Obesity decreases patellar tendon stiffness in females but not males Introduction Patellar tendon (PT) injuries are frequent due to excessive mechanical loading during strenuous physical activity. PT injury incidence is higher in females and obese individuals. The reason behind higher tendon injury incidence in females and obese individuals might be structural changes in tendons such as stiffness or elasticity. Tendon stiffness can recently be quantified using shear wave elastography (SWE). We aimed to examine the stiffness of PT in healthy sedentary participants using this new technology.

This prospective study was carried out with 58 (34 female, 24 male) healthy sedentary participants between the ages of 18–44 years (27.5±7.7 years). Body mass and body fat percentage were measured with the Bioelectrical Impedance method using Tanita BC-418 MA Segmental Body Composition Analyser (Tanita Corporation, Tokyo, Japan). Participants were subsequently categorized into ‘normal-weight’ (BMI < 23 kg/m2) and ‘obese’ (BMI>27.5 kg/m2). SWE of the PT was measured with the ACUSON S3000 (Siemens Medical Solution, Mountain Wiew, CA, USA) ultrasound device using the Siemens 9L4 (4–9 MHz) linear-array probe with the Virtual Touch Imaging Quantification® method. The measurement was performed by placing the US probe longitudinally on patellar tendon with knee flexed at 30°. The region between about 1 cm distal of patellar bone-tendon junction and 1 cm proximal of bone-tendon junction of tibia was used for PT stiffness measurement (Figure 1). Average of three successive measurements at 10 sec intervals was recorded as PT stiffness. PT stiffness was quantified with MATLAB Version 2015 (Mathworks, Massachusetts, USA) by converting colour data into numbers.

PT stiffness, in males, in females, in normal males, in obese males, in normal females, and in obese females was 8.6±1.0 m/sec, 7.4±1.1 m/sec, 8.6±1.1 m/sec, 8.5±1.0 m/sec, 7.9±0.9 m/sec, and 6.2±0.9 m/sec, respectively. Average body fat percentage in males, in females, in normal males, in obese males, in normal females, and in obese females was 20.1±7.4 kg/m2, 30.1±8.1 kg/m2, 15.4±5.2 kg/m2, 24.7±4.6 kg/m2, 25.6±5.5 kg/m2, and 38.1±5.0 kg/m2, respectively. Males PT stiffness was higher when compared to that of females (p=0.000). PT stiffness was similar in obese and normal males (p=0.962) but obese females had lower PT stiffness compared to normal females (p=0.001).

PT stiffness of females was lower than males and obesity decreased PT stiffness in females but not in males. The possible explanation of lower PT stiffness in females might be due to their higher estrogen levels that lead to a decrease in estradiol level and collagen synthesis. Lower tendon stiffness in obese females might be metabolic effects due to the increased adipose tissue that contains proteins such as adipokinome, chemerin, lipocalin 2, serum amyloid A3 and adiponectin. These proteins lead to disturbance of tendon homeostasis and decreased collagen content. Altered tendon homeostasis and decreased collagen content may lead to a decrease in tendon stiffness. Decreased PT stiffness in especially in obese women might be associated with increased risk of PT injury.

Aim: The aim of this study is to evaluate the results of conservative treatment of Neer type III and IV fractures of the proximal humerus in patients who refused surgery or could not undergo surgery because of medical conditions.

Methods: Eighteen patients were included in the study. There were 8 Neer type III and 10 Neer type IV fractures. None of the patients had head-splitting fractures. Treatment and follow-up protocols were standardized for all cases. All patients were assessed for Constant scores in postoperative first year and at latest follow-up. Patients were divided into two groups regarding their age. Patients of 65 years or under that were named as group A (7 patients), while patients over 65 years old were named as group B (11 patients). Patients were further divided into two groups regarding their Constant scores. Patients with less than 70 points were named as group I (12 patients), while patients with 70 points or higher were named as group II (6 patients). Statistical analysis was performed using student’s t test, chi-square test and Fischer exact test.

Results: Mean age was 68.2± 13.8(39–90) years. Mean follow-up was 34.5±12.4 (18–56) months. Mean Constant score was 56.1±14.7 (26–76) points in postoperative first year follow-up. Mean Constant score was 59.7±13.9 (36–84) points at latest follow-up. Osteonecrosis of the humeral head was dedected in 5 patients. There was no significant difference between group A and group B regarding Constant scores (p=0.233). There was no significant difference between group I and group II regarding age (p=0.178). There was no significant difference between Neer type III and Neer type IV fractures regarding age (p=0.176) and Constant scores (p=0.075). Mean postoperative first year Constant score of Group A patients with type III fractures was significantly higher when compared to group B patients with type IV fractures (p=0.046). Constant scores at latest follow-up (p=0.261) and fracture types (p=0.618) were similar between patients with osteonecrosis and without osteonecrosis.

Conclusions: Results of conservative treatment of these fractures are satisfactory even in elderly patients. Similar functional results as in younger patients can be achieved with proper and accurate treatment. While fracture type individually does not have an influence on functional results, functional results are better in young patients with type III fractures then in old patients with type IV fractures.

Aim: Complete tenotomy was performed on the most important flexor hip muscle; namely the iliopsoas during open reduction in patients with developmental dysplasia of the hip (DDH). The iliopsoas and other flexor-extensor muscles in operated and contralateral hips were evaluated comparatively by magnetic resonance imaging (MRI).

Methods: A total of 22 patients with unilateral DDH after the walking age and treated with one-stage combined surgery were analyzed. All patients were operated by the same surgeon with complete tenotomy of iliopsoas muscle hindering open reduction. All patients had functionally excellent results in accordance with the Barrett’s Modified McKay Criteria in their last follow-up visits and according to Severin’s classification all cases were type 1. The imaging was performed by 1,5 T GE Excite MRI device at the supine position, without contrast material and sedation. The sagittal sections for iliopsoas muscle and T2-W FSE axial images for flexor and extensor muscle groups were used. The operated and contralateral sides were compared. Student’s t test, paired t test, and Spearman’s Rank correlation analysis were used for statistical assessment.

Results: The mean age was 12,8±2,9 (9–18) years old. The mean postoperative follow-up period was 112,6 ± 32,0 (68–159) months. The reattachment of the iliopsoas to trochanter minor was observed in 7 patients, with no significance in terms of age, postoperative follow-up period, and the duration of postoperative period (p> 0,05). The atrophy in the operated side was significant in the length of iliopsoas muscle section area (p=0,0001); and the section areas of rectus femoris (p=0,002), tensor fascia lata (p=0,0001), and gluteus maximus (p=0,0001). No significance was detected in sartorius muscle section area (p=0,886). However, unlike other muscles; the ratio of operated versus contralateral side mean muscle section areas was above 1 (1,1± 0,3) for the sartorius muscle. Iliopsoas muscle reattachment was not significant for ratios of the other muscles’ operated versus contralateral side muscle section areas (p> 0,05). The atrophy was significant for the second (p=0,03) and the third (p=0,022) section’s diameter ratios in the non-reattachment versus reattachment group for the iliopsoas muscle.

Conclusion: The reattachment of the iliopsoas muscle to trochanter minor after complete tenotomy was observed in 32% of patients. Following complete iliopsoas tenotomy, the expected compensatory hypertrophy in other flexor hip muscles was not detected. At the operated side, all evaluated muscles were atrophic except for the sartorius muscle. The atrophy of iliopsoas muscle was significant for the operated hip with non-reattachment to insertion site versus reattachment group.

Aim: Patients treated with one-stage combined operations after walking age for developmental dysplasia of the hip (DDH), and whose follow-up revealed both clinical and radiological complete healing underwent flexor and extensor isokinetic muscle strength (IMS) measurements of the hip and results were evaluated in comparison with the contralateral hips.

Methods: A total of 22 patients with unilateral DDH and treated with one-stage combined operations after walking age were included in the study. All patients were operated by the same surgeon. In their last follow-up visit, all patients were functionally excellent in accordance with the Barrett’s Modified McKay Criteria and according to the Severin’s Classification for radiological grading of the hip all cases were type I. IMS of hip flexors and extensors were tested by Biodex 3 Pro isokinetic test device at 120º/sc and 240º/sc. In all patients, peak torque (PT), peak torque angle (PTA), total work (TW), and average power (AP) values of operated and non-operated hips were measured at both angular velocities and recorded separately for flexors and extensors. For comparative evaluation, values of the operated and non-operated hips were used for determining the differences in IMS (DIMS), total work (DTW), and average power (DAP). In statistical assessment; Student’s t test, paired t test, and Spearman’s Rank correlation analysis were used.

Results: The mean age of patients were 12,8±2,9 (9–18) years old. At the last control visit, the mean value of follow-up periods were 112,6±32,0 (68–159) months. Parameters like age, age at the time of operation, and the length of postoperative follow-up period showed no statistical relation with IMS measurements (p> 0,05). For flexors, TW was lower at the operated hip when compared with the non-operated hip at 120º/sc and 240º/sc (p=0,001 and p=0,002, respectively). AP was lower at the operated hip at 120º/sc and 240º/sc (p=0,011 and p=0,003, respectively). PT was lower at the operated hip (22,5±11,3) when compared with the non-operated hip (27,1±12,1) only at 120º/sc (p=0,001). For extensor muscles, PT, TW, AP, and PTA showed no statistically significant difference (p> 0,05). For flexors, the DIMS between operated and non-operated hips at 120º/sc and 240º/sc were measured as −15,3±22,2% (median;-14,4) and −8,0±21,4% (median;−2,5), respectively.

Conclusions: In operated DDH patients with a mean follow-up period of around 10 years, IMS measurements revealed that the flexor muscle strength of the operated hip was still weaker than the non-operated hip. At 120º/sc, which represented evaluation against higher resistance, DIMS, DWF, and DAP were higher when compared with 240º/sc. This finding shows that hip flexors of these patients may remain weak in activities like sports, which require more resistance.