Hamstring Syndrome (Clinical Manifestation, Diagnosis, Treatment)

Mironov, S P; Orletskiy, A. K.; Vasil'ev, D O

doi:10.17816/vto200411145-46

N.N. Priorov Journal of Traumatology and Orthopedics

2004

DOI: 10.17816/vto200411145-46

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Hamstring Syndrome (Clinical Manifestation, Diagnosis, Treatment)

S P Mironov¹,

A. K. Orletskiy²,

D O Vasil'ev³

Abstract: For the first time in native practice the approaches to diagnosis of insufficiently studied pathology - hamstring syndrome were detected. Method of operative treatment was elaborated and successfully used at clinic. In 12 patients the 2 years follow up results of operative treatment were good.

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2006

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“…11th International Ceramics Congress 1.a. It has been reported that this salt has some water molecules bonded to the cation and others bonded to the anion, so that some intermediate salts are obtained from its thermal decomposition [31,32]. The first peak at ≈ 120ºC, with a weight loss ≈ 33%, corresponding to 12 moles of H 2 O, suggests that not all the molecules of water associated to the salt are lost and the compound Al 2 (SO 4 ) 3 •6H 2 O has probably been formed [32].…”

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Synthesis of Gamma-Alumina Nanoparticles by Freeze Drying

Nieto

Tallón

Moreno

2006

Advances in Science and Technology

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Synthesis by freeze-drying basically consists in rapidly freezing an aqueous salt solution containing the desired cation and the further sublimation of ice under vacuum conditions. After a conventional thermal treatment, the oxide nanoparticles are obtained. The influence of the parameters involved in the synthesis of γ-Al2O3 nanoparticles by a freeze-drying method have been studied: type of precursor salt (chloride and sulphate), salt solution concentrations (0.76-1.40 M), freezing rate and thermal treatment. Amorphous aluminium sulphate spherical granules with diameters ranging from 1 to 100 μm have been obtained. This compound decomposes at 825°C, leading to the formation of γ-Al2O3. These porous granules are constituted by soft agglomerates of nanoparticles with primary particle size lower than 20 nm and values of the specific surface area of 120-180 m2/g. By optimizing the dispersing conditions a minimum particle size < 30 nm is measured, thus confirming that granules can be easily dispersed into nanoparticles. The thermal treatment determines the crystalline degree of the γ-Al2O3 and the surface area. A multimodal porosity is always obtained. The mesoporosity with mean size of 10 nm, attributed to the interparticulate porosity is practically constant, and the interagglomerate porosity (100-600 nm) strongly depends on the salt concentration, freezing rate and thermal treatment of the powders.

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confidence: 99%

Synthesis of Gamma-Alumina Nanoparticles by Freeze Drying

Nieto

Tallón

Moreno

2006

Advances in Science and Technology

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Hamstring Syndrome (Clinical Manifestation, Diagnosis, Treatment)

Cited by 1 publication

References 1 publication

Synthesis of Gamma-Alumina Nanoparticles by Freeze Drying

Synthesis of Gamma-Alumina Nanoparticles by Freeze Drying

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