�ݺ�ߣshows by User: SyedAdnan59

�ݺ�ߣshows by User: SyedAdnan59 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: SyedAdnan59 / Tue, 30 Jul 2024 19:17:50 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: SyedAdnan59 SHOULDER INSTABILITY AIIMS JODHPUR SEMINAR /slideshow/shoulder-instability-aiims-jodhpur-seminar/270626164 shoulderinstability-240730191750-63b5b113
The PowerPoint presentation titled "Shoulder Instability" from the All India Institute of Medical Sciences Jodhpur provides a comprehensive overview of shoulder instability, its causes, anatomy, evaluation, and treatment methods. ### Key Sections: 1. **Terminology** - Definitions of instability, dislocation, subluxation, and laxity. 2. **Factors Contributing to Shoulder Stability** - Static Factors: Articular congruence, version, glenoid labrum, capsule, ligaments, coracoacromial arch. - Dynamic Factors: Rotator cuff, biceps tendon, scapulothoracic motion, proprioception. 3. **Osteology** - Description of the glenoid fossa and humerus, including specific angles and shapes important for stability. 4. **Static Factors** - Analysis of the normal retroversion of the glenoid and its implications for shoulder stability. 5. **Glenohumeral Joint** - Details of the joint structure, range of motion, and importance of the humeral head and glenoid fossa size disparity. 6. **Glenoid Labrum** - Role as a static stabilizer, increasing the surface contact area and deepening the glenoid for enhanced stability. 7. **Capsule and Ligaments** - Detailed discussion of the capsule's attachment points, thickness, and contributions of different glenohumeral ligaments (superior, middle, inferior) to shoulder stability. 8. **Dynamic Factors** - Role of the rotator cuff, biceps tendon, and scapulothoracic motion in maintaining shoulder stability. 9. **Classification of Instability** - Based on frequency, cause, direction, and degree of instability. 10. **Pathoanatomy of Shoulder Instability** - Labral lesions, capsular injuries, and bone loss, including specific conditions like Bankart and Hill-Sachs lesions. 11. **Evaluation of Instability** - Importance of history, physical examination, and specific tests like the Sulcus sign, Drawer test, and Load and Shift test. 12. **Diagnosis** - Imaging techniques such as X-rays, CT scans, MRI, and arthroscopy. 13. **Treatment** - Non-operative and operative approaches, including immobilization, rehabilitation, and various surgical procedures for different types of instability. 14. **Operative Treatment Details** - Soft tissue procedures like Posterior Capsulorrhaphy and bone procedures like Post. Glenoid Osteotomy. 15. **Matsen’s Classification** - Differentiation between traumatic (TUBS) and atraumatic (AMBRI) shoulder instability and their respective treatment protocols. 16. **Specific Surgical Procedures** - Description of procedures like the Latarjet for anterior stabilization and addressing engaging Hill-Sachs lesions. The presentation utilizes diagrams and images to illustrate anatomical structures, types of lesions, and surgical techniques, providing a thorough understanding of shoulder instability and its management.]]>
The PowerPoint presentation titled "Shoulder Instability" from the All India Institute of Medical Sciences Jodhpur provides a comprehensive overview of shoulder instability, its causes, anatomy, evaluation, and treatment methods. ### Key Sections: 1. **Terminology** - Definitions of instability, dislocation, subluxation, and laxity. 2. **Factors Contributing to Shoulder Stability** - Static Factors: Articular congruence, version, glenoid labrum, capsule, ligaments, coracoacromial arch. - Dynamic Factors: Rotator cuff, biceps tendon, scapulothoracic motion, proprioception. 3. **Osteology** - Description of the glenoid fossa and humerus, including specific angles and shapes important for stability. 4. **Static Factors** - Analysis of the normal retroversion of the glenoid and its implications for shoulder stability. 5. **Glenohumeral Joint** - Details of the joint structure, range of motion, and importance of the humeral head and glenoid fossa size disparity. 6. **Glenoid Labrum** - Role as a static stabilizer, increasing the surface contact area and deepening the glenoid for enhanced stability. 7. **Capsule and Ligaments** - Detailed discussion of the capsule's attachment points, thickness, and contributions of different glenohumeral ligaments (superior, middle, inferior) to shoulder stability. 8. **Dynamic Factors** - Role of the rotator cuff, biceps tendon, and scapulothoracic motion in maintaining shoulder stability. 9. **Classification of Instability** - Based on frequency, cause, direction, and degree of instability. 10. **Pathoanatomy of Shoulder Instability** - Labral lesions, capsular injuries, and bone loss, including specific conditions like Bankart and Hill-Sachs lesions. 11. **Evaluation of Instability** - Importance of history, physical examination, and specific tests like the Sulcus sign, Drawer test, and Load and Shift test. 12. **Diagnosis** - Imaging techniques such as X-rays, CT scans, MRI, and arthroscopy. 13. **Treatment** - Non-operative and operative approaches, including immobilization, rehabilitation, and various surgical procedures for different types of instability. 14. **Operative Treatment Details** - Soft tissue procedures like Posterior Capsulorrhaphy and bone procedures like Post. Glenoid Osteotomy. 15. **Matsen’s Classification** - Differentiation between traumatic (TUBS) and atraumatic (AMBRI) shoulder instability and their respective treatment protocols. 16. **Specific Surgical Procedures** - Description of procedures like the Latarjet for anterior stabilization and addressing engaging Hill-Sachs lesions. The presentation utilizes diagrams and images to illustrate anatomical structures, types of lesions, and surgical techniques, providing a thorough understanding of shoulder instability and its management.]]> Tue, 30 Jul 2024 19:17:50 GMT /slideshow/shoulder-instability-aiims-jodhpur-seminar/270626164 SyedAdnan59@slideshare.net(SyedAdnan59) SHOULDER INSTABILITY AIIMS JODHPUR SEMINAR SyedAdnan59 The PowerPoint presentation titled "Shoulder Instability" from the All India Institute of Medical Sciences Jodhpur provides a comprehensive overview of shoulder instability, its causes, anatomy, evaluation, and treatment methods. ### Key Sections: 1. **Terminology** - Definitions of instability, dislocation, subluxation, and laxity. 2. **Factors Contributing to Shoulder Stability** - Static Factors: Articular congruence, version, glenoid labrum, capsule, ligaments, coracoacromial arch. - Dynamic Factors: Rotator cuff, biceps tendon, scapulothoracic motion, proprioception. 3. **Osteology** - Description of the glenoid fossa and humerus, including specific angles and shapes important for stability. 4. **Static Factors** - Analysis of the normal retroversion of the glenoid and its implications for shoulder stability. 5. **Glenohumeral Joint** - Details of the joint structure, range of motion, and importance of the humeral head and glenoid fossa size disparity. 6. **Glenoid Labrum** - Role as a static stabilizer, increasing the surface contact area and deepening the glenoid for enhanced stability. 7. **Capsule and Ligaments** - Detailed discussion of the capsule's attachment points, thickness, and contributions of different glenohumeral ligaments (superior, middle, inferior) to shoulder stability. 8. **Dynamic Factors** - Role of the rotator cuff, biceps tendon, and scapulothoracic motion in maintaining shoulder stability. 9. **Classification of Instability** - Based on frequency, cause, direction, and degree of instability. 10. **Pathoanatomy of Shoulder Instability** - Labral lesions, capsular injuries, and bone loss, including specific conditions like Bankart and Hill-Sachs lesions. 11. **Evaluation of Instability** - Importance of history, physical examination, and specific tests like the Sulcus sign, Drawer test, and Load and Shift test. 12. **Diagnosis** - Imaging techniques such as X-rays, CT scans, MRI, and arthroscopy. 13. **Treatment** - Non-operative and operative approaches, including immobilization, rehabilitation, and various surgical procedures for different types of instability. 14. **Operative Treatment Details** - Soft tissue procedures like Posterior Capsulorrhaphy and bone procedures like Post. Glenoid Osteotomy. 15. **Matsen’s Classification** - Differentiation between traumatic (TUBS) and atraumatic (AMBRI) shoulder instability and their respective treatment protocols. 16. **Specific Surgical Procedures** - Description of procedures like the Latarjet for anterior stabilization and addressing engaging Hill-Sachs lesions. The presentation utilizes diagrams and images to illustrate anatomical structures, types of lesions, and surgical techniques, providing a thorough understanding of shoulder instability and its management. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/shoulderinstability-240730191750-63b5b113-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The PowerPoint presentation titled "Shoulder Instability" from the All India Institute of Medical Sciences Jodhpur provides a comprehensive overview of shoulder instability, its causes, anatomy, evaluation, and treatment methods. ### Key Sections: 1. **Terminology** - Definitions of instability, dislocation, subluxation, and laxity. 2. **Factors Contributing to Shoulder Stability** - Static Factors: Articular congruence, version, glenoid labrum, capsule, ligaments, coracoacromial arch. - Dynamic Factors: Rotator cuff, biceps tendon, scapulothoracic motion, proprioception. 3. **Osteology** - Description of the glenoid fossa and humerus, including specific angles and shapes important for stability. 4. **Static Factors** - Analysis of the normal retroversion of the glenoid and its implications for shoulder stability. 5. **Glenohumeral Joint** - Details of the joint structure, range of motion, and importance of the humeral head and glenoid fossa size disparity. 6. **Glenoid Labrum** - Role as a static stabilizer, increasing the surface contact area and deepening the glenoid for enhanced stability. 7. **Capsule and Ligaments** - Detailed discussion of the capsule's attachment points, thickness, and contributions of different glenohumeral ligaments (superior, middle, inferior) to shoulder stability. 8. **Dynamic Factors** - Role of the rotator cuff, biceps tendon, and scapulothoracic motion in maintaining shoulder stability. 9. **Classification of Instability** - Based on frequency, cause, direction, and degree of instability. 10. **Pathoanatomy of Shoulder Instability** - Labral lesions, capsular injuries, and bone loss, including specific conditions like Bankart and Hill-Sachs lesions. 11. **Evaluation of Instability** - Importance of history, physical examination, and specific tests like the Sulcus sign, Drawer test, and Load and Shift test. 12. **Diagnosis** - Imaging techniques such as X-rays, CT scans, MRI, and arthroscopy. 13. **Treatment** - Non-operative and operative approaches, including immobilization, rehabilitation, and various surgical procedures for different types of instability. 14. **Operative Treatment Details** - Soft tissue procedures like Posterior Capsulorrhaphy and bone procedures like Post. Glenoid Osteotomy. 15. **Matsen’s Classification** - Differentiation between traumatic (TUBS) and atraumatic (AMBRI) shoulder instability and their respective treatment protocols. 16. **Specific Surgical Procedures** - Description of procedures like the Latarjet for anterior stabilization and addressing engaging Hill-Sachs lesions. The presentation utilizes diagrams and images to illustrate anatomical structures, types of lesions, and surgical techniques, providing a thorough understanding of shoulder instability and its management.

SHOULDER INSTABILITY AIIMS JODHPUR SEMINAR from AIIMS JODHPUR

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0 Biomechanics of THA AIIMS JODHPUR SEMINAR /slideshow/biomechanics-of-tha-aiims-jodhpur-seminar/270626026 biomechanicsoftha-240730190623-ee73ee2d
The PowerPoint presentation titled "Biomechanics of Total Hip Arthroplasty (THA)" from the All India Institute of Medical Sciences Jodhpur provides an in-depth exploration of the forces acting on the hip joint and their implications for THA. ### Key Sections: 1. **Introduction to Biomechanics** - Definition and study of forces acting on the body. - Explanation of torque and its role in biomechanics. 2. **Forces Acting Across the Hip Joint** - Detailed analysis of gravitational force, abductor muscle force, and joint reaction force (JRF). - Discussion on the stability of the hip and the relationship between body weight and abductor tension. 3. **Static Biomechanical Concepts** - Examination of bilateral and single-leg stances. - Impact of body weight distribution and center of gravity on hip stability. 4. **Biomechanics of Total Hip Arthroplasty** - Comparison between the lever arm ratios in normal and arthritic hips. - Surgical modifications to reduce the load on the hip joint. 5. **Implant Design and Components** - Detailed descriptions of cemented and cementless femoral stems. - Analysis of femoral neck designs, head sizes, and acetabular liners. - Comparison of cemented vs. cementless acetabular components. 6. **Impact of Biomechanical Variations** - Effects of varus and valgus configurations on the proximal femur. - Influence of femoral version and offset on hip function and stability. 7. **Strategies to Reduce Joint Reaction Force** - Techniques to optimize femoral and acetabular component placement. - Importance of restoring combined offset for maintaining abductor muscle tension. 8. **References** - Cited works providing additional context and supporting information for the topics discussed. The presentation utilizes diagrams and images to illustrate biomechanical concepts, lever systems, and implant designs, providing a comprehensive overview of the biomechanical principles relevant to total hip arthroplasty.]]>
The PowerPoint presentation titled "Biomechanics of Total Hip Arthroplasty (THA)" from the All India Institute of Medical Sciences Jodhpur provides an in-depth exploration of the forces acting on the hip joint and their implications for THA. ### Key Sections: 1. **Introduction to Biomechanics** - Definition and study of forces acting on the body. - Explanation of torque and its role in biomechanics. 2. **Forces Acting Across the Hip Joint** - Detailed analysis of gravitational force, abductor muscle force, and joint reaction force (JRF). - Discussion on the stability of the hip and the relationship between body weight and abductor tension. 3. **Static Biomechanical Concepts** - Examination of bilateral and single-leg stances. - Impact of body weight distribution and center of gravity on hip stability. 4. **Biomechanics of Total Hip Arthroplasty** - Comparison between the lever arm ratios in normal and arthritic hips. - Surgical modifications to reduce the load on the hip joint. 5. **Implant Design and Components** - Detailed descriptions of cemented and cementless femoral stems. - Analysis of femoral neck designs, head sizes, and acetabular liners. - Comparison of cemented vs. cementless acetabular components. 6. **Impact of Biomechanical Variations** - Effects of varus and valgus configurations on the proximal femur. - Influence of femoral version and offset on hip function and stability. 7. **Strategies to Reduce Joint Reaction Force** - Techniques to optimize femoral and acetabular component placement. - Importance of restoring combined offset for maintaining abductor muscle tension. 8. **References** - Cited works providing additional context and supporting information for the topics discussed. The presentation utilizes diagrams and images to illustrate biomechanical concepts, lever systems, and implant designs, providing a comprehensive overview of the biomechanical principles relevant to total hip arthroplasty.]]> Tue, 30 Jul 2024 19:06:23 GMT /slideshow/biomechanics-of-tha-aiims-jodhpur-seminar/270626026 SyedAdnan59@slideshare.net(SyedAdnan59) Biomechanics of THA AIIMS JODHPUR SEMINAR SyedAdnan59 The PowerPoint presentation titled "Biomechanics of Total Hip Arthroplasty (THA)" from the All India Institute of Medical Sciences Jodhpur provides an in-depth exploration of the forces acting on the hip joint and their implications for THA. ### Key Sections: 1. **Introduction to Biomechanics** - Definition and study of forces acting on the body. - Explanation of torque and its role in biomechanics. 2. **Forces Acting Across the Hip Joint** - Detailed analysis of gravitational force, abductor muscle force, and joint reaction force (JRF). - Discussion on the stability of the hip and the relationship between body weight and abductor tension. 3. **Static Biomechanical Concepts** - Examination of bilateral and single-leg stances. - Impact of body weight distribution and center of gravity on hip stability. 4. **Biomechanics of Total Hip Arthroplasty** - Comparison between the lever arm ratios in normal and arthritic hips. - Surgical modifications to reduce the load on the hip joint. 5. **Implant Design and Components** - Detailed descriptions of cemented and cementless femoral stems. - Analysis of femoral neck designs, head sizes, and acetabular liners. - Comparison of cemented vs. cementless acetabular components. 6. **Impact of Biomechanical Variations** - Effects of varus and valgus configurations on the proximal femur. - Influence of femoral version and offset on hip function and stability. 7. **Strategies to Reduce Joint Reaction Force** - Techniques to optimize femoral and acetabular component placement. - Importance of restoring combined offset for maintaining abductor muscle tension. 8. **References** - Cited works providing additional context and supporting information for the topics discussed. The presentation utilizes diagrams and images to illustrate biomechanical concepts, lever systems, and implant designs, providing a comprehensive overview of the biomechanical principles relevant to total hip arthroplasty. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/biomechanicsoftha-240730190623-ee73ee2d-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The PowerPoint presentation titled "Biomechanics of Total Hip Arthroplasty (THA)" from the All India Institute of Medical Sciences Jodhpur provides an in-depth exploration of the forces acting on the hip joint and their implications for THA. ### Key Sections: 1. **Introduction to Biomechanics** - Definition and study of forces acting on the body. - Explanation of torque and its role in biomechanics. 2. **Forces Acting Across the Hip Joint** - Detailed analysis of gravitational force, abductor muscle force, and joint reaction force (JRF). - Discussion on the stability of the hip and the relationship between body weight and abductor tension. 3. **Static Biomechanical Concepts** - Examination of bilateral and single-leg stances. - Impact of body weight distribution and center of gravity on hip stability. 4. **Biomechanics of Total Hip Arthroplasty** - Comparison between the lever arm ratios in normal and arthritic hips. - Surgical modifications to reduce the load on the hip joint. 5. **Implant Design and Components** - Detailed descriptions of cemented and cementless femoral stems. - Analysis of femoral neck designs, head sizes, and acetabular liners. - Comparison of cemented vs. cementless acetabular components. 6. **Impact of Biomechanical Variations** - Effects of varus and valgus configurations on the proximal femur. - Influence of femoral version and offset on hip function and stability. 7. **Strategies to Reduce Joint Reaction Force** - Techniques to optimize femoral and acetabular component placement. - Importance of restoring combined offset for maintaining abductor muscle tension. 8. **References** - Cited works providing additional context and supporting information for the topics discussed. The presentation utilizes diagrams and images to illustrate biomechanical concepts, lever systems, and implant designs, providing a comprehensive overview of the biomechanical principles relevant to total hip arthroplasty.

Biomechanics of THA AIIMS JODHPUR SEMINAR from AIIMS JODHPUR

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0 Amputation Topic Orthopaedics Presentation /slideshow/amputation-topic-orthopaedics-presentation/267151253 amputation-240407185737-a92b28d8
AMPUTATION PRESENTATION Topic presented in AIIMS JODHPUR ]]>
AMPUTATION PRESENTATION Topic presented in AIIMS JODHPUR ]]> Sun, 07 Apr 2024 18:57:36 GMT /slideshow/amputation-topic-orthopaedics-presentation/267151253 SyedAdnan59@slideshare.net(SyedAdnan59) Amputation Topic Orthopaedics Presentation SyedAdnan59 AMPUTATION PRESENTATION Topic presented in AIIMS JODHPUR <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/amputation-240407185737-a92b28d8-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> AMPUTATION PRESENTATION Topic presented in AIIMS JODHPUR

Amputation Topic Orthopaedics Presentation from AIIMS JODHPUR

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0 BONE PLATES ORTHOPEDIC SEMINAR AIIMS JODHPUR /slideshow/bone-plates-orthopedic-seminar-aiims-jodhpur/265077315 boneplatesfinal-240102193749-746fa8f7
Seminar on Basic principles relating to Bone Plates. Required for every Orthopedic PG resident.]]>
Seminar on Basic principles relating to Bone Plates. Required for every Orthopedic PG resident.]]> Tue, 02 Jan 2024 19:37:49 GMT /slideshow/bone-plates-orthopedic-seminar-aiims-jodhpur/265077315 SyedAdnan59@slideshare.net(SyedAdnan59) BONE PLATES ORTHOPEDIC SEMINAR AIIMS JODHPUR SyedAdnan59 Seminar on Basic principles relating to Bone Plates. Required for every Orthopedic PG resident. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/boneplatesfinal-240102193749-746fa8f7-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Seminar on Basic principles relating to Bone Plates. Required for every Orthopedic PG resident.

BONE PLATES ORTHOPEDIC SEMINAR AIIMS JODHPUR from AIIMS JODHPUR

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0 https://cdn.slidesharecdn.com/profile-photo-SyedAdnan59-48x48.jpg?cb=1725129263 Currently working as an Orthopedic Resident in AIIMS Jodhpur https://cdn.slidesharecdn.com/ss_thumbnails/shoulderinstability-240730191750-63b5b113-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/shoulder-instability-aiims-jodhpur-seminar/270626164 SHOULDER INSTABILITY A... https://cdn.slidesharecdn.com/ss_thumbnails/biomechanicsoftha-240730190623-ee73ee2d-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/biomechanics-of-tha-aiims-jodhpur-seminar/270626026 Biomechanics of THA AI... https://cdn.slidesharecdn.com/ss_thumbnails/amputation-240407185737-a92b28d8-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/amputation-topic-orthopaedics-presentation/267151253 Amputation Topic Ortho...