Considering each swimmer individually, a positive correlation was observed between the hip and CM values regarding velocity (ranging from 0.50 to 0.83), which is in accordance with Maglischo et al. (1987) in front crawl technique www.selleckchem.com/products/17-DMAG,Hydrochloride-Salt.html (values between 0.86 and 0.96, with a mean coefficient of 0.87). These data, associated with the obtained high digitize-redigitize reliability values, evidence that, although there is an associated error that should be taken into account, the hip reflects satisfactorily the CM motion in front crawl when swimming at moderate intensity. The velocity to time curve obtained for one swimmer for both CM and hip showed similar patterns of positive and negative accelerations as described in the literature (Maglischo et al., 1987; Craig et al.

, 2006): both CM and hip decelerated during the downsweep phases (that are coincident with the recovery of the opposite arm) and in the transition from one propulsive phase to another, and both body points accelerated during the catch, insweep and upsweep phases. Thus, coaches should incorporate specific training drills aiming to perform faster transitions between propulsive phases, as well as to finish the stroke at maximal arm velocity. It was also evident that swimmers choose a catch-up inter-arm coordination mode that is typical of moderate paces due to a long gliding phase (Schnitzler et al., 2008; Seifert and Chollet, 2009; Seifert et al., 2010). In fact, the existence of a discontinuity between the end of the propulsion of one arm and the beginning of propulsion of the other arm is typical of front crawl swimming at moderate intensities (Seifert and Chollet, 2009; Seifert et al.

, 2010). Thus, coaches should not advise swimmers to adopt superposition arm synchronization when implementing aerobic pace training series. Furthermore, it was also evidenced that the hip presents higher and lower forward velocity peaks magnitude compared to CM, as shown by Maglischo et al. (1987) for higher swimming intensities. Notwithstanding that the forward velocity and displacement of the hip and CM are similar, and the evidence that the IVV determination using the hip is reliable, allows multiple cycles to be evaluated and enables the assessment of fatigue (Holm��r, 1979; Maglischo et al., 1987), differences between hip and CM were found for the IVV. Such differences corroborates the literature (Figueiredo et al.

, 2009), and might be explained by the inter-segmental actions during the front crawl swimming cycle that frequently changes the CM position (Barbosa et al., 2003). In addition, the CM vmax and vmin values seem to be over and underestimated (respectively) by the hip values, as previously proposed by Psycharakis and Sanders (2009). In fact, when the arms in front crawl accelerate the body Drug_discovery mass, they simultaneously move backwards with respect to a body fix landmark refraining the acceleration of the CM.

5 Wide applications Generally, xeroradiography has interesting applications in the management of neoplasm of laryngopharyngeal area, selleck chemicals Vismodegib mammary and joint region, as well as an aid in cephalometric analysis. POSSIBLE DISADVANTAGES OF XERORADIOGRAPHY One of the key characteristics of xeroradiography is the use of electrostatic charges in xeroradiographic process. Such charges stand the risk of being lost in confined humid oral environment in intraoral xeroradiograph.5,22,26 This is very difficult to overcome. Technical difficulties Both the amount of radiation exposure and the thickness of xeroradiographic plate are linearly proportional. An increased thickness of the plate will increase the speed, because of the greater likelihood that the x-rays passing through the photoconducting layer will interact.

27 Fragile selenium coat The amorphous selenium photoconductor is a highly electrically stable layer. However, the layer is quite easily scratched. Notwithstanding, it has been observed that the surface shows good resistance to scratching, chipping and abrasion. As a result, placement and retention in confined area like the mouth would possibly be difficult.5,19,22 Transient Image Retention Rawls and Owen19 reported that xeroradiographic process involves residual charge patterns and therefore, the imaging process should be completed as soon as possible. However, as long as the charge pattern is retained, the technique allows multiple copies to be obtained from the pattern.22,23 Slower speed Comparatively, xeroradiography has a lower speed than halide radiographs.

This can be significant when dealing with intraoral films.21,26 Technical limitations Certain technical limitations, such as low density of the selenium plate which requires increased doses of the x-rays administered make the technique not to be considered as a total substitute for halide radiograph.28 POTENTIAL ENDODONTIC APPLICATIONS Xeroradiography has several effects on the soft tissues that make the technique potentially useful in endodontics.29 First, soft tissues on xeroradiographic films have well defined outlines that may permit confident evaluation of the soft tissue height and contour. Second, xeroradiographs provide greater overall soft tissue detail making possible evaluation of its density, texture, and contents. Third, the technique reveals soft tissues calcifications which are not easily discerned in conventional radiographs.

6 Cilengitide This property may be employed in endodontics to visualized early pulpal calcifications. Other workers are of the view that some unique properties such as greater latitude of exposure, high resolving power, and the property of edge enhancement may be useful in endodontics. These properties may be exploited when detailed visualization of lamina dura, bony trabeculae, fine metal instruments like files, broaches etc, root apices, periodontal ligament spaces are required.

The subjects were fitted with a chest HR transmitter and wrist monitor recorder. HR was recorded, from the beginning of the session, using individual Polar RS400 (Polar? Vantage selleck bio NV, Polar Electro Oy, Finland), and subsequently exported and analyzed using the Polar Pro-Trainer? software program (Polar Electro Oy, Finland). The subjects could not see their HR measurements during the experimental trial, because it could influence their perceived effort on the Borg and OMNI RPE scales. For this reason, a sticker was placed on each HR monitor. The experimental trial was divided into four stages: a warm-up (10 minutes in a seated position, with a cadence of 90�C100 RPM (revolutions per minute)), a main phase (35 minutes, where the subjects alternated between normal seated positions and seated and standing climb cycling, between 60�C80 RPM in climb techniques and between 80 �C 110 RPM in normal seated cycling).

Then, a cool down (5 minutes, with a cadence of 80�C100 RPM) in a seated position and, finally, stretching exercises, of the principal muscles used in the session off cycling. During the experimental trial, HR was recorded every 5 s. The participants were instructed to follow the directions of a qualified indoor cycling instructor, which included recommended frequencies of pedalling (RPM) in each phase of the session and recommended cycle resistance. The instructor provided feedback to help the subjects to regulate their intensity. Although the resistance of the cycle could be freely changed by the participants during the session, the study subjects had to follow the instructions about the resistance and the RPM indicated by the instructor.

The Borg 6�C20 RPE and the OMNI 0�C10 scales were used to assess perceived exertion. The RPE is a 15-point single-item scale ranging from 6 to 20, with anchors ranging from 6 ��No exertion�� to 20 ��Maximum exertion��. The OMNI 0�C10 scale has a category rating format that contains both pictorial and verbal descriptors positioned along a comparatively narrow numerical response range, 0�C10. Each pictorial descriptor is consistent with its corresponding verbal descriptor, from 0 ��Extremely easy�� to 10 ��Extremely hard��. Both RPE scales were positioned within sight in the indoor cycling room. The subjects were instructed to give an overall perception about how hard the exercise felt according to both RPE scales every five minutes, from the start to the end of the indoor cycling session.

These values were written on a record sheet which the subjects had on their handlebars. Before the measurements, subjects were asked to read instructions on how to use these scales. A familiarization period of two weeks (and a minimum of 3 sessions per week) prior AV-951 to the experimental trial was carried out to accustom the participants with the Borg and the OMNI RPE scales. The first session consisted of familiarization to the RPE scales.

, 2008). However, these studies used only single-trial despite sprint protocols, neglecting to address the repeated-effort sprint requirements specific to the nature of many field and court sports. The relationship between the force-generating capacity of muscles and repeated-sprint ability has received little attention (Kin-??ler et al., 2008). Amputee soccer is gaining popularity throughout the world and it represents a game that places demand on anaerobic performance, muscular strength, sprint performance, balance and locomotor capacity. In amputee soccer, matches are played between teams of seven players using bilateral crutches. Wearing a prosthetic device is not allowed during match play (Yaz?c?oglu et al., 2007a). The match is played in two equal periods of 25 minutes each.

Play may be suspended for ��time-outs�� of one per team per half which must not exceed one minute. The half time interval must not exceed 10 minutes (Yaz?c?oglu et al., 2007b). These rules emphasize the importance of body composition, anaerobic performance and speed of action, three different variables that have not been hitherto studied within this frame. Therefore, the purpose of the present study was to investigate the relationship composition, anaerobic performance and sprint performance of amputee soccer players. Methods Subjects Fifteen male amputee soccer players with unilateral below-knee amputation participated in this study voluntarily. The causes of amputation were gun shot in 13 subjects, traffic accident in one subject and congenital malformation in one subject.

Their mean age, height, body mass and body fat were 25.5 ��5.8 yrs, 169.8 �� 5.5 cm, 66.5 �� 10.2 kg and 10.1 �� 3.6 %, respectively. The study group consisted of active football players of the amputee football team and all the players were the members of the same team competing in Amputee Super League and trained for two hours five days per week. Subjects�� mean training experience was 3.3 �� 2.9 yrs. Subjects were informed about the possible risks and benefits of the study and gave informed consent to participate in this study. Procedures Anthropometric Measurements The body height of the soccer players was measured by a stadiometer with an accuracy of �� 1 cm (SECA, Germany), and an electronic scale (SECA, Germany) with an accuracy of �� 0.1 kg was used to measure body mass.

Skinfold thickness was measured with a Holtain skinfold caliper (Hotain, UK) which applied a pressure Carfilzomib of 10 g/mm2 with an accuracy of �� 2 mm. Gulick anthropometric tape (Holtain, UK) with an accuracy of �� 1 mm was used to measure the circumference of extremities. Diametric measurements were determined by Harpenden calipers (Holtain, UK) with an accuracy of �� 1 mm. The soccer players�� somatotypes were then calculated using the Heath-Carter formula (1990) and the percentage of body fat was determined by the Jackson and Pollock formula (1978).