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Ischemic cascade : ウィキペディア英語版
Ischemic cascade
The ischemic (ischaemic) cascade is a series of biochemical reactions that are initiated in the brain and other aerobic tissues after seconds to minutes of ischemia (inadequate blood supply).〔(【引用サイトリンク】title=eMedicine - Stroke, Ischemic : Article by Joseph U Becker )〕 This is typically secondary to stroke, injury, or cardiac arrest due to heart attack. Most ischemic neurons that die do so due to the activation of chemicals produced during and after ischemia.〔(Stroke Center ) of the Washington University School of Medicine.〕 The ischemic cascade usually goes on for two to three hours but can last for days, even after normal blood flow returns.〔(【引用サイトリンク】title=Stroke: Hope Through Research: National Institute of Neurological Disorders and Stroke (NINDS) )
A cascade is a series of events in which one event triggers the next, in a linear fashion. Thus "ischemic cascade" is actually a misnomer, since in it events are not always linear: in some cases they are circular, and sometimes one event can cause or be caused by multiple events. In addition, cells receiving different amounts of blood may go through different chemical processes. Despite these facts, the ischemic cascade can be generally characterized as follows:
# Lack of oxygen causes the neuron's normal process for making ATP for energy to fail.
# The cell switches to anaerobic metabolism, producing lactic acid.
# ATP-reliant ion transport pumps fail, causing the cell to become depolarized, allowing ions, including calcium (Ca++), to flow into the cell.
# The ion pumps can no longer transport calcium out of the cell, and intracellular calcium levels get too high.
# The presence of calcium triggers the release of the excitatory amino acid neurotransmitter glutamate.
# Glutamate stimulates AMPA receptors and Ca++-permeable NMDA receptors, which open to allow more calcium into cells.
# Excess calcium entry overexcites cells and causes the generation of harmful chemicals like free radicals, reactive oxygen species and calcium-dependent enzymes such as calpain, endonucleases, ATPases, and phospholipases in a process called excitotoxicity.〔Jill Conway. 2000. "(Diseases at the Cellular Level Lecture Handout )" and (Inflammation and Repair Lecture Handout )" University of Illinois College of Medicine. Retrieved on January 9, 2007.〕〔(【引用サイトリンク】title=eMedicine - Acute Stroke Management : Article by Edward C Jauch )〕 Calcium can also cause the release of more glutamate.
# As the cell's membrane is broken down by phospholipases, it becomes more permeable, and more ions and harmful chemicals flow into the cell.
# Mitochondria break down, releasing toxins and apoptotic factors into the cell.
# The caspase-dependent apoptosis cascade is initiated, causing cells to "commit suicide."
# If the cell dies through necrosis, it releases glutamate and toxic chemicals into the environment around it. Toxins poison nearby neurons, and glutamate can overexcite them.
# If and when the brain is reperfused, a number of factors lead to reperfusion injury.
# An inflammatory response is mounted, and phagocytic cells engulf damaged but still viable tissue.
# Harmful chemicals damage the blood–brain barrier.
# Cerebral edema (swelling of the brain) occurs due to leakage of large molecules like albumins from blood vessels through the damaged blood brain barrier. These large molecules pull water into the brain tissue after them by osmosis. This "vasogenic edema" causes compression of and damage to brain tissue (Freye 2011; Acquired Mitochondropathy-A New Paradigm in Western Medicine Explaining Chronic Diseases).
==Mitigation of effects==
The fact that the ischemic cascade involves a number of steps has led doctors to suspect that neuroprotectants such as calcium channel blockers or glutamate antagonists could be produced to interrupt the cascade at a single one of the steps, blocking the downstream effects. Though initial trials for such neuroprotective drugs led many to be hopeful, until recently, human clinical trials with neuroprotectants such as NMDA receptor antagonists were unsuccessful.
On October 7, 2003, a U.S. patent number 6630507 entitled "Cannabinoids as Antioxidants and Neuroprotectants" was awarded to the United States Department of Health and Human Services, based on research carried out at the National Institute of Mental Health (NIMH), and the National Institute of Neurological Disorders and Stroke (NINDS). This patent claims that cannabinoids are "useful in the treatment and prophylaxis of wide variety of oxidation associated diseases such as ischemia, inflammatory ... and autoimmune diseases. The cannabinoids are found to have particular application as neuroprotectants, for example in limiting neurological damage following ischemic insults, such as stroke and trauma..."〔(U.S. Patent 6630507. )〕
On November 17, 2011, in accordance with 35 U.S.C. 209(c)(1) and 37 CFR part 404.7(a)(1)(i), the National Institutes of Health, Department of Health and Human Services, published in the Federal Register, that it is contemplating the grant of an exclusive patent license to practice the invention embodied in U.S. Patent 6,630,507, entitled “Cannabinoids as antioxidants and neuroprotectants” and PCT Application Serial No. PCT/US99/08769 and foreign equivalents thereof, entitled “Cannabinoids as antioxidants and neuroprotectants” (Ref. No. E-287-1997/2 ) to KannaLife Sciences Inc., which has offices in New York, U.S. This patent and its foreign counterparts have been assigned to the Government of the United States of America. The prospective exclusive license territory may be worldwide, and the field of use may be limited to: The development and sale of cannabinoid(s) and cannabidiol(s) based therapeutics as antioxidants and neuroprotectants for use and delivery in humans, for the treatment of hepatic encephalopathy, as claimed in the Licensed Patent Rights.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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