eRAM
encyclopedia of Rare Disease Annotation for Precision Medicine
| Disease | cone rod dystrophy |
| Comorbidity | C0034372|tetraplegia |
| Sentences | 13 |
| PubMedID- 25834343 | A 65-year-old male suffering from acute spinal cord injury leading to incomplete tetraplegia presented with severe recurrent clostridium difficile (c. |
| PubMedID- 19564881 | Methods: the charts of three spinal cord injured veterans with tetraplegia were reviewed for clinical presentation and radiographic findings supporting the diagnosis of acute abdominal complications following peg tube dislodgement. |
| PubMedID- 22999375 | Causes of death: 1) brain death (14.7%); 2) multiorgan failure (67.6%), in two injury contexts: a) severe brain trauma in the vegetative state and high spinal cord injuries with tetraplegia (35.3%); and b) non-neurological injuries (32.3%) with a high prevalence of hypovolemic shock, multiple transfusion and coagulopathy; 3) miscellaneous (10.7%): post-resuscitation anoxic-ischemic encephalopathy, pulmonary embolism and massive stroke; 4) non-evaluable (7%). |
| PubMedID- 26284163 | Wheelchair rugby is a sport originally developed for athletes with tetraplegia due to complete spinal cord injury (sci). |
| PubMedID- 22541374 | Objective: to assess the accuracy of bedside swallow evaluation (bse) compared with videofluorosopic swallow study (vfss) in diagnosing dysphagia in individuals with tetraplegia due to spinal cord injury (sci). |
| PubMedID- 22506245 | Their underlying diseases consisted of neuromuscular disease (20), motor neuron disease (14), tetraplegia due to spinal cord injury (1), and guillain-barre syndrome (1). |
| PubMedID- 26169880 | Approach: we designed and distributed a technology survey to determine the level of benefit necessary for people with tetraplegia due to spinal cord injury to consider using different technologies, given the burdens currently associated with them. |
| PubMedID- 24828314 | Attending to biographical disruption: the experience of rehabilitation following tetraplegia due to spinal cord injury. |
| PubMedID- 22536264 | It is aimed to present the usefulness of inspiratory muscle trainer (imt) in treatment of a 20-year-old male patient with diaphragmatic paralysis and tetraplegia due to spinal cord injury (sci), and supporting effect of imt in recovering from respiratory failure by rendering his diaphragm functions. |
| PubMedID- 21603140 | Increased bone loss in immobilized subjects is well-recognized complication in patients after spinal cord injury with tetraplegia [23, 24], in bedridden patients, or in astronauts [25], whereas localized bone loss is well documented in patients with regional disuse, for example, after fracture itself. |
| PubMedID- 20205800 | Current high risk features include: spinal cord injury with paraplegia or tetraplegia, severe brain injury (glascow coma score <8), multiple long bone fractures and complex pelvic fractures [8]. |
| PubMedID- 24321081 | Individuals with tetraplegia or paraplegia due to spinal cord injury (sci) are unable to walk and most are wheelchair bound. |
| PubMedID- 19757426 | Method: patients with paraplegia and tetraplegia due to spinal cord injuries were screened by a serial compression b-scan and doppler us protocol for dvt of the bilateral lower extremities within the first 36 hours after admission, at day 7 and at day 21. |
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