School of Medicine, Seoul, Korea. Purpose: To assess the effect of extracorporeal shock wave therapy (ESWT) for healthy participants with hamstring tightness. Materials and Methods: This study was performed at a university rehabilitation hospital. Twenty nine healthy adults with hamstring tightness were enrolled and randomly allocated into four groups (ESWT, stretching exercise, ESWT with stretching exercise, and control). The effects of individual treatments were compared by the finger-to-floor test and popliteal angle. Results: The ESWT group, stretching exercise group and ESWT with stretching exercise group had decreased finger-to-floor distances and right popliteal angles immediately after intervention, compared with the control group (p<0.05). At 4 weeks after completion of the interventions, finger-to-floor distances and the right popliteal angle in only the ESWT with stretching exercise group showed a significant improvement, compared with the control group (p=0.008 and 0.023). Conclusion: While ESWT and stretching both reduced hamstring tightness immediately after interventions, only ESWT with stretching exercise maintained the significantly improved relief of hamstring tightness significantly after 4 weeks. Key Words: ESWT, stretching, hamstring tightness, spasticity

Microfracture is a type of bone marrow stimulation in arthroscopic cartilage repair. However, the overall concentration of the mesenchymal stem cells is quite low and declines with age, and in the end the lesion is filled by fibrocartilage. The aim of this research was to investigate a novel method of enhancing microfracture by determining whether low-energy shock waves in microfracture holes would facilitate cartilage repair in a rabbit model. Full-thickness cartilage defects were created at the medial femoral condyle of 36 mature New Zealand white rabbits without penetrating subchondral bone. The rabbits were randomly divided into three groups. In experimental group A, low-energy shock-wave therapy was performed in microfracture holes (diameter, 1 mm) at an energy flux density (EFD) of 0.095 mJ/mm² and 200 impulses by DolorClast Master (Electro Medical Systems SA, Switzerland) microprobe (diameter, 0.8 mm). In experimental group B, microfracture was performed alone. The untreated rabbits served as a control group. At 4, 8, and 12 weeks after the operations, repair tissues at the defects were analyzed stereologically, histologically, and immunohistochemically. The defects were filled gradually with repair tissues in experimental groups A and B, and no repair tissues had formed in the control group at 12 weeks. Repair tissues in experimental group A contained more chondrocytes, proteoglycans, and collagen type II than those in experimental group B. In experimental group B, fibrous tissues had formed at the defects at 8 and 12 weeks. Histological analysis of experimental group A showed a better Wakitani score (P < 0.05) than in experimental group B at 8 and 12 weeks after the operation. In the repair of full-thickness articular cartilage defects in rabbits, low-energy shock waves in microfracture holes facilitated the production of hyaline-like cartilage repair tissues more than microfracture alone. This model demonstrates a new method of improving microfracture and applying shock waves in vivo. However, longer-term outcomes require further study.

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Sincery International Ltd. is a professional manufacturer of aesthetic and medical equipment. Our delivery includes equipment and solutions. Main product: Radial shockwave therapy machine (RSWT), Acoustic wave therapy machine (AWT), Facial skin analyzer magic mirror, LLLT hair growth system, Power assisted liposuction, LED phototherapy system for PDT and DPL, Q-switch nd:Yag laser, HF Vascular removal, Lipomassage body slimming system, Cryolipolysis coolsculpting system, IPL and Elight, CO2 surgical laser and fractional laser, Dermaroller and dermabrasion, Jetpeel oxygen therapy system, RF skin tightening and wrinkle removal, Body composition analyzer,  Dermaroller and dermapen, etc.

In past years, Sincery has setup its own research and development team, manufacturing workshop and professional team for after-sales service. We are looking forward to setup cooperation with distributors all over the world.