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Query: UMLS:C0599766 (functional recovery)
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Despite frequent involvement, the rheumatoid shoulder is neglected in operative treatment of the upper extremities. The slow course of omarthritis, the compensation mechanism of scapulothoracic motion and neighbouring joints as well as dominating disabilities of the lower extremities and the rheumatoid hand are possible explanations. The pattern of destruction of the rheumatoid shoulder is characterized by progressive joint and soft tissue deterioration. Soft tissue involvement determines the course of the shoulder joint. The subacromial space is a common and early site for rheumatoid involvement, often leading to bursitis, tenosynovitis of the biceps tendon and rotator cuff rupture. Sonography and MRI enable the early detection of subacromial and glenohumeral pathology before deterioration is visible radiologically. Surgical intervention in patients with rheumatoid arthritis of the shoulder is based on the degree of radiological destruction according to Larsen, the natural course of the shoulder joint and the soft-tissue condition. The goals of surgery are to relieve pain, increase motion and restore shoulder function. Surgery should be carried out early in the course of the disease, thus determining the long-term prognosis and the remaining surgical options. Depending on the pattern of destruction of the rheumatoid shoulder, the options for treatment can be divided into early and late procedures.Joint-preserving surgery is indicated in the early stages of radiological destruction according to Larsen classification O-III, whereas the late stages of destruction (Larsen IV-V) require reconstructive surgery. The introduction of arthroscopic and semiarthroscopic techniques has improved the acceptance of early synovectomy for the rheumatoid shoulder, but there is still a place for open synovectomy in patients with extensive soft-tissue repair and bone-remodelling procedures. Arthroscopic and open synovectomy are supplementary and noncompetitive surgical procedures for the rheumatoid shoulder. With proceeding bone and soft-tissue destruction corresponding to Larsen stage IV and V, synovectomy is not successful and reconstructive surgery is necessary. Resection-interposition-arthroplasty (RAIP) remains a controversial alternative to arthroplasty in young patients with sufficient bone stock and a reconstructable rotator cuff. The success of cup-replacement will additionally restrict the indications for RAIP. RIAP remains a possible salvage procedure after aseptic and septic loosening of shoulder arthroplasty. Glenohumeral replacement arthroplasty has become the procedure of choice in reconstructive surgery of the shoulder. The severity of soft-tissue and bone destruction determines the choice of shoulder prosthesis. Current modular shoulder systems with increased numbers of humeral-head stem combinations are calculated to achieve a better adjustment of the soft-tissue tension and to optimize the adaptation between head geometry and the natural shape of the glenoid.The surrounding soft-tissue structure, especially the condition of the rotator cuff, is very important for the functional recovery after shoulder arthroplasty. We prefer a hemiarthroplasty of the rheumatoid shoulder joint to avoid critical glenoid fixation. Patients with irreparable rotator cuff tears and severe glenohumeral arthritis remain a difficult challenge in shoulder surgery and the ideal procedure has not yet been found.Pain relief and a modest increase in active motion are the main goals in operative treatment. Bipolar shoulder arthroplasty represents an adequate alternative to currently favoured hemiarthroplasty in patients with cuff-deficient shoulders.
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PMID:[Differential therapy for the rheumatoid shoulder]. 1248 39

The pattern and role of brain plasticity in stroke recovery has been incompletely characterized. Both ipsilesional and contralesional changes have been described, but it remains unclear how these relate to functional recovery. Our goal was to correlate brain activation patterns with tissue damage, hemodynamics, and neurologic status after temporary stroke, using functional magnetic resonance imaging (fMRI). Transverse relaxation time (T2)-weighted, diffusion-weighted, and perfusion MRI were performed at days 1 (n = 7), 3 (n = 7), and 14 (n = 7) after 2 hr unilateral middle cerebral artery occlusion in rats. Functional activation and cerebrovascular reactivity maps were generated from contrast-enhanced fMRI during forelimb stimulation and hypercapnia, respectively. Before MRI, rats were examined neurologically. We detected loss of activation responses in the ipsilesional sensorimotor cortex, which was related to T2 lesion size (r = -0.858 on day 3, r = -0.979 on day 14; p < 0.05). Significant activation responses in the contralesional hemisphere were detected at days 1 and 3. The degree of shift in balance of activation between the ipsilesional and contralesional hemispheres, characterized by the laterality index, was linked to the T2 and apparent diffusion coefficient in the ipsilesional contralesional forelimb region of the primary somatosensory cortex and primary motor cortex at day 1 (r = -0.807 and 0.782, respectively; p < 0.05) and day 14 (r = -0.898 and -0.970, respectively; p < 0.05). There was no correlation between activation parameters and perfusion status or cerebrovascular reactivity. Finally, we found that the laterality index and neurologic status changed in parallel over time after stroke, so that when all time points were grouped together, neurologic status was inversely correlated with the laterality index (r = -0.571; p = 0.016). This study suggests that the degree of shift of activation balance toward the contralesional hemisphere early after stroke increases with the extent of tissue injury and that functional recovery is associated mainly with preservation or restoration of activation in the ipsilesional hemisphere.
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PMID:Correlation between brain reorganization, ischemic damage, and neurologic status after transient focal cerebral ischemia in rats: a functional magnetic resonance imaging study. 1253 11

Primary intracerebral haemorrhage (ICH) refers to spontaneous bleeding from intraparenchymal vessels. It accounts for 10-20% of all strokes, with higher incidence rates amongst African and Asian populations. The major risk factors are hypertension and age. In addition to focal neurological findings, patients may present with symptoms of elevated intracranial pressure. The diagnosis of ICH can only be made through neuro-imaging. A CT scan is presently standard, although MRI is increasingly important in the evaluation of acute cerebrovascular disease. A significant proportion of intracerebral haematomas expand in the first hours post-ictus and this is often associated with clinical worsening. There is evidence that the peri-haematomal region is compromised in ICH. This tissue is oedematous, although the precise pathogenesis is controversial. An association between elevated arterial pressure and haematoma expansion has been reported. Although current guidelines recommend conservative management of arterial pressure in ICH, an acute blood pressure lowering trial is overdue. ICH is associated with a high early mortality rate, although a significant number of survivors make a functional recovery. Current medical management is primarily aimed at prevention of complications including pneumonia and peripheral venous thromboembolism. Elevated intracranial pressure may be treated medically or surgically. Although the latter definitively lowers elevated intracranial pressure, the optimal patient selection criteria are not clear. Aggressive treatment of hypertension is essential in the primary and secondary prevention of ICH.
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PMID:Current intracerebral haemorrhage management. 1263 41

Recovery of motor function after stroke may occur over weeks or months and is often attributed to neuronal reorganization. Functional imaging studies investigating patients who have made a good recovery after stroke have suggested that recruitment of other motor-related networks underlies this recovery. However, patients with less complete recovery have rarely been studied, or else the degree of recovery has not been taken into account. We set out to investigate the relationship between the degree of recovery after stroke and the pattern of recruitment of brain regions during a motor task as measured using functional MRI. We recruited 20 patients who were at least 3 months after their first ever stroke, and 26 right-handed age-matched control subjects. None of our patients had infarcts involving the hand region of the primary motor cortex. All subjects were scanned whilst performing an isometric, dynamic visually paced handgrip task. The degree of functional recovery of each patient was assessed using a battery of outcome measures. Single-patient versus control group analysis revealed that patients with poor recovery were more likely to recruit a number of motor-related brain regions over and above those seen in the control group during the motor task, whereas patients with more complete recovery were more likely to have 'normal' task-related brain activation. Across the whole patient group and across stroke subtypes, we were able to demonstrate a negative correlation between outcome and the degree of task-related activation in regions such as the supplementary motor area, cingulate motor areas, premotor cortex, posterior parietal cortex, and cerebellum. This negative correlation was also seen in parts of both contralateral and ipsilateral primary motor cortex. These results further our understanding of the recovery process by demonstrating for the first time a clear relationship between task-related activation of the motor system and outcome after stroke.
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PMID:Neural correlates of outcome after stroke: a cross-sectional fMRI study. 1276 63

Axillary nerve injuries still go undiagnosed far too often despite their frequency. However the quality of the outcome depends on expert management and prompt surgery. To optimise the latter, we re-examined 83 operated cases of traumatic lesions of the axillary nerve. We analysed the neurological and functional recovery of these patients by means of a follow-up evaluation at 6 years postop. The results were classified by age, mechanism of injury, delay to surgery and the presence or otherwise of associated neurological or osteo-articular lesions. We highlighted that a high index of suspicion ought to exist in all cases of trauma to the shoulder in a patient aged more than 40, any injury associated with palsy of the long head of triceps and in the case of an osteo-articular lesion due to high-velocity trauma. A complete lack of shoulder abduction must always prompt a search for a lesion of the axillary nerve as well as a suprascapular nerve palsy or rotator cuff lesion. There are few literature reports of surgical management of this particular nerve injury. An early MRI scan as part of the management should improve results by a reduction in the delay before surgery. As a result of our investigation we conclude that a lesion of the axillary nerve without signs of recovery at 3 months should be referred to a centre specialized in peripheral nerve surgery.
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PMID:[Surgical management of traumatic lesions of the axillary nerve: 83 cases]. 1282 40

Information on myocardial viability can be useful to decide when coronary artery revascularization is indicated for patients with acute myocardial infarction (AMI) and left regional or global ventricular dysfunction. Difficulties in assessing viability arise because the same part of the ventricular wall can have a mixture of necrotic tissue and viable myocardium. Diagnostic markers of myocardial viability are: the preservation of wall thickness, the presence of contractility reserve, the presence of blood perfusion reserve, integrity of the wall cells, and preservation of cellular metabolism. Echocardiography and thallium or technetium imaging are methods currently used to assess myocardial viability because of their availability and relatively low cost. Although positron emission tomography (PET) has been considered the gold standard, its unavailability may limit its clinical use. Recent publications have demonstrated the accuracy of cardiac magnetic resonance imaging (cardiac MRI) in assessing myocardial viability, together with noninvasive procedures to study the markers of viability noted above. Late contrast enhancement with gadolinium is the most accurate and simplest method. The late open artery hypothesis recommends, on the basis of scant evidence, systematic revascularization of the culprit artery. Although no large randomized studies focused on prognosis are available yet, several small studies provide sufficient evidence of functional recovery of viable myocardium after coronary artery revascularization of the culprit artery in patients with global or regional ventricular dysfunction. The assessment of myocardial viability to decide whether culprit artery revascularization is indicated is a strategy currently based on more evidence than the more indiscriminate recommendations based on the late open artery hypothesis.
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PMID:[Assessment of myocardial viability in patients before revascularization]. 1285 55

Patients with cerebellar infarction frequently make an excellent functional recovery. However, the mechanisms of functional recovery from cerebellar infarction remain unclear. Thus, functional MRI was used to investigate these mechanisms in six right-handed patients with complete recovery after cerebellar infarction, and nine right-handed normal subjects. The non-infarcted side of the cerebellum and the sensorimotor cortex contralateral to the non-infarcted side of the cerebellum were significantly activated during the infarcted-side hand movement. In the infarcted side of the cerebellum, intact regions were activated. Our results indicate that recovery from cerebellar infarction depends on reorganization in the infarcted side of the cerebellum, and recruitment of the cerebellocortical loop involving the cerebrum ipsilateral to the movement and the cerebellum contralateral to the movement.
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PMID:The mechanisms of recovery from cerebellar infarction: an fMRI study. 1451 35

According to a simple anatomical and functional model of word reading, letters displayed in one hemifield are first analysed through a cascade of contralateral retinotopic areas, which compute increasingly abstract representations. Eventually, an invariant representation of letter identities is created in the visual word form area (VWFA), reproducibly located within the left occipito-temporal sulcus. The VWFA then projects to structures involved in phonological or lexico-semantic processing. This model yields detailed predictions on the reading impairments that may follow left occipitotemporal lesions. Those predictions were confronted to behavioural, anatomical and functional MRI data gathered in normals and in patients suffering from left posterior cerebral artery infarcts. In normal subjects, alphabetic stimuli activated both the VWFA and the right-hemispheric symmetrical region (R-VWFA) relative to fixation, but only the VWFA showed a preference for alphabetic strings over simple chequerboards. The comparison of normalized brain lesions with reading-induced activations showed that the critical lesion site for the classical syndrome of pure alexia can be tightly localized to the VWFA. Reading impairments resulting from deafferentation of an intact VWFA from right- or left-hemispheric input were dissected using the same methods, shedding light on the connectivity of the VWFA. Finally, the putative role of right-hemispheric processing in the letter-by-letter reading strategy was clarified. In a letter-by-letter reader, the R-VWFA assumed some of the functional properties normally specific to the VWFA. These data corroborate our initial model of normal word perception and underline that an alternative right-hemispheric pathway can underlie functional recovery from alexia.
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PMID:Visual word recognition in the left and right hemispheres: anatomical and functional correlates of peripheral alexias. 1461 97

Spinal cord cavernous malformations (SCCM), once thought to be extremely rare, have been diagnosed more frequently since the advent of MRI. In addition to the six personal cases surgically treated between 1992 and 1993 and already described in the literature, the authors report here a further ten cases operated on between April 1993 and January 2001. These involved five males and five females whose ages at operation ranged from 12 to 69 years. The SCCM were thoracic in five patients and cervical in five. In seven cases, the malformations bulged on the surface of the pia mater, while in the other three there was subpial discoloration due to the presence of hemosiderin. Removal was total in all cases. After surgery, two patients presented transient worsening of preoperative paraparesis. At follow-up ranging from 2.2 to 9.2 years (mean 5.7), nine patients had made complete motor recovery while one, in whom preoperative paraparesis had been severe, remained stationary. At least one follow-up MRI investigation was performed in each patient 6 to 12 months after operation. As previously reported, the authors confirm that the treatment of choice for symptomatic SCCM is total surgical excision in order to avoid recurrences and the possibility of further hemorrhage. Surgical outcome combines low mortality with a high probability of functional recovery, especially when paraparesis is not severe and of relatively recent onset.
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PMID:Intramedullary spinal cord cavernous malformations: report of ten new cases. 1471 94

Ischemic injury and revascularization are frequently associated with hyperpermeability. Although extravasation of plasma proteins may promote tissue recovery through the generation of the provisional matrix that supports angiogenesis, edema may also result in progressive damage to the muscle. The aim of this research was to determine the time course of hyperpermeability associated with the angiogenic response induced by ligation of the femoral artery at the right posterior limb in mice. Hyperpermeability was followed noninvasively by MRI using an in-house-built permanent polyethylene catheter that enabled daily intravenous administration of biotin-BSA-Gd-DTPA. The mice were scanned once prior to ligation and five times during the week post-ligation. The MRI data, along with histopathology, indicated that the early hemodynamic compensation over loss of arterial blood supply occurred by angiogenesis and dilation of vessels in the skin and subcutaneous fat, and was accompanied by vascular hyperpermeability around the site of ligation. Functional recovery of the ischemic limb (i.e., regaining the ability to step on the limb), and the color and shape of the toes correlated with regeneration as shown by histopathology and MRI analysis. Thus, MRI provided valuable information on the transient hyperpermeability induced during the early stages of angiogenesis, and its subsequent resolution along with functional recovery from acute hind limb ischemia in mice.
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PMID:Longitudinal MRI tracking of the angiogenic response to hind limb ischemic injury in the mouse. 1475 56

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