Humans ; Magnetic Resonance Imaging ; Shoulder ; anatomy & histology

OBJECTIVETo investigate the relationship of the greater tuberosity and the lateral fin of the prosthesis by using cadaveric research.

METHODSNine pairs of fresh-frozen upper extremity specimens (n = 18) were collected. Two-part anatomical neck fracture models were created by osteotomy along the anatomical neck. A standardized humeral head replacement procedure was carried out. The prosthesis was implanted in 20 degrees and 40 degrees of retroversion respectively, and the distance between the bicipital groove and lateral fin of the prosthesis was measured.

RESULTSThe lateral fins of prostheses in all specimens were located behind the bicipital groove. The average distances were 7.3 mm in 20 degrees retroversion and 4.0 mm in 40 degrees retroversion.

CONCLUSIONIt is better to fix the greater tuberosity over the lateral fin during humeral head replacement.

Arthroplasty, Replacement ; methods ; Humans ; Humerus ; anatomy & histology ; surgery ; Shoulder Fractures ; surgery ; Shoulder Joint ; anatomy & histology ; surgery

Briefly discuss some recognation problems about acupuncture treatment of periarthritis of shoulder at present and put forward the methods for diagnosis and acupuncture treatment based on accurate location.
Acupuncture Therapy ; methods ; Humans ; Meridians ; Periarthritis ; therapy ; Shoulder Joint ; anatomy & histology ; physiology ; Shoulder Pain ; therapy

OBJECTIVETo study the relationship between T1 tilt and cosmetic shoulder balance in adolescent idiopathic scoliosis (AIS) patients.

METHODSSeventy-one Lenke type 2 AIS patients were recruited into the present study from January 2010 to December 2011. There were 61 female and 10 male patients, the average age was (15.1 ± 2.9) years (range 10-18 years); the average Risser sign was 2.8 (range 1-5). The patients were photographed from the back in neutral standing position on level ground wearing underpants. Also, all the patients had a standing posterior-anterior radiograph in a relaxed standing position. The cosmetic shoulder height (CSH), which included cosmetic inner shoulder height (CSHi) and cosmetic outer shoulder height (CSHo), were measured in the photographs. Positive value was defined as left shoulder was higher than the right shoulder, and negative value was defined as right shoulder was higher than the left shoulder. CSH > 5 mm was defined as positive CSH, CSH < -5 mm was defined as negative CSH, -5 mm ≤ CSH ≤ 5 mm was defined as leveled CSH. T1 tilts were measured in the posterior-anterior radiographs. Positive value was defined as the left proximal vertebral body up and right lower vertebral body down, and negative value was defined as the right proximal vertebral body up and left lower vertebral body down. T1 tilt > 5° was defined as positive T1 tilt, T1 tilt < -5° was defined as negative T1 tilt, -5° ≤ T1 tilt ≤ 5° was defined as leveled T1 tilt.

RESULTST1 tilt was found to be significantly correlated with CSHi and CSHo (r = 0.25 and 0.28, P < 0.05).For positive T1 tilt patients, there were 59.0% (36/61) patients with positive CSHo, 37.7% (23/61)with leveled CSHo, and 3.3% (2/61)with negative CSHo.For the patients with leveled T1 tilt, it was 3/10, 5/10 and 2/10.For positive T1 tilt patients, there were 83.6% (51/61) patients with positive CSHi, 11.5% (7/61) with leveled CSHi, and 4.9% (3/61) with negative CSHi; For the patients with leveled T1 tilt, it was 6/10, 2/10 and 2/10.

CONCLUSIONSAlthough positive correlation is found between T1 tilt and cosmetic shoulder balance, positive T1 tilt is not an indicator of higher left shoulder.Elevated left shoulder, leveled shoulders and elevated right shoulder are all found in positive T1 tilt patients.

Adolescent ; Child ; Esthetics ; Female ; Humans ; Male ; Postural Balance ; Radiography ; Scoliosis ; diagnostic imaging ; Shoulder ; anatomy & histology ; Thoracic Vertebrae ; anatomy & histology

Animal shoulder models are important in the investigation of the natural history of various pathologic conditions and for evaluation of the effectiveness of different treatments and biomaterials. The characteristics of animal shoulder models that may be used for rotator cuff related experiments are different with regard to the anatomy, behavioral pattern, advantages and disadvantages in application to each other. The lower primates and all the non-primate species, except the tree kangaroo, were neither functional overhead nor had a true rotator cuff. Utilizing more advanced primates, or perhaps even the tree kangaroo would be ideal and the most relevant to man as they possess a true rotator cuff. However, ethical concerns, costs, and many limitations in obtaining primates generally preclude the use of these animals for such research. Finally we should consider the differences in comparative anatomy and behavioral pattern of each animal model during performance or interpretation of rotator cuff experiments.
Anatomy, Comparative ; Animals ; Biocompatible Materials ; Macropodidae ; Models, Animal ; Natural History ; Primates ; Rotator Cuff* ; Shoulder*

Acromioclavicular Joint ; anatomy & histology ; injuries ; surgery ; Fracture Fixation ; instrumentation ; methods ; Humans ; Male ; Shoulder Dislocation ; surgery

INTRODUCTIONDetailed anatomical knowledge of the suprascapular notch (SSN) is important for the management of entrapment neuropathy and interventional procedures. The objective of the present study was to collect data on the morphological features and anatomical variations of the SSN in an Indian population.

METHODSWe studied 268 human scapulae of unknown sex (126 right-sided, 142 left-sided) taken from the Department of Anatomy, Dayanand Medical College and Hospital, India. SSNs were classified as either type I, II, III, IV or V, based on the shape of the inferior border of the incisura, and comparison of the SSN's vertical and transverse diameters. The shape of the SSN (i.e V- or U-shaped), if present, was also recorded.

RESULTSType II SSN was the most common (50.00%), followed by type I, type IV and type III (32.46%, 9.70% and 7.84%, respectively). For right-sided type II SSNs, the transverse and vertical diameters were 9.1 ± 3.2 mm and 5.2 ± 1.9 mm, respectively, while those for left-sided type ll SSNs were 9.2 ± 2.4 mm and 5.1 ± 1.8 mm, respectively. Generally, the transverse diameter of type II SSN was found to be greater than that of type III SSN. The incidence of U-shaped SSN was 51.49%, while that of V-shaped SSN was 2.99%.

CONCLUSIONThis study of the morphometrical characteristics and anatomical variations of SSN provides an anatomical database of SSN in the Indian context. This database will be of use in surgical procedures, as the information can be used to ensure adequate access to and complete decompression of the suprascapular nerve.

Humans ; India ; Nerve Compression Syndromes ; diagnosis ; Scapula ; anatomy & histology ; surgery ; Shoulder Joint ; injuries

Animal shoulder models are important in the investigation of the natural history of various pathologic conditions and for evaluation of the effectiveness of different treatments and biomaterials. The characteristics of animal shoulder models that may be used for rotator cuff related experiments are different with regard to the anatomy, behavioral pattern, advantages and disadvantages in application to each other. The lower primates and all the non-primate species, except the tree kangaroo, were neither functional overhead nor had a true rotator cuff. Utilizing more advanced primates, or perhaps even the tree kangaroo would be ideal and the most relevant to man as they possess a true rotator cuff. However, ethical concerns, costs, and many limitations in obtaining primates generally preclude the use of these animals for such research. Finally we should consider the differences in comparative anatomy and behavioral pattern of each animal model during performance or interpretation of rotator cuff experiments.
Anatomy, Comparative ; Animals ; Biocompatible Materials ; Macropodidae ; Models, Animal ; Natural History ; Primates ; Rotator Cuff ; Shoulder

We developed a three-dimensional finite element model of the shoulder glenohumeral joint after shoulder arthroplasty including humerus shaft, scapular, scapular cartilage and eight muscles, while each of the muscles was simulated with 50 spring elements. To reduce the element number and improve the analytical precision, we used mixed tetrahedral and hexahedral elements in the model. We then used the model to calculate the biomechanics of the shoulder glenohumeral joint after hemiarthroplasty during humeral external rotation. Results showed that the maximum joint reaction force was 374.72 N and the maximum contact stress was 6. 573 MPa together with the contact areas at 40 degrees external rotation. These might be one of the reasons for prosthetic disarticulation, and would provide theoretical bases to prosthetic design.
Biomechanical Phenomena ; Finite Element Analysis ; Humans ; Humeral Head ; anatomy & histology ; Models, Anatomic ; Prosthesis Design ; Range of Motion, Articular ; Rotation ; Shoulder Joint ; anatomy & histology

OBJECTIVETo investigate the in vivo and three-dimensional (3D) length changes of the glenohumeral ligaments during shoulder abduction using open magnetic resonance imaging (MRI).

METHODSFrom 2007 to 2008 3D attachment points of the glenohumeral ligaments were obtained by anatomical study and computed tomographic scanning of 10 embalmed cadaveric shoulders, including the superior glenohumeral ligament (SGHL), middle glenohumeral ligament (MGHL), the anterior band of the inferior glenohumeral ligament (AIGHL), axillary pouch and the posterior band of the inferior glenohumeral ligament (PIGHL). Then an in vivo study was conducted, in which 14 right shoulder joints of 14 healthy volunteers were evaluated in 7 isometric abduction positions (0 degrees , 30 degrees , 60 degrees , 90 degrees , 120 degrees , 150 degrees and 180 degrees ) using a noninvasive 3D motion-analysis system. 3D models of the shoulders and located the attachment points of the ligaments were created. Ligament lengths were based on the shortest calculated paths between each origin and insertion in 3D space along the 3D bone surface for each abduction position.

RESULTSDuring shoulder abduction, the 3D distance of SGHL was found to elongated and attained maximal length at 30 degrees abduction (P = 0.2). MGHL and AIGHL attained maximal length at 60 degrees (P < 0.05) and 120 degrees (P < 0.05) abduction, respectively. Pouch and PIGHL reached the maximal length at 180 degrees abduction (P < 0.05).

CONCLUSIONSThe SGHL limits inferior translation of the humeral head at 30 degrees of abduction. MGHL maintains maximum anterior stability at 60 degrees of abduction. AIGHL prevents anterior dislocation of the humeral head at 120 degrees of abduction. In 180 degrees abduction, pouch provided anterior stability and PIGHL has the contribution to the inferior stability.

Aged ; Aged, 80 and over ; Female ; Humans ; Imaging, Three-Dimensional ; Ligaments, Articular ; anatomy & histology ; Magnetic Resonance Imaging ; Male ; Middle Aged ; Models, Anatomic ; Shoulder Joint ; anatomy & histology