feasibility of the direct application of near infrared reflectance spectroscopy on intact chicken breasts to predict meat color and physical traits

Physical and color characteristics of chick- en meat were investigated on 193 animals by directly applying a fiberoptic probe to the breast muscle and us- ing the visible-near-infrared (NIR) spectral range from 350 to 1,800 nm. Data on pH was recorded 48 h post- mortem (pH); lightness (L*), redness (a*), and yellow- ness (b*) 48 h postmortem; thawing and cooking losses and shear force after freezing. Partial least squares regressions were performed using untreated data, raw absorbance data (log(1/R)), and multiplicative scat- ter correction plus first or second derivative spectra. Models were validated using full cross-validation, and their predictive ability was determined by root mean square error of cross-validation (RMSECV) and correla- tion coefficient of cross-validation (rcv). Means (±SD) of pH, L*, a*, b*, thawing loss, cooking loss, and shear force were 5.83 ± 0.13, 44.54 ± 2.42, −1.90 ± 0.62, 3.21 ± 3.28, 4.84 ± 2.44%, 19.39 ± 2.95%, and 16.08 ± 3.83 N, respectively. The best prediction models were developed using log(1/R) spectra for b* (rcv = 0.93; RMSECV = 1.16) and a* (rcv = 0.88; RMSECV = 0.29), while a medium predictive ability of NIR was obtained for pH, L*, and thawing and cooking losses (rcv from 0.69 to 0.76; RMSECV from 0.01 to 1.73). Finally, pre- dicted model for shear force (rcv = 0.41; RMSECV = 3.18) was unsatisfactory. Results suggest that NIR is a feasible technique for the assessment of several quality traits of intact breast muscle

Italian consensus conference on guidelines for conservative treatment on lower limb muscle injuries in athlete.

Provide the state of the art concerning (1) biology and aetiology, (2) classification, (3) clinical assessment and (4) conservative treatment of lower limb muscle injuries (MI) in athletes. Seventy international experts with different medical backgrounds participated in the consensus conference. They discussed and approved a consensus composed of four sections which are presented in these documents. This paper represents a synthesis of the consensus conference, the following four sections are discussed: (i) The biology and aetiology of MIs. A definition of MI was formulated and some key points concerning physiology and pathogenesis of MIs were discussed. (ii) The MI classification. A classification of MIs was proposed. (iii) The MI clinical assessment, in which were discussed anamnesis, inspection and clinical examination and are provided the relative guidelines. (iv) The MI conservative treatment, in which are provided the guidelines for conservative treatment based on the severity of the lesion. Furthermore, instrumental therapy and pharmacological treatment were discussed. Knowledge of the aetiology and biology of MIs is an essential prerequisite in order to plan and conduct a rehabilitation plan. Another important aspect is the use of a rational MI classification on prognostic values. We propose a classification based on radiological investigations performed by ultrasonography and MRI strongly linked to prognostic factors. Furthermore, the consensus conference results will able to provide fundamental guidelines for diagnostic and rehabilitation practice, also considering instrumental therapy and pharmacological treatment of MI. Expert opinion, level IV

Italian consensus conference on guidelines for conservative treatment on lower limb muscle injuries in athlete

Provide the state of the art concerning (1) biology and aetiology, (2) classification, (3) clinical assessment and (4) conservative treatment of lower limb muscle injuries (MI) in athletes. Seventy international experts with different medical backgrounds participated in the consensus conference. They discussed and approved a consensus composed of four sections which are presented in these documents. This paper represents a synthesis of the consensus conference, the following four sections are discussed: (i) The biology and aetiology of MIs. A definition of MI was formulated and some key points concerning physiology and pathogenesis of MIs were discussed. (ii) The MI classification. A classification of MIs was proposed. (iii) The MI clinical assessment, in which were discussed anamnesis, inspection and clinical examination and are provided the relative guidelines. (iv) The MI conservative treatment, in which are provided the guidelines for conservative treatment based on the severity of the lesion. Furthermore, instrumental therapy and pharmacological treatment were discussed. Knowledge of the aetiology and biology of MIs is an essential prerequisite in order to plan and conduct a rehabilitation plan. Another important aspect is the use of a rational MI classification on prognostic values. We propose a classification based on radiological investigations performed by ultrasonography and MRI strongly linked to prognostic factors. Furthermore, the consensus conference results will able to provide fundamental guidelines for diagnostic and rehabilitation practice, also considering instrumental therapy and pharmacological treatment of MI. Expert opinion, level IV

Feasibility of the direct application of near-infrared reflectance spectroscopy on intact chicken breasts to predict meat color and physical traits

Physical and color characteristics of chicken meat were investigated on 193 animals by directly applying a fiberoptic probe to the breast muscle and using the visible-near-infrared (NIR) spectral range from 350 to 1,800 nm. Data on pH was recorded 48 h postmortem (pH); lightness (L*), redness (a*), and yellowness (b*) 48 h postmortem; thawing and cooking losses and shear force after freezing. Partial least squares regressions were performed using untreated data, raw absorbance data (log(1/R)), and multiplicative scatter correction plus first or second derivative spectra. Models were validated using full cross-validation, and their predictive ability was determined by root mean square error of cross-validation (RMSE(CV)) and correlation coefficient of cross-validation (r(cv)). Means (+/- SD) of pH, L*, a*, b*, thawing loss, cooking loss, and shear force were 5.83 +/- 0.13, 44.54 +/- 2.42, -1.90 +/- 0.62, 3.21 +/- 3.28, 4.84 +/- 2.44%, 19.39 +/- 2.95%, and 16.08 +/- 3.83 N, respectively. The best prediction models were developed using log(1/R) spectra for b* (r(cv) = 0.93; RMSE(CV) = 1.16) and a* (r(cv) = 0.88; RMSE(CV) = 0.29), while a medium predictive ability of NIR was obtained for pH, L*, and thawing and cooking losses (r(cv) from 0.69 to 0.76; RMSE(CV) from 0.01 to 1.73). Finally, predicted model for shear force (r(cv) = 0.41; RMSE(CV) = 3.18) was unsatisfactory. Results suggest that NIR is a feasible technique for the assessment of several quality traits of intact breast muscle

Comparison between two different techniques for peri-implant soft tissue augmentation: Porcine dermal matrix graft versus tenting screw

Background: The thickness of the soft tissues around dental implants is crucial for both the preservation of the marginal bone and esthetic profile. Many authors have showed the thickened soft tissues favor a better peri-implant bone stability; however, different thickening techniques can be used for this aim. Methods: Forty-seven patients were enrolled in this study, each one had one implant included in this analysis. According to the thickening procedure, patients were assigned into group A (porcine dermal matrix, n = 24) or B (healing abutment used as tenting screw to sustain the soft tissues, n = 23), soft tissue thickness was measured after flap elevation in a standardized way. Six months after implant placement, implants were uncovered and soft tissue thickness measured again. Results: At second stage, 6 months after implant placement, the mean vertical thickness was 3.01 ± 0.58 mm in group A and 2.25 ± 0.53 mm in group B. The difference between the two groups at 6 months was significant (P < 0.001). The mean vertical gain in group A was 1.33 ± 0.71 mm, whereas it was 0.43 ± 0.55 mm in group B. This difference was also statistically significant (P < 0.001). Conclusion: The use of a healing abutment for “tenting effect” has limited efficacy to obtain a significant increase in soft tissue thickness. The use of a porcine dermal matrix at time of implant placement is effective to thicken peri-implant tissues

Prevalence of associated lesions in anterior cruciate ligament reconstruction

Background: Knee instability resulting from anterior cruciate ligament (ACL) rupture is an important risk factor for the onset of meniscal tears and cartilage injuries. A delay of the ligament reconstruction further increases this risk. There is currently no agreement on the right time for surgical ACL reconstruction. Purpose: To verify the correlation of time to ACL reconstruction, patient age, sex, and body mass index (BMI) with the prevalence of meniscal tears and cartilage injuries, as well as to identify the proper surgical timing to decrease the risk of developing associated injuries. Study Design: Cohort study; Level of evidence, 3. Methods: The medical records of 988 patients who underwent primary ACL reconstruction between January 2010 and May 2014 were analyzed to collect data on the prevalence of meniscal tears and cartilage injuries, surgical timing, and patient sex, age, and BMI. Logistic regression was performed to estimate the association between the prevalence of intra-articular lesions and the independent variables of surgical timing, sex, age, and BMI. Results: The risk of developing at least an associated lesion increased by an average of 0.6% for each month of delay of surgical reconstruction. The odds ratio (OR) for developing an intra-articular lesion was 1.989 (95% CI, 1.403-2.820) in those waiting more than 12 months for ACL reconstruction. A 12-month delay for the intervention nearly doubled the risk of developing a medial meniscal tear (OR, 1.806 [95% CI, 1.317-2.475]) but did not modify the risk for the lateral meniscus (OR, 1.183 [95% CI, 0.847-1.653]). Concerning cartilage lesions, the risk after a 12-month delay increased in the medial compartment (femoral condyle: OR, 2.347 [95% CI, 1.499-3.676]; tibial plateau: OR, 5.574 [95% CI, 1.911-16.258]). In the lateral femoral condyle, the risk became significant in patients who underwent surgery more than 60 months after ACL injury as compared with those treated in the first 3 months (OR, 5.949 [95% CI, 1.825-19.385]). Lateral tibial plateau lesions did not seem to increase significantly. Male sex was a risk factor for the onset of lateral meniscal tears (OR, 2.288 [95% CI, 1.596-3.280]) and medial tears (OR, 1.752 [95% CI, 1.280-2.399]). Older age (OR, 1.017 [95% CI, 1.006-1.029]) and increased BMI (OR, 1.120 [95% CI, 1.072-1.169]) were risk factors for the occurrence of at least 1 associated lesion. Conclusion: ACL reconstruction within 12 months of injury can significantly reduce the risk of meniscal tears and chondral lesions. The close association between BMI and prevalence of associated lesions suggests that attention be paid to patients with an elevated BMI when considering the timing of ACL reconstruction surgery