Although fracture of the humeral shaft or dislocation of the shoulder joint is a common injury, a simutaneous injury is rare. We present such a case combined with head injury which took precedence over the skeletal injuries. The postoperative rehabilitation was slowed down by the head injury. This case report makes us aware of some problems when managing the patient with this rare injury and helps us understand the management options better. Also the need for proper follow-up and rehabilitation is emphasized.
Adult ; Craniocerebral Trauma ; complications ; Fracture Fixation, Internal ; Humans ; Humeral Fractures ; complications ; surgery ; Male ; Shoulder Dislocation ; complications

In an attempt to evaluate cranioplasty, author reviewed 53 cases of head injuries with cranial defect repaired by cranioplasty. Materials used for cranioplasty were acrylic resin in 42 cases, tantalum in 6 cases and iliac bone in 5 cases. Adequate follow-up observations were obtained in all cases for at least 4 years. The results were as follows; 1) The majority of head injuries were caused by vehicle accident. 2) The majority of skull defects were in the frontal and parietal bones. 3) The interval between primary craniectomy and secondary cranioplasty was from 3 to 4 months in the majority of cases and cranioplasty was performed after fixation of permanent neurologic defect. 4) The indications for the cranioplasty were based upon criteria recommended by Grant and Norcross. 5) Postoperative complications were observed in 3 cases(5.7%).
Craniocerebral Trauma ; Financing, Organized ; Follow-Up Studies ; Parietal Bone ; Postoperative Complications ; Skull ; Tantalum

Posttraumatic tremor is often one of the causes of disability in head injury patients. Usually, pharmacotherapy for this type of tremor is not effective. Since early 1970s, surgical ablation of the ventral thalamus has been used to treat various types of tremor. Nowadays, deep brain stimulation (DBS) confirms its efficacy in alleviating different forms of tremor, including posttraumatic tremor. Such therapy has been reported achieving around 80% success rate in the treatment of posttraumatic tremor. These successful results suggest that the application of DBS therapy can be considered as one of the alternative treatments for minimizing the tremor occurring from different pathologies.
Adult ; Craniocerebral Trauma ; complications ; Deep Brain Stimulation ; methods ; Electrodes ; Humans ; Male ; Tremor ; therapy

OBJECTIVETo observe the clinical effect of hyperbaric oxygen (HBO) therapy at different pressure levels on aphasia after craniocerebral injury and assess the patient adherence to the therapies.

METHODSThirty-one patients with aphasia after craniocerebral injury receiving 30 sessions of HBO therapy at the pressure level of 0.175 MPa and another 31 patients receiving 0.2 MPa therapy were recruited as the treatment groups 1 and 2, respectively; 31 patients who refused to have HBO therapy served as the control group. All the patients received routine therapy. The therapeutic effects were assessed using Western Aphasia Battery (WAB) before and after the therapy. The WAB item and AQ scores, curative effect, and recovery time of aphasia were compared between the 3 groups.

RESULTSThe total response rate was significantly lower in the control group as compared with those in treatment groups 1 and 2 (58.06% vs 83.87% and 87.1%). WAB item scores and AQ scores, curative effect, and recovery time of aphasia all showed significant differences between the control group and the two treatment groups (P<0.05), but not between the latter 2 groups (P>0.05). Compared with 0.20 MPa HBO therapy, 0.175 MPa HBO therapy showed a better patient adherence with a significantly lowered non-adherence rate (by 31.37%) an increased partial and total adherence rates (by 13.86% and 17.51%, respectively).

CONCLUSIONHBO therapy at the pressure level of 0.175 MPa is more appropriate for treatment of aphasia after craniocerebral injury to ensure the safety, efficacy and patient compliance.

Aphasia ; etiology ; therapy ; Craniocerebral Trauma ; complications ; therapy ; Humans ; Hyperbaric Oxygenation ; Patient Compliance ; Pressure

Acupuncture Therapy ; Adolescent ; Craniocerebral Trauma ; complications ; Humans ; Male ; Optic Nerve Injuries ; etiology ; physiopathology ; therapy ; Vision, Ocular

A pneumocele is an abnormal dilatation of a paranasal sinus, most commonly affecting the frontal sinus. Although the etiology of pneumocele is not entirely known, several causative factors have been suggested including trauma, surgery, tumor and infection. We report here a case of post-traumatic pneumocele of the frontal sinus following a head trauma.
Craniocerebral Trauma/*complications ; Emphysema/*etiology/radiography ; *Frontal Sinus ; Humans ; Male ; Middle Aged ; Tomography, X-Ray Computed

OBJECTIVES: To study the forensic features of diffuse brain atrophy after trauma, the relationship between age and interval time of post-traumatic brain atrophy, and the relationship between the degree of craniocerebral injury and that of brain atrophy. METHODS: The forensic features of 25 cases of diffuse brain atrophy after craniocerebral trauma were retrospectively analyzed from aspects of gender, age, craniocerebral injury characteristics, and imaging characteristics of brain atrophy. Pearson correlation analysis was used for statistical analysis. RESULTS: Diffuse brain atrophy after trauma could occur in any age group, dominated by severe brain injury. The Pearson correlation coefficients （r） between the time interval of brain atrophy and age were 0.442 （ P<0.05）, 0.341 （P>0.05）, and 0.904 （ P<0.05） for the overall cases, the group over age 50, and the group under age 50, respectively. The correlation coefficient between the degree of brain injury and that of brain atrophy was 0.579 （ P<0.05）, and that between severe brain injury and brain atrophy was 0.788 （ P<0.05）. CONCLUSIONS The more serious the brain injury, the more severe the brain atrophy. Various degrees of diffuse brain atrophy can occur in severe craniocerebral injury, and diffuse brain atrophy is usually mild and moderate after mild and moderate craniocerebral injury. In the practice of forensic clinical identification, a comprehensive analysis should be conducted with the combination of case materials when the identified person has high risk factors leading to brain atrophy （e.g., hypertension, diabetes, etc.）, plus injury and illness relationship analysis if necessary.
Atrophy ; Brain/pathology* ; Brain Injuries/complications* ; Craniocerebral Trauma ; Humans ; Retrospective Studies

Humans ; Infant ; Female ; Dandy-Walker Syndrome/diagnosis* ; Tomography, X-Ray Computed ; Craniocerebral Trauma/complications*

OBJECTIVETo assess the morphologic changes in traumatic cerebral infarction and to discuss its mechanism.

METHODSSpecimens from seventeen cases of cerebral infarction were selected from 81 patients with severe brain injury, and subject to routine gross and histological examinations.

RESULTS(1) The cerebral infarction in all cases was hemorrhagic in nature with a wedged or irregular shape upon gross inspection. The lesions were found in occipital gyrus (8 cases), occipital lobes (3 cases), basal nuclei (3 cases), cingulate gyrus (2 cases), and lateral occipitotemporal gyrus (1 case). Histologically, the lesions were located at the junction between the cortex and medulla, showing congestion, edema, hemorrhage, necrotic nerve tissue and blood vessels. In severe cases, the lesion extended into the entire cortex and subarachnoid spaces. (2) Swelling of the brain and cerebral hernia were found in all cases, 8 of which demonstrated that the posterior cerebral artery was compressed and stenotic within the space between the crus cerebri and uncus.

CONCLUSIONBrain tissue necrosis in traumatic cerebral infarction is the result of brain swelling and cerebral hernia formation, following congestion, bleeding and ischemia due to vasculature compression.

Adolescent ; Adult ; Brain ; pathology ; Brain Edema ; complications ; Cerebral Infarction ; etiology ; pathology ; Craniocerebral Trauma ; complications ; Encephalocele ; complications ; Female ; Humans ; Male

OBJECTIVETo study the influence of traumatic subarachnoid hemorrhage on secondary intracranial damage in GCS 13-15 head injuries and prognosis.

METHODSOne hundred and twenty-eight patients with mild head injury, including 64 with subarachnoid hemorrhage and 64 without subarachnoid hemorrhage, were selected and analyzed according to the changes of their conditions after injury.

RESULTSIntracranial abnormality was found in 14 patients (21.87%) with subarachnoid hemorrhage and only in 4 patients (6.25%) without subarachnoid hemorrhage (P<0.01). In the 14 patients, 4 were given surgical treatment. Mild disability was in 2 patients and 2 completely recovered. The rest were conservatively treated and achieved complete recovery at last.

CONCLUSIONSTraumatic subarachnoid hemorrhage, as a factor of intracranial complications in mild head injury should be given much attention. Early drainage of bloody cerebrospinal fluid by lumbar puncture is an effective method for prevention and treatment of complications in mild head injury.

Adolescent ; Adult ; Aged ; Brain Damage, Chronic ; etiology ; Craniocerebral Trauma ; complications ; Female ; Humans ; Male ; Middle Aged ; Prognosis ; Subarachnoid Hemorrhage ; etiology