Purpose: Although the etiology of Legg–Calvé–Perthes disease (LCPD) is not well understood, based on a new theory, it may be caused by a decrease in the supply of blood to the femoral head. The objective of this study was to examine the effects of a decrease in bone mineral density (BMD) and an increase in thickness of articular cartilage on the supply of blood to the femoral head in this group of patients. Materials and Methods: This case study was based on a simulation analysis. Computed tomography scan images of a subject with Perthes disease were used to create a three-dimensional model of the hip joint on both the normal and Perthes sides. In addition, modeling of the blood vessels of the femoral head, including the foveolar and retinacular arteries, was performed during this study. Results: Increased stress on all articular components (femoral head, acetabulum, articular cartilage, and blood vessels) was observed on the Perthes side compared to the normal side. On the Perthes side with normal articular cartilage thickness, stress on all components, particularly the femur, showed a significant increase compared to the normal side. Conclusion Increased deformation of the femoral head vessels was observed in patients with Perthes condition and when increased thickness of the articular cartilage was observed. A decrease in BMD can evidently increase the stress applied to the arteries of the femoral head, ultimately leading to death of the femoral head.

Purpose: Although the etiology of Legg–Calvé–Perthes disease (LCPD) is not well understood, based on a new theory, it may be caused by a decrease in the supply of blood to the femoral head. The objective of this study was to examine the effects of a decrease in bone mineral density (BMD) and an increase in thickness of articular cartilage on the supply of blood to the femoral head in this group of patients. Materials and Methods: This case study was based on a simulation analysis. Computed tomography scan images of a subject with Perthes disease were used to create a three-dimensional model of the hip joint on both the normal and Perthes sides. In addition, modeling of the blood vessels of the femoral head, including the foveolar and retinacular arteries, was performed during this study. Results: Increased stress on all articular components (femoral head, acetabulum, articular cartilage, and blood vessels) was observed on the Perthes side compared to the normal side. On the Perthes side with normal articular cartilage thickness, stress on all components, particularly the femur, showed a significant increase compared to the normal side. Conclusion Increased deformation of the femoral head vessels was observed in patients with Perthes condition and when increased thickness of the articular cartilage was observed. A decrease in BMD can evidently increase the stress applied to the arteries of the femoral head, ultimately leading to death of the femoral head.

Purpose: Although the etiology of Legg–Calvé–Perthes disease (LCPD) is not well understood, based on a new theory, it may be caused by a decrease in the supply of blood to the femoral head. The objective of this study was to examine the effects of a decrease in bone mineral density (BMD) and an increase in thickness of articular cartilage on the supply of blood to the femoral head in this group of patients. Materials and Methods: This case study was based on a simulation analysis. Computed tomography scan images of a subject with Perthes disease were used to create a three-dimensional model of the hip joint on both the normal and Perthes sides. In addition, modeling of the blood vessels of the femoral head, including the foveolar and retinacular arteries, was performed during this study. Results: Increased stress on all articular components (femoral head, acetabulum, articular cartilage, and blood vessels) was observed on the Perthes side compared to the normal side. On the Perthes side with normal articular cartilage thickness, stress on all components, particularly the femur, showed a significant increase compared to the normal side. Conclusion Increased deformation of the femoral head vessels was observed in patients with Perthes condition and when increased thickness of the articular cartilage was observed. A decrease in BMD can evidently increase the stress applied to the arteries of the femoral head, ultimately leading to death of the femoral head.

Purpose: Toe-in gait is defined as a style of walking in which the foot turns inward. It may be caused by an increase in femoral bone anteversion, tibia torsion, and metatarsus adductus. There are some conservative treatment approaches used to correct this condition. This review aimed to determine the effects of the toe-in gait on joint loading, kinematics, and kinetic parameters while walking. Moreover, it sought to determine the efficiency of various conservative treatments used to correct the condition. Materials and Methods: A literature search was conducted in the following databases: PubMed, Institute for Scientific Information (ISI), Web of Science database, EBSCO, and Embase, using the following keywords in toe, toe-in, toeing, in-toe, pigeon toe, and conservative treatment published between 1950 and 2021. The quality of the studies was evaluated using the Down and Black tool. Results: A total of 13 papers on the impact of toe-in gait on joint contact force, kinematics, kinetic parameters, and conservative approaches to management were found. The quality of the studies varied between a score of 11 and 22. The toe-in gait influences the joint contact forces and kinematics of the joints, especially the hip and pelvis. The effects of conservative treatment on the toe-in gait appear to be controversial. Conclusion As the toe-in gait influences the joint contact force, it may increase the incidence of degenerative joint diseases. Therefore, treatment is recommended. However, there is no strong evidence on the efficacy of conservative treatments, and there are no recommendations for the use of these treatments in subjects with toe-in gait.

Gastric Cancer (GC) is one of the most dangerous malignancies in the world. This study aims to evaluate the relationship between miR-146a and miR-155 in patients with H. pylori infections with GC compared to H. pylori-infected patients and healthy subjects. Forty patients with H. pylori and GC positive diagnoses and 40 patients with H. pylori positive and GC negative diagnoses, and 40 healthy persons were selected.The expression of miR-146a and miR-155 genes in the whole blood was examined using qRT-PCR. Moreover, ROC curves were drawn to represent the sensitivity and specificity of miR-146a and miR-155 expression as biomarkers. The results showed the expression of miR-146a and miR-155 in the whole blood of patients with H. pylori and GC positive diagnoses are significantly higher than in healthy individuals and are non-significantly enhanced compared to H. pylori positive and GC negative. Also, the results stated miR-146a and miR-155 expression in the whole blood of patients who are H. pylori positive and GC negative are significantly increased compared to healthy individuals. Furthermore, the ROC curve analysis of miR-146a and miR-155 RNA level demonstrated the two miRNAs have an appropriate sensitivity and specificity for diagnostic goals. In conclusion, H. pylori infection may increase the expression of miR-146a and miR-155 in patients with H. pylori and GC positive diagnoses, which can be effective in the curbing the progression of GC. For this reason, up-regulation of miR-146a and miR-155 along with H. pylori infection might contribute to the pathogenesis of GC, and also can be suggested as biomarkers for GC diagnosis and treatment.

Objective: To determine the suitable ecological habitats of Aedes (Ae.) aegypti and Ae. albopictus in Iran due to climate change by the 2070s. Methods: All data relating to the spatial distribution of Ae. aegypti and Ae. albopictus worldwide, which indicated the geographical coordinates of the collection sites of these mosquitoes, were extracted from online scientific websites and entered into an Excel file. The effect of climatic and environmental variables on these mosquitoes was evaluated using the MaxEnt model in the current and future climatic conditions in the 2030s, 2050s, and 2070s. Results: The most suitable areas for the establishment of Ae. aegypti are located in the southern and northern coastal areas of Iran, based on the model outputs. The modelling result for suitable ecological niches of Ae. albopictus shows that in the current climatic conditions, the southern half of Iran from east to west, and parts of the northern coasts are prone to the presence of this species. In the future, some regions, such as Gilan and Golestan provinces, will have more potential to exist/establish Ae. albopictus. Also, according to the different climate change scenarios, suitable habitats for this species will gradually change to the northwest and west of the country. The temperature of the wettest season of the year (Bio8) and average annual temperature (Bio1) were the most effective factors in predicting the model for Ae. aegypti and Ae. albopictus, respectively. Conclusions: It is required to focus on entomological studies using different collection methods in the vulnerable areas of Iran. The future modelling results can also be used for long-term planning to prevent the entry and establishment of these invasive Aedes vectors in the country.

There is no denying that the massive spread of COVID-19 around the world has worried everyone. The virus can cause mild to severe symptoms in various organs, especially the lungs. The virus affects oxidative stress in the cells. Reactive Oxygen Species modulator 1 (ROMO1) is one of the most important mitochondrial proteins that plays a critical regulatory role in the production of Reactive Oxygen Species (ROS). According to the studies, COVID-19 can promote oxidative stress through some important pathways, for instance, TNF-α and NF-κB routes. Furthermore, ROMO1 is closely related to these pathways and its dysfunction may affect these routes, then promote oxidative stress, and ultimately cause tissue damage, especially in the lungs. Another factor to consider is that the TNF-α and NF-κB pathways are associated with ROMO1, COVID-19, and oxidative stress. To summarize, it is hypothesized that COVID-19 may increase oxidative stress by affecting ROMO1. Understanding the exact molecular mechanisms of ROMO1 in the pathogenesis of COVID-19 can pave the way to find better therapeutic strategies.

Infertility is one of the disorders that worries many couples around the world, although novel and molecular methods can be used to cure this disease in different stages. One of the factors that causes infertility in men and women is the increased oxidative stress within the cells, which can lead to damage in zygote formation. ROMO1 is one of the most important proteins in the production of reactive oxygen species. This protein can enhance oxidative stress in the cells and body through cellular pathways, such as TNF-α and NF-κB routes, which will eventually lead to many diseases, especially infertility. We engage several international databases by using keywords; ROMO1, Infertility, and Reactive Oxygen Species, and gained a great quantity of information about ROMO1, Infertility, and Oxidative Stress. Although not proven, it is hypothesized that ROMO1 might elevate oxidative stress by activating NF-κB pathway in the cells, furthermore, TNF-αcan arouse ROMO1 that can end up with apoptosis and cell death, which consequently can have a lot of disturbing effects on the body, especially the reproductive system. To sum up, revealing the exact cellular and molecular mechanisms of ROMO1-dependent TNF-α and NF-κB pathways in the pathogenesis of infertility might find interesting therapeutic and management strategies for this disorder.

Background: Patients who have rotator cuff arthropathy experience a limited range of motion (ROM) of the shoulder joint and experience problems in performing their daily activities; however, no evidence is available to suggest the exact ROM of the shoulder joint in this population. Therefore, this study sought to determine the degree of motion of the shoulder joint in three planes during different activities. Methods: Five subjects with rotator cuff injuries participated in this study. The motion of the shoulder joints on both the involved and normal sides was assessed by a motion analysis system while performing forward abduction (task 1), flexion (task 2), and forward flexion (task 3). The OpenSIM software program was used to determine the ROM of the shoulder joints on both sides. The difference between the ranges of motion was determined using a two-sample t-test. Results: The ROMs of the shoulder joint in task 1 were 35°±16.5°, 72.1°±2.6°, and 103.9°±28.7° degrees for flexion, abduction, and rotation, respectively, on the normal side and 28°±19.8°, 31°±31.56°, and 48°±33.5° on the involved side (p<0.05). There was no significant difference between the flexion/extension and rotation movements of the shoulder joint when performing task 1. However, the difference between flexion and rotation movements of the shoulder joints for the second task was significant (p˃0.05). Conclusions Those with rotator cuff arthropathy have functional limitations due to muscle weakness and paralysis, especially during the vertical reaching task. However, although these individuals have decreased ROM for transverse reaching tasks, the reduction was not significant.

Background: Patients who have rotator cuff arthropathy experience a limited range of motion (ROM) of the shoulder joint and experience problems in performing their daily activities; however, no evidence is available to suggest the exact ROM of the shoulder joint in this population. Therefore, this study sought to determine the degree of motion of the shoulder joint in three planes during different activities. Methods: Five subjects with rotator cuff injuries participated in this study. The motion of the shoulder joints on both the involved and normal sides was assessed by a motion analysis system while performing forward abduction (task 1), flexion (task 2), and forward flexion (task 3). The OpenSIM software program was used to determine the ROM of the shoulder joints on both sides. The difference between the ranges of motion was determined using a two-sample t-test. Results: The ROMs of the shoulder joint in task 1 were 35°±16.5°, 72.1°±2.6°, and 103.9°±28.7° degrees for flexion, abduction, and rotation, respectively, on the normal side and 28°±19.8°, 31°±31.56°, and 48°±33.5° on the involved side (p<0.05). There was no significant difference between the flexion/extension and rotation movements of the shoulder joint when performing task 1. However, the difference between flexion and rotation movements of the shoulder joints for the second task was significant (p˃0.05). Conclusions Those with rotator cuff arthropathy have functional limitations due to muscle weakness and paralysis, especially during the vertical reaching task. However, although these individuals have decreased ROM for transverse reaching tasks, the reduction was not significant.