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Treatment Grinker's myelinopathy is still in the experimental stages and is very individualized. Some suggested treatments are early supportive care, rehabilitation therapies, oxygen treatments, and bed rest. Some episodes of Grinker's myelinopathy that progress to comas have no known treatment to reverse the course.
Early supportive care is the anchor of treatment during the first two weeks. Rehabilitation is an important part of the care process and it is important to start the rehabilitation as soon as the patient is able to participate in therapy. Types of therapy include: physical therapy, occupational therapy, speech therapy, and respiratory therapy. This therapies are used to assess the patient's functional status and to develop treatment goals. Each goal is individualized to target the specific neurological impairments to improve the patient's functional abilities.
One way to prevent the likelihood of Grinker's myelinopathy occurring is standard or hyperbaric oxygen after carbon monoxide poisoning. The hyperbaric oxygen treatment eliminates carbon dioxide from the brain, while the standard oxygen treatment normalizes carboxyhemoglobin levels. Another preventative measure one can take is to be on bed rest and abstain from stressful and strenuous procedures for the first 10 days after an extended hypoxic event. Expectation and recognition will also lead to an earlier and more accurate and appropriate use of health care services.
Those patients who survive initial hospitalization are likely to recover from Grinker's Myelinopathy, but may take up to a year or longer. Age seems to be a factor in the time for recovery, as one study indicated that the mean age of patients who recovered within one year was 10 years younger than that of patients who did not. For most patients, a recovery time of 3–6 months is typical. Even after recovering, however, some symptoms may persist, including cognitive deficits or Parkinsonian symptoms that can be treated separately.
Hyperbaric oxygen is also used in the treatment of carbon monoxide poisoning, as it may hasten dissociation of CO from carboxyhemoglobin and cytochrome oxidase to a greater extent than normal oxygen. Hyperbaric oxygen at three times atmospheric pressure reduces the half life of carbon monoxide to 23 (~80/3 minutes) minutes, compared to 80 minutes for oxygen at regular atmospheric pressure. It may also enhance oxygen transport to the tissues by plasma, partially bypassing the normal transfer through hemoglobin. However, it is controversial whether hyperbaric oxygen actually offers any extra benefits over normal high flow oxygen, in terms of increased survival or improved long-term outcomes. There have been randomized controlled trials in which the two treatment options have been compared; of the six performed, four found hyperbaric oxygen improved outcome and two found no benefit for hyperbaric oxygen. Some of these trials have been criticized for apparent flaws in their implementation. A review of all the literature on carbon monoxide poisoning treatment concluded that the role of hyperbaric oxygen is unclear and the available evidence neither confirms nor denies a medically meaningful benefit. The authors suggested a large, well designed, externally audited, multicentre trial to compare normal oxygen with hyperbaric oxygen.
Further treatment for other complications such as seizure, hypotension, cardiac abnormalities, pulmonary edema, and acidosis may be required. Increased muscle activity and seizures should be treated with dantrolene or diazepam; diazepam should only be given with appropriate respiratory support. Hypotension requires treatment with intravenous fluids; vasopressors may be required to treat myocardial depression. Cardiac dysrhythmias are treated with standard advanced cardiac life support protocols. If severe, metabolic acidosis is treated with sodium bicarbonate. Treatment with sodium bicarbonate is controversial as acidosis may increase tissue oxygen availability. Treatment of acidosis may only need to consist of oxygen therapy. The delayed development of neuropsychiatric impairment is one of the most serious complications of carbon monoxide poisoning. Brain damage is confirmed following MRI or CAT scans. Extensive follow up and supportive treatment is often required for delayed neurological damage. Outcomes are often difficult to predict following poisoning, especially people who have symptoms of cardiac arrest, coma, metabolic acidosis, or have high carboxyhemoglobin levels. One study reported that approximately 30% of people with severe carbon monoxide poisoning will have a fatal outcome. It has been reported that electroconvulsive therapy (ECT) may increase the likelihood of delayed neuropsychiatric sequelae (DNS) after carbon monoxide (CO) poisoning.
In the treatment of polyneuropathies one must ascertain and manage the cause, among management activities are: weight decrease, use of a walking aid, and occupational therapist assistance. Additionally BP control in those with diabetes is helpful, while intravenous immunoglobulin is used for multifocal motor neuropathy.
According to Lopate, et al., methylprednisolone is a viable treatment for chronic inflammatory demyelinative polyneuropathy (which can also be treated with intravenous immunoglobulin) The author(s) also indicate that prednisone has greater adverse effects in such treatment, as opposed to intermittent (high-doses) of the aforementioned medication.
According to Wu, et al., in critical illness polyneuropathy supportive and preventive therapy are important for the affected individual, as well as, avoiding (or limiting) corticosteroids.
In terms of the differential diagnosis for polyneuropathy one must look at the following: